CN116613662B - Industrial electrical power distribution cabinet terminal strip mounting equipment and process - Google Patents

Abstract

The invention relates to the technical field of industrial electrical power distribution cabinet installation, in particular to industrial electrical power distribution cabinet terminal block installation equipment and a process. The clamping plate alignment mechanism can automatically align the wire clamping plates, can directly mount the wire clamping plates after the position calibration of the whole row of terminal rows, avoid the operation of recalibration after manual mounting, and save a large amount of mounting time at the same time, so that the mounting efficiency is greatly improved, the lower end of the electronic end is clamped firstly and then pushed up along the upper end during the simulation of manual mounting, the electronic end is clamped on the wiring clamping plates, and the rigid pressing of the terminal rows is avoided, thereby influencing the normal use of the industrial electrical power distribution cabinet.

Description

Industrial electrical power distribution cabinet terminal strip mounting equipment and process

Technical Field

The invention relates to the technical field of industrial electrical power distribution cabinet installation, in particular to industrial electrical power distribution cabinet terminal strip installation equipment and process.

Background

An industrial electrical power distribution cabinet is a device for carrying, distributing and protecting an electrical power system, which contains various electrical components, typically installed in an industrial site or large building. Therefore, in order to make the industrial electrical power distribution cabinet normally and safely usable, electrical components such as terminal blocks and the like need to be installed in the industrial electrical power distribution cabinet so as to ensure the stable operation and the safety of the power system in the actual operation process.

At present, a proper hole site is usually formed in a power distribution cabinet in a terminal strip mounting step, a wiring clamping plate is fixed in the hole site by utilizing a bolt, then the position and the number of terminal strips are determined, proper types and specifications are selected, the terminal strips are pressed on the wiring clamping plate one by one manually, the terminal strips are clamped on the wiring clamping plate, the positions of the terminal strips in rows are calibrated after the clamping is finished, and then the terminal strips can be connected with wires of a main circuit or other electrical equipment, and although the current terminal strip mounting process is high in operability, the following defects still exist: 1. the terminal strip is required to be manually installed one by one in the installation process, but a large amount of time is required to be consumed for installation because a large number of terminal strips are required in the industrial electrical power distribution cabinet, and fingers of operators are easily clamped in the process of clamping the terminal strips and the wiring clamping plates, so that certain injury can be caused to the operators.

2. After installation, the terminal strip installed on the wiring clamping plate needs to be manually adjusted, the position of the terminal strip needs to be realigned, and the terminal strip is difficult to align accurately manually, so that the terminal strip is crushed when the alignment operation is improper, and the use of the industrial electrical power distribution cabinet is directly affected.

Therefore, in order to ensure that an internal power system of the industrial electrical power distribution cabinet can stably run and be safe in the actual running process, the invention provides the industrial electrical power distribution cabinet terminal strip mounting equipment and the industrial electrical power distribution cabinet terminal strip mounting process.

Disclosure of Invention

In order to solve the technical problems, the invention provides a terminal block mounting device and a terminal block mounting process for an industrial electrical power distribution cabinet, which are achieved by the following specific technical means.

The utility model provides an industry electrical power distribution cabinet terminal strip erection equipment, includes the fuselage, the rear surface fixed mounting of fuselage has the push away the handle, the place ahead of fuselage is provided with the wiring cardboard, the front surface of fuselage is provided with cardboard counterpoint mechanism.

The clamping plate alignment mechanism comprises a transverse positioning part fixedly arranged on the front surface of the machine body, a vertical positioning part is arranged in the transverse positioning part in a sliding manner, and the vertical positioning part moves along with the transverse positioning part to align the wiring clamping plate.

The interior of the body is provided with a mounting mechanism which concentrates and aligns the terminal rows.

The installation mechanism comprises a rotating part which is rotatably installed in the machine body, two ends of the rotating part are provided with transverse limiting parts which are transversely aligned, a plurality of moving parts are slidably installed in the rotating part in a linear array mode, and terminal rows are borne on the moving parts.

The rear end of the installation mechanism is fixedly provided with a clamping mechanism for simulating manual installation.

The clamping mechanism comprises an inclined part fixedly arranged at the rear end of the rotating part, and a pushing part is slidably arranged in the inclined part.

As a preferable technical scheme of the invention, the transverse fixing part comprises a screw rod, a first motor, a limit slide rod and a screw sleeve slide block, wherein the screw rod is rotatably arranged at the upper end of the front surface of the machine body through a bearing bracket, the first motor is fixedly arranged at the upper end of the machine body, the output end of the first motor is meshed with one end of the screw rod through a bevel gear, the lower end of the front surface of the machine body is provided with the bearing bracket, the limit slide rod is rotatably arranged at the lower end of the front surface of the machine body, the vertical positions of the limit slide rod and the screw rod are identical, the screw sleeve slide blocks are in threaded connection with the surfaces of the screw rod and the limit slide rod in a point symmetry manner, the vertical positions of the upper screw sleeve slide block and the lower screw sleeve slide block are identical, and the lower screw sleeve slide block is fixedly provided with a second motor.

As a preferable technical scheme of the invention, the vertical fixing part comprises a vertical screw rod, a locating rod, clamping blocks and a baffle plate, wherein the vertical screw rod is rotatably arranged between the upper and lower swivel nut sliding blocks, the locating rod is fixedly arranged between the upper and lower swivel nut sliding blocks, the clamping blocks are symmetrically and vertically connected on the surface of the vertical screw rod through the arranged threaded sleeves, the locating rods penetrate through the upper and lower clamping blocks to limit the moving direction of the vertical screw rod, the baffle plate is fixedly arranged on one side wall of the left and right swivel nut sliding blocks, which is far away from each other, and the output end of the second motor is sleeved with the vertical screw rod.

As a preferable technical scheme of the invention, the rotating part comprises a rotating square frame, bearing bolts and a pressing plate, wherein the rotating square frame is rotatably arranged in the machine body, the rotating square frame is arranged in a concave mode, the upper surfaces of the left end and the right end of the rotating square frame are respectively and spirally connected with the bearing bolts through threaded grooves, the pressing plate is fixedly arranged at the upper ends of the left end and the right end of the bearing bolts, and a foam cushion is arranged at the lower surface of the pressing plate.

As a preferable technical scheme of the invention, the transverse limiting part comprises a rotating shaft cylinder, sliding hole grooves and limiting screws, the rotating shaft cylinder is symmetrically arranged on the side walls of the left end and the right end of the rotating square frame in a rotating way through bearings, the sliding hole grooves are symmetrically arranged on the left end and the right end of the machine body, the rotating square frame is in sliding connection in the sliding hole grooves on the two sides through the rotating shaft cylinder, the limiting screws are in threaded connection in the rotating shaft cylinder, and penetrate through the rotating square frame, and a sponge pad is arranged on one side wall, close to each other, of the limiting screws.

As a preferable technical scheme of the invention, the moving following part comprises a sliding plate, a spring telescopic rod and a clamping plate, a plurality of sliding plates are slidingly connected with a concave part of the rotating square frame through a plurality of sliding grooves formed in a linear array mode, the spring telescopic rod is fixedly arranged at the lower end of the sliding plate, the rear end of the spring telescopic rod is fixedly connected with the rear end of the sliding plate, the clamping plate is rotatably arranged on the rear surface of the rotating square frame and on the left side and the right side of the sliding plate through hinges, the left side and the right side of the sliding plate are provided with protruding blocks, and bearing blocks corresponding to the lower ends of the terminal rows are arranged on the upper surface of the sliding plate.

As a preferable technical scheme of the invention, the inclined part comprises a holding rod, a push-pull rod and a push plate, wherein the holding rod is fixedly arranged on the upper side of the rear surface of the rotating square frame, the surface of the holding rod is fixedly provided with a plurality of push-pull rods in a sliding manner through sliding drums which are fixedly arranged in a linear array manner, and the rear ends of the plurality of push-pull rods are fixedly connected with the push plate together.

As a preferable technical scheme of the invention, the pushing part comprises a limit push plate, springs and triangular supports, a plurality of springs are fixedly arranged between the push plate and the holding rod in a linear array mode, the triangular supports are fixedly arranged on the left side and the right side of the push-pull rod, and the front ends of the push-pull rods and the triangular supports are fixedly connected with the limit push plate.

In addition, the invention also provides an industrial electrical power distribution cabinet terminal strip mounting process, which comprises the following specific steps: s1: installing a wiring clamping plate in an industrial electrical power distribution cabinet: and the wiring clamping plate is fixedly installed in the industrial electrical power distribution cabinet by utilizing bolts according to requirements.

S2: placing the terminal strip on a rotating square frame: the terminal rows meeting the requirements are placed on the following moving parts on the rotating square frame one by one.

S3: aligning the terminal strip on the rotating square frame: the terminal strip is aligned on the following part by rotating the rotating part and the transverse limiting part.

S4: a pair of Ji Jiexian clamping plates; the machine body is attached to the inner side of the industrial electrical power distribution cabinet, and the clamping plate alignment mechanism is started to clamp the machine body on the alignment wiring clamping plate.

S5: simulating a manual whole row of mounting terminal rows: the rotary square frame is pushed forward through the holding rod, the lower end of the rotary square frame is tilted, and the terminal strip is clamped on the wiring clamping plate through the clamping mechanism.

Compared with the prior art, the invention has the following beneficial effects: 1. this industry electrical power distribution cabinet terminal row erection equipment and technology uses through cardboard counterpoint mechanism and installation mechanism's cooperation each other, only need collect the terminal row and place on the rotating square frame can, cardboard counterpoint mechanism can be by oneself to wiring cardboard accuracy counterpoint, just need not the manual work directly to participate in the joint process afterwards to avoid clamping in-process to press from both sides the condition emergence of operating personnel's finger.

2. This industry electrical power distribution cabinet terminal row erection equipment and technology uses through the mutually supporting of installation mechanism and cardboard counterpoint mechanism, can directly install after the position calibration of the terminal row of whole row, avoid the operation of recalibration after the manual installation, can save a large amount of installation time again simultaneously for installation effectiveness obtains very big promotion.

3. This industry electrical distribution cabinet terminal row erection equipment and technology uses through the screens mechanism that sets up, earlier card electron end lower extreme when simulating artifical installation pushes away the upper end again, with its card on the wiring cardboard, avoids hard pressing to crush the terminal row to influence the normal use of industry electrical distribution cabinet.

Drawings

Fig. 1 is a schematic perspective view of a fuselage of the present invention.

Fig. 2 is a schematic view of the internal perspective structure of the fuselage of the present invention.

Fig. 3 is a schematic perspective view of a card board alignment mechanism according to the present invention.

Fig. 4 is a schematic perspective view of a rotating portion and a lateral limiting portion according to the present invention.

Fig. 5 is a schematic perspective view of a detent mechanism of the present invention.

Fig. 6 is a schematic cross-sectional perspective view of the lateral limiting portion of the present invention.

Fig. 7 is a schematic perspective view of a card board according to the present invention.

Fig. 8 is a schematic cross-sectional perspective view of the lateral limiting portion of the present invention.

In the figure: 1. a body; 2. pushing the handle; 3. a wiring clamping plate; 4. a clamping plate alignment mechanism; 41. a transverse fixing part; 411. a screw; 412. a first motor; 413. a limit slide bar; 414. a swivel nut sliding block; 42. a vertical portion; 421. a vertical screw; 422. a positioning rod; 423. clamping blocks; 424. a baffle plate; 5. a mounting mechanism; 51. a rotating part; 511. rotating the square frame; 512. a bearing bolt; 513. a pressing plate; 52. a lateral limit part; 521. a rotating shaft cylinder; 522. a slide hole groove; 523. a limit screw; 53. a moving part; 531. a slide plate; 532. a spring telescoping rod; 533. a clamping plate; 6. a clamping mechanism; 61. an inclined portion; 611. a grip; 612. a push-pull rod; 613. a push plate; 62. a pushing part; 621. a limit push plate; 622. a spring; 623. triangular support frame.

Detailed Description

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

Referring to fig. 1, an industrial electrical power distribution cabinet terminal block mounting device comprises a machine body 1, wherein a push handle 2 is fixedly mounted on the rear surface of the machine body 1, a wiring clamping plate 3 is arranged in front of the machine body 1, and a clamping plate alignment mechanism 4 is arranged on the front surface of the machine body 1.

Referring to fig. 3, the board alignment mechanism 4 includes a horizontal fixing portion 41 fixedly mounted on the front surface of the machine body 1, a vertical fixing portion 42 is slidably mounted in the horizontal fixing portion 41, and the vertical fixing portion 42 moves along with the horizontal fixing portion 41 to align the wiring board 3.

Referring to fig. 4-8, the interior of the body 1 is provided with a mounting mechanism 5 defined therein for centralizing and aligning the terminal blocks.

The mounting mechanism 5 comprises a rotating part 51 rotatably mounted in the machine body 1, two ends of the rotating part 51 are provided with transverse limiting parts 52 which are transversely aligned, a plurality of following parts 53 are slidably mounted in the rotating part 51 in a linear array mode, and terminal rows are borne on the following parts 53.

Referring to fig. 5 to 7, a clamping mechanism 6 simulating manual installation is fixedly arranged at the rear end of the installation mechanism 5.

The detent mechanism 6 includes an inclined portion 61 fixedly mounted at the rear end of the rotating portion 51, and a push portion 62 is slidably mounted inside the inclined portion 61.

During specific work, before the industrial electrical power distribution cabinet is installed, a proper hole site is formed in a corresponding position in the power distribution cabinet by using a tool, the wiring clamping plate 3 is fixed in the hole site by using bolts, then the position and the number of the terminal blocks are determined according to the wiring clamping plate 3, and proper models and specifications are selected, so that the corresponding terminal block clamping ends can be placed on the sliding plate 531 forwards.

Referring to fig. 4, the rotating portion 51 includes a rotating square frame 511, a bearing bolt 512 and a pressing plate 513, the rotating square frame 511 is rotatably mounted in the machine body 1, the rotating square frame 511 is concave, the upper surfaces of the left and right ends of the rotating square frame 511 are respectively and fixedly connected with the bearing bolt 512 through a threaded groove, the pressing plate 513 is fixedly mounted at the upper ends of the left and right bearing bolts 512, and a foam cushion is arranged on the lower surface of the pressing plate 513.

When the terminal strip is placed, the inclined plane of the lower end of the terminal strip is just supported by the bearing blocks of the sliding plate 531, so that the terminal strip can be placed vertically by the sliding plate 531, the terminal strip is prevented from falling onto the sliding plate 531, the bearing bolts 512 at the two ends are rotated firstly, the terminal strip is enabled to be continuously lowered with the pressing plate 513, the terminal strip on the sliding plate 531 is just pressed by the pressing plate 513 finally, the sponge cushion of the pressing plate 513 can prevent the terminal strip from being excessively extruded, and the positioning of the vertical part is completed.

Referring to fig. 4 and 8, the lateral limiting portion 52 includes a rotating shaft drum 521, a sliding hole groove 522 and a limiting screw 523, the rotating shaft drum 521 is symmetrically rotatably mounted on the side walls of the left and right ends of the rotating square frame 511 through bearings, the sliding hole groove 522 is symmetrically formed on the left and right ends of the machine body 1, the rotating square frame 511 is slidably connected in the sliding hole grooves 522 on the two sides through the rotating shaft drum 521, the limiting screw 523 is in threaded connection with the inside of the rotating shaft drum 521, the limiting screw 523 penetrates through the rotating square frame 511, and a sponge pad is disposed on the side wall of the limiting screw 523 close to each other.

When the positioning of the vertical part is completed, the two side limit screws 523 are rotated simultaneously, and the two side limit screws 523 are continuously moved towards the center under the cooperation of the rotating shaft barrel 521, so that the terminal row phase center is continuously pushed until the two side limit screws 523 are not moved, the rotation is stopped and reversely rotated for one circle, the positioning of the transverse part is completed, and the terminal row is just positioned on the slide plate 531 at the center.

Referring to fig. 3, the horizontal fixing portion 41 includes a screw 411, a first motor 412, a limit sliding rod 413 and a threaded sleeve slider 414, the upper end of the front surface of the machine body 1 is rotatably provided with the screw 411 by setting a bearing bracket, the upper end of the machine body 1 is fixedly provided with the first motor 412, the output end of the first motor 412 is engaged with one end of the screw 411 by a set bevel gear, the lower end of the front surface of the machine body 1 is provided with the bearing bracket and rotatably provided with the limit sliding rod 413, the vertical positions of the limit sliding rod 413 and the screw 411 are the same, the surfaces of the screw 411 and the limit sliding rod 413 are in threaded connection with the threaded sleeve slider 414 in a point-symmetry manner, the vertical positions of the upper and lower threaded sleeve sliders 414 are the same, and the lower threaded sleeve slider 414 is fixedly provided with a second motor.

When the terminal strip is fixed, the machine body 1 is pressed close to the inner side of the industrial electrical power distribution cabinet through the pushing handle 2, the wiring clamping plate 3 is positioned between the screw 411 and the limiting slide bar 413, and then an operator needs to press against the pushing handle 2 to always press the machine body 1 against the inner side of the industrial electrical power distribution cabinet.

Then, the first motor 412 is started to rotate with the screw 411, and the screw sleeve slide blocks 414 at the upper ends of the two sides are continuously close, at this time, the screw sleeve slide blocks 414 at the lower ends of the two sides are close at the same speed through the baffle plates 424, and when the screw sleeve slide blocks 414 at the two sides are close to the final point, the baffle plates 424 at the two sides are clamped at the left and right sides of the wiring clamping plate 3, so that the first motor 412 can be stopped.

Referring to fig. 3, the vertical fixing portion 42 includes a vertical screw 421, a positioning rod 422, a clamping block 423 and a blocking plate 424, the vertical screw 421 is rotatably installed between the upper and lower sleeve sliders 414, the positioning rod 422 is fixedly installed between the upper and lower sleeve sliders 414, the surface of the vertical screw 421 is vertically symmetrically threaded with the clamping block 423 through a set screw sleeve, the positioning rod 422 penetrates through the upper and lower clamping blocks 423 to limit the moving direction of the vertical screw 421, the blocking plate 424 is fixedly installed on a side wall of the left and right sleeve sliders 414 far away from each other, and the output end of the second motor is sleeved with the vertical screw 421.

When the machine works, the second motor can be started to continuously rotate with the vertical screw 421, the upper clamping block 423 and the lower clamping block 423 are continuously close to the center under the cooperation of the threaded sleeve, the positioning rod 422 can ensure that the clamping block 423 moves up and down along the vertical screw 421, and when the upper clamping block 423 and the lower clamping block 423 on two sides are clamped on the upper side and the lower side of the two ends of the wiring clamping plate 3, the second motor stops running, meanwhile, the pushing handle 2 is not required to be pushed, the threaded sleeve sliding blocks 414 on two sides push the left side and the right side of the wiring clamping plate 3 with the blocking plate 424, the upper clamping block 423 and the lower clamping block 423 push the upper end and the lower end of the wiring clamping plate 3, so that the machine body 1 is fixed on the wiring clamping plate 3, and the horizontal position of the terminal row on the sliding plate 531 is the same as that of the wiring clamping plate 3.

Referring to fig. 5-7, the moving portion 53 includes a sliding plate 531, a spring telescopic rod 532 and a clamping plate 533, a recess of the rotating square frame 511 is slidably connected with the sliding plate 531 through a plurality of sliding grooves formed in a linear array manner, the rotating square frame 511 is fixedly provided with the spring telescopic rod 532 at the lower end of the sliding plate 531, the rear end of the spring telescopic rod 532 is fixedly connected with the rear end of the sliding plate 531, the clamping plate 533 is rotatably mounted on the rear surface of the rotating square frame 511 and on the left and right sides of the sliding plate 531 through hinges, bumps are arranged on the left and right sides of the sliding plate 531, and bearing blocks corresponding to the lower ends of the terminal rows are arranged on the upper surface of the sliding plate 531.

Referring to fig. 5-7, the inclined portion 61 includes a holding rod 611, a push-pull rod 612 and a push plate 613, the holding rod 611 is fixedly mounted on the upper side of the rear surface of the rotating square frame 511, the surface of the holding rod 611 is slidably connected with a plurality of push-pull rods 612 through sliding drums fixedly mounted in a linear array manner, and the rear ends of the plurality of push-pull rods 612 are fixedly connected with the push plate 613 together.

Referring to fig. 5-7, the pushing portion 62 includes a limit push plate 621, springs 622 and a triangular support 623, a plurality of springs 622 are fixedly mounted between the push plate 613 and the holding rod 611 in a linear array manner, the triangular support 623 is fixedly mounted on both left and right sides of the push-pull rods 612, and the limit push plate 621 is fixedly connected to the front ends of the push-pull rods 612 and the triangular support 623.

In particular, during operation, the holding rod 611 is held to push the square rotating frame 511 forward, the rotating shaft barrels 521 at both sides slide forward in the sliding hole grooves 522, and when the rotating shaft barrels 521 are pushed to the forefront end of the sliding hole grooves 522, the terminal strip on the sliding plate 531 is pushed to the front of the wiring board 3, and the positioning rod 422 blocks part of the sliding plate 531 without the terminal strip, so that the sliding plate 531 is pushed backward under the action of the spring telescopic rod 532.

Then, the holding rod 611 is slightly pressed downwards, so that the rotating square frame 511 rotates around the rotating shaft barrel 521 as a center point, the front end of the sliding plate 531 with the terminal rows is lifted upwards by the rotating square frame 511, the bearing blocks on the sliding plate 531 can provide supporting force for the sliding plate 531, the sliding plate 531 can clamp the lower ends of the terminal rows in the whole rows into the lower parts of the wiring clamping plates 3, and the terminal rows are in an inclined state.

Then, an operator pushes the push plate 613 through the holding rod 611, so that the push plate 613 pushes the push-pull rod 612 to move forwards on the slide cylinder, and pushes the upper half part of the terminal row through the limiting push plate 621, so that the upper half part of the terminal row of the whole row is clamped at the upper end of the wiring clamping plate 3, in the process of pushing the push plate 613, the triangular support frame 623 can ensure that the limiting push plate 621 is uniformly stressed on the whole row of terminal row, and the triangular support frame 623 has a limiting effect when the limiting push plate 621 rebounds to the original position under the action of the spring 622.

After the installation is completed, the first motor 412 and the second motor can be reversely started, the machine body 1 is separated from the wiring clamping plate 3, and the next installation operation can be performed.

In addition, the invention also provides an industrial electrical power distribution cabinet terminal strip mounting process, which comprises the following specific steps: s1: installing a wiring clamping plate 3 in an industrial electrical power distribution cabinet: before the industrial electrical power distribution cabinet is installed, a proper hole site is formed in a corresponding position in the power distribution cabinet by using a tool, and the wiring clamping plate 3 is fixed in the hole site by using a bolt.

S2: the terminal block is placed on the rotating square frame 511: the positions and the number of the terminal blocks are then determined according to the wiring clamping plates 3, and the appropriate types and specifications are selected, so that the corresponding terminal blocks can be placed on the slide 531.

S3: the terminal rows will be aligned at the turret 511: after a certain number of terminal rows are placed, the bearing bolts 512 at the two ends are rotated at this time to make the bearing bolts continuously descend with the pressing plate 513, and finally the pressing plate 513 just presses the terminal rows on the slide plate 531 to complete the positioning of the vertical portion.

Then the limit screws 523 on both sides are rotated simultaneously to continuously push the centers of the terminal rows, and the terminal rows are reversely rotated for one turn after stopping the rotation, so that the positioning of the transverse part is completed, and the terminal rows are positioned on the slide plate 531 at the center.

S4: aligning the wiring clamping plate 3; the machine body 1 is attached to the inner side of the industrial electrical power distribution cabinet, the machine body 1 is attached to the inner side of the industrial electrical power distribution cabinet through the pushing handle 2, the wiring clamping plate 3 is positioned between the screw 411 and the limiting sliding rod 413, and then an operator needs to support the pushing handle 2 to always attach the machine body 1 to the inner side of the industrial electrical power distribution cabinet.

Then, the first motor 412 is started, the blocking plates 424 on both sides are clamped on the left and right sides of the wiring clamping plate 3 through the transverse fixing part 41, the first motor 412 can be stopped, then the second motor is started, when the clamping blocks 423 on both sides are clamped on the upper and lower sides of both ends of the wiring clamping plate 3 through the vertical fixing part 42, the second motor is stopped, and meanwhile, the machine body 1 is fixed on the wiring clamping plate 3 by the clamping plate alignment mechanism 4 without abutting against the pushing handle 2.

S5: simulating a manual whole row of mounting terminal rows: at this time, the holding bar 611 is held to push the rotating square frame 511 forward, and when the rotating shaft barrel 521 is pushed to the forefront end of the slide hole groove 522, the holding bar 611 is slightly pressed downward, so that the front end of the slide plate 531 with the terminal rows is lifted up by the rotating square frame 511, the slide plate 531 can clamp the lower end of the terminal rows with the whole rows under the wiring clamping plate 3, and the terminal rows are in an inclined state.

Then, the operator pushes the push plate 613 through the holding rod 611, so that the push plate 613 pushes the push rod 612 to move forward in the slide cylinder, and pushes the upper half part of the terminal block through the limit push plate 621, so that the upper half part of the terminal block of the whole row is clamped at the upper end of the wiring clamping plate 3.

After the installation is completed, the first motor 412 and the second motor can be reversely started, the machine body 1 is separated from the wiring clamping plate 3, and the next installation operation can be performed.

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

Claims (6)

1. An industrial electrical power distribution cabinet terminal strip installation equipment, includes fuselage (1), its characterized in that: the push handle (2) is fixedly arranged on the rear surface of the machine body (1), a wiring clamping plate (3) is arranged in front of the machine body (1), and a clamping plate alignment mechanism (4) is arranged on the front surface of the machine body (1);

the clamping plate alignment mechanism (4) comprises a transverse fixing part (41) fixedly arranged on the front surface of the machine body (1), a vertical fixing part (42) is slidably arranged in the transverse fixing part (41), and the vertical fixing part (42) moves along with the transverse fixing part (41) to align the wiring clamping plate (3);

the horizontal fixing part (41) comprises a screw rod (411), a first motor (412), a limit sliding rod (413) and a screw sleeve sliding block (414), wherein the screw rod (411) is rotatably installed at the upper end of the front surface of the machine body (1) through a bearing bracket, the first motor (412) is fixedly installed at the upper end of the machine body (1), the output end of the first motor (412) is in meshed connection with one end of the screw rod (411) through a bevel gear, the bearing bracket is rotatably installed at the lower end of the front surface of the machine body (1), the limit sliding rod (413) is identical to the screw rod (411) in vertical position, the screw sleeve sliding block (414) is symmetrically and uniformly connected with the surface of the screw rod (411) in a threaded manner, the vertical positions of the upper screw sleeve sliding block and the lower screw sleeve sliding block (414) are identical, and the lower screw sleeve sliding block (414) is fixedly provided with a second motor;

the vertical fixing part (42) comprises a vertical screw (421), a locating rod (422), clamping blocks (423) and a baffle plate (424), wherein the vertical screw (421) is respectively and rotatably arranged between the screw sleeve sliding blocks (414), the locating rod (422) is respectively and fixedly arranged between the screw sleeve sliding blocks (414), the clamping blocks (423) are respectively and vertically symmetrically connected to the surface of the vertical screw (421) through arranged threaded sleeves, the locating rods (422) respectively penetrate through the upper and lower clamping blocks (423) to limit the moving direction of the vertical screw, the baffle plate (424) is fixedly arranged on one side wall of each screw sleeve sliding block (414) far away from each other, and the vertical screw (421) is sleeved at the output end of the second motor;

a mounting mechanism (5) which is used for centralizing and aligning the terminal rows is arranged in the machine body (1);

the mounting mechanism (5) comprises a rotating part (51) rotatably mounted in the machine body (1), two ends of the rotating part (51) are provided with transverse limiting parts (52) which are transversely aligned, a plurality of moving parts (53) are slidably mounted in the rotating part (51) in a linear array mode, and terminal rows are borne on the moving parts (53);

the rear end of the mounting mechanism (5) is fixedly provided with a clamping mechanism (6) for simulating manual mounting;

the clamping mechanism (6) comprises an inclined part (61) fixedly arranged at the rear end of the rotating part (51), and a pushing part (62) is slidably arranged in the inclined part (61).

2. An industrial electrical power distribution cabinet terminal strip mounting apparatus as claimed in claim 1 wherein: the utility model discloses a machine frame is characterized in that rotation portion (51) includes rotation square frame (511), bearing bolt (512) and clamp plate (513), rotation square frame (511) is installed in the inside rotation of fuselage (1), and rotation square frame (511) are concave setting, both ends upper surface is all threaded connection has bearing bolt (512) through the thread groove of seting up about rotation square frame (511), control the upper end of bearing bolt (512) is fixed mounting jointly has clamp plate (513), and the lower surface of clamp plate (513) is provided with the foam-rubber cushion.

3. An industrial electrical power distribution cabinet terminal strip mounting apparatus as claimed in claim 2 wherein: the transverse limiting part (52) comprises a rotating shaft barrel (521), sliding hole grooves (522) and limiting screws (523), the rotating shaft barrel (521) is symmetrically installed on the side walls of the left end and the right end of the rotating square frame (511) through bearings, the sliding hole grooves (522) are symmetrically formed in the left end and the right end of the machine body (1), the rotating square frame (511) is slidably connected in the sliding hole grooves (522) on the two sides through the rotating shaft barrel (521), the limiting screws (523) are connected in the rotating shaft barrel (521) in a threaded mode, the limiting screws (523) penetrate through the rotating square frame (511), and sponge pads are arranged on one side walls, close to each other, of the limiting screws (523).

4. An industrial electrical power distribution cabinet terminal strip mounting apparatus as claimed in claim 2 wherein: the movable part (53) comprises a sliding plate (531), a spring telescopic rod (532) and a clamping plate (533), a plurality of sliding grooves are slidably connected with the sliding plate (531) in a concave position of the rotary square frame (511) in a linear array mode, the spring telescopic rod (532) is fixedly installed at the lower end of the sliding plate (531) in the rotary square frame (511), the rear end of the spring telescopic rod (532) is fixedly connected with the rear end of the sliding plate (531), the clamping plate (533) is installed on the rear surface of the rotary square frame (511) in a rotating mode through hinges, the clamping plates (533) are arranged on the left side and the right side of the sliding plate (531), bumps are arranged on the left side and the right side of the sliding plate (531), and bearing blocks corresponding to the lower ends of the terminal rows are arranged on the upper surface of the sliding plate (531).

5. An industrial electrical power distribution cabinet terminal strip mounting apparatus as claimed in claim 2 wherein: the inclined part (61) comprises a holding rod (611), a push-pull rod (612) and a push plate (613), the holding rod (611) is fixedly arranged on the upper side of the rear surface of the rotary square frame (511), a plurality of push-pull rods (612) are slidably connected to the surface of the holding rod (611) through sliding drums fixedly arranged in a linear array mode, and the push plate (613) is fixedly connected to the rear ends of the push-pull rods (612) together.

6. An industrial electrical power distribution cabinet terminal strip mounting apparatus as claimed in claim 5 wherein: the pushing part (62) comprises a limit push plate (621), springs (622) and a triangular support frame (623), a plurality of springs (622) are fixedly installed between the push plate (613) and the holding rod (611) in a linear array mode, the triangular support frame (623) is fixedly installed on the left side and the right side of the push-pull rod (612), and the limit push plate (621) is fixedly connected with the front end of the push-pull rod (612) and the triangular support frame (623) together.