CN111042504B

CN111042504B - Anti-overflow cement floor plating press

Info

Publication number: CN111042504B
Application number: CN201911298242.2A
Authority: CN
Inventors: 戴宗强
Original assignee: Taizhou Dacai Cat Technology Co ltd
Current assignee: Taizhou Dacai cat Technology Co.,Ltd.
Priority date: 2019-12-17
Filing date: 2019-12-17
Publication date: 2021-10-22
Anticipated expiration: 2039-12-17
Also published as: CN111042504A

Abstract

The invention discloses an anti-overflow cement ground calender, which structurally comprises an anti-skid operating handle, a side beam connecting frame, a closed shock absorption shaft, a ground calendering structure and an electric engine, wherein the ground calendering structure is in an L-shaped structure and is attached to a cement ground, the side beam connecting frame and the ground calendering structure are fixed together through bolts, the electric engine is arranged on the upper surface of the side beam connecting frame, the cement ground calender is provided with a sliding anti-overflow leveling device and a swinging anti-overflow leveling device, when the cement construction surface is pressed, the cement ash on the back of the vibrating ruler can be effectively and uniformly smoothed, simultaneously, the excess cement ash is discharged, the excess cement ash is prevented from overflowing the vibrating ruler and overflowing when being accumulated on the back of the vibrating ruler, meanwhile, the smoothness and the processing quality of cement ground calendering are improved along with the situation that the vibration of the motor is splashed to the ground which is finished by calendering in front of the vibrating ruler.

Description

Anti-overflow cement floor plating press

Technical Field

The invention relates to the field of cement processing, in particular to an anti-overflow cement floor calender.

Background

In the construction process of building site, all need to pour cement, still need carry out cement press polish after the cement ground is made and avoid the drying shrinkage fracture, cement press polish is to spill plain ash evenly on the construction ground to adopt ground calender to roll the phenomenon that the formation after smooth, but the present technical consideration is not perfect enough, has following shortcoming: in the cement calender use, utilize the motor to produce vibrations and transmit the vibration chi surface, then the vibration chi is evenly floating with the plain ash of joining in marriage, and the material of excessive is then scraped through the vibration chi, consequently when scraping off the material and piling up too much, the material can be overflowed the vibration chi and spill over, along with the vibrations splash of motor on the ground that vibration chi the place ahead had been finished the press polish simultaneously, lead to the ground unevenness after the press polish, reduce the processingquality of cement press polish.

Disclosure of Invention

In view of the above problems, the present invention provides an overflow preventing cement floor calender.

In order to achieve the purpose, the invention is realized by the following technical scheme: an anti-overflow cement ground calender structurally comprises an anti-skid operating handle, a side beam connecting frame, a closed shock absorption shaft, a ground calendering structure and an electric motor, wherein the ground calendering structure is in an L-shaped structure and is attached to a cement ground, the side beam connecting frame and the ground calendering structure are fixed together through bolts, the electric motor is installed on the upper surface of the side beam connecting frame, the closed shock absorption shaft is positioned in the middle of the side beam connecting frame and is buckled with the ground calendering structure, the anti-skid operating handle and the side beam connecting frame are fixed together through bolts, the ground calendering structure comprises a sliding anti-overflow leveling device, a connecting buckle plate, a vibrating ruler main body and a swinging anti-overflow leveling device, the connecting buckle plate and the side beam connecting frame are fixed together through bolts, the vibrating ruler main body is positioned on the left side of the connecting buckle plate and is welded together with the connecting buckle plate, the sliding anti-overflow leveling device and the swinging anti-overflow leveling device are buckled with the vibrating ruler main body respectively.

As a further improvement of the invention, the sliding anti-overflow leveling device comprises a switch button, a sliding leveling structure and an electromagnetic driving structure, wherein the switch button is nested at the top of the vibrating ruler main body, the sliding leveling structure and the vibrating ruler main body are in clearance fit, the electromagnetic driving structure is arranged in the middle of the vibrating ruler main body and is electrically connected with the switch button, and the sliding leveling structure and the vibrating ruler main body are parallel to each other.

As a further improvement of the invention, the sliding smoothing structure comprises a push plate driving slider, a self-resetting spring, a fixed slide rail and a cement push plate, wherein the fixed slide rail is nested behind the vibrating ruler main body, the push plate driving slider and the fixed slide rail are in clearance fit, the self-resetting spring is positioned on the left side of the push plate driving slider and is abutted against the fixed slide rail, the cement push plate and the push plate driving slider are buckled with each other, the cement push plate is of a fan-shaped structure, and a groove is arranged at the left end of the cement push plate.

As a further improvement of the invention, the push plate driving slide block consists of a slide rod, a rotating traction rod, a friction block, a slide block main body, a reversing driving wheel and a connecting cover plate, wherein the slide block main body is in clearance fit with a fixed slide rail, the slide rod is nested at the top of the slide block main body, the inner wall of the rotating traction rod is attached to the slide rod, the friction block and the rotating traction rod form an integrated structure, the connecting cover plate is buckled with the top of the cement push plate, the reversing driving wheel is nested in the middle of the slide block main body, the rotating traction rod is meshed with the reversing driving wheel, and the reversing driving wheel is collinear with the axis of the connecting cover plate.

As a further improvement of the present invention, the electromagnetic driving structure comprises a first pushing plate, an air pressure guide channel, a push plate fixing groove, a second pushing plate, and an electromagnetic driving member, wherein the air pressure guide channel is horizontally installed at the top end of the vibrating ruler main body, the push plate fixing grooves are respectively installed at the left and right sides of the air pressure guide channel, the first pushing plate is installed below the push plate fixing groove at the right side of the air pressure guide channel, the second pushing plate is located at the left side of the first pushing plate, the electromagnetic driving member is installed in the middle of the vibrating ruler main body, the air pressure guide channel and the push plate fixing groove are communicated with each other, and the inside of the air pressure guide channel is in a sealed state.

As a further improvement of the invention, the swing anti-overflow leveling device comprises a swing leveling device, a mounting groove and a rotary pushing structure, wherein the mounting groove is nested at the back of the vibrating ruler main body, the swing leveling device is positioned at the left side of the mounting groove, the rotary pushing structure and the swing leveling device are buckled with each other, and the swing leveling device and the vibrating ruler main body are parallel to each other.

As a further improvement of the invention, the swinging smoothing device comprises a rotary vibration structure, a mud pushing plate, a cement smoothing plate, a traction shaft bracket and a protective shell, wherein the protective shell is nested in the mounting groove, the traction shaft bracket is vertically mounted in the middle of the protective shell, the cement smoothing plate is buckled with the traction shaft bracket, the rotary vibration structure is positioned at the top of the traction shaft bracket, the mud pushing plate is fixed with the vibrating ruler main body through a bolt, the top of the mud pushing plate is of a structure bent leftwards, and a curve groove is formed in the left side of the cement smoothing plate.

As a further improvement of the invention, the rotary vibration structure comprises a rotary disk, a sliding guide rod, a spiral spring, a reverse stop block, a reverse stop fixing groove and a protective outer cover, wherein the protective outer cover is positioned above the protective shell, the rotary disk is tightly buckled with the traction shaft bracket, the sliding guide rod is in clearance fit with the rotary disk, the reverse stop fixing groove is positioned in the protective outer cover, the reverse stop block is nested in the reverse stop fixing groove, and the rotary disk and the sliding guide rod are vertical to each other.

As a further improvement of the present invention, the rotary pushing structure comprises a swing arm, a rotary guide rail, a traction wheel shaft, a rotary sliding rod, and a sliding rod shaft, wherein the traction wheel shaft is installed in the middle of the vibrating ruler body, the sliding rod shaft is located on the left side of the traction wheel shaft, the rotary sliding rod and the sliding rod shaft are in clearance fit, the rotary guide rail is located on the left side of the rotary sliding rod, the swing arm is buckled with the traction shaft frame, and the left side of the traction wheel shaft is buckled with the rotary sliding rod.

As a further improvement of the invention, the top of the first pushing plate is provided with a contact element, so that when the first pushing plate slides upwards, the electromagnetic driving element is conductive and generates a magnetic field to generate repulsion force on the pushing plate driving sliding block, the pushing plate driving sliding block is pushed to slide leftwards, and the cement pushing plate below the pushing plate driving sliding block smoothes cement.

As a further improvement of the cement leveling plate, the bottom of the rotating disc is provided with a triangular groove which is attached to the non-return block, so that when the rotating disc rotates reversely, the groove and the non-return block are clamped, the rotating disc is pushed to extrude the spiral spring and slide upwards along the sliding guide rod, the cement leveling plate is shaken, cement adhered to the cement leveling plate is made to fall off, and the leveling effect is improved.

The invention has the beneficial effects that: cement ground calender is through installing slip anti-overflow leveling device, swing anti-overflow leveling device, when carrying out the press polish to cement construction face, can evenly smooth the cement ash at vibration chi back effectively, discharge unnecessary cement ash simultaneously, avoid unnecessary cement ash to pile up and to spill over the vibration chi and spill over when vibration chi back, along with the vibrations splash of motor to the subaerial condition that vibration chi the place ahead has been finished the press polish simultaneously, promote the planarization and the processingquality of cement ground press polish.

When the sliding anti-overflow leveling device is used, after the device is started, the switch button is opened, the electromagnetic driving piece is electrified and forms an electromagnetic field, repulsion force is generated on the push plate driving sliding block, so that the push plate driving sliding block slides to the left end and the right end of the vibrating ruler main body along the fixed sliding rail, the cement push plate at the bottom of the push plate driving sliding block can smooth cement ash, redundant cement ash is discharged to two sides, when the push plate driving sliding block slides to the two ends of the vibrating ruler main body, the push plate driving sliding block pushes the second push plate to slide upwards, the first push plate is then popped downwards, the electromagnetic driving piece is powered off, meanwhile, the self-resetting spring pushes the push plate driving sliding block to slide towards the electromagnetic driving piece and reset, the friction block drives the rotating traction rod to slide rightwards along the sliding rod, and therefore, the reversing driving wheel drives the cement push plate to rotate 180 degrees through the connecting cover plate, consequently make the cement ash obtain smooth and discharge under the slip effect is made a round trip at the cement push pedal, avoid piling up at the vibration chi main part back and overflowing, the effectual planarization and the processingquality that have promoted cement ground press polish.

Drawings

Fig. 1 is a schematic view of the construction of a spill-proof cement floor calender according to the invention.

Fig. 2 is a schematic structural view of the floor calendering structure of the present invention viewed from the left.

Figure 3 is a schematic top view of the sliding spill-proof screed according to the present invention.

Fig. 4 is a schematic structural view of a front view of the sliding smoothing structure of the present invention.

FIG. 5 is a schematic top view of the push plate driving slider according to the present invention.

Fig. 6 is a front view of the electromagnetic driving structure of the present invention.

Fig. 7 is a schematic left side view of a floor calendering configuration of the present invention.

Fig. 8 is a left-side view schematic structural view of the swing anti-overflow leveling device of the present invention.

Fig. 9 is a schematic left-view structural view of the swing smoothing device of the present invention.

Fig. 10 is a schematic sectional structural view of a rotational vibration structure according to the present invention.

FIG. 11 is a front view of the rotary pushing structure of the present invention.

In the figure: an anti-skid operating handle-1, a side beam connecting frame-2, a closed shock absorption shaft-3, a ground press polish structure-4, an electric motor-5, a sliding anti-overflow leveling device-4 a, a connecting buckle-4 b, a vibrating ruler main body-4 c, a swinging anti-overflow leveling device-4 d, a switch button-a 1, a sliding smoothing structure-a 2, an electromagnetic driving structure-a 3, a push plate driving slide block-a 21, a self-reset spring-a 22, a fixed slide rail-a 23, a cement push plate-a 24, a sliding rod-211, a rotating traction rod-212, a friction block-213, a slide block main body-214, a reversing driving wheel-215, a connecting cover plate-216, a first push plate-a 31, an air pressure guide way-a 32, a push plate fixed groove-a 33, a second push plate-a 34, The device comprises an electromagnetic driving piece-a 35, a swinging and flattening device-d 1, a mounting groove-d 2, a rotating and pushing structure-d 3, a rotating and vibrating structure-d 11, a mud pushing plate-d 12, a cement flattening plate-d 13, a traction shaft bracket-d 14, a protective shell-d 15, a rotating disc-111, a sliding guide rod-112, a spiral spring-113, a check block-114, a check fixing groove-115, a protective outer cover-116, a swinging arm-d 31, a rotating guide rail-d 32, a traction wheel shaft-d 33, a rotating sliding rod-d 34 and a sliding rod shaft-d 35.

Detailed Description

In order to make the technical means, creation features, achievement objects and effects of the present invention easy to understand, fig. 1 to 11 schematically show the structure of the waste material environment-friendly processing equipment according to the embodiment of the present invention, and the present invention will be further described with reference to the following detailed description.

Example one

Referring to fig. 1-6, the invention provides an anti-overflow cement ground calender, which comprises an anti-skid operating handle 1, a side beam connecting frame 2, a closed shock-absorbing shaft 3, a ground calendering structure 4 and an electric motor 5, wherein the ground calendering structure 4 is in an L-shaped structure and is attached to a cement ground, the side beam connecting frame 2 and the ground calendering structure 4 are fixed together through bolts, the electric motor 5 is installed on the upper surface of the side beam connecting frame 2, the closed shock-absorbing shaft 3 is positioned in the middle of the side beam connecting frame 2 and is buckled with the ground calendering structure 4, the anti-skid operating handle 1 and the side beam connecting frame 2 are fixed together through bolts, the ground calendering structure 4 is composed of a sliding anti-overflow leveling device 4a, a connecting buckle plate 4b, a vibrating scale main body 4c and a swinging anti-overflow leveling device 4d, the connecting buckle plate 4b and the side beam connecting frame 2 are fixed together through bolts, the vibrating ruler main body 4c is located on the left side of the connecting buckle plate 4b and welded with the connecting buckle plate 4b, and the sliding anti-overflow leveling device 4a and the swinging anti-overflow leveling device 4d are buckled with the vibrating ruler main body 4c respectively. Slide anti-overflow leveling device 4a is by shift knob a1, slide and smooths structure a2, electromagnetic drive structure a3 and constitutes, shift knob a1 nests in vibration chi main part 4c top, slide and smooth structure a2 and vibration chi main part 4c and adopt clearance fit, electromagnetic drive structure a3 is installed in the middle of vibration chi main part 4c and through being connected electrically with shift knob a1, slide and smooth structure a2 and vibration chi main part 4c and be parallel to each other. The sliding smoothing structure a2 is composed of a push plate driving slider a21, a self-reset spring a22, a fixed sliding rail a23 and a cement push plate a24, the fixed sliding rail a23 is nested behind the vibrating ruler main body 4c, the push plate driving slider a21 and the fixed sliding rail a23 are in clearance fit, the self-reset spring a22 is located on the left side of the push plate driving slider a21 and abuts against the fixed sliding rail a23, the cement push plate a24 and the push plate driving slider a21 are buckled with each other, the cement push plate a24 is of a fan-shaped structure, and a groove is formed in the left end of the cement push plate a 24. The push plate driving sliding block a21 is composed of a sliding rod 211, a rotating traction rod 212, a friction block 213, a sliding block main body 214, a reversing driving wheel 215 and a connecting cover plate 216, the sliding block main body 214 and a fixed sliding rail a23 are in clearance fit, the sliding rod 211 is nested at the top of the sliding block main body 214, the inner wall of the rotating traction rod 212 is attached to the sliding rod 211, the friction block 213 and the rotating traction rod 212 form an integrated structure, the connecting cover plate 216 is buckled with the top of a cement push plate a24, the reversing driving wheel 215 is nested in the middle of the sliding block main body 214, the rotating traction rod 212 is meshed with the reversing driving wheel 215, and the axes of the reversing driving wheel 215 and the connecting cover plate 216 are collinear. The electromagnetic driving structure a3 is composed of a first push plate a31, an air pressure guide channel a32, a push plate fixing groove a33, a second push plate a34 and an electromagnetic driving element a35, wherein the air pressure guide channel a32 is horizontally arranged at the top end in the vibrating ruler main body 4c, the push plate fixing grooves a33 are respectively arranged at the left side and the right side of the air pressure guide channel a32, the first push plate a31 is arranged below the push plate fixing groove a33 at the right side of the air pressure guide channel a32, the second push plate a34 is positioned at the left side of the first push plate a31, the electromagnetic driving element a35 is arranged in the middle of the vibrating ruler main body 4c, the air pressure guide channel a32 is communicated with the push plate fixing groove a33, and the inside of the air pressure guide channel a32 is in a sealed state. The top of the first pushing plate a31 is provided with a contact element, so when the first pushing plate a31 slides upwards, the electromagnetic driving element a35 conducts electricity and generates a magnetic field to generate a repulsive force to the pushing plate driving slide block a21, the pushing plate driving slide block a21 is pushed to slide leftwards, and the cement pushing plate a24 below the pushing plate driving slide block a21 smoothes the cement.

When the device is started, the switch button a1 is opened, the electromagnetic driving piece a35 is electrified to form an electromagnetic field, repulsion force is generated on the push plate driving slide block a21, so that the push plate driving slide block a21 extrudes the self-reset spring a22 and slides to the left and right ends of the vibrating scale main body 4c along the fixed slide rail a23, the cement push plate a24 at the bottom of the push plate driving slide block a21 can smooth cement ash, so that excessive cement ash is discharged to the two sides, when the push plate driving slide block a21 slides to the two ends of the vibrating scale main body 4c, the push plate driving slide block a21 pushes the second push plate a34 to slide upwards, and then the first push plate a31 is ejected downwards, the electromagnetic driving piece a35 is powered off, the self-reset spring a22 pushes the push plate driving sliding block a21 to reset, and meanwhile, the friction block 213 drives the rotating traction rod 212 to slide rightwards along the sliding rod 211, so that the reversing driving wheel 215 drives the cement push plate a24 to rotate 180 degrees through the connecting cover plate 216, cement ash is smoothed and discharged under the back-and-forth sliding action of the cement push plate a24, and the situation that the cement ash is accumulated on the back of the vibrating scale main body 4c and overflows is avoided.

Example two

Referring to fig. 7 to 11, the swing anti-overflow leveling device 4d is composed of a swing leveling device d1, an installation groove d2, and a rotary pushing structure d3, the installation groove d2 is nested at the back of the vibrating rule main body 4c, the swing leveling device d1 is located at the left side of the installation groove d2, the rotary pushing structure d3 is buckled with the swing leveling device d1, and the swing leveling device d1 is parallel to the vibrating rule main body 4 c. The swing is pacified device d1 and is pacified dull and stereotyped d13, traction pedestal d14, protecting crust d15 by rotatory vibrations structure d11, push away mud board d12, cement and is pacified dull and stereotyped 13, traction pedestal d15 nestification is in mounting groove d2, traction pedestal d14 is vertical to be installed in the middle of protecting crust d15, cement is pacified dull and stereotyped 13 and is pull pedestal d14 lock, rotatory vibrations structure d11 is located and pulls pedestal d14 top, it passes through the bolt fastening with vibrating ruler main body 4c to push away mud board d12, it adopts the crooked structure in left to push away mud board d12 top, cement is pacified dull and stereotyped d13 left side and is equipped with a curve recess. Rotatory vibrations structure d11 comprises rotary disk 111, sliding guide 112, coil spring 113, contrary piece 114, contrary fixed slot 115, protection dustcoat 116 is located protective housing d15 top, rotary disk 111 and traction shaft frame d14 are detained closely together, sliding guide 112 and rotary disk 111 adopt clearance fit, contrary fixed slot 115 is located protective housing 116, contrary piece 114 nests in contrary fixed slot 115, rotary disk 111 and sliding guide 112 mutually perpendicular. The rotary pushing structure d3 is composed of a swing arm d31, a rotary guide rail d32, a traction wheel shaft d33, a rotary sliding rod d34 and a sliding rod shaft d35, wherein the traction wheel shaft d33 is installed in the middle of the vibrating ruler body 4c, the sliding rod shaft d35 is located on the left side of the traction wheel shaft d33, the rotary sliding rod d34 is in clearance fit with the sliding rod shaft d35, the rotary guide rail d32 is located on the left side of the rotary sliding rod d34, the swing arm d31 is buckled with the traction shaft frame d14, and the left side of the traction wheel shaft d33 is buckled with the rotary sliding rod d 34. The bottom of the rotating disc 111 is provided with a triangular groove and is attached to the non-return block 114, so that when the rotating disc 111 rotates reversely, the groove is clamped with the non-return block 114, the rotating disc 111 is pushed to extrude the spiral spring 113 and slide upwards along the sliding guide rod 112, the cement smoothing plate d13 shakes, cement adhered to the cement smoothing plate d13 drops, and the smoothing effect is improved.

When a worker pulls the vibrating ruler body 4c to drag backwards, the traction wheel shaft d33 contacts and rotates with cement ash, so that the rotary sliding rod d34 slides up and down along the sliding rod shaft d35, the rotary sliding rod d34 drives the swinging arm d31 and the traction shaft bracket d14 to swing back and forth, the cement smoothing plate d13 on the traction shaft bracket d14 swings back and forth on a construction surface, so that the cement ash is evenly smoothed, meanwhile, when the rotary disk 111 rotates reversely, the groove at the bottom of the rotary disk 111 is clamped with the check block 114, so that the rotary disk 111 is pushed to extrude the spiral spring 113 and slide upwards along the sliding guide rod 112, the cement smoothing plate d13 is shaken, cement adhered to the cement smoothing plate d13 is made to fall off, the smoothing effect is improved, and the cement ash is prevented from being accumulated on the back of the vibrating ruler body 4c and overflowing to the construction surface after the polishing is finished.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a cement ground plating press of anti-overflow, its structure includes anti-skidding operating handle (1), curb girder link (2), seals shock attenuation axle (3), ground press polish structure (4), electric motor (5), ground press polish structure (4) be L shape structure and with cement ground laminating together, curb girder link (2) pass through the bolt fastening with ground press polish structure (4) together, electric motor (5) are installed in curb girder link (2) upper surface, seal shock attenuation axle (3) be located in the middle of curb girder link (2) and with ground press polish structure (4) lock, anti-skidding operating handle (1) adopts the bolt fastening with curb girder link (2) together, its characterized in that:

the ground calendering structure (4) consists of a sliding anti-overflow leveling device (4a), a connecting buckle plate (4b), a vibrating ruler main body (4c) and a swinging anti-overflow leveling device (4d), the connecting buckle plate (4b) and the side beam connecting frame (2) are fixed together through bolts, the vibrating ruler main body (4c) is positioned on the left side of the connecting buckle plate (4b) and welded with the connecting buckle plate (4b), and the sliding anti-overflow leveling device (4a) and the swinging anti-overflow leveling device (4d) are respectively buckled with the vibrating ruler main body (4 c);

the sliding anti-overflow leveling device (4a) is composed of a switch button (a1), a sliding leveling structure (a2) and an electromagnetic driving structure (a3), the switch button (a1) is nested at the top of a vibrating ruler main body (4c), the sliding leveling structure (a2) and the vibrating ruler main body (4c) adopt clearance fit, the electromagnetic driving structure (a3) is installed in the middle of the vibrating ruler main body (4c) and is electrically connected with the switch button (a1), the sliding leveling structure (a2) is composed of a push plate driving slider (a21), a self-reset spring (a22), a fixed slide rail (a23) and a cement push plate (a24), the fixed slide rail (a23) is nested behind the vibrating ruler main body (4c), the push plate driving slider (a21) and the fixed slide rail (a23) adopt clearance fit, the self-reset spring (a22) is located on the left side of the driving slider (a21) and abuts against the fixed slide rail (23), the cement push plate (a24) and the push plate driving slide block (a21) are buckled with each other;

the swing anti-overflow leveling device (4d) consists of a swing leveling device (d1), a mounting groove (d2) and a rotary pushing structure (d3), the mounting groove (d2) is nested on the back of the vibrating ruler main body (4c), the swinging smoothing device (d1) is positioned at the left side of the mounting groove (d2), the rotary pushing structure (d3) and the swinging smoothing device (d1) are mutually buckled, the swinging smoothing device (d1) consists of a rotary vibration structure (d11), a mud pushing plate (d12), a cement smoothing plate (d13), a traction shaft bracket (d14) and a protective shell (d15), the protective shell (d15) is nested in the mounting groove (d2), the traction shaft bracket (d14) is vertically arranged in the middle of the protective shell (d15), the cement leveling plate (d13) is buckled with the traction shaft bracket (d14), the rotary vibration structure (d11) is positioned at the top of the traction shaft bracket (d14), the mud pushing plate (d12) and the vibrating ruler main body (4c) are fixed through bolts.

2. A spill-proof cement floor calender according to claim 1, characterised in that: the push plate driving sliding block (a21) is composed of a sliding rod (211), a rotating traction rod (212), a friction block (213), a sliding block main body (214), a reversing driving wheel (215) and a connecting cover plate (216), the sliding block main body (214) and a fixed sliding rail (a23) are in clearance fit, the sliding rod (211) is nested at the top of the sliding block main body (214), the inner wall of the rotating traction rod (212) is attached to the sliding rod (211), the friction block (213) and the rotating traction rod (212) form an integrated structure, the connecting cover plate (216) is buckled with the top of a cement push plate (a24), and the reversing driving wheel (215) is nested in the middle of the sliding block main body (214).

3. A spill-proof cement floor calender according to claim 1, characterised in that: the electromagnetic driving structure (a3) is composed of a first pushing plate (a31), an air pressure guide channel (a32), a push plate fixing groove (a33), a second pushing plate (a34) and an electromagnetic driving element (a35), wherein the air pressure guide channel (a32) is horizontally installed at the top end in the vibrating ruler main body (4c), the push plate fixing grooves (a33) are respectively installed at the left side and the right side of the air pressure guide channel (a32), the first pushing plate (a31) is installed below the push plate fixing groove (a33) on the right side of the air pressure guide channel (a32), the second pushing plate (a34) is located at the left side of the first pushing plate (a31), and the electromagnetic driving element (a35) is installed in the middle of the vibrating ruler main body (4 c).

4. A spill-proof cement floor calender according to claim 1, characterised in that: rotatory vibrations structure (d11) comprises rotary disk (111), slip guide arm (112), coil spring (113), contrary piece (114), contrary fixed slot (115), protection dustcoat (116) of ending, protection dustcoat (116) are located protecting shell (d15) top, rotary disk (111) and traction pedestal (d14) are fastened together, clearance fit is adopted with rotary disk (111) in slip guide arm (112), contrary fixed slot (115) of ending is located protection dustcoat (116), contrary piece (114) of ending is nested in contrary fixed slot (115) of ending.

5. A spill-proof cement floor calender according to claim 1, characterised in that: the rotary pushing structure (d3) is composed of a swing arm (d31), a rotary guide rail (d32), a traction wheel shaft (d33), a rotary sliding rod (d34) and a sliding rod shaft (d35), wherein the traction wheel shaft (d33) is mounted in the middle of the vibrating ruler main body (4c), the sliding rod shaft (d35) is located on the left side of the traction wheel shaft (d33), the rotary sliding rod (d34) and the sliding rod shaft (d35) are in clearance fit, the rotary guide rail (d32) is located on the left side of the rotary sliding rod (d34), and the swing arm (d31) is buckled with the traction shaft frame (d 14).