CN114509109B - A signal monitoring switching device and implementation method - Google Patents

Abstract

The present invention discloses a signal monitoring and switching device, comprising a main structure, a switching structure and an auxiliary collection structure; the switching structure is movably arranged in the main structure, and the auxiliary collection structure is movably arranged on the main structure; the main structure comprises a control housing, a battery, a control key, a first display screen, a second display screen and an integrated circuit board; the present invention relates to the field of signal monitoring technology, and the main structure can be convenient for carrying and use; the switching structure can realize replacement of corresponding detectors according to monitoring requirements, and facilitate adjustment and switching of multiple signal monitoring, and the auxiliary collection structure can realize enhancement of multiple monitoring signal collection, and the overall auxiliary collection structure is convenient for disassembly, adjustment and transformation; the overall operation is simple, easy to carry, convenient for switching and detecting multiple signals, and can increase the collection intensity of multiple signals and increase the accuracy of monitoring.

Description

Signal monitoring switching device and implementation method

Technical Field

The invention relates to the technical field of signal monitoring, in particular to a device and an implementation method for signal monitoring switching.

Background

With the development of technology, various electric devices can be connected and used through signals such as wireless networks and radios, and various devices can realize more detection field devices through specific signal transceiving, for example, an infrared temperature-sensing detector is used for detecting water leakage of a pipeline, and signals such as sound, brightness and the like are used for controlling illumination lamps of a corridor;

However, with the sending and receiving of such signals, problems will occur relatively, and monitoring is required to find the key point of the problem, so a device and implementation method for signal monitoring switching are designed.

Disclosure of Invention

The invention aims to provide a device and an implementation method for signal monitoring switching so as to solve the problem that various signal monitoring can be realized.

The signal monitoring and switching device comprises a main body structure, a change structure and an auxiliary collecting structure, wherein the change structure is movably arranged in the main body structure, and the auxiliary collecting structure is movably arranged on the main body structure;

The main body structure comprises a control shell, a storage battery, a control key, a first display screen, a second display screen and an integrated circuit board;

the control shell is of an L-shaped cavity structure, the thickness of the left end of the control shell is larger than that of the right end, the length of the right end of the control shell is larger than that of the left end of the control shell, a separation plate is arranged between the left end of the control shell and the right end of the control shell, the left side wall of the control shell is free of a left side wall, a twisting opening is formed in the center position of the left side upper wall of the control shell, L-shaped turnover grooves with the same structure are formed in the front side and the rear side of the center line of the left side lower wall of the control shell, charging openings are formed in the front side wall of the right end of the control shell, six first indicating lines with the same structure are formed in the outer side of the twisting opening at equal intervals, the storage battery is fixedly embedded on the inner lower wall of the right end of the control shell and is electrically connected with the charging openings, the control key is fixedly arranged on the right end upper wall of the control shell, the first display screen is fixedly embedded on the upper wall of the control shell and is located near the left end position of the control shell, the second display screen is fixedly embedded on the upper wall of the control shell and is located on the right side of the first display screen, and the integrated circuit board is fixedly arranged on the inner lower wall of the control shell is located on the left side of the control shell.

Preferably, the exchanging structure comprises a bottom tube, a limiting tube, an adjusting disc set, a button seat, a spring and a first contact block;

The bottom tube is of a circular tube structure, one end of the bottom tube is fixedly welded on the inner lower wall of the left end of the control shell and is located on the central line and corresponds to the torsion opening, one end of the limiting tube is of a circular tube structure, the limiting tube is fixedly welded on the inner upper wall of the left end of the control shell and is located at the torsion opening position, three clamping grooves which are identical in structure and correspond to the first indicating line respectively are formed in the lower wall of the other end of the limiting tube along the equal distance, the adjusting disc set is movably sleeved on the bottom tube, the button seat is of a cylindrical structure without the lower wall, three clamping blocks which are identical in structure and correspond to the clamping grooves are formed in the outer side wall of one end of the button seat at equal distance, one end of the button seat is fixedly welded on the adjusting disc set, the other end of the button seat is movably penetrated in the torsion opening and the limiting tube respectively, three pairs of second indicating lines which are identical in structure are formed in the upper wall of the button seat at equal distance, and the two ends of the spring are movably inserted into the bottom tube respectively, the first contact block is fixedly arranged on the inner upper wall of the left end of the control shell and is located on the central line.

Preferably, the adjusting disc group comprises an adjusting disc, a light sensing detector, a wireless network detector, a sound detector, a heat sensing detector, a temperature detector, a humidity detector and three second contact blocks with the same structure;

The regulating plate is of a disc structure, a through hole is formed in the center of the regulating plate, the regulating plate is movably sleeved on the other end of the bottom tube, the light sensing detector, the wireless network detector, the sound detector, the heat sensing detector, the temperature detector and the humidity detector are mounted on the side wall of the regulating plate at equal intervals in a clockwise direction, the three pairs of second contact blocks are fixedly and fixedly arranged on the upper wall of the regulating plate at equal intervals respectively and are electrically connected with the light sensing detector, the wireless network detector, the sound detector, the heat sensing detector, the temperature detector and the humidity detector respectively, and the second contact blocks can be in fit contact with the first contact blocks respectively.

Preferably, the auxiliary collecting structure comprises a pair of brackets with the same structure, a pair of turnover rods with the same structure, a pair of first sliding blocks with the same structure, a pair of connecting rods with the same structure, a pair of first bolts with the same structure, a pair of second sliding blocks with the same structure, a collector, a pair of second bolts with the same structure and two locking claws with the same structure;

The pair of brackets are of L-shaped structures, one end of each bracket is movably embedded in the right end of the turnover groove, the opposite side wall of the other end is provided with a first chute communicated with the right side wall, the center part of the opposite side wall of the other end of each bracket is provided with a second chute with the same structure, one end of each turnover rod is movably arranged on the other end of each bracket and is symmetrical to the other end, the opposite side wall of each turnover rod is provided with a third chute which corresponds to the first chute, the center part of the turnover rod close to the opposite side wall of one end is provided with a first threaded hole with the same structure, one end of each first slider is movably embedded in the second chute of the side wall of the other end of each bracket, one end of each connecting rod is fixedly welded on the other end of each first slider, the central part of the other end of the connecting rod is provided with a first fastening hole corresponding to the first threaded hole, one end of a pair of first bolts respectively movably penetrate through the first fastening hole of the other end of the connecting rod and respectively movably screwed into the first threaded hole of one end of the turnover rod, one end of a pair of second sliding blocks respectively movably embedded in the first sliding groove, the side wall of the other end of the second sliding blocks is provided with a second threaded hole with the same structure, the collector is of a cone-shaped bowl-shaped structure, the central part of the bottom is provided with a sleeve hole, the left side wall and the right side wall of the top of the collector are respectively provided with a connecting plate, the collector is movably embedded between the other ends of the turnover rods, one end of a pair of second bolts respectively movably penetrate through the connecting plates and respectively movably screwed into the second threaded holes of the second sliding blocks, one ends of two pairs of locking claws are respectively movably arranged on the lower wall of the left end of the control shell through pin shafts, and are respectively positioned at the positions close to the two ends of the turnover groove.

Preferably, the width and height dimensions of the other end of the bracket are the same as those of the other end of the turnover rod.

Preferably, the collector can be sleeved on a light sensing detector, a wireless network detector, a sound detector, a heat sensing detector, a temperature detector or a humidity detector in a turnover mode.

Preferably, the integrated circuit board has an analysis function, a control function, and an imaging function.

A method for implementing a device for signal monitoring switching, comprising the steps of:

step 1), firstly, after a storage battery in a control shell in a main body structure is fully charged, the storage battery can be moved, carried and controlled by hand;

Step 2), according to different monitoring signals, before the equipment is started, after a button seat in the exchange structure is pressed and a spring is compressed, an insert block at one end of the button seat is separated from a slot of a limiting pipe, the button seat can be rotated to drive an adjusting plate in the adjusting plate group to rotate above a bottom pipe, then a corresponding light sensing detector, a wireless network detector, a sound detector, a heat sensing detector, a temperature detector or a humidity detector are positioned at the center position of the left end of the control shell, then the button seat and the adjusting plate are jacked up by means of the acting force of the spring to insert the insert block into the slot of the limiting pipe for limiting, and meanwhile, the first contact block is in contact communication with a second contact block of the corresponding detector, so that adjustment switching is completed;

Step 3), the equipment can be started, the control key is used for controlling, the first display screen is used for displaying the intensity of the light sensing signal, the value of the wireless network signal or the wave peak value of the decibel size of the sound signal, and the like, and the second display screen is used for displaying the image of thermal induction imaging, the value of the temperature signal, the value of the humidity signal, and the like;

step 4), the bracket in the auxiliary collection structure can be turned over to enable one end of the bracket to be embedded in a turning groove of the control shell after the bracket is turned over for 180 degrees, and then the locking claw is moved to carry out locking limiting; secondly, the collector slides on the bracket by means of the second sliding block, and after the collector rotates 90 degrees by the second bolt, the collector is vertically attached to the left side wall edge of the control shell, one end of the collector is sleeved on the used detector, and network signals, emitted heat induction signals or sound signals can be increased and collected in a centralized manner by the collector, so that the whole monitoring is more accurate;

Step 5), finally, the collector can be moved to the turnover rod by means of the second sliding block, then the turnover rod is pulled to be separated from the bracket through the connection of the first sliding block and the connecting rod, the first bolt can be loosened, the turnover rod rotates for a certain angle relative to the bracket, then the second bolt is rotated in the same principle as the above to adjust the inclination angle and the position of the collector, and the adjustment of multiple angles and positions is carried out.

The device and the implementation method for signal monitoring and switching provided by the invention have the beneficial effects that:

1. the portable electric bicycle is convenient to carry and use through the main body structure;

2. According to the invention, the corresponding detector can be replaced according to the use monitoring requirement through the replacement structure, so that the monitoring of various signals can be conveniently regulated and switched, the enhancement of the collection of various monitoring signals can be realized through the auxiliary collection structure, and the whole auxiliary collection structure is convenient to detach, regulate and change;

3. the invention has simple integral operation and convenient carrying, is convenient for exchanging and detecting various signals, can increase the collection intensity of various signals and increase the monitoring accuracy.

Drawings

FIG. 1 is a schematic view of a first assembly structure of the present invention;

FIG. 2 is a schematic view of a second assembly structure of the present invention;

FIG. 3 is a schematic view of the mounting structure of the present invention;

FIG. 4 is a schematic view of a first split structure according to the present invention;

FIG. 5 is a schematic view of a second split structure of the present invention;

FIG. 6 is a schematic view of the partial enlarged structure at A of the present invention;

FIG. 7 is a schematic view of a partial enlarged structure at B of the present invention;

Fig. 8 is a schematic view of a partial enlarged structure at C of the present invention.

In the figure, 1, a main structure, 11, a control shell, 12, a storage battery, 13, a control key, 14, a first display screen, 15, a second display screen, 16, an integrated circuit board, 2, a change structure, 21, a bottom tube, 22, a limit tube, 23, a regulating disc group, 230, a regulating disc, 231, a light sensing detector, 232, a wireless network detector, 233, a sound detector, 234, a heat sensing detector, 235, a temperature detector, 236, a humidity detector, 237, a second contact block, 24, a button seat, 25, a spring, 26, a first contact block, 3, an auxiliary collecting structure, 31, a bracket, 32, a turnover rod, 33, a first slider, 34, a connecting rod, 35, a first bolt, 36, a second slider, 37, a collector, 38, a second bolt, 39 and a locking claw.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

According to the technical scheme, the signal monitoring and switching device comprises a main body structure 1, a switching structure 2 and an auxiliary collecting structure 3, wherein the switching structure 2 is movably arranged in the main body structure 1, the auxiliary collecting structure 3 is movably arranged on the main body structure 1, the main body structure 1 comprises a control shell 11, a storage battery 12, a control key 13, a first display screen 14, a second display screen 15 and an integrated circuit board 16, the control shell 11 is of an L-shaped cavity structure, the thickness of the left end of the control shell 11 is larger than that of the right end, the length of the right end is larger than that of the left end, a separation plate is arranged between the left end and the right end of the control shell 11, the left end of the control shell 11 is not provided with a left side wall, a torsion opening is formed in the position of the central position of the upper wall of the control shell 11 close to the left end, the front and the rear sides of the central line of the lower wall of the control shell 11 are respectively provided with L-shaped turnover grooves with the same structure, six storage battery embedded lines 12 with the same structure are formed in the outer side of the torsion opening at equal intervals, the outer side of the torsion opening is fixedly arranged at the left end of the control shell 11, the control shell 11 is fixedly arranged at the upper end and the right end of the control shell 11 is fixedly arranged at the upper end of the left end of the control shell 11 and the integrated circuit 11, the control shell is fixedly arranged at the upper end and the upper end of the display screen 11 is fixedly arranged at the upper end and 16, the left end is fixedly arranged at the upper end of the display screen 11, and 16 is fixedly arranged at the upper end is close to the upper end 11, and is positioned near the upper end 11, and is fixedly near the upper end is positioned at the upper end 11.

As a preferred solution, the exchanging structure 2 comprises a bottom tube 21, a limiting tube 22, a set of adjusting discs 230 23, a knob seat 24, a spring 25 and a first contact block 26;

The bottom tube 21 is of a circular tube structure, one end of the bottom tube 21 is fixedly welded on the inner lower wall of the left end of the control shell 11 and is positioned on the central line and corresponds to the torsion opening, the limiting tube 22 is of a circular tube structure, one end of the limiting tube 22 is fixedly welded on the inner upper wall of the left end of the control shell 11 and is positioned at the torsion opening position, three clamping grooves which are the same in structure and correspond to the first indicating line respectively are formed in the lower wall of the other end of the limiting tube 22 along the equidistant direction, the adjusting disc 230 group 23 is movably sleeved on the bottom tube 21, the button seat 24 is of a cylindrical structure without the lower wall, three clamping blocks which are the same in structure and correspond to the clamping grooves respectively are formed in the equidistant direction of the outer side wall of one end, one end of the button seat 24 is fixedly welded on the adjusting disc 230 group 23 and the other end of the adjusting disc is movably penetrated in the torsion opening and the limiting tube 22 respectively, three second indicating lines which are the same in structure are formed in the equidistant direction of the upper wall of the button seat 24, two ends of the spring 25 are movably inserted into the bottom tube 21 and the button seat 24 respectively, and the first contact block 26 is fixedly arranged on the inner upper wall of the left end of the control shell 11 and is positioned on the central line.

Preferably, the adjusting disk 230 set 23 is composed of an adjusting disk 230, a light sensing detector 231, a wireless network detector 232, a sound detector 233, a heat sensing detector 234, a temperature detector 235, a humidity detector 236, and three second contact blocks 237 with the same structure;

The adjusting plate 230 is of a disc structure, a through hole is formed in the center of the adjusting plate 230, the adjusting plate 230 is movably sleeved on the other end of the bottom tube 21, the light sensing detector 231, the wireless network detector 232, the sound detector 233, the heat sensing detector 234, the temperature detector 235 and the humidity detector 236 are installed on the side wall of the adjusting plate 230 at equal intervals clockwise, the three pairs of second contact blocks 237 are fixedly arranged on the upper wall of the adjusting plate 230 at equal intervals respectively, and are electrically connected with the light sensing detector 231, the wireless network detector 232, the sound detector 233, the heat sensing detector 234, the temperature detector 235 and the humidity detector 236 respectively, and the second contact blocks 237 can be in contact with the first contact blocks 26 respectively.

As a preferred solution, the auxiliary collecting structure 3 includes a pair of brackets 31 with identical structure, a pair of folding bars 32 with identical structure, a pair of first sliders 33 with identical structure, a pair of connecting rods 34 with identical structure, a pair of first bolts 35 with identical structure, a pair of second sliders 36 with identical structure, a collector 37, a pair of second bolts 38 with identical structure, and two locking claws 39 with identical structure;

The pair of brackets 31 are L-shaped, one end of each bracket 31 is movably embedded in the right end of the turnover groove, the opposite side walls of the other end are provided with first sliding grooves communicated with the right side wall, the opposite side walls of the other end of the bracket 31 are provided with second sliding grooves with the same structure, one end of each turnover rod 32 is movably arranged on the other end of the bracket 31 and symmetrical to each other, the opposite side walls of each turnover rod 32 are provided with third sliding grooves which correspond to the first sliding grooves, the center of the turnover rod 32 close to the opposite side walls of one end is provided with first threaded holes with the same structure, one end of each first sliding block 33 is movably embedded in the second sliding groove of the other end side wall of the bracket 31, one end of each connecting rod 34 is fixedly welded on the other end of the first sliding block 33, the center of the other end of the connecting rod 34 is provided with first fastening holes corresponding to the first threaded holes, one end of a pair of first bolts 35 respectively movably penetrates through first fastening holes at the other end of the connecting rod 34 and respectively movably screwed into first threaded holes at one end of the turnover rod 32, one end of a pair of second sliding blocks 36 respectively movably embedded into the first sliding groove, second threaded holes with the same structure are respectively formed in the side walls at the other end of the second sliding blocks 36, a collector 37 is of a cone-shaped bowl-shaped structure, a sleeve hole is formed in the central position of the bottom, connecting plates are respectively arranged on the left side wall and the right side wall of the top of the collector 37, the collector 37 is movably embedded between the other ends of the turnover rod 32, one ends of a pair of second bolts 38 respectively movably penetrate through the connecting plates and respectively movably screwed into second threaded holes at the second sliding blocks 36, one ends of two pairs of locking claws 39 are respectively movably arranged on the lower wall at the left end of the control shell 11 through pin shafts, and are respectively positioned at the positions close to the two ends of the turnover groove.

Preferably, the width and height dimensions of the other end of the bracket 31 are the same as those of the other end of the turndown lever 32, so as to meet the requirements of docking.

Preferably, the collector 37 is sleeved on the light sensing detector 231, the wireless network detector 232, the sound detector 233, the heat sensing detector 234, the temperature detector 235 or the humidity detector 236 in a turnover manner, so as to enhance the signal collecting capability.

Preferably, the integrated circuit board 16 has an analysis function, a control function, an imaging function, and the like, and is controlled by the prior art.

A method for implementing a device for signal monitoring and switching comprises the following steps

Step 1), firstly, after the storage battery 12 in the control shell 11 in the main body structure 1 is fully charged, the main body structure can be moved, carried and controlled by hand;

Step 2), according to different monitoring signals, before the equipment is started, after the button seat 24 in the exchange structure 2 is pressed and the spring 25 is compressed, the insert at one end of the button seat 24 is separated from the slot of the limiting pipe 22, the button seat 24 can be rotated to drive the adjusting disk 230 in the adjusting disk 230 group 23 to rotate above the bottom pipe 21, then the corresponding light sensing detector 231, the wireless network detector 232, the sound detector 233, the heat sensing detector 234, the temperature detector 235 or the humidity detector 236 are positioned at the center of the left end of the control shell 11, then the button seat 24 and the adjusting disk 230 are jacked up by the acting force of the spring 25 to insert the insert into the slot of the limiting pipe 22 for limiting, and meanwhile, the first contact block 26 is in contact communication with the second contact block 237 of the corresponding detector, so that the adjustment switching is completed;

Step 3), the equipment can be started, the control key 13 is used for controlling, the first display screen 14 is used for displaying the intensity of the light sensing signal, the value of the wireless network signal or the wave peak value of the decibel of the sound signal, and the like, and the second display screen 15 is used for displaying the image of the thermal sensing imaging, the value of the temperature signal, the value of the humidity signal, and the like;

Step 4), one end of the bracket 31 in the auxiliary collection structure 3 can be embedded in a turnover groove of the control shell 11 after being turned 180 degrees, then the locking claw 39 is moved to carry out locking limit, then the collector 37 slides on the bracket 31 by means of the second sliding block 36, and is vertically attached to the left side wall edge of the control shell 11 after being turned 90 degrees by the second bolt 38, so that one end of the collector is sleeved on a used detector, and network signals, emitted heat induction signals or sound signals can be increased and collected in a concentrated mode by the collector 37, so that the whole monitoring is more accurate;

Step 5), finally, the collector 37 can be moved onto the turnover rod 32 by means of the second sliding block 36, then the turnover rod 32 is pulled to be separated from the bracket 31 through the connection of the first sliding block 33 and the connecting rod 34, the first bolt 35 can be loosened, the turnover rod 32 rotates for a certain angle relative to the bracket 31, then the second bolt 38 rotates to adjust the inclination angle and the position of the collector 37 in the same principle as the above, and multi-angle and position adjustment is performed.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The signal monitoring and switching device is characterized by comprising a main body structure (1), a change structure (2) and an auxiliary collecting structure (3), wherein the change structure (2) is movably arranged in the main body structure (1), and the auxiliary collecting structure (3) is movably arranged on the main body structure (1);

the main body structure (1) comprises a control shell (11), a storage battery (12), control keys (13), a first display screen (14), a second display screen (15) and an integrated circuit board (16);

the control shell (11) is of an L-shaped cavity structure, the thickness of the left end of the control shell (11) is larger than that of the right end, the length of the right end of the control shell is larger than that of the left end, a separation plate is arranged between the left end and the right end of the control shell (11), the left end of the control shell (11) is free of a left side wall, a twisting opening is formed in the center position of the upper wall of the control shell (11) close to the left end, L-shaped turnover grooves with the same structure are formed in the front side and the rear side of the center line of the lower wall of the left end of the control shell (11), a charging opening is formed in the front side wall of the right end of the control shell (11), six first indicating lines with the same structure are formed in the outer side of the twisting opening at equal distance, a storage battery (12) is fixedly embedded on the inner lower wall of the right end of the control shell (11) and is electrically connected with the charging opening, a control key (13) is fixedly arranged on the upper wall of the right end of the control shell (11), a first display screen (14) is fixedly embedded on the upper wall of the control shell (11) and is positioned near the left end, a second display screen (15) is fixedly embedded on the upper wall (11) and is positioned on the inner side of the first display screen (16) and is positioned on the inner side of the control shell (11);

The exchanging structure (2) comprises a bottom tube (21), a limiting tube (22), an adjusting disc set (23), a button seat (24), a spring (25) and a first contact block (26);

The bottom tube (21) is of a circular tube structure, one end of the bottom tube (21) is fixedly welded on the inner lower wall of the left end of the control shell (11) and is positioned on a central line and corresponds to the torsion opening, one end of the limiting tube (22) is fixedly welded on the inner upper wall of the left end of the control shell (11) and is positioned at the torsion opening position, three clamping grooves which are the same in structure and respectively correspond to the first indicating lines are formed in the lower wall of the other end of the limiting tube (22) along the equidistant direction, the adjusting disc group (23) is movably sleeved on the bottom tube (21), the button seat (24) is of a cylindrical structure without the lower wall, three pairs of identical structures of clamping grooves are respectively formed in the outer side wall of one end of the button seat (24), one end of the button seat (23) is fixedly welded on the adjusting disc group (23), the other end of the button seat is respectively and movably penetrated in the torsion opening and the limiting tube (22), three second indicating lines which are the same in structure are respectively formed in the equidistant direction on the upper wall of the button seat (24), the spring (25) is respectively inserted into the bottom tube (21) and is positioned in the left end of the control shell (11) and is positioned at the left end of the control shell (11);

the adjusting disc set (23) consists of an adjusting disc (230), a light sensing detector (231), a wireless network detector (232), a sound detector (233), a heat sensing detector (234), a temperature detector (235), a humidity detector (236) and three second contact blocks (237) with the same structure;

The adjusting disc (230) is of a disc structure, a through hole is formed in the center of the adjusting disc, the adjusting disc (230) is movably sleeved on the other end of the bottom tube (21), the light sensing detector (231), the wireless network detector (232), the sound detector (233), the heat sensing detector (234), the temperature detector (235) and the humidity detector (236) are arranged on the side wall of the adjusting disc (230) at equal intervals clockwise, three pairs of second contact blocks (237) are fixedly arranged on the upper wall of the adjusting disc (230) at equal intervals respectively and are electrically connected with the light sensing detector (231), the wireless network detector (232), the sound detector (233), the heat sensing detector (234), the temperature detector (235) and the humidity detector (236) respectively, and the second contact blocks (237) can be in fit contact with the first contact blocks (26) respectively;

The auxiliary collecting structure (3) comprises a pair of brackets (31) with the same structure, a pair of turnover rods (32) with the same structure, a pair of first sliding blocks (33) with the same structure, a pair of connecting rods (34) with the same structure, a pair of first bolts (35) with the same structure, a pair of second sliding blocks (36) with the same structure, a collector (37), a pair of second bolts (38) with the same structure and two locking claws (39) with the same structure;

The pair of brackets (31) are of L-shaped structures, one end of each bracket (31) is movably embedded in the right end of the turnover groove, the opposite side wall of the other end is provided with a first sliding groove communicated with the right side wall, the opposite side wall of the other end of each bracket (31) is provided with a second sliding groove with the same structure, one end of each turnover rod (32) is movably arranged on the other end of each bracket (31) and symmetrical to the other end, the opposite side walls of each turnover rod (32) are provided with a third sliding groove which corresponds to the first sliding groove in the same way, the center of each turnover rod (32) close to the opposite side wall of one end is provided with a first threaded hole with the same structure, one end of each first sliding block (33) is movably embedded in the second sliding groove of the opposite side wall of the other end of each bracket (31), one end of a pair of connecting rods (34) is fixedly welded on the other end of the first sliding block (33), a first fastening hole corresponding to the first threaded hole is formed in the central position of the other end of the connecting rod (34), one end of a pair of first bolts (35) movably penetrates through the first fastening hole of the other end of the connecting rod (34) respectively and is movably screwed in the first threaded hole of one end of a turnover rod (32) respectively, one end of a pair of second sliding blocks (36) is movably embedded in the first sliding groove respectively, second threaded holes with the same structure are formed in the side walls of the other end of the second sliding blocks (36), the collector (37) is of a cone-shaped bowl-shaped structure, a sleeve hole is formed in the central position of the bottom, and the left and right side walls at the top of the collector (37) are respectively provided with a connecting plate, the collector (37) is movably embedded between the other ends of the turnover rods (32), one ends of a pair of second bolts (38) respectively movably penetrate through the connecting plates and are respectively movably screwed into second threaded holes of the second sliding blocks (36), and one ends of two pairs of locking claws (39) are respectively movably arranged on the lower wall at the left end of the control shell (11) through pin shafts and are respectively positioned at positions close to the two ends of the turnover grooves.

2. A device for signal monitoring and switching according to claim 1, wherein the width and height dimensions of the other end of the bracket (31) are the same as the width and height dimensions of the other end of the turndown lever (32).

3. The device for signal monitoring and switching according to claim 2, wherein the collector (37) is rotatably sleeved on the light sensing detector (231), the wireless network detector (232), the sound detector (233), the heat sensing detector (234), the temperature detector (235) or the humidity detector (236).

4. A signal monitoring switching arrangement as claimed in claim 3, characterized in that the integrated circuit board (16) has an analysis function, a control function, an imaging function.

5. The method for implementing a signal monitoring switching apparatus according to any one of claims 1-4, comprising the steps of:

step 1), firstly, after a storage battery (12) in a control shell (11) in a main body structure (1) is fully charged, the storage battery can be moved, carried and controlled by hand;

Step 2), according to different monitoring signals, before the equipment is started, the button seat (24) in the exchange structure (2) is pressed, the spring (25) is compressed, after an inserting block at one end of the button seat (24) is separated from a slot of the limiting pipe (22), the button seat (24) can be rotated, the adjusting disc (230) in the adjusting disc group (23) is driven to rotate above the bottom pipe (21), then the corresponding light sensing detector (231), the wireless network detector (232), the sound detector (233), the heat sensing detector (234), the temperature detector (235) or the humidity detector (236) are positioned at the center position of the left end of the control shell (11), then the button seat (24) and the adjusting disc (230) are jacked up by the acting force of the spring (25) to insert the inserting block into the slot of the limiting pipe (22), and meanwhile, the first contact block (26) is in contact communication with the second contact block (237) of the corresponding detector, so that the adjustment switching is completed;

Step 3), the equipment can be started, the control is carried out through the control key (13), the intensity of the light sensing signal, the value of the wireless network signal or the wave peak value of the decibel size of the sound signal are displayed through the first display screen (14), and the image of thermal induction imaging, the value of the temperature signal and the value of the humidity signal are displayed through the second display screen (15);

Step 4), embedding one end into a turnover groove of the control shell (11) after turning over 180 degrees through a bracket (31) in the turnover auxiliary collection structure (3), then carrying a locking claw (39) for locking and limiting, sliding a collector (37) on the bracket (31) by means of a second sliding block (36), vertically attaching to the left side wall edge of the control shell (11) after turning over 90 degrees through a second bolt (38), enabling one end to be sleeved on a used detector, and increasing and collecting network signals, emitted heat induction signals or sound signals in a centralized manner through the collector (37), so that the whole monitoring is more accurate;

And 5), finally, moving the collector (37) to the turnover rod (32) by means of the second sliding block (36), pulling the turnover rod (32) to be separated from the bracket (31) through the connection of the first sliding block (33) and the connecting rod (34), loosening the first bolt (35), enabling the turnover rod (32) to rotate for a certain angle relative to the bracket (31), and then rotating the second bolt (38) to adjust the inclination angle and the position of the collector (37) in the same principle as the principle, so as to adjust the multiple angles and the positions.