CN113782996A - Terminal row convenient to installation - Google Patents

Abstract

The invention relates to a terminal strip convenient to install, which comprises a terminal strip main body, a conducting strip and a lead, wherein the terminal strip main body is provided with a plurality of through grooves, an input end and an output end, the conducting strip comprises a fixing part and a wiring part, one side of the fixing part, facing the wiring part, is provided with an elastic part and a blocking part, the through grooves comprise a top surface, a bottom surface and two side surfaces, the distance between the two side surfaces is matched with the width of the conducting strip, the top surface is provided with a boss protruding towards the bottom surface, the position, corresponding to the boss, of the bottom surface is provided with a groove recessed back to the top surface, the distance between the boss and the bottom surface is matched with the thickness of the conducting strip, and one side of the bottom surface, facing the output end, corresponding to the blocking part is provided with a stepped groove. The invention provides a terminal strip which has the advantages that the height of a through groove can be set to be larger, and a conducting strip which is not easily blocked by burr particles is easier to insert and install during molding.

Description

Terminal row convenient to installation

Technical Field

The invention relates to the technical field of power distribution equipment, in particular to a terminal block convenient to install.

Background

Terminal block, means an insulating member that carries a plurality or sets of terminal assemblies insulated from each other and serves to fix a support member. The terminal strip is used for electrically connecting a plurality of groups of input ends and output ends, and the conventional terminal strip and an external lead are fixed through bolts.

The current terminal row is equipped with logical groove usually, leads to the inslot and is equipped with the guide way, and the lateral wall embedding of conducting strip removes in to the guide way, forms the direction effect, realizes the assembly of conducting strip. However, in the actual assembly process of the conductive plate, the terminal strip is made of plastic, the conductive plate is made of metal, the friction force between the conductive plate and the terminal strip is large, the conductive plate is easily embedded into the terminal strip (made of plastic), so that the conductive plate is greatly blocked in the assembly process, and the conductive plate is difficult to be installed in place. Meanwhile, in the processing process of the conducting strip with the structure, the side wall of the conducting strip needs to be extended due to the fact that the conducting strip is thin, and processing is quite inconvenient.

Chinese patent document CN210245757U discloses an integrated strip line integrated terminal strip, which comprises a main body and conductive sheets, wherein the main body is provided with a plurality of through grooves, an input end and an output end, the through grooves communicate the input end and the output end, and the conductive sheets are installed in the through grooves; the conducting plate is provided with a fixing part and a wiring part, the fixing part is positioned in the through groove, the wiring part partially extends out of the through groove and is connected with the conducting wire, the tail end of the fixing part is provided with an elastic part and a blocking part, the through groove is internally provided with a stepped groove, the elastic part abuts against the top surface of the through groove, and the blocking part abuts against the side surface of the stepped groove; the main body is integrally formed.

Although this structure can solve the problem but can offset in the top surface that leads to the groove in order to make the elastic component, the height that leads to the groove just needs the less that sets up, and the burr granule that so main part led to the groove opening edge behind the casting shaping is blocked into among the logical groove easily, plugs up logical groove, makes the conducting strip hardly pass, even can't insert, difficult installation.

Disclosure of Invention

In summary, in order to overcome the defects in the prior art, the invention provides a terminal block, wherein the height of the through groove can be set to be larger, and the conducting strip which is not easily blocked by burr particles during molding is easier to insert and install.

In order to achieve the purpose, the invention provides the following technical scheme: a terminal row convenient to install comprises a terminal row main body, a conducting strip and a wire, wherein the terminal row main body is provided with a plurality of through grooves, an input end and an output end, the through grooves are communicated with the input end and the output end, the conducting strip comprises a fixing part and a wiring part, the wiring part is connected with the wire, an elastic part and a blocking part are arranged on one side of the fixing part facing the wiring part, the through grooves comprise a top surface, a bottom surface and two side surfaces, the distance between the two side surfaces is matched with the width of the conducting strip, the top surface is provided with a boss facing the bottom surface, a groove which is back to the top surface and is concave is arranged on the position of the bottom surface corresponding to the boss, the distance between the boss and the bottom surface is matched with the thickness of the conducting strip, the elastic part is positioned at one end of the conducting strip facing the bottom surface, the thickness of the elastic part is smaller than the distance between the boss and the bottom surface, the bottom surface orientation one side of output corresponds the position of blocking part is equipped with the ladder groove, blocking part with during the ladder groove contact the fixed part is located the input.

Due to the arrangement, the lug boss is arranged on the top surface of the through groove, the groove is arranged at the position corresponding to the bottom surface of the through groove, the distance between the lug boss and the bottom surface is matched with the thickness of the conducting strip, so that the conducting strip can fall on the bottom surface of the through groove firstly when inserted and slide from the output end to the input end until the elastic part slides to the position of the through groove, the elastic part can prop against the bottom surface of the through groove because the thickness of the elastic part is smaller than the distance between the lug boss and the bottom surface, the top of the conducting strip is clamped between the bottom of the lug boss and the bottom surface of the through groove, the groove can provide deformation space for the conducting strip and can play a role of increasing the distance, the conducting strip can not slide out easily, the distance between the bottom surface and the top surface of the through groove can be increased, the distance between the lug boss and the groove can be increased simultaneously, only the distance between the lug boss and the bottom surface of the through groove is ensured, and after the distance between the bottom surface and the top surface of the through groove is increased, the burr particles at the edge of the through groove are easy to slide out of the through groove during the molding of the terminal strip main body, are not easy to block, and cannot influence the installation of the conducting strip.

Furthermore, the elastic part is in a half-arc-shaped convex shape, and a bending assisting groove is arranged between the elastic part and the blocking part.

So set up, the bellied setting of half arc, because conducting strip itself is thinner, the elasticity effect can be realized to half arc arch, and the elastic component is more flexible deformation after setting up the bending-assisted groove, and the influence to the blocking part is little during bending deformation.

Furthermore, the boss is located the central point of top surface puts, the elastic component is equipped with two, two the elastic component is located respectively the both sides of boss.

So set up, two elastic component will withstand the bottom surface that leads to the groove respectively from the both sides of boss, with the both sides top of conducting strip to the both sides of boss, the clamp of conducting strip is tight more stable, difficult roll-off, difficult shake.

Furthermore, the width of the stepped groove is smaller than two intervals between the side surfaces, and the stepped groove is located in the center of the bottom surface.

So set up, lead to the position that the groove bottom surface is located the ladder groove both sides alright with the application of force point that can regard as the elastic component, stop part and elastic component alright set up on same straight line.

Furthermore, the two sides of the boss and the two sides of the groove facing the two side faces are respectively provided with an inclined plane, the inclined plane at the boss enables the width of the boss to be reduced towards the bottom face, and the inclined plane at the groove enables the width of the groove to be reduced back to the boss.

So set up, both sides set up after making boss width towards the inclined plane that the bottom surface reduces, the corner of boss and recess will all be the obtuse angle, and the conducting strip can not receive two right angle extrusions when being pushed to the boss by the elastic component, and the possibility that produces the indentation is little.

Furthermore, the lug bosses are arranged towards corner rounding corners on two sides of the two side faces.

So set up, conducting strip can not push up the closed angle when being pushed up to the boss by the elastic component after the boss corner rounding, and the possibility of being extruded the trace is little.

Furthermore, the input end is provided with a nut groove, a connecting nut is arranged in the nut groove, the output end is provided with a connecting bolt matched with the connecting nut, and the fixing part is provided with a fixing hole with the diameter not smaller than that of the connecting bolt.

So set up, insert the conducting strip from leading to the groove earlier during the installation, push down the ladder groove until the stop part, at this moment the fixed part will be located the input, at this moment reuse connecting bolt passes the fixed orifices and is connected with coupling nut and presss from both sides the tight connection that can accomplish of conducting strip clamp, simple to operate connects firmly.

Further, the groove is located in the stepped groove, and the groove is communicated with the stepped groove and the nut groove.

So set up, the recess is arranged in the ladder groove and communicates ladder groove and nut groove, and processing is changeed to the recess like this.

Further, the width of the groove is equal to the width of the stepped groove.

So set up, the recess just guarantees that the processing degree of difficulty does not rise the time and reaches the biggest, and the width of boss also can promote thereupon, and the contact surface of boss and conducting strip is bigger, because the conducting strip only by elastic component and ground contact towards the one side that leads to the groove bottom surface, the contact surface of boss and conducting strip is bigger just also to be for this conducting strip more stable, difficult roll-off, difficult shake.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an exploded view of an embodiment of the present invention 1.

Fig. 3 is an exploded view of an embodiment of the present invention, fig. 2.

Fig. 4 is a front view of a terminal block body according to an embodiment of the present invention.

Fig. 5 is a sectional view taken along the plane a-a of fig. 4.

Fig. 6 is a sectional view taken along the plane a-a of fig. 4.

Fig. 7 is a sectional view taken along the plane B-B of fig. 4.

Fig. 8 is a front view of an embodiment of the present invention.

Fig. 9 is a cross-sectional view taken along plane C-C of fig. 8.

Fig. 10 is a cross-sectional view taken along plane D-D of fig. 8.

Fig. 11 is a schematic structural view of a conductive sheet according to an embodiment of the present invention.

The reference numbers in the figures mean: 1. the terminal block comprises a terminal block body, 11 through grooves, 111 top surfaces, 1111 bosses, 11111 inclined surfaces, 112 bottom surfaces, 1121 grooves, 1122 stepped grooves, 113 side surfaces, 12 input ends, 121 nut grooves, 122 connecting nuts, 123 connecting bolts, 13 output ends, 2 conducting strips, 21 fixing portions, 211 elastic portions, 212 blocking portions, 213 bending-assisting grooves, 214 fixing holes, 22 wiring portions and 3 conducting wires.

Detailed Description

The present embodiment is only an explanation of the present embodiment, and it is not a limitation of the present embodiment, and a person skilled in the art can make modifications without inventive contribution to the present embodiment as needed after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present embodiment.

Referring to the attached drawings, the invention provides the following technical scheme: a terminal row convenient to installation comprises a terminal row body 1, a conducting strip 2 and a wire 3, wherein the terminal row body 1 is provided with a plurality of through grooves 11, an input end 12 and an output end 13, the through grooves 11 are communicated with the input end 12 and the output end 13, the conducting strip 2 comprises a fixing part 21 and a wiring part 22, the wiring part 22 is connected with the wire 3, the fixing part 21 faces towards one side of the wiring part 22 and is provided with an elastic part 211 and a blocking part 212, the through grooves 11 comprise a top surface 111, a bottom surface 112 and two side surfaces 113, the distance between the two side surfaces 113 is matched with the width of the conducting strip 2, the top surface 111 is provided with a boss facing towards the bottom surface 112, the position of the bottom surface 112 corresponding to the boss is provided with a groove 1121 which is back to the top surface 111, the distance between the boss and the bottom surface 112 is matched with the thickness of the conducting strip 2, elastic component 211 is located conducting strip 2 orientation the one end of bottom surface 112, elastic component 211's thickness is less than the boss arrives interval between the bottom surface 112, bottom surface 112 orientation one side of output 13 corresponds the position of blocking component 212 is equipped with ladder groove 1122, blocking component 212 with when ladder groove 1122 contacts fixed part 21 is located input 12.

Because the top surface 111 of the through slot 11 is provided with the boss, the corresponding position of the bottom surface 112 of the through slot 11 is provided with the groove 1121, and the distance from the boss to the bottom surface 112 is matched with the thickness of the conducting strip 2, when the conducting strip 2 is inserted, the conducting strip 2 firstly falls on the bottom surface 112 of the through slot 11 and slides from the output end 13 to the input end 12 until the elastic part 211 slides to the position of the through slot 11, because the thickness of the elastic part 211 is smaller than the distance from the boss to the bottom surface 112, at this time, the elastic part 211 can prop against the bottom surface 112 of the through slot 11, the conducting strip 2 props against the bottom of the boss and the bottom surface 112 of the through slot 11 to clamp, the groove 1121 can provide a deformation space for the conducting strip 2, and can play a role of increasing the distance, so that the conducting strip 2 is not easy to slide out, so that the distance between the bottom surface 112 and the top surface 111 of the through slot 11 can be increased, and the distance between the boss and the groove 1121 can be simultaneously increased, only need guarantee the boss with lead to the interval between groove 11 bottom surface 112 can, and after the interval between groove 11's bottom surface 112 and the top surface 111 increases, the burr granule that leads to the groove 11 edge just follows logical groove 11 roll-off easily when terminal row main part 1 shaping, difficult jam can not influence the installation of conducting strip 2.

In this embodiment, the elastic portion 211 is a half arc protrusion, and a bending assisting groove 213 is disposed between the elastic portion 211 and the blocking portion 212.

So set up, the bellied setting of semiarc, because conducting strip 2 itself is thinner, the elasticity effect can be realized to the semiarc arch, sets up elasticity portion 211 and changes the bending deformation after helping curved groove 213, and the influence to stop part 212 is little during the bending deformation.

Preferably, in this embodiment, the boss is located at the center of the top surface 111, two elastic portions 211 are provided, and the two elastic portions 211 are located at two sides of the boss respectively.

So set up, two elastic component 211 will withstand the bottom surface 112 that leads to groove 11 respectively from the both sides of boss, with the both sides top of conducting strip 2 to the both sides of boss, and the clamp of conducting strip 2 is tight more stable, difficult roll-off, difficult shake.

In this embodiment, the width of the stepped groove 1122 is smaller than the distance between the two side surfaces 113, and the stepped groove 1122 is located at the center of the bottom surface 112.

With such an arrangement, the positions of the bottom surface 112 of the through groove 11 on the two sides of the stepped groove 1122 can be used as the force application points of the elastic portion 211, and the stopper portion 212 and the elastic portion 211 can be arranged on the same straight line.

In this embodiment, the two sides of the protrusion and the groove 1121 facing the two side surfaces 113 are respectively provided with an inclined surface 11111, the inclined surface 11111 at the protrusion reduces the width of the protrusion toward the bottom surface 112, and the inclined surface 11111 at the groove 1121 reduces the width of the groove 1121 away from the protrusion.

With this arrangement, after the inclined planes 11111 are disposed on the two sides to reduce the width of the boss toward the bottom surface 112, the corners of the boss and the groove 1121 will be obtuse angles, so that the conductive sheet 2 will not be pressed by two right angles when being pushed against the boss by the elastic portion 211, and the indentation may be small.

In this embodiment, the protruding platform is preferably disposed to be rounded toward corners of two sides of the two side surfaces 113.

With the arrangement, after the corners of the boss are rounded, the conducting strip 2 cannot be pushed to a sharp corner when being pushed to the boss by the elastic part 211, and the possibility of being pressed out of a print is small.

In this embodiment, it is preferable that the input end 12 is provided with a nut groove 121, the nut groove 121 is provided with a coupling nut 122, the output end 13 is provided with a coupling bolt 123 adapted to the coupling nut 122, and the fixing portion 21 is provided with a fixing hole 214 having a diameter not smaller than a diameter of the coupling bolt 123.

So set up, during the installation earlier insert conducting strip 2 from logical groove 11, hold down ladder groove 1122 until block 212, at this moment fixed part 21 will be located input 12, at this moment reuse connecting bolt 123 passes fixed orifices 214 and is connected with coupling nut 122 and presss from both sides the tight connection that can accomplish of conducting strip 2 clamp, simple to operate connects firmly.

In this embodiment, the recess groove 1121 is located in the stepped groove 1122, and the recess groove 1121 communicates between the stepped groove 1122 and the nut groove 121.

With such an arrangement, the groove 1121 is positioned in the stepped groove 1122 to communicate the stepped groove 1122 with the nut groove 121, so that the groove 1121 is easier to process.

In this embodiment, the width of the recess 1121 is preferably equal to the width of the stepped slot 1122.

So set up, recess 1121 is just guaranteeing that the processing degree of difficulty does not rise the time and is reaching the biggest, and the width of boss also can promote thereupon, and the contact surface of boss and conducting strip 2 is bigger, because conducting strip 2 only contacts with ground by elastic component 211 towards the one side of leading to groove 11 bottom surface 112, the contact surface of boss and conducting strip 2 is bigger just also to regard this conducting strip 2 more stable, difficult roll-off, difficult shake.

Although the present invention has been described in detail with reference to the foregoing embodiments, the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention.

Claims (9)

1. The utility model provides a terminal row convenient to installation, includes terminal row main part, conducting strip and wire, it leads to groove, input and output to be equipped with a plurality of in the terminal row main part, lead to the groove intercommunication the input with the output, the conducting strip includes fixed part and wiring portion, wiring portion with the wire is connected, the fixed part orientation one side of wiring portion is equipped with elasticity portion and stop part, its characterized in that: lead to groove including top surface, bottom surface and two sides, two the interval of side with the width adaptation of conducting strip, the top surface is equipped with the orientation the bellied boss in bottom surface, the bottom surface corresponds the position of boss is equipped with dorsad the concave recess of top surface, the boss arrives interval between the bottom surface with the thickness adaptation of conducting strip, the elastic component is located the conducting strip orientation the one end of bottom surface, the thickness of elastic component is less than the boss arrives interval between the bottom surface, the bottom surface orientation one side of output corresponds the position of stopping the portion is equipped with the ladder groove, stop the portion with when the ladder groove contact the fixed part is located the input.

2. A terminal block for ease of installation as set forth in claim 1, wherein: the elastic part is in a half-arc-shaped protruding shape, and a bending assisting groove is arranged between the elastic part and the blocking part.

3. A terminal block for ease of installation as set forth in claim 1, wherein: the boss is located the central point of top surface puts, the elastic component is equipped with two, two the elastic component is located respectively the both sides of boss.

4. A terminal block for ease of installation as set forth in claim 3, wherein: the width of ladder groove is less than two the interval of side, the ladder groove is located the central point of bottom surface puts.

5. A terminal block for ease of installation as set forth in claim 3, wherein: the two sides of the boss and the two sides of the groove facing the two side faces are respectively provided with an inclined plane, the inclined plane at the boss enables the width of the boss to be reduced towards the bottom face, and the inclined plane at the groove enables the width of the groove to be reduced back to the boss.

6. A terminal block for ease of installation as set forth in claim 3, wherein: the lug boss faces the two corner rounding corners on the two sides of the side face.

7. A terminal block for ease of installation as set forth in claim 1, wherein: the input end is provided with a nut groove, a connecting nut is arranged in the nut groove, the output end is provided with a connecting bolt matched with the connecting nut, and the fixing part is provided with a fixing hole with the diameter not smaller than that of the connecting bolt.

8. A terminal block for ease of installation as set forth in claim 7, wherein: the groove is located in the stepped groove and communicated with the stepped groove and the nut groove.

9. A terminal block for ease of installation as set forth in claim 8, wherein: the width of the groove is equal to that of the stepped groove.

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