CN213887954U

CN213887954U - Solar panel picking lead shaping device

Info

Publication number: CN213887954U
Application number: CN202022415236.5U
Authority: CN
Inventors: 冯鑫; 吕青涛
Original assignee: Suzhou Shengcheng Intelligent Equipment Co Ltd
Current assignee: Suzhou Shengcheng Intelligent Equipment Co Ltd
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2021-08-06
Anticipated expiration: 2030-10-27

Abstract

The utility model discloses a solar panel picks lead wire shaping device, this kind of solar panel picks lead wire shaping device include base subassembly, lead wire blanking subassembly, lead wire pick up the subassembly, lead wire alignment subassembly and lead wire shaping subassembly, base subassembly one side is installed with lead wire blanking subassembly, and lead wire blanking subassembly side is installed with the lead wire and is picked up the subassembly, and base subassembly bottom is installed with the lead wire and aligns the subassembly, and the other side of base subassembly is installed with lead wire shaping subassembly. In this way, the utility model discloses compact structure operates steadily, and the lead wire is picked up the subassembly through the lead wire and is shoveled, and lead wire blanking subassembly makes the lead wire reach certain angle of sticking up, and the lead wire aligns the subassembly adjustment lead wire and aligns, and lead wire plastic subassembly makes the lead wire extruded by the plastic tool, lets the lead wire be in vertical state.

Description

Solar panel picking lead shaping device

Technical Field

The utility model relates to a photovoltaic module makes technical field, especially relates to a solar panel picks line shaping device.

Background

With the increasing appeal of environmental protection, the country gradually changes the traditional power generation mode, increases the power generation proportion of new energy and clean energy, the solar power generation is developed rapidly, so the demand for solar components is increased rapidly, the solar panel has the requirement of erecting lead wires before being connected with a junction box, the lead wires are mostly horizontal, most of the solar panels are manually operated in the market at present, the horizontal lead wires are required to be lifted at a certain angle firstly, then the lead is punched and bent to be in a vertical state, at the moment, the lead has the phenomena of deflection and misalignment and needs further alignment operation, then need carry out vertical plastic with the lead wire, need the manual work to use different tool one-shot operation, the labour is big, and manual operation is inefficient, and is with high costs, based on above defect and not enough, it is necessary to improve current technique, designs a solar panel and chooses lead wire shaping device.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a solar panel chooses lead wire shaping device, compact structure, operates steadily, and the lead wire is picked up the subassembly through the lead wire and is shoveled, and lead wire blanking subassembly makes the lead wire reach certain angle of sticking up, and the lead wire aligns the subassembly adjustment lead wire and aligns, and lead wire shaping subassembly makes the lead wire extruded by the plastic tool, lets the lead wire be in vertical state.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a solar panel picks lead wire shaping device, this kind of solar panel picks lead wire shaping device includes base subassembly, lead wire blanking subassembly, lead wire and picks up the subassembly, lead wire alignment subassembly and lead wire shaping subassembly, base subassembly one side end is installed with lead wire blanking subassembly, and lead wire blanking subassembly side end is installed with lead wire and picks up the subassembly, and the base subassembly bottom is installed with the lead wire and aligns the subassembly, and the other side end of base subassembly is installed with lead wire shaping subassembly.

Preferably, the lead lifting assembly comprises a fixed plate, a lifting cylinder, a lifting frame, a push-pull cylinder, a push plate, a stripping connecting rod, a clamping plate and a guide block, wherein the lifting cylinder is installed at the front end of the fixed plate, a piston rod of the lifting cylinder is fixedly connected with the lifting frame through a connecting plate, two push-pull cylinders which are arranged in a back direction are installed on the front side surface of a vertical plate of the lifting frame, the push plate is installed on a piston rod of each push-pull cylinder, the lower end of the push plate is movably connected with the stripping connecting rod through a hinge pin, the two stripping connecting rods are oppositely arranged, the clamping plates are installed on two sides of the middle part of each stripping connecting rod, a hanging part is horizontally bent on the upper part of each clamping plate, the guide block is installed at the bottom of a horizontal plate of the lifting frame, bearing parts are outwards extended from the bottoms of two sides of the guide block, a rotary avoiding space is arranged between the hanging part and the bearing parts, and a downward inclined stripping part is arranged at the extending end of each stripping connecting rod, the head of the stripping part is provided with a stripping knife edge.

Preferably, lead wire blanking subassembly includes blanking mounting panel, blanking lift cylinder, regulating plate, linear slide rail, fly leaf, elastic component and blanking unit, and on the blanking mounting panel was fixed in the base subassembly, install blanking lift cylinder on the blanking mounting panel, the vertical direction of blanking lift cylinder drive regulating plate removed, and two vertical linear slide rails are installed to the regulating plate leading flank, install the fly leaf on linear slide rail's the slider, and the regulating plate passes through elastic component and fly leaf swing joint, and fly leaf leading flank installs the blanking unit, elastic component includes spring and spring limiting plate, the spring passes through connecting plate and fly leaf fixed connection, and the spring limiting plate is installed to the regulating plate rear side, and the other end and the spring limiting plate of spring are connected.

Preferably, the blanking unit comprises a guide slide rail, a slider mounting plate, a pen-shaped cylinder, extrusion blocks and a bending positioning block, the guide slide rail is horizontally arranged on a movable plate, the slider mounting plate is mounted on two sliders on the guide slide rail, the pen-shaped cylinder is mounted on the movable plate at two ends of the guide slide rail, a piston rod of the pen-shaped cylinder is fixedly connected with the slider mounting plate through a floating joint connecting piece, the extrusion blocks are mounted at the lower end of the slider mounting plate and oppositely arranged, the bending positioning block is arranged between the two extrusion blocks, the bending positioning block is fixed on the movable plate, a V-shaped guide inclined plane is arranged at the front end of the bending positioning block, and a bending part extending out of the bottom of the extrusion block is opposite to the lower part of the bending positioning block.

Preferably, the lead aligning component comprises an aligning mounting plate, an adjusting slide rail, a cylinder mounting plate, a limiting block, an adjusting screw, a two-way cylinder, a clamping jaw mounting plate, a first clamping jaw, a second clamping jaw and an adjusting bolt, the aligning mounting plate is arranged at the bottom of the base component, the adjusting slide rail is arranged at the lower end of the aligning mounting plate, the cylinder mounting plate is arranged on a slide block of the adjusting slide rail, the limiting block is arranged at the side end of the cylinder mounting plate, the adjusting screw of the two-way limiting block is arranged at the lower end of the aligning mounting plate through a connecting plate, the two-way cylinder is arranged at the lower end of the cylinder mounting plate, the clamping jaw mounting plate is arranged on two clamping arms of the two-way cylinder, the first clamping jaw and the second clamping jaw are respectively arranged on the two clamping jaw mounting plates, the lower bottom surface of the first clamping jaw is positioned on the upper plane of the second clamping jaw, two pairs of aligning notches are arranged on the second clamping jaw, and the opening of the aligning notches is horn-shaped, the lead wires are convenient to enter the alignment notches, and an adjusting bolt is arranged on one clamping jaw mounting plate to match the lead wires with different widths.

Preferably, the lead shaping assembly comprises a shaping mounting plate, a lifting adjusting bolt, a lifting adjusting plate, a shaping guide rail, a sliding plate, a shaping cylinder, a shaping limiting plate, a buffer, a limiting column, a shaping block and a shaping positioning block, the shaping mounting plate is fixed on the base assembly, the front side of the shaping mounting plate is provided with the lifting adjusting bolt at the front end, the lifting adjusting bolt is connected to the lifting adjusting plate, the shaping guide rail is horizontally arranged on the front side surface of the lifting adjusting plate, the sliding plates are arranged on two sliding blocks of the shaping guide rail, the shaping cylinders are arranged on the lifting adjusting plates at two ends of the shaping guide rail, a piston rod of each shaping cylinder is fixed with the corresponding sliding plate through a connecting plate, the shaping limiting plate is arranged on the lifting adjusting plate in front of the two sliding plates, the buffer and, the lower end of the sliding plate is provided with a shaping block, and a shaping positioning block is arranged on a lifting adjusting plate between the two shaping blocks.

Compared with the prior art, the beneficial effects of the utility model are that:

the structure is compact, the operation is stable,

the lead lifting assembly is arranged to lift the lead;

the lead blanking assembly enables the lead to reach a certain erection angle, the blanking unit is elastically arranged, the lead is prevented from being damaged by rigid extrusion and bending,

the lead alignment assembly adjusts lead alignment;

the shaping assembly enables the lead to be extruded by the shaping jig, and the lead is in a vertical state.

Drawings

Fig. 1 is a schematic structural view of a solar panel lead-selecting and shaping device.

Fig. 2 is a front view of a solar panel lead-picking shaping device.

Fig. 3 is a schematic structural view of a lead picking assembly of a solar panel lead picking and shaping device.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a front view of a lead picking assembly of a solar panel lead picking and shaping device.

Fig. 6 is a schematic structural view of a lead blanking assembly of a solar panel lead picking and shaping device.

Fig. 7 is a side view of a lead blanking assembly of a solar panel lead picking and shaping device.

Fig. 8 is a schematic view of a first view angle of a lead alignment assembly of a solar panel lead picking and shaping device.

Fig. 9 is a second view structure diagram of a lead alignment assembly of a solar panel lead-picking reshaping device.

Fig. 10 is a schematic structural view of a lead shaping assembly of a solar panel lead-selecting shaping device.

Fig. 11 is a top view of the lead alignment state.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided to enable those skilled in the art to more easily understand the advantages and features of the present invention, and to make clear and definite definitions of the protection scope of the present invention.

Referring to fig. 1 to 11, an embodiment of the present invention includes:

the utility model provides a solar panel chooses lead wire shaping device, this kind of solar panel chooses lead wire shaping device includes base subassembly 1, lead wire blanking subassembly 2, the subassembly 3 is picked up to the lead wire, lead wire aligns subassembly 4 and lead

wire shaping subassembly

5, 1 side of base subassembly is installed lead

wire blanking subassembly

2, and 2 side-mounting of lead wire blanking subassembly has the lead wire to pick up

subassembly

3, and 1 bottom of base subassembly is installed the lead wire and aligns subassembly 4, and 1 another side of base subassembly is installed lead wire shaping subassembly 5.

The lead wire picking assembly 3 comprises a fixed plate 31, a lifting cylinder 32, a lifting frame 33, a push-pull cylinder 34, a push plate 35, a stripping connecting rod 36, a clamping plate 37 and a guide block 38, wherein the lifting cylinder 32 is installed at the front end of the fixed plate 31, a piston rod of the lifting cylinder 32 is fixedly connected with the lifting frame 33 through a connecting plate, two push-pull cylinders 34 which are arranged in a back direction are installed on the front side surface of a vertical plate of the lifting frame 33, the push plate 35 is installed on the piston rod of the push-pull cylinder 34, the lower end of the push plate 35 is movably connected with the stripping connecting rod 36 through a hinge pin, the two stripping connecting rods 36 are arranged oppositely, the clamping plates 37 are installed on two sides of the middle part of the stripping connecting rod 36, the upper part of the clamping plate 37 is horizontally bent and provided with a hanging part 371, the bottom of a horizontal plate of the lifting frame 33 is provided with the guide block 38, the bottoms on two sides of the guide block 38 are outwards extended and provided with bearing parts 381, the hanging part 371 and the rotating avoiding space 30 is arranged between the hanging part and the hanging part 381, the extending end of the stripping link 36 is provided with a stripping part 361 inclining downwards, and the head of the stripping part 361 is provided with a stripping knife edge 360.

The lead blanking assembly 2 comprises a blanking mounting plate 21, a blanking lifting cylinder 22, an adjusting plate 23, linear slide rails 24, a movable plate 25, an elastic assembly 26 and a blanking unit 27, the blanking mounting plate 21 is fixed on the base assembly 1, the blanking lifting cylinder 22 is mounted on the blanking mounting plate 21, the blanking lifting cylinder 22 drives the adjusting plate 23 to move in the vertical direction, two vertical linear slide rails 24 are mounted on the front side surface of the adjusting plate 23, the movable plate 25 is mounted on a sliding block of the linear slide rails 24, the adjusting plate 23 is movably connected with the movable plate 25 through the elastic assembly 26, the blanking unit 27 is mounted on the front side surface of the movable plate 25, the elastic assembly 26 comprises a spring 261 and a spring limiting plate 262, the spring 261 is fixedly connected with the movable plate 25 through a connecting plate, a spring limiting plate 262 is mounted on the rear side of the adjusting plate 23, and the other end of the spring 261 is connected with the spring limiting plate 262; the blanking unit 27 comprises a guide sliding rail 271, a sliding block mounting plate 272, a pen-shaped air cylinder 273, extrusion blocks 274 and bending positioning blocks 275, wherein the guide sliding rail 271 is horizontally arranged on the movable plate 25, the sliding block mounting plates 272 are mounted on two sliding blocks on the guide sliding rail 271, the pen-shaped air cylinders 273 are mounted on the movable plates 25 at two ends of the guide sliding rail 271, piston rods of the pen-shaped air cylinders 273 are fixedly connected with the sliding block mounting plates 272 through floating joint connectors, the extrusion blocks 274 are mounted at the lower ends of the sliding block mounting plates 272, the two extrusion blocks 274 are oppositely arranged, the bending positioning blocks 275 are arranged between the two extrusion blocks 274, the bending positioning blocks 275 are fixed on the movable plates 25, the front ends of the bending positioning blocks 275 are provided with V-shaped guide inclined planes, and bending parts extending out of the bottoms of the extrusion blocks 274 are opposite to the lower parts of the bending positioning blocks 275.

The lead aligning component 4 comprises an aligning mounting plate 41, an adjusting slide rail 42, a cylinder mounting plate 43, a limiting block 44, an adjusting screw 45, a bidirectional cylinder 46, a clamping jaw mounting plate 47, a first clamping jaw 48 and a second clamping jaw 49, wherein the aligning mounting plate 41 is arranged at the bottom of the base component 1, the adjusting slide rail 42 is arranged at the lower end of the aligning mounting plate 41, the cylinder mounting plate 43 is arranged on a sliding block of the adjusting slide rail 42, the limiting block 44 is arranged at the side end of the cylinder mounting plate 43, the adjusting screw 45 pointing to the limiting block 44 is arranged at the lower end of the aligning mounting plate 41 through a connecting plate, the bidirectional cylinder 46 is arranged at the lower end of the cylinder mounting plate 43, the clamping jaw mounting plates 47 are arranged on two clamping arms of the bidirectional cylinder 46, the first clamping jaw 48 and the second clamping jaw 49 are respectively arranged on the two clamping jaw mounting plates 47, the lower bottom surface of the first clamping jaw 48 is positioned on the upper plane of the second clamping jaw 49, and two pairs of aligning notches 490 are arranged on the second clamping jaw 49, the alignment notch 490 is flared at its opening to facilitate entry of the lead into the alignment notch 490, with one of the jaw mounting plates 47 having an adjustment bolt 410 mounted thereon to match leads of different widths.

The lead shaping assembly 5 comprises a shaping mounting plate 51, lifting adjusting bolts 52, lifting adjusting plates 53, shaping guide rails 54, sliding plates 55, shaping cylinders 56, shaping limiting plates 57, buffers 58, limiting columns 59, shaping blocks 510 and shaping positioning blocks 511, wherein the shaping mounting plate 51 is fixed on the base assembly 1, the lifting adjusting bolts 52 are mounted at the front end of the shaping mounting plate 51, the lifting adjusting bolts 52 are connected to the lifting adjusting plates 53, the shaping guide rails 54 are horizontally mounted on the front side surface of the lifting adjusting plates 53, the sliding plates 55 are mounted on two sliding blocks of the shaping guide rails 54, the shaping cylinders 56 are mounted on the lifting adjusting plates 53 at two ends of the shaping guide rails 54, piston rods of the shaping cylinders 56 are fixed with the sliding plates 55 through connecting plates, the shaping limiting plates 57 are mounted on the lifting adjusting plates 53 in front of the two sliding plates 55, and the buffers 58 and the limiting plates 511 which are opposite to the shaping limiting plates 57 are mounted on the connecting plates on In the column 59, a shaping block 510 is installed at the lower end of the sliding plate 55, and a shaping positioning block 511 is installed on the lifting adjustment plate 53 between the two shaping blocks 510.

The utility model relates to a solar panel picks lead wire shaping device during operation, the lead wire is mostly horizontal on the initial solar panel, lift cylinder 32 drive crane 33 moves down, two strip connecting rod 36 are located two lead wire outsides this moment, push-and-pull cylinder 34's piston rod shrink drives push pedal 35 and removes, strip the stripping knife edge 360 of connecting rod 36 and aim at the lead wire, strip connecting rod 36 and slide along guide block 38, meanwhile, under the effect of rotating between hanging part 371 and accepting part 381 and dodging space 30, push pedal 35 drives and strips connecting rod 36 and rotate, strip part 361 picks up the lead wire, lead wire blanking subassembly 2 moves to the lead wire top, blanking lift cylinder 22 drives regulating plate 23 and moves down, under the guide effect of the V type direction inclined plane of bending locating piece 275, bending locating piece 275 moves to between two lead wires, the piston rod of pen-shaped cylinder 273 extends and drives extrusion piece 274 to be close to bending locating piece 275, the lead is extruded and extruded to be in a vertical state, the movable plate 25 is movably connected with the adjusting plate 23 through the elastic assembly 26, the cutting unit 27 on the movable plate 25 is elastically arranged to avoid damage to the lead due to rigid extrusion bending, after blanking bending, the lead aligning assembly 4 is moved to two lead positions, two pairs of aligning notches 490 in the second clamping jaw 49 are opposite to the lead, a piston rod of the bidirectional cylinder 46 contracts to drive the two first clamping jaws 48 and the second clamping jaws 49 to relatively move, the first clamping jaws 48 push the lead into the aligning notches 490, the two leads are pushed to be in an aligned state as shown in fig. 11, then the lead shaping assembly 5 is moved to the two aligned lead positions, the lead is located between the shaping block 510 and the shaping positioning block 511, the piston rod of the shaping cylinder 56 extends to drive the shaping block 510 to move to the shaping positioning block 511, and the lead is extruded to be in a vertical state.

The utility model relates to a solar panel chooses lead wire shaping device, compact structure operates steadily, and the lead wire is picked up the subassembly through the lead wire and is shoveled, and lead wire blanking subassembly makes the lead wire reach certain angle of sticking up, and the lead wire aligns the subassembly adjustment lead wire and aligns, and lead wire shaping subassembly makes the lead wire extruded by the plastic tool, lets the lead wire be in vertical state.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims

1. The utility model provides a solar panel picks lead wire shaping device which characterized in that: the solar panel lead-picking and shaping device comprises a base assembly, a lead blanking assembly, a lead picking assembly, a lead aligning assembly and a lead shaping assembly, wherein the lead blanking assembly is installed at one side end of the base assembly, the lead picking assembly is installed at the side end of the lead blanking assembly, the lead aligning assembly is installed at the bottom of the base assembly, and the lead shaping assembly is installed at the other side end of the base assembly.

2. The solar panel lead wire shaping device of claim 1, wherein: the lead wire picking assembly comprises a fixed plate, a lifting cylinder, a lifting frame, a push-pull cylinder, a push plate, a stripping connecting rod, a clamping plate and a guide block, wherein the lifting cylinder is arranged at the front end of the fixed plate, a piston rod of the lifting cylinder is fixedly connected with the lifting frame through a connecting plate, two push-pull cylinders arranged in a back direction are arranged on the front side surface of a vertical plate of the lifting frame, the push plate is arranged on a piston rod of each push-pull cylinder, the lower end of each push plate is movably connected with the stripping connecting rod through a hinge pin, the two stripping connecting rods are oppositely arranged, the clamping plates are arranged on two sides of the middle part of each stripping connecting rod, the upper parts of the clamping plates are horizontally bent to form hanging parts, the guide block is arranged at the bottom of a horizontal plate of the lifting frame, the bottoms of two sides of each guide block are outwards extended to form a bearing part, a rotary avoiding space is arranged between the hanging parts and the bearing parts, and the extending ends of the stripping connecting rods are provided with downward slopes, the head of the stripping part is provided with a stripping knife edge.

3. The solar panel lead wire shaping device of claim 1, wherein: lead wire blanking subassembly includes blanking mounting panel, blanking lift cylinder, regulating plate, linear slide rail, fly leaf, elastic component and blanking unit, and on the blanking mounting panel was fixed in the base subassembly, install blanking lift cylinder on the blanking mounting panel, the vertical direction of blanking lift cylinder drive regulating plate removed, and the regulating plate leading flank is installed two vertical linear slide rails, installs the fly leaf on linear slide rail's the slider, and the regulating plate passes through elastic component and fly leaf swing joint, and fly leaf leading flank installs the blanking unit, elastic component includes spring and spring limiting plate, the spring passes through connecting plate and fly leaf fixed connection, and the spring limiting plate is installed to the regulating plate rear side, and the other end and the spring limiting plate of spring are connected.

4. The solar panel lead wire shaping device of claim 3, wherein: the blanking unit comprises a guide slide rail, a slider mounting plate, a pen-shaped air cylinder, extrusion blocks and bending positioning blocks, the guide slide rail is horizontally arranged on a movable plate, the slider mounting plate is mounted on two sliders on the guide slide rail, the pen-shaped air cylinders are mounted on the movable plates at two ends of the guide slide rail, piston rods of the pen-shaped air cylinders are fixedly connected with the slider mounting plate through floating joint connecting pieces, the extrusion blocks are mounted at the lower ends of the slider mounting plate, the two extrusion blocks are oppositely arranged, the bending positioning blocks are arranged between the two extrusion blocks, the bending positioning blocks are fixed on the movable plates, V-shaped guide inclined planes are arranged at the front ends of the bending positioning blocks, and the bending parts extending out of the bottoms of the extrusion blocks are opposite to the lower parts of the bending positioning blocks.

5. The solar panel lead wire shaping device of claim 1, wherein: the lead aligning assembly comprises an aligning mounting plate, an adjusting slide rail, an air cylinder mounting plate, a limiting block, an adjusting screw, a two-way air cylinder, a clamping jaw mounting plate, a first clamping jaw, a second clamping jaw and an adjusting bolt, the aligning mounting plate is arranged at the bottom of the base assembly, the adjusting slide rail is arranged at the lower end of the aligning mounting plate, the air cylinder mounting plate is arranged on a slide block of the adjusting slide rail, the limiting block is arranged at the side end of the air cylinder mounting plate, the two adjusting screws pointing to the limiting block are arranged at the lower end of the aligning mounting plate through a connecting plate, the two-way air cylinder is arranged at the lower end of the air cylinder mounting plate, the clamping jaw mounting plates are arranged on two clamping arms of the two-way air cylinder, the first clamping jaw and the second clamping jaw are respectively arranged on the two clamping jaw mounting plates, the lower bottom surface of the first clamping jaw is positioned on the upper plane of the second clamping jaw, two aligning notches are arranged on the second clamping jaw, the opening of the aligning notch is horn-shaped, and the lead can conveniently enter the aligning notch, and one clamping jaw mounting plate is provided with an adjusting bolt to match with lead wires with different widths.

6. The solar panel lead wire shaping device of claim 1, wherein: the lead shaping assembly comprises a shaping mounting plate, a lifting adjusting bolt, a lifting adjusting plate, a shaping guide rail, a sliding plate, a shaping cylinder, a shaping limiting plate, a buffer, a limiting column, a shaping block and a shaping positioning block, the shaping mounting plate is fixed on the base assembly, the front side of the shaping mounting plate is provided with the lifting adjusting bolt at the front end, the lifting adjusting bolt is connected to the lifting adjusting plate, the shaping guide rail is horizontally arranged on the front side surface of the lifting adjusting plate, the sliding plates are arranged on two sliding blocks of the shaping guide rail, the shaping cylinders are arranged on the lifting adjusting plates at two ends of the shaping guide rail, a piston rod of each shaping cylinder is fixed with the sliding plate through a connecting plate, the shaping limiting plate is arranged on the lifting adjusting plate in front of the two sliding plates, the buffer and the limiting column which are opposite to the shaping limiting plate are arranged on the connecting plate on the piston rod of each shaping cylinder, the shaping block is arranged at the lower end of the sliding plate, a shaping positioning block is arranged on the lifting adjusting plate between the two shaping blocks.