CN109940392B - Rapid assembly equipment for power distribution cabinet - Google Patents

Abstract

The invention relates to a rapid assembly device for a power distribution cabinet, which comprises: the zero line loading mechanism comprises a forward conveying piece, two groups of rolling pieces which are arranged above the forward conveying piece and symmetrically arranged along the center line of the width of the forward conveying piece, and a plurality of groups of straightening pieces which are arranged along the forward conveying piece at equal intervals; the polar plate loading mechanism is arranged opposite to the conveying direction of the forward conveying piece and is positioned right below the forward conveying piece; the zero line bending mechanism comprises a mould assembly arranged below the pole plate loading mechanism, a control assembly arranged above the pole plate loading mechanism and matched with the mould assembly, a transmission assembly with one end matched with the mould assembly and the other end matched with the control assembly, and a straight angle assembly arranged on the control assembly; the invention solves the technical problem that when a power supply inside a power distribution cabinet is connected with a pole plate by using a zero line, the zero line needs to be twisted into a proper shape manually and then connected with the power supply and the pole plate.

Description

Rapid assembly equipment for power distribution cabinet

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to rapid assembling equipment for a power distribution cabinet.

Background

The switch board is to the power consumption measure, control and financial management's full-automatic, multi-functional, intelligent electric energy measurement management equipment, and the metering module of switch board can work alone, therefore each metering module also can break away from the switch board, hangs alone on the electric wire netting as the electric energy form and uses, can practice thrift simultaneously and walk the line, reduces the space, and each metering module has the 485 interface, hangs on the 485 bus, and the reconnection is to the computer, is operated and is controlled each module by the computer.

Patent document CN207611978U discloses a switch board that dampproofing dustproof performance is good for outdoor use, including main part and outlet box, the right side of main part is fixed with the capacitance box, the lower extreme welding of outlet box and capacitance box has the support frame, the end of support frame is fixed with the base, the surface of base has been run through and has been fixed bolt, the internally mounted of capacitance box is fixed with NT00 fuse, the lower extreme of NT00 fuse is fixed with the AC regulator, the below of AC regulator is connected with the harmonic ware, the inside lower extreme installation of capacitance box is fixed with power capacitor, and the surface lower extreme of capacitance box has a plurality of lower louvres, the surperficial upper end of through capacitance box has a plurality of upper louvres.

However, in the actual use process, the inventor found a problem that when the power supply inside the power distribution cabinet is connected with the electrode plate through the zero line, the zero line needs to be twisted into a proper shape manually and then connected with the power supply and the electrode plate.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and the technical problem that when a power supply and a plate electrode in a power distribution cabinet are connected by a zero line, the zero line needs to be manually twisted into a proper shape and then connected to the power supply and the plate electrode is solved by synchronously and reversely pressing the zero line for forming through a die assembly and a control assembly of a zero line bending mechanism and then buckling the zero line on the power supply and the plate electrode.

Aiming at the technical problems, the technical scheme is as follows: a rapid assembly device for a power distribution cabinet, comprising:

the zero line loading mechanism comprises a forward conveying piece, two groups of rolling pieces arranged above the forward conveying piece and symmetrically arranged along the center line of the width of the forward conveying piece, and a plurality of groups of straightening pieces arranged at equal intervals along the forward conveying piece;

the polar plate loading mechanism is arranged opposite to the conveying direction of the forward conveying piece and is positioned right below the forward conveying piece; and

the zero line mechanism of bending, the zero line mechanism of bending including installing mould subassembly, the position of polar plate facial make-up mechanism below set up and with control assembly, one end that mould subassembly cooperation set up and its other end with the transmission assembly that control assembly cooperation set up and installing flat angle subassembly on the control assembly, the transmission assembly is installed on the mould subassembly.

Preferably, the forward conveying member includes:

a bracket a;

the motor a is arranged on the bracket a;

the mounting shaft a is fixedly connected with the output end of the motor a and is rotatably arranged on the bracket a; and

and the conveying belt a is rotatably arranged on the mounting shaft a.

Preferably, the rolling member comprises:

the mounting shaft b is positioned above the mounting shaft a and is rotatably arranged with the bracket a;

the conveying belt b is rotatably arranged on the mounting shaft b; and

the twill strip is arranged on the conveying belt b;

the mounting shaft a and the mounting shaft b are rotationally connected through a belt; the conveying speed of the conveyer belt a is V1, the conveying speed of the conveyer belt b is V2, and V1 < V2.

Preferably, the straightening member includes:

the fixed block is fixedly arranged on the conveying belt a;

the sliding groove is formed in the conveying belt a;

the sliding block is arranged on the sliding groove in a sliding mode; and

and one end of the spring a is fixedly connected with the sliding block, and the other end of the spring a is fixedly connected with the sliding block.

Preferably, the pole plate mounting mechanism includes:

the bracket b is arranged on one side of the bracket a and is arranged along the linear direction of the bracket a;

the motor b is arranged on the bracket b;

the mounting shaft c is rotatably arranged on the bracket b and is fixedly connected with the output end of the motor b;

the conveying belt c is rotatably arranged on the mounting shaft c; and

the through holes are formed in the conveying belt c and are arranged in a plurality of groups at equal intervals along the length direction of the conveying belt c.

Preferably, the mold assembly comprises:

the U-shaped block is vertically and slidably arranged in the through hole and is arranged in an inverted manner;

the connecting rod a is fixedly connected with the bottom of the U-shaped block;

the supporting rail a is installed on the base; and

and the spring b is installed on the support rail a, and the extending end of the spring b is fixedly connected with the connecting rod a.

Preferably, the transmission assembly comprises:

the rack a is fixedly connected with the connecting rod a and is vertically and upwards arranged;

the gear is mounted on the base through a mounting frame and is rotatably arranged on the mounting frame; and

the rack b is arranged on the other side of the gear opposite to the rack a, and the rack a are both meshed with the gear.

Preferably, the control assembly comprises:

the connecting rod b is fixedly connected with the rack b;

the supporting rail b is arranged on the base;

the spring c is installed on the support rail b, and the extending end of the spring c is fixedly connected with the connecting rod b; and

and the clamping piece is arranged along the width direction of the pole plate loading mechanism, and one side of the clamping piece is fixedly connected with the connecting rod b.

Preferably, the holder includes:

the long frame rod is arranged along the width direction of the pole plate mounting mechanism;

the positioning unit is arranged below the long frame rod and symmetrically arranged along the central line of the length of the long frame rod, and comprises a connecting frame, a rotating shaft a rotationally arranged on the connecting frame, a roller a which is coaxial with the rotating shaft a and fixedly arranged, a T-shaped groove arranged on the connecting frame, a rotating shaft b which is slidably arranged on the T-shaped groove, a roller b which is coaxial with the rotating shaft b and fixedly connected with the rotating shaft b, and an output plate which is fixedly arranged on the connecting frame and has an output end positioned above the roller b, wherein the output plate is arranged obliquely downwards, and the roller a and the roller b are arranged in a clearance manner; and

the horizontal pushing unit comprises a cylinder and a connecting rod c, wherein the cylinder is installed on the base, the extending end of the cylinder is vertically and upwards arranged, one end of the connecting rod c is fixedly connected with the extending end of the cylinder, and the other end of the connecting rod c is fixedly connected with the positioning unit.

Still preferably, the flat angle assembly includes:

one end of the support rod is fixedly connected with the rotating shaft a, and the other end of the support rod is rotatably connected with the rotating shaft b;

the upper end of the deflector rod a is fixedly arranged on the side wall of the roller a;

the waist groove is formed in the lower end of the driving lever a; and

and one end of the driving lever b is fixedly arranged on the roller b, and the other end of the driving lever b is arranged in the waist groove in a sliding manner through a sliding block.

The invention has the beneficial effects that:

(1) according to the invention, the zero line is synchronously and reversely pressed and formed by the mould assembly provided with the zero line bending mechanism and the control assembly, so that the traditional labor-consuming pressing and bending of the zero line is replaced, the zero line is buckled on the power supply and the integrated board, and the automation degree is high;

(2) according to the invention, the zero line loading mechanism is arranged to be matched with the control assembly, so that the zero line loading mechanism straightens zero lines with different specifications and forms into the same straight line state, and further the forming work of a subsequent die assembly is facilitated, the forming effect of the zero line is good, and the form of zero line wave fracture can not occur;

(3) according to the invention, the horizontal pushing unit is arranged to be matched with the control assembly, the drive is provided to enable the clamped zero line to move up and down, and the transmission assembly is used for driving the die assembly to press and form the zero line, so that the structure is ingenious, and the cost output is saved;

(4) according to the invention, the flat angle assembly is arranged to be matched with the control assembly, the zero line drives the roller a to rotate in the forming process, so that the roller b is driven to revolve around the roller a for a certain angle, the effect of straightening two ends of the zero line is further achieved, the zero line can be stably and accurately arranged on the switch and the wiring board, and the installation is rapid and convenient;

(5) according to the invention, the pole plate loading mechanism is arranged to be matched with the zero line loading mechanism to rotate reversely, so that the zero lines which are already installed on the switch and the wiring board can be output in time, and the whole equipment is closely linked in work.

To sum up, this equipment has simple structure, advantage that degree of automation is high, is particularly useful for switch board technical field.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a rapid assembly device for a power distribution cabinet.

Fig. 2 is a schematic structural diagram of the pole plate mounting mechanism.

Fig. 3 is a schematic top view of the neutral wire attachment mechanism.

Fig. 4 is a partially enlarged schematic view at a of fig. 3.

Fig. 5 is a partially enlarged schematic view at B of fig. 3.

Fig. 6 is a schematic structural view of the neutral bending mechanism.

Fig. 7 is a schematic view of the operating state of the neutral bending mechanism.

Fig. 8 is a schematic structural diagram of the control assembly.

Fig. 9 is a schematic structural view of a flat angle assembly.

Fig. 10 is a partially cross-sectional schematic view of the positioning unit.

Fig. 11 is a schematic view of a rotation state of the positioning unit.

Fig. 12 is a schematic view showing an initial state of the neutral wire forming operation.

Fig. 13 is a schematic view showing the final state of the neutral wire forming operation.

Figure 14 is a schematic view of the completed product with the neutral wire installed on the switch and terminal block.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1 and 11, a rapid assembly device for a power distribution cabinet includes:

the zero line loading mechanism 1 comprises a forward conveying piece 11, two groups of rolling pieces 12 which are arranged above the forward conveying piece 11 and symmetrically arranged along the center line of the width of the forward conveying piece 11, and a plurality of groups of straightening pieces 13 which are arranged along the forward conveying piece 11 at equal intervals;

the polar plate loading mechanism 2 is arranged opposite to the conveying direction of the forward conveying piece 11 and is positioned right below the forward conveying piece 11; and

zero line mechanism 3 of bending, zero line mechanism 3 of bending is including installing mould subassembly 31, the position of being in of 2 below of polar plate facial make-up mechanism 2 top set up and with control module 32, one end that mould subassembly 31 cooperation set up with mould subassembly 31 cooperation set up and its other end with drive assembly 33 that control module 32 cooperation set up with install flat angle subassembly 34 on the control module 32, drive assembly 33 installs on the mould subassembly 31.

In the embodiment, the mold assembly 31 and the control assembly 32 of the zero wire bending mechanism 3 are synchronously arranged to reversely press and mold the zero wire 10, so that the traditional labor force is replaced to bend the zero wire, the zero wire is buckled on the switch 30 and the wiring board 20, and the automation degree is high.

Further, as shown in fig. 3, the forward conveying member 11 includes:

a bracket a 111;

the motor a112, the motor a112 is mounted on the bracket a 111;

the mounting shaft a113, the mounting shaft a113 is fixedly connected with the output end of the motor a112 and is rotatably arranged on the bracket a 111; and

and the conveying belt a114, and the conveying belt a114 is rotatably arranged on the mounting shaft a 113.

In this embodiment, the forward conveying member 11 is provided to convey a batch of the zero wires 10, and the zero wire loading mechanism 1 straightens the zero wires 10 into a straight state and conveys the batch in turn.

Further, as shown in fig. 5, the rolling element 12 includes:

a mounting shaft b121, wherein the mounting shaft b121 is positioned above the mounting shaft a113 and is rotatably arranged with the bracket a 111;

the conveying belt b122 is rotationally arranged on the mounting shaft b 121; and

the twill strips 123, the twill strips 123 are disposed on the conveying belt b 122;

the mounting shaft a113 and the mounting shaft b121 are rotationally connected through a belt; the conveying speed of the conveyer belt a114 is V1, the conveying speed of the conveyer belt b122 is V2, and V1 < V2.

The inclined line strips 123 are protruding blocks, in order to increase the driving force for the conveyor belt b122 to drive the sliding blocks 133 to slide, the protruding-point inclined line strips 123 are used for driving and pushing the sliding blocks 133 to slide, so that the clamping force of the sliding blocks 133 and the fixed blocks 131 on the zero line 10 is improved, and in order to prevent the conveyor belt b122 from being worn, the height of the fixed blocks 131 is set to be lower than that of the sliding blocks 133, that is, the top ends of the fixed blocks 131 are not in contact with the conveyor belt b 122.

In this embodiment, the conveying directions of the conveying belts a114 and b122 are the same, and V1 < V2 is set, so that the conveying belts b122 drive the sliding block 133 to slide, and the clamping and straightening effects on the neutral wire 10 are realized by matching with the fixed block 131, when the sliding block 133 and the conveying belts b122 are in a non-contact state, the sliding block 133 automatically resets under the action of the spring a134, and the output of the neutral wire 10 and the continuous operation of the whole mechanism are facilitated.

Further, as shown in fig. 4, the straightening member 13 includes:

the fixed block 131 is fixedly arranged on the conveying belt a 114;

a sliding groove 132, wherein the sliding groove 132 is opened on the conveyor belt a 114;

a sliding block 133, wherein the sliding block 133 is slidably disposed on the sliding groove 132; and

and the spring a134 is positioned below the sliding slot 132, and one end of the spring a134 is fixedly connected with the sliding block 133 and the other end of the spring a134 is fixedly connected with the sliding block 133.

It is worth mentioning that the zero line 10 is uploaded to the forward conveying piece 11, and on one hand, the zero line 10 is longitudinally rolled by the aid of synchronous homodromous transmission of the forward conveying piece and the rolling piece 12, so that the zero line is not tilted, and on the other hand, the zero line 10 is straightened by the aid of the twill strips 123 of the rolling piece 12 and the twill strips 123 with opposite sides rotate, so that various irregular zero lines 10 are calibrated.

In addition, by arranging the motor a112 and driving the conveying belt a114 and the conveying belt b122 to rotate, power output is saved, and production cost is reduced.

Further, as shown in fig. 2, the pole plate mounting mechanism 2 includes:

a support b21, the support b21 is arranged at one side of the support a111 and is arranged along the linear direction of the support a 111;

a motor b22, the motor b22 is mounted on the bracket b 21;

a mounting shaft c23, wherein the mounting shaft c23 is rotatably arranged on the bracket b21 and is fixedly connected with the output end of the motor b 22;

the conveyer belt c24, the conveyer belt c24 is rotationally arranged on the mounting shaft c 23; and

the through holes 25 are formed in the conveying belt c24, and a plurality of groups of the through holes 25 are arranged at equal intervals along the length direction of the conveying belt c 24.

In the present embodiment, by providing the pole plate attaching mechanism 2 for conveying the terminal plate 20, when the terminal plate 20 is conveyed to just below the holder 324, the pole plate attaching mechanism 2 stops operating, and then the neutral wire 10 forming operation is completed.

In addition, the pole plate loading mechanism 2 is opposite to the conveying direction of the zero line loading mechanism 1, and the output plate 3267 and the roller b3266 are arranged in a clearance mode, so that the pole plate loading mechanism 2 can output the zero line 10 in time by using a transmission effect after the zero line 10 completes loading work.

Further, as shown in fig. 6, the mold assembly 31 includes:

the U-shaped block 311 is vertically and slidably arranged in the through hole 25, and the U-shaped block 311 is arranged in an inverted manner;

the connecting rod a312, the connecting rod a312 is fixedly connected with the bottom of the U-shaped block 311;

a support rail a313, the support rail a313 being mounted on the base 314; and

a spring b315, wherein the spring b315 is installed on the support rail a313 and the extending end thereof is fixedly connected with the connecting rod a 312.

In the present embodiment, the connecting rod a312 is supported by the spring b315 and slides up and down along the vertical direction of the supporting rail a313 by providing the U-shaped block 311 for pressing the neutral wire 10.

Further, as shown in fig. 6, the transmission assembly 33 includes:

the rack a331 is fixedly connected with the connecting rod a312 and is vertically arranged upwards;

a gear 332, wherein the gear 332 is mounted on the base 314 through a mounting bracket, and the gear 332 is rotatably arranged on the mounting bracket; and

and the rack b333 is arranged on the other side of the gear 332 opposite to the rack a331, and the rack a331 are both meshed with the gear 332.

In this embodiment, by providing the transmission assembly 33, the pushing force acting on the rack b333 is transmitted to the rack a331 through the gear 332, so that the rack a331 synchronously and reversely rotates, and further, the effect of the clamping member 324 for conveying and supporting the zero wire 10 downwards is achieved, and simultaneously, the U-shaped block 311 for jacking up the zero wire 10 is achieved, and the zero wire is immediately molded.

Further, as shown in fig. 6 and 7, the control assembly 32 includes:

the connecting rod b321, the connecting rod b321 is fixedly connected with the rack b 333;

a support rail b322, wherein the support rail b322 is installed on the base 314;

the spring c323 is installed on the support rail b322, and the extending end of the spring c323 is fixedly connected with the connecting rod b 321; and

and the clamping piece 324 is arranged along the width direction of the pole plate installing mechanism 2, and one side of the clamping piece 324 is fixedly connected with the connecting rod b 321.

In this embodiment, the connecting rod b321 is supported by the spring c323 so as to slide up and down along the supporting rail b322 in the vertical direction.

Further, as shown in fig. 8, 10 and 11, the clamp 324 includes:

a long frame rod 325, wherein the long frame rod 325 is arranged along the width direction of the pole plate mounting mechanism 2;

the positioning unit 326 is installed below the long frame rod 325 and symmetrically arranged along a center line of the length of the long frame rod 325, the positioning unit 326 comprises a connecting frame 3261, a rotating shaft a3262 rotatably arranged on the connecting frame 3261, a roller a3263 coaxially and fixedly arranged with the rotating shaft a3262, a T-shaped groove 3264 formed on the connecting frame 3261, a rotating shaft b3265 slidably arranged on the T-shaped groove 3264, a roller b3266 coaxially and fixedly connected with the rotating shaft b3265, and an output plate 3267 fixedly arranged on the connecting frame 3261 and having an output end positioned above the roller b3266, wherein the output plate 3267 is obliquely arranged downwards, and the roller a3263 and the roller b3266 are arranged in a clearance mode; and

the horizontal pushing unit 327 includes a cylinder 3271 mounted on the base 314 and having an extended end thereof disposed vertically upward, and a connecting rod c3272 having one end fixedly connected to the extended end of the cylinder 3271 and the other end fixedly connected to the positioning unit 326.

It is worth mentioning here that the positioning unit 326 and the mold assembly 31 are automatically controlled to rotate in opposite directions by providing a horizontal pushing unit 327 acting on the positioning unit 326.

Further, with the setting positioning unit 326, the zero wire 10 that is led out is entered between the roll a3263 and the roll b3266 along the output plate 3267, so that the roll a3263 and the roll b3266 clamp the zero wire 10; meanwhile, the rotation shaft b3265 is supported by the T-shaped groove 3264 so as to be arranged in parallel with the rotation shaft a 3262.

Example two

As shown in fig. 9, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that:

further, as shown in fig. 9, the flat angle assembly 34 includes:

a support rod 341, one end of the support rod 341 is fixedly connected with the rotation shaft a3262, and the other end thereof is rotatably connected with the rotation shaft b 3265;

the upper end of the driving lever a342 is fixedly arranged on the side wall of the roller a 3263;

the waist groove 343, the said waist groove 343 is opened in the lower end of the said driving lever a 342; and

and one end of the shift lever b344 is fixedly arranged on the roller b3266, and the other end of the shift lever b344 is arranged in the waist groove 343 in a sliding manner through a sliding block.

In this embodiment, the roller b3266 and the roller a3263 are connected together by the support rod 341, the zero line 10 is arched upwards by the U-shaped block 311, so as to drive the roller a3263 to rotate, it is worth to say that the shift lever a342 is eccentrically arranged on the side wall of the roller a3263, the shift lever a342 is hinged with the shift lever b344, so as to drive the roller b3266 to revolve around the roller a3263 in the opposite direction, and further achieve the effect of horizontally straightening the end of the zero line, so that the two ends of the zero line are conveniently installed on the switch 30 and the wiring board 20 transmitted by the pole plate installing mechanism 2; in addition, the friction force between the roller and the zero line can be reduced by utilizing rolling friction, and the quality of the zero line is ensured.

In addition, through setting up straight angle subassembly 34 cooperation control assembly 32, zero line 10 drives roller a3263 and rotates at the in-process of shaping to drive roller b3266 and revolve a certain angle around roller a3263, and then reach the effect of flare-outing to zero line 10 both ends, make its stable accurate settling on switch 30 and wiring board 20, the swift convenient and fast convenient installation

The working process is as follows:

firstly, a motor a112 is started, the zero line 10 is placed on a conveyer belt a114 and conveyed backwards, the zero line 10 passes through a rolling piece 12, under the action of a conveyer belt b122, a sliding block 133 compresses a spring a134 and is compressed and advanced along a sliding groove 132 towards a fixed block 131, the zero line 10 is straightened for the first time and is smoothed out towards two sides under the action of a twill 123, the zero line 10 is output and enters between a roller a3263 and a roller b3266 along an output plate 3267, the motor b22 is stopped at the moment, then, an air cylinder 3271 is started, a connecting rod c3272 drives a connecting frame 3261 to move downwards and simultaneously drives a connecting rod b321 to move downwards, a rack b333 drives a gear 332 to rotate and further drives a rack a331 to move upwards, so that a U-shaped block 311 passes through a through hole 25 to press and form the zero line 10, then a roller a3263 rotates and further drives a roller 3266 to rotate, the zero line 10 is straightened, then the zero line 10 stably falls on a switch 30 and a terminal plate 20, and the, the conveyor belt c24 carries the neutral wire 10 away from the output.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (2)

1. The utility model provides a quick assembly equipment for switch board which characterized in that includes:

the zero line loading mechanism (1) comprises a forward conveying piece (11), two groups of rolling pieces (12) which are arranged above the forward conveying piece (11) and symmetrically arranged along the center line of the width of the forward conveying piece (11), and a plurality of groups of straightening pieces (13) which are arranged along the forward conveying piece (11) at equal intervals;

the polar plate loading mechanism (2), the polar plate loading mechanism (2) and the forward conveying piece (11) are arranged in the opposite conveying direction and are positioned right below the forward conveying piece (11); and

the zero line bending mechanism (3) comprises a mould assembly (31) arranged below the pole plate loading mechanism (2), a control assembly (32) arranged above the pole plate loading mechanism (2) and matched with the mould assembly (31), a transmission assembly (33) with one end matched with the mould assembly (31) and the other end matched with the control assembly (32), and a straight angle assembly (34) arranged on the control assembly (32), wherein the transmission assembly (33) is arranged on the mould assembly (31);

the forward conveying member (11) comprises:

a bracket a (111);

a motor a (112), wherein the motor a (112) is installed on the bracket a (111);

the mounting shaft a (113), the mounting shaft a (113) is fixedly connected with the output end of the motor a (112) and is rotatably arranged on the bracket a (111); and

the conveyer belt a (114), the conveyer belt a (114) is rotatably arranged on the mounting shaft a (113);

the rolling element (12) comprises:

a mounting shaft b (121), wherein the mounting shaft b (121) is positioned above the mounting shaft a (113) and is rotatably arranged with the bracket a (111);

the conveying belt b (122), the conveying belt b (122) is rotatably arranged on the mounting shaft b (121); and

a twill strip (123), the twill strip (123) being disposed on the conveyor belt b (122);

the mounting shaft a (113) and the mounting shaft b (121) are rotationally connected through a belt; the conveying speed of the conveying belt a (114) is V1, the conveying speed of the conveying belt b (122) is V2, and V1 < V2;

the pole plate loading mechanism (2) comprises:

a bracket b (21), wherein the bracket b (21) is arranged at one side of the bracket a (111) and is arranged along the linear direction of the bracket a (111);

a motor b (22), wherein the motor b (22) is arranged on the bracket b (21);

the mounting shaft c (23) is rotatably arranged on the bracket b (21) and is fixedly connected with the output end of the motor b (22);

the conveying belt c (24) is rotatably arranged on the mounting shaft c (23); and

the passing holes (25) are formed in the conveying belt c (24), and a plurality of groups of the passing holes (25) are arranged at equal intervals along the length direction of the conveying belt c (24);

the mold assembly (31) comprises:

the U-shaped block (311) is vertically and slidably arranged in the passing hole (25), and the U-shaped block (311) is arranged in an inverted mode;

the connecting rod a (312) is fixedly connected with the bottom of the U-shaped block (311);

a support rail a (313), the support rail a (313) being mounted on a base (314); and

the spring b (315) is installed on the support rail a (313) and the extending end of the spring b (315) is fixedly connected with the connecting rod a (312);

the transmission assembly (33) comprises:

the rack a (331) is fixedly connected with the connecting rod a (312) and is vertically arranged upwards;

a gear (332), wherein the gear (332) is mounted on the base (314) through a mounting frame, and the gear (332) is rotatably arranged on the mounting frame; and

the rack b (333), the rack b (333) is arranged on the other side of the gear (332) opposite to the rack a (331), and the rack a (331) are both meshed with the gear (332);

the control assembly (32) comprises:

the connecting rod b (321), the connecting rod b (321) is fixedly connected with the rack b (333);

a support rail b (322), the support rail b (322) being mounted on the base (314);

the spring c (323) is installed on the support rail b (322) and the extending end of the spring c (323) is fixedly connected with the connecting rod b (321); and

the clamping piece (324) is arranged along the width direction of the pole plate mounting mechanism (2), and one side of the clamping piece (324) is fixedly connected with the connecting rod b (321);

the clip (324) includes:

the long frame rod (325) is arranged along the width direction of the pole plate mounting mechanism (2);

the positioning unit (326) is installed below the long rack rod (325) and symmetrically arranged along a center line of the length of the long rack rod (325), the positioning unit (326) comprises a connecting frame (3261), a rotating shaft a (3262) rotatably arranged on the connecting frame (3261), a roller a (3263) which is coaxial with the rotating shaft a (3262) and fixedly arranged, a T-shaped groove (3264) formed in the connecting frame (3261), a rotating shaft b (3265) slidably arranged on the T-shaped groove (3264), a roller b (3266) which is coaxial with the rotating shaft b (3265) and fixedly connected with the rotating shaft b (3265), and an output plate (3267) which is fixedly installed on the connecting frame (3261) and has an output end located above the roller b (3266), the output plate (3267) is obliquely arranged downwards, and the roller a (3263) and the roller b (3266) are arranged at intervals; and

the horizontal pushing unit (327) comprises a cylinder (3271) which is installed on the base (314) and the extending end of the cylinder is vertically arranged upwards, and a connecting rod c (3272) of which one end is fixedly connected with the extending end of the cylinder (3271) and the other end is fixedly connected with the positioning unit (326);

the flat angle assembly (34) includes:

one end of the supporting rod (341) is fixedly connected with the rotating shaft a (3262), and the other end of the supporting rod (341) is rotatably connected with the rotating shaft b (3265);

the upper end of the deflector rod a (342) is fixedly arranged on the side wall of the roller a (3263);

the waist groove (343), the said waist groove (343) is set up in the lower end of the said deflector rod a (342); and

one end of the shifting lever b (344) is fixedly arranged on the roller b (3266), and the other end of the shifting lever b (344) is arranged in the waist groove (343) in a sliding mode through a sliding block.

2. A rapid assembly device for electrical distribution cabinets according to claim 1, characterized in that said straightening element (13) comprises:

the fixing block (131) is fixedly arranged on the conveying belt a (114);

a sliding groove (132), wherein the sliding groove (132) is arranged on the conveyor belt a (114);

a sliding block (133), wherein the sliding block (133) is arranged on the sliding groove (132) in a sliding manner; and

the spring a (134) is positioned below the sliding groove (132), one end of the spring a (134) is fixedly connected with the sliding block (133), and the other end of the spring a (134) is fixedly connected with the sliding block (133).

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