CN115847089A - Automatic assembly equipment for corner connectors and aluminum alloy pipes - Google Patents

Abstract

The invention discloses automatic assembly equipment for angle braces and aluminum alloy pipes, which relates to the technical field of mechanical assembly and comprises a supporting component, a loading component and an assembly component, wherein the supporting component is used for supporting the loading component and the assembly component and comprises a supporting plate, a supporting tube, a supporting pad and a supporting strip; the four loading assemblies are uniformly and vertically distributed above the supporting assembly and used for loading four stacks of aluminum alloy pipes, and each loading assembly comprises an outer baffle, a side baffle, a lower supporting strip, an upper supporting plate and an inserting plate; the assembling assembly is provided with four pairs and is horizontally distributed on the outer sides of the four loading assemblies correspondingly, the assembling assembly is used for assembling four aluminum alloy pipes on the same layer, and the assembling assembly comprises a straight guide rail, a first hydraulic cylinder, a second hydraulic cylinder, an electric screwdriver, a first mounting shaft, a second mounting shaft and a chain nail belt. The invention can assemble four aluminum alloy pipes by plastic corner connectors, and the cross screw is additionally arranged at the assembly position.

Description

Automatic assembly equipment for corner connectors and aluminum alloy pipes

Technical Field

The invention relates to the technical field of mechanical assembly, in particular to automatic assembly equipment for angle connectors and aluminum alloy pipes.

Background

With the gradual maturity of the technology of converting light energy into electric energy for storage, the use of solar cell panels is also more and more extensive. And aluminum alloy tubular product and angle sign indicating number are as solar cell panel's important part, and at present, the equipment of aluminum alloy tubular product and angle sign indicating number mainly still realizes through the manual work, because there is comparatively sharp cutting cut in the tip of aluminum alloy tubular product, can have personnel's safety problem when manual equipment angle sign indicating number, later, still need twist the screw in the equipment position through the manual work and consolidate. In addition, the labor cost is high, the error rate is high, and the assembly efficiency is low. Therefore, it is very important to realize the automatic assembly of the aluminum alloy pipe and the corner connectors.

Disclosure of Invention

The invention aims to provide automatic assembly equipment for corner connectors and aluminum alloy pipes, which aims to overcome the defects caused in the prior art.

The utility model provides an automatic assembly equipment for angle sign indicating number and aluminum alloy tubular product, includes supporting component, loading assembly and assembly subassembly, wherein:

the supporting assembly is used for supporting the loading assembly and the assembling assembly;

the four loading assemblies are uniformly and vertically distributed above the supporting assembly and used for loading four stacks of aluminum alloy pipes;

the assembling components are provided with four pairs and are correspondingly and horizontally distributed on the outer sides of the four loading components, and the assembling components are used for assembling four aluminum alloy pipes on the same layer.

Preferably, the supporting component includes backup pad, stay tube, supporting pad and support bar, the backup pad level sets up, the stay tube is equipped with four and even vertical connections in the downside of backup pad, the supporting pad is equipped with four and corresponds the lower extreme of horizontally connect in four stay tubes, the support bar is equipped with four and even horizontally connect in the upside of backup pad, evenly distributed has the cartridge mouth of one row of rectangle on the support bar.

Preferably, the loading subassembly includes outer baffle, side shield, lower support strip, upper plate and cartridge board, the vertical setting of outer baffle, the side shield is equipped with a pair of and symmetric connection in both sides about outer baffle, the cross section of side shield is Z type structure, the below of outer baffle is located to the support strip level down, the both ends symmetry of support strip is equipped with the hole of dodging of a pair of U type down, the cross section of support strip down is "L" type structure, the bottom of support strip down evenly is connected with the interior spacer of a plurality of "L" type structure, interior spacer is made by plastics elastic material, the both ends symmetric connection of support strip down has a pair of parallelogram's side spacer, the upper plate level is located between outer baffle and the support strip down, the both ends correspondence of upper plate welds in the top of two side spacers, evenly distributed has the mouth of dodging of one row of rectangle on the upper plate, the cartridge board is equipped with a plurality of and evenly connects in the lower part of outer baffle, adjacent cartridge board slides and locates the inside of the mouth, the lower part of keeping away the cartridge board sets up and stretches to the suspension joint post that the spring is all connected with the inner of compression spring is equipped with a plurality of suspension joint post.

Preferably, the assembly includes a straight guide rail, a first hydraulic cylinder, a second hydraulic cylinder, an electric screw driver, a first installation shaft, a second installation shaft and a chain nail belt, the straight guide rail is horizontally inwardly disposed and connected to the upper side of the support plate, the straight guide rail is slidably connected to a sliding block, the sliding block is horizontally installed on the upper side of the sliding block, the first hydraulic cylinder is horizontally inwardly disposed and installed above the support plate through a first L-shaped fixing plate, the first hydraulic cylinder is connected to the end of a piston rod, the first pushing block is centrally connected to the upper side of the sliding plate, the second hydraulic cylinder is horizontally inwardly disposed and installed on the upper side of the sliding plate through a second L-shaped fixing plate, the second hydraulic cylinder is connected to the end of the piston rod, the electric screw driver is horizontally inwardly disposed and installed on the upper side of the sliding plate through a pair of second L-shaped fixing hoops, the inner end of the electric screwdriver is provided with a pair of mounting pieces in a spaced mode, the cross section of each mounting piece is of a [ -shaped structure, the first mounting shaft and the second mounting shaft are respectively connected to the upper side and the lower side of the two mounting pieces in a rotating mode, a pair of friction wheels are fixed between the two mounting pieces of the first mounting shaft, the second mounting shaft is connected with a friction roller between the two mounting pieces through a pair of one-way bearings, the outer circumferential surface of the friction roller is in contact with the upper surface of the supporting plate, the outer end of the first mounting shaft is connected with the first driving wheel in a key mode, the outer end of the second mounting shaft is connected with the second driving wheel in a key mode, the first driving wheel and the second driving wheel are connected through a driving belt, overhanging connecting strips are welded on the upper sides of the two mounting pieces together, and overhanging ends of the connecting strips are connected to the tail ends of piston rods of the second hydraulic cylinders, the chain nail belt is vertically inserted between the two mounting pieces, the outer circumferential surface of the friction wheel is in contact with the outer surface of the chain nail belt, and the chain nail belt is evenly inserted with inward cross screws.

Preferably, the middle part of the supporting plate is provided with a rectangular frame falling opening, and the corners of the frame falling opening are provided with a pair of rectangular nail penetrating openings.

Preferably, a rectangular lifting opening is formed in the middle of the upper portion of the outer baffle.

Compared with the prior art, the invention has the following advantages:

1. the material is piled up in advance by manpower. The aluminum alloy pipes on the four supporting assemblies are stacked by workers, wherein the aluminum alloy pipe positioned at the bottommost slides onto the lower supporting strip and is limited by the inner retaining pieces and the side retaining pieces, the aluminum alloy pipes on the other positions are limited by the outer baffle plates and the side baffle plates, then the four groups of inserting plates on the four supporting assemblies are correspondingly inserted into the inserting ports on the four supporting bars, plastic corner connectors are ensured to be preassembled at two ends of the left and right stacks of aluminum alloy pipes, and plastic corner connectors are not arranged at two ends of the front and back stacks of aluminum alloy pipes;

2. and assembling the aluminum alloy pipe through the corner connectors. The piston rods of the first hydraulic cylinders on the front side and the rear side extend and push the first corresponding pushing blocks, then the lower supporting strips on the front side and the rear side and the aluminum alloy pipes are driven to move to the designated positions in opposite directions, the piston rods of the first hydraulic cylinders on the left side and the right side extend and push the first corresponding pushing blocks, then the lower supporting strips on the left side and the right side and the aluminum alloy pipes are driven to move to the designated positions in opposite directions, and until plastic corner connectors on the aluminum alloy pipes on the left side and the right side are inserted into the ports of the aluminum alloy pipes on the front side and the rear side.

3. The aluminum alloy pipe is connected through screws. The piston rods of the hydraulic cylinders II on the front side and the rear side extend and push the corresponding pushing blocks II, so that the electric screw drivers on the front side and the rear side are driven to move to the specified positions in opposite directions, meanwhile, the piston rods of the hydraulic cylinders II on the front side and the rear side extend and push the corresponding pushing blocks II, so that the electric screw drivers on the left side and the right side are driven to move to the specified positions in opposite directions, during the movement, the piston rods of the hydraulic cylinders I on the front side and the rear side and the left side and the right side contract synchronously, and when the tool bit of the electric screw driver is in contact with the uppermost cross screw on the chain nail belt, the electric screw driver is started and screwed into the assembling position of the aluminum alloy pipe to assemble the aluminum alloy frame.

4. The idle stroke automatically supplements the screw. The piston rods of the hydraulic cylinders II on the front side and the rear side contract and pull the corresponding pushing blocks II, and then the electric screwdrivers on the front side and the rear side move to the initial positions in an opposite mode, meanwhile, the piston rods of the hydraulic cylinders II on the front side and the rear side contract and pull the corresponding pushing blocks II, and then the electric screwdrivers on the left side and the right side move to the initial positions in an opposite mode.

Drawings

Fig. 1 is a schematic overall three-dimensional structure of the present invention.

Fig. 2 is a schematic structural diagram of the whole front view of the present invention.

Fig. 3 is a schematic structural view of the support assembly of the present invention.

Fig. 4 and 5 are schematic views of the structure of the loading assembly of the present invention.

Fig. 6 and 7 are schematic views showing the structure of the fitting assembly of the present invention.

FIG. 8 is a schematic view of an aluminum alloy tube pre-loaded with plastic corner connectors.

FIG. 9 is a schematic structural view of an aluminum alloy pipe without a plastic corner brace.

Wherein:

10-a support assembly; 101-a support plate; 101 a-frame dropping opening; 101 b-a nail penetration opening; 102-a support tube; 103-a support pad; 104-a support strip; 104 a-a cartridge port;

20-a loading assembly; 201-outer baffle; 201 a-lifting and releasing port; 202-side baffle; 203-lower supporting strip; 203 a-avoidance hole; 204-inner baffle plate; 205-side baffle plate; 206-upper supporting plate; 206 a-avoidance port; 207-a package board; 208-connecting column; 209-compression spring;

30-assembling the components; 301-straight guide rails; 302-a slider; 303-sliding plate; 304-a first hydraulic cylinder; 305-fixing the plate I; 306-pushing block one; 307-hydraulic cylinder two; 308-fixing plate II; 309-pushing block two; 310-an electric screwdriver; 311-a fixing hoop; 312-mounting pieces; 313-mounting the shaft I; 314-a friction wheel; 315-installing a second shaft; 316-rubbing rolls; 317-one-way bearing; 318-a first transmission wheel; 319-driving wheel two; 320-a transmission belt; 321-a connecting strip; 322-a chain tack belt; 323-cross screw;

40-aluminum alloy pipe;

50-plastic corner connectors.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 9, an automatic assembling apparatus for corner brace and aluminum alloy pipe comprises a supporting assembly 10, a loading assembly 20 and an assembling assembly 30, wherein:

the supporting assembly 10 is used for supporting the loading assembly 20 and the assembling assembly 30;

the four loading assemblies 20 are uniformly and vertically distributed above the supporting assembly 10, and the four loading assemblies 20 are used for loading four stacks of aluminum alloy pipes 40;

the assembly components 30 are provided with four pairs and are correspondingly and horizontally distributed on the outer sides of the four loading components 20, and the assembly components 30 are used for assembling four aluminum alloy pipes 40 on the same layer.

In this embodiment, the supporting component 10 includes a supporting plate 101, a supporting tube 102, a supporting pad 103 and a supporting strip 104, the supporting plate 101 is horizontally arranged, the supporting tube 102 is provided with four and uniformly vertically connected to the lower side of the supporting plate 101, the supporting pad 103 is provided with four and correspondingly horizontally connected to the lower ends of the four supporting tubes 102, the supporting strip 104 is provided with four and uniformly horizontally connected to the upper side of the supporting plate 101, and the supporting strip 104 is uniformly provided with a row of rectangular insertion openings 104a.

In this embodiment, the loading assembly 20 includes outer baffle 201, side baffle 202, lower holding strip 203, upper supporting plate 206 and cartridge board 207, the vertical setting of outer baffle 201, side holding strip 202 is equipped with a pair of and symmetrical connection in the left and right sides of outer baffle 201, the cross section of side holding strip 202 is Z type structure, the below of outer baffle 201 is located to lower holding strip 203 level, the both ends symmetry of lower holding strip 203 is equipped with the hole 203a of dodging of a pair of U type, the cross section of lower holding strip 203 is "L" type structure, the bottom of lower holding strip 203 evenly is connected with the interior separation blade 204 of a plurality of "L" type structure, interior separation blade 204 is made by plastics elastic material, the both ends symmetry of lower holding strip 203 is connected with the side separation blade 205 of a pair of parallel, upper supporting plate 206 level is located between outer baffle 201 and the lower holding strip 203, the both ends correspondence of upper supporting plate 206 welds in the top of two side separation blades 205, the mouth 206a row of rectangle on the upper supporting plate 206 evenly, the cartridge board 207 is equipped with a plurality of the outer side separation blade 203 and the outer side separation blade of the adjacent compression spring is connected with a plurality of the lower holding strip 203, the inner end of the adjacent compression connection pole is connected with a of the vertical compression spring board 207, the inner end of the lower holding strip is connected with the upper supporting plate 208 of the vertical compression connection pole 207 and is connected with the vertical compression connection pole 208.

In this embodiment, the assembly member 30 includes a straight guide rail 301, a first hydraulic cylinder 304, a second hydraulic cylinder 307, an electric screw driver 310, a first mounting shaft 313, a second mounting shaft 315 and a chain nail belt 322, the straight guide rail 301 is horizontally disposed inward and connected to the upper side of the support plate 101, the straight guide rail 301 is slidably connected to a sliding block 302, the sliding block 302 is horizontally mounted on the upper side of the sliding block 302, the first hydraulic cylinder 304 is horizontally disposed inward and mounted on the support plate 101 through a first fixing plate 305 of a "l" type, a first pushing block 306 is connected to the end of a piston rod of the first hydraulic cylinder 304, the first pushing block 306 is centrally connected to the upper side of the sliding block 303, the second hydraulic cylinder 307 is horizontally disposed inward and mounted on the upper side of the sliding block 303 through a second fixing plate 308 of a "l" type, and a second pushing block 309 is connected to the end of a piston rod of the second hydraulic cylinder 307, the electric screwdriver 310 is horizontally arranged inwards and is externally mounted on the upper side of the sliding plate 303 through a pair of n-shaped fixing hoops 311, the inner end of the electric screwdriver 310 is provided with a pair of mounting pieces 312 at intervals, the cross section of the mounting pieces 312 is in a [ -shaped structure, the first mounting shaft 313 and the second mounting shaft 315 are respectively and rotatably connected with the upper and lower sides of the two mounting pieces 312, the first mounting shaft 313 is fixedly provided with a pair of friction wheels 314 between the two mounting pieces 312, the second mounting shaft 315 is connected with a friction roller 316 between the two mounting pieces 312 through a pair of one-way bearings, the outer circumferential surface of the friction roller 316 is contacted with the upper surface of the supporting plate 101, the outer end key of the first mounting shaft 313 is connected with a first driving wheel 318, the outer end key of the second mounting shaft 315 is connected with a second driving wheel 319, and the first driving wheel 318 is connected with the second driving wheel 319 through a driving belt 320, an overhanging connecting bar 321 is welded on the upper sides of the two mounting pieces 312 together, the overhanging end of the connecting bar 321 is connected to the tail end of the piston rod of the hydraulic cylinder II 307, the chain nail belt 322 is vertically inserted between the two mounting pieces 312, the outer circumferential surface of the friction wheel 314 is in contact with the outer surface of the chain nail belt 322, and horizontal inward cross screws 323 are uniformly inserted on the chain nail belt 322.

In this embodiment, a rectangular frame dropping opening 101a is provided in the middle of the supporting plate 101, and a pair of rectangular nail penetration openings 101b are provided at the corners of the frame dropping opening 101 a. The assembled aluminum alloy frame can be dismounted through the frame dropping opening 101a by arranging the frame dropping opening 101 a; through the nail penetration opening 101b, the chain nail belt 322 which is vertically inserted can freely pass through the nail penetration opening 101b under the driving of the second hydraulic cylinder 307.

In this embodiment, a rectangular lifting opening 201a is centrally disposed on the upper portion of the outer baffle 201. By forming the lifting opening 201a, the loading assembly 20 is conveniently lifted and placed by a worker.

When the automatic assembling equipment for the corner connectors and the aluminum alloy pipes is actually applied, the following working processes are included:

step 1: a worker stacks a stack of aluminum alloy pipes 40 on the four supporting assemblies 10, wherein the aluminum alloy pipe 40 positioned at the bottom slides down to the lower supporting strip 203 and is limited by the inner retaining pieces 204 and the side retaining pieces 205, the aluminum alloy pipes 40 at the rest positions are limited by the outer baffle plates 201 and the side baffle plates 202, then four groups of inserting plates 207 on the four supporting assemblies 10 are correspondingly inserted into the inserting openings 104a on the four supporting bars 104, the two ends of the left and right stacks of aluminum alloy pipes 40 are ensured to be pre-installed with plastic corner connectors 50, and the two ends of the front and back stacks of aluminum alloy pipes 40 are not installed with plastic corner connectors 50;

step 2: firstly, extending piston rods of front and rear hydraulic cylinders I304 and pushing corresponding pushing blocks I306 to drive the front and rear lower supporting strips 203 and the aluminum alloy pipes 40 to move to specified positions in opposite directions, extending piston rods of left and right hydraulic cylinders I304 and pushing corresponding pushing blocks I306 to drive the left and right lower supporting strips 203 and the aluminum alloy pipes 40 to move to specified positions in opposite directions until the plastic corner connectors 50 on the left and right aluminum alloy pipes 40 are inserted into ports of the front and rear aluminum alloy pipes 40;

and step 3: the corresponding second pushing blocks 309 are pushed by extending the piston rods of the second hydraulic cylinders 307 at the front and rear sides, so that the electric screw drivers 310 at the front and rear sides are driven to move to the specified positions in opposite directions, meanwhile, the corresponding second pushing blocks 309 are pushed by extending the piston rods of the second hydraulic cylinders 307 at the front and rear sides, so that the electric screw drivers 310 at the left and right sides are driven to move to the specified positions in opposite directions, during the movement, the piston rods of the first hydraulic cylinders 304 at the front and rear sides and the left and right sides are synchronously contracted, and when the tool bit of the electric screw driver 310 is in contact with the uppermost cross screw 323 on the chain nail belt 322, the electric screw drivers 310 are started, and the cross screw 323 is screwed into the assembling position of the aluminum alloy pipe 40 to assemble an aluminum alloy frame;

and 4, step 4: then, the corresponding pushing block II 309 is pulled through contraction of the piston rod of the hydraulic cylinder II 307 at the front side and the rear side, so that the electric screw drivers 310 at the front side and the rear side are pulled to move to the initial positions oppositely, meanwhile, the corresponding pushing block II 309 is pulled through contraction of the piston rod of the hydraulic cylinder II 307 at the front side and the rear side, so that the electric screw drivers 310 at the left side and the right side are pulled to move to the initial positions oppositely, in the moving process, the locking effect of the one-way bearing 317 is exerted, when the friction roller 316 slides across the upper surface of the supporting plate 101, the torque of the friction roller 316 can be transmitted to the mounting shaft II 315, the mounting shaft II 315 is transmitted to the mounting shaft I313 through the transmission belt 320, the friction wheel 314 is driven to rotate, the chain nail belt 322 is driven to convey the fixed length upwards, and the next cross screw 323 moves to the position coaxially distributed with the electric screw drivers 310;

and 5: the lower supporting strips 203 at the front side, the rear side, the left side and the right side return to the positions right below the corresponding outer baffles 201 by the corresponding compression springs 209, and the assembled aluminum alloy frame is unloaded through the frame dropping opening 101a under the action of gravity.

The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (6)

1. The utility model provides an automatic assembly equipment for angle sign indicating number and aluminum alloy tubular product which characterized in that: including supporting component (10), loading assembly (20) and assembly components (30), wherein:

the supporting component (10) is used for supporting the loading component (20) and the assembling component (30);

the four loading assemblies (20) are uniformly and vertically distributed above the supporting assembly (10), and the four loading assemblies (20) are used for loading four stacks of aluminum alloy pipes (40);

the assembling components (30) are provided with four pairs and are correspondingly and horizontally distributed on the outer sides of the four loading components (20), and the assembling components (30) are used for assembling four aluminum alloy pipes (40) on the same layer.

2. The automatic assembly equipment for the corner connector and the aluminum alloy pipe according to claim 1, wherein the equipment comprises: the supporting component (10) comprises a supporting plate (101), supporting tubes (102), supporting pads (103) and supporting bars (104), wherein the supporting plate (101) is horizontally arranged, the supporting tubes (102) are provided with four and are uniformly and vertically connected to the lower side of the supporting plate (101), the supporting pads (103) are provided with four blocks and correspond to the lower ends of the four supporting tubes (102), the supporting bars (104) are provided with four and are uniformly and horizontally connected to the upper side of the supporting plate (101), and the supporting bars (104) are uniformly provided with insertion ports (104 a) with one row of rectangles.

3. The automatic assembly equipment for the corner connector and the aluminum alloy pipe according to claim 2, wherein the equipment comprises: the loading assembly (20) comprises an outer baffle (201), side baffles (202), a lower supporting strip (203), an upper supporting plate (206) and a plug-in board (207), the outer baffle (201) is vertically arranged, the side baffles (202) are provided with a pair of U-shaped avoidance holes (203 a) which are symmetrically connected to the left side and the right side of the outer baffle (201), the cross section of the side baffles (202) is of a Z-shaped structure, the lower supporting strip (203) is horizontally arranged below the outer baffle (201), the two ends of the lower supporting strip (203) are symmetrically provided with a pair of U-shaped avoidance holes (203 a), the cross section of the lower supporting strip (203) is of an L-shaped structure, the bottom of the lower supporting strip (203) is uniformly connected with a plurality of L-shaped inner baffles (204), the inner baffles (204) are made of plastic elastic materials, the two ends of the lower supporting strip (203) are symmetrically connected with a pair of parallel side baffles (205), the upper supporting plate (206) is horizontally arranged between the outer baffle (201) and the lower supporting strip (203), the corresponding upper supporting strip (206) is connected to the upper supporting plate (206), and the two sides of the upper supporting plate (206) are uniformly distributed with a plurality of a sliding avoidance holes (206) which are provided with a plurality of a quadrilateral openings, and are arranged at the top of the upper supporting plate (207), the lower part of the inserting plate (207) is arranged in a downward overhanging mode and is horizontally connected with a plurality of connecting columns (208) in a sliding mode, the inner ends of the connecting columns (208) are connected to the outer side of the lower supporting strip (203), and the connecting columns (208) are sleeved with compression springs (209).

4. The automatic assembly equipment for the corner connector and the aluminum alloy pipe according to claim 2, wherein the equipment comprises: the assembling component (30) comprises a straight guide rail (301), a first hydraulic cylinder (304), a second hydraulic cylinder (307), an electric screwdriver (310), a first mounting shaft (313), a second mounting shaft (315) and a chain nail belt (322), wherein the straight guide rail (301) is horizontally arranged inwards and connected to the upper side of the support plate (101), a sliding block (302) is connected on the straight guide rail (301) in a sliding manner, a sliding plate (303) is horizontally mounted on the upper side of the sliding block (302), the first hydraulic cylinder (304) is horizontally arranged inwards and mounted above the support plate (101) through a first L-shaped fixing plate (305), a first pushing block (306) is connected to the end of a piston rod of the first hydraulic cylinder (304), the first pushing block (306) is connected to the upper side of the sliding plate (303) in a centered manner, the second hydraulic cylinder (307) is horizontally arranged inwards and mounted on the upper side of the sliding plate (303) through a second L-shaped fixing plate (308), a second pushing block (309) is connected to the end of the piston rod of the second hydraulic cylinder (307), the electric screwdriver (310) is horizontally arranged inwards and mounted on the upper side of the sliding plate (303) through a pair of L-shaped fixing plate (312), and a pair of U-shaped fixing plates (312) is provided with a structure for mounting the sliding plate (311), the sliding plate (312), the sliding plate (311), the sliding plate (312) which is a U-shaped fixing structure, the chain nail belt mounting device is characterized in that a first mounting shaft (313) and a second mounting shaft (315) are respectively and rotatably connected to the upper side and the lower side of two mounting plates (312), a pair of friction wheels (314) are fixed between the two mounting plates (312) on the first mounting shaft (313), a friction roller (316) is connected between the two mounting plates (312) through a pair of one-way bearings, the outer circumferential surface of the friction roller (316) is in contact with the upper surface of the supporting plate (101), a first driving wheel (318) is connected to the outer end of the first mounting shaft (313) in a key mode, a second driving wheel (319) is connected to the outer end of the second mounting shaft (315) in a key mode, the first driving wheel (318) is connected with the second driving wheel (319) through a driving belt (320), overhanging connecting strips (321) are welded to the upper sides of the two mounting plates (312) together, the overhanging ends of the connecting strips (321) are connected to the tail ends of piston rods of the second hydraulic cylinders (307), the chain nail belt (322) is vertically inserted between the two mounting plates (312), the outer circumferential surface of the friction wheels (314) is in contact with the outer circumferential surface of the chain belt (322), and cross-shaped nail belt (323) is uniformly inserted with cross screws (323) inserted on the chain.

5. The automatic assembly equipment for the corner connector and the aluminum alloy pipe according to claim 2, wherein the equipment comprises: the middle part of the supporting plate (101) is provided with a rectangular frame dropping opening (101 a), and the corners of the frame dropping opening (101 a) are provided with a pair of rectangular nail penetrating openings (101 b).

6. The automatic assembly equipment for the angle brace and the aluminum alloy pipe according to claim 3, characterized in that: the upper part of the outer baffle (201) is centrally provided with a rectangular lifting port (201 a).

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