CN217149312U - A hanger that is used for dish to detain formula steel pipe scaffold plating - Google Patents

Abstract

The utility model discloses a hanger that is used for dish knot formula steel pipe scaffold frame cladding relates to cladding hanger technical field, including plating the casing and having the drive mechanism of lifter plate, the one end on plating casing top is provided with sealed lid, drive mechanism, fixture. The utility model discloses a set up fixture, the pulling L shape hanger passes through bearing post extrusion torque spring distortion and rotates, drive flexible post and the mutual extrusion of fixed column, make backup pad extrusion supporting spring shrink and remove, it removes inside the bearing post to drive flexible post, it drives inside the shrink of centre gripping post extrusion reset spring and removes to L shape hanger to make the toper post, it removes to coil knot formula steel pipe scaffold inside to appear the hanger L, loosen the pulling to L shape hanger, torque spring resets and drives L shape hanger and resets, supporting spring promotes the backup pad and resets, remove the extrusion to the centre gripping post, reset spring promotes the centre gripping post and removes to coil knot formula steel pipe scaffold inside, can accomplish the centre gripping of coil knot formula steel pipe scaffold fixed.

Description

A hanger that is used for dish to detain formula steel pipe scaffold plating

Technical Field

The utility model relates to a plating hanger technical field specifically is a hanger that is used for dish knot formula steel pipe scaffold frame plating.

Background

The disc-buckled type steel pipe scaffold comprises upright rods, connecting discs, horizontal rods and fastening joints, wherein the upright rods need to be coated with a layer of protective film on the surfaces when in use, so that the abrasion and corrosion resistance of the disc-buckled type steel pipe scaffold are improved, a hanger is needed for hanging the upright rods needing to be coated, a surface diffusion method is generally used when the disc-buckled type steel pipe scaffold is coated, the surface diffusion method is a method for forming a superhard compound film layer on the surface of a workpiece, the performances of abrasion resistance, seizure resistance, corrosion resistance and the like of the scaffold are greatly improved, so that the service life of the scaffold is greatly prolonged, and the surface diffusion method is called mutual diffusion in a space with concentration difference; the diffusion in a space without concentration difference is called self-diffusion, the diffusion from a high concentration area to a low concentration area is called forward diffusion, and the diffusion is also called downhill diffusion, and substances such as metal dust and the like can be effectively plated on the surface of the pipe fitting by the diffusion method, so that the service life of the pipe fitting is prolonged.

However, when the existing hanger is used for clamping and hanging the disc-buckled type steel pipe scaffold, the hanging of the disc-buckled type steel pipe scaffold is generally completed through the hook of the hanger, so that when the device is used for plating the disc-buckled type steel pipe scaffold, the phenomenon that the disc-buckled type steel pipe scaffold falls off due to shaking is easily caused by the vibration of the device, and the plating effect of the disc-buckled type steel pipe scaffold is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problem that the plating effect of the disc-buckled type steel pipe scaffold is poor due to the phenomenon that the disc-buckled type steel pipe scaffold falls off due to shaking caused by the vibration of the device, the hanging tool for plating the disc-buckled type steel pipe scaffold is provided.

In order to achieve the above object, the utility model provides a following technical scheme: a hanging tool for plating a disc-buckled type steel pipe scaffold comprises a plating shell and a transmission mechanism with lifting plates, wherein a sealing cover is arranged at one end of the top end of the plating shell, a plurality of feeding pipes are arranged on one side of the plating shell and penetrate through the plating shell, the transmission mechanism is positioned on one side, close to the feeding pipes, of the plating shell and penetrates through the plating shell to the top end of the plating shell, the number of the lifting plates is two, the two lifting plates are positioned on two sides of the top end of the plating shell and penetrate through the plating shell, and a clamping mechanism connected and fixed with the lifting plates is arranged between the lifting plates and used for hanging and fixing the disc-buckled type steel pipe scaffold; the clamping mechanism comprises a plurality of fixing columns, L-shaped hangers, bearing columns and telescopic columns, wherein the fixing columns are located between two lifting plates and fixedly connected with the lifting plates through welding, the L-shaped hangers are two, the two L-shaped hangers are located on two sides of the bottom end of each fixing column respectively and are rotationally connected with the fixing columns through the bearing columns, the bearing columns are located on the top ends of the L-shaped hangers and penetrate through the fixing columns, the bearing columns are rotationally connected with the fixing columns through bearings, the telescopic columns are located inside the fixing columns and are located on the top ends of the bearing columns and penetrate through the bearing columns to the inside of the L-shaped hangers.

So, rotate through fixture internals bearing post and drive L shape hanger and accomplish the centre gripping of twining knot formula steel pipe scaffold and connect, inside rethread drive mechanism internals lifter plate driving disc knot formula steel pipe scaffold removed to the plating casing to close sealed lid, make the inlet pipe pass through the nozzle and remove metal powder to the inside one side of plating casing, and accomplish the plating operation on twining knot formula steel pipe scaffold surface through the surface diffusion method.

As a further aspect of the present invention: drive mechanism is still including a motor, transmission post, connecting gear and rack, a motor is located the one side that the casing of plating is close to the inlet pipe, and is connected fixedly through bolt and plating casing, the transmission post is located one side of a motor to run through to plating inside the casing, and be located the one end of lifter plate, connecting gear has two, two connecting gear is located the one end of lifter plate to be located the inside of plating the casing, and cup joint fixedly with the outer wall of transmission post, the rack is located the one end that the lifter plate is close to the transmission post, and is connected fixedly through welding and lifter plate to through tooth piece and connecting gear intermeshing.

So, start a motor, a motor drives the transmission post and rotates, and the transmission post rotates and drives and connect gear revolve, connects gear revolve and drives the rack removal, and the rack removal drives the lifter plate and removes, and inside the lifter plate removal moved to plating the casing through fixed column and L shape hanger drive disc buckle steel pipe scaffold, can accomplish the plating operation on disc buckle steel pipe scaffold surface.

As a further aspect of the present invention: fixture is still including backup pad, supporting spring, centre gripping post and reset spring, the backup pad is located the inside of L shape hanger, and is located flexible post and keeps away from one side of lifter plate to be connected fixedly through welding and lifter plate bottom, supporting spring is located the inside of L shape hanger, and is located the bottom of backup pad, the centre gripping post has two, two the centre gripping post is located the outer wall both ends of L shape hanger one side respectively to run through to the inside of L shape hanger, reset spring is located the inside of L shape hanger, and is located between the centre gripping post, and is connected fixedly through welding and centre gripping post.

Thus, the L-shaped hanger is pulled to enable the L-shaped hanger to extrude the torsion spring to twist and rotate through the bearing post, the L-shaped hanger rotates to drive the telescopic post and the fixed post to extrude each other, the telescopic post extrudes the supporting spring to shrink and move through the supporting plate, the supporting plate moves to drive the telescopic post to move to the inside of the bearing post, meanwhile, the supporting plate drives the conical column to extrude the clamping column, the clamping column is stressed to extrude the return spring to contract and move, so that the clamping column moves to the inside of the L-shaped hanger, the L-shaped hanger moves to the inside of the coil buckle type steel pipe scaffold, the pulling of the L-shaped hanging tool is released, the bearing post is reset through the torsion spring to drive the L-shaped hanging tool to reset, meanwhile, the supporting spring pushes the supporting plate to drive the telescopic column to reset, extrusion on the clamping column is relieved, the reset spring resets to push the clamping column to move to the inside of the disc buckling type steel pipe scaffold, and clamping and fixing of the disc buckling type steel pipe scaffold can be completed.

As a further aspect of the present invention: the inside nozzle of being connected fixedly with the inlet pipe that is provided with of plating casing, sealed lid passes through the hinge and is connected with the rotation of plating casing, the inside of plating casing is provided with the lift groove that matches mutually with the lifter plate.

So, through the lifter plate at the inside removal of plating casing, the bottom does not contact the extrusion with the inlet pipe when the lifter plate of being convenient for removes, does not influence inlet pipe fixed connection's nozzle simultaneously and carries out work.

As a further aspect of the present invention: the transmission column is rotatably connected with the plating shell through a bearing, a suspension groove matched with the disc buckle type steel pipe scaffold is arranged between the lifting plates, and a movable groove matched with the connecting gear is arranged in the plating shell.

Therefore, the movable groove matched with the connecting gear is arranged in the plating shell, so that the connecting gear can rotate to drive the lifting plate to move to the inside of the plating shell.

As a further aspect of the present invention: the inside both ends of fixed column, bearing post are provided with torsion spring assorted torsional spring groove, the inside of L shape hanger be provided with flexible post assorted flexible groove, the top of flexible post is provided with fixed column assorted arc surface.

So, be provided with through fixed column, the inside both ends of bearing post with torsion spring assorted torsional spring groove, the bearing post of being convenient for extrudes torsion spring distortion and drives L shape hanger and rotate.

As a further aspect of the present invention: one side that the backup pad is close to the centre gripping post is provided with the toper piece, the inside of centre gripping post be provided with toper piece assorted bell jar, the inside of L shape hanger be provided with supporting spring assorted spring groove.

So, be close to the toper piece of centre gripping post one side through the backup pad, the toper piece of being convenient for drives centre gripping post extrusion reset spring and contracts and remove.

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

through setting up fixture, the pulling L shape hanger passes through bearing post extrusion torsion spring distortion and rotates, drive flexible post and the mutual extrusion of fixed column, make backup pad extrusion supporting spring shrink and remove, it removes inside to drive flexible post removal to the bearing post, the toper post promotes inside the shrink of centre gripping post extrusion reset spring removes to L shape hanger, accomplish the connection of L shape hanger and the dish knot formula steel pipe scaffold, the bearing post resets through torsion spring and drives L shape hanger and reset simultaneously, make the backup pad reset and remove the extrusion to the centre gripping post, make the centre gripping post remove to the dish knot formula steel pipe scaffold inside, through the above-mentioned mutual cooperation between a plurality of parts, can accomplish the centre gripping of the dish knot formula steel pipe scaffold fixedly, thereby the effect of dish knot formula steel pipe scaffold surface plating has been improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a structural cross-sectional view of a plating shell of the present invention;

fig. 3 is a structural cross-sectional view of the fixing column of the present invention;

fig. 4 is a structural sectional view of the L-shaped hanger of the present invention.

In the figure: 1. plating the housing; 101. a sealing cover; 102. a feed pipe; 2. a transmission mechanism; 201. a first motor; 202. a drive post; 203. a connecting gear; 204. a lifting plate; 205. a rack; 3. a clamping mechanism; 301. fixing a column; 302. an L-shaped hanger; 303. a bearing post; 304. a telescopic column; 305. a support plate; 306. a support spring; 307. a clamping post; 308. a return spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a hanger for plating a disc-buckled steel pipe scaffold includes a plating housing 1 and a transmission mechanism 2 having a lifting plate 204, one end of the top end of the plating housing 1 is provided with a sealing cover 101, one side of the plating housing 1 is provided with a plurality of feeding pipes 102 and penetrates into the plating housing 1, the transmission mechanism 2 is located at one side of the plating housing 1 close to the feeding pipes 102 and penetrates through the plating housing 1 to the top end of the plating housing 1, there are two lifting plates 204, the two lifting plates 204 are located at two sides of the top end of the plating housing 1 and penetrate into the plating housing 1, a clamping mechanism 3 connected and fixed with the lifting plates 204 is provided between the lifting plates 204 for hanging and fixing the disc-buckled steel pipe scaffold; the clamping mechanism 3 comprises a plurality of fixed columns 301, L-shaped hangers 302, bearing columns 303 and telescopic columns 304, wherein the fixed columns 301 are arranged between the two lifting plates 204, the fixed columns 301 are fixedly connected with the lifting plates 204 through welding, the L-shaped hangers 302 are arranged in two, the two L-shaped hangers 302 are respectively arranged on two sides of the bottom end of each fixed column 301 and are rotatably connected with the fixed columns 301 through the bearing columns 303, the bearing columns 303 are arranged at the top ends of the L-shaped hangers 302 and penetrate through the fixed columns 301 and are rotatably connected with the fixed columns 301 through bearings, the telescopic columns 304 are arranged in the fixed columns 301 and are arranged at the top ends of the bearing columns 303 and penetrate through the bearing columns 303 to the inside of the L-shaped hangers 302.

In this embodiment: the L-shaped hanging tool 302 is driven to complete clamping connection of the opposite-disc buckling type steel pipe scaffold through rotation of the bearing column 303 of the internal part of the clamping mechanism 3, the opposite-disc buckling type steel pipe scaffold is driven to move to the inside of the plating shell 1 through the lifting plate 204 of the internal part of the transmission mechanism 2, the sealing cover 101 is closed, the feeding pipe 102 enables metal powder to move to one side of the inside of the plating shell 1 through a nozzle, and plating operation on the surface of the opposite-disc buckling type steel pipe scaffold is completed through a surface diffusion method.

Please refer to fig. 1-2, the transmission mechanism 2 further includes a first motor 201, two transmission columns 202, a connecting gear 203 and a rack 205, the first motor 201 is located on one side of the plating housing 1 close to the feeding pipe 102 and is connected and fixed with the plating housing 1 through a bolt, the transmission column 202 is located on one side of the first motor 201 and penetrates into the plating housing 1 and is located at one end of the lifting plate 204, the two connecting gears 203 are located at one end of the lifting plate 204 and are located inside the plating housing 1 and are fixedly sleeved with the outer wall of the transmission column 202, the rack 205 is located at one end of the lifting plate 204 close to the transmission column 202 and is fixedly connected with the lifting plate 204 through welding and is meshed with the connecting gear 203 through a tooth block.

In this embodiment: starting a motor 201, the motor 201 drives a transmission column 202 to rotate, the transmission column 202 rotates to drive a connecting gear 203 to rotate, the connecting gear 203 rotates to drive a rack 205 to move, the rack 205 moves to drive a lifting plate 204 to move, the lifting plate 204 moves to drive a disc-buckled steel pipe scaffold to move to the interior of a plating shell 1 through a fixed column 301 and an L-shaped hanger 302, and then the plating operation on the surface of the disc-buckled steel pipe scaffold can be completed.

Please refer to fig. 2 to 4, the clamping mechanism 3 further includes a supporting plate 305, two supporting springs 306, two clamping posts 307 and a return spring 308, wherein the supporting plate 305 is located inside the L-shaped hanger 302, and is located on one side of the telescopic post 304 away from the lifting plate 204, and is connected and fixed with the bottom end of the lifting plate 204 by welding, the supporting spring 306 is located inside the L-shaped hanger 302 and is located at the bottom end of the supporting plate 305, the two clamping posts 307 are respectively located at two ends of the outer wall of one side of the L-shaped hanger 302, and penetrates through the inside of the L-shaped hanger 302, and the return spring 308 is located inside the L-shaped hanger 302, is located between the clamping posts 307, and is connected and fixed with the clamping posts 307 by welding.

In this embodiment: pulling the L-shaped hanger 302 to enable the L-shaped hanger 302 to extrude the torsion spring to twist and rotate through the bearing column 303, the L-shaped hanger 302 rotates to drive the telescopic column 304 and the fixed column 301 to extrude each other, the telescopic column 304 extrudes the supporting spring 306 to shrink and move through the supporting plate 305, the supporting plate 305 moves to drive the telescopic column 304 to move into the bearing column 303, the supporting plate 305 drives the tapered column to extrude the clamping column 307, the clamping column 307 extrudes the reset spring 308 to shrink and move through stress, the clamping column 307 moves into the L-shaped hanger 302, the L-shaped hanger moves into the disc-buckled steel pipe scaffold, the pulling of the L-shaped hanger 302 is released, the bearing column 303 drives the L-shaped hanger 302 to reset through the torsion spring resetting, the supporting spring 306 pushes the buckled supporting plate 305 to drive the telescopic column 304 to reset, the extrusion on the clamping column 307 is released, the reset spring 308 resets to push the clamping column 307 to move into the disc-buckled steel pipe scaffold, the clamping and fixing of the disc buckle type steel pipe scaffold can be finished.

Please refer to fig. 1-2, a nozzle connected and fixed with the feeding pipe 102 is disposed inside the plating housing 1, the sealing cap 101 is rotatably connected with the plating housing 1 through a hinge, and a lifting groove matched with the lifting plate 204 is disposed inside the plating housing 1.

In this embodiment: by moving the lifting plate 204 inside the plating housing 1, the bottom end of the lifting plate 204 is not contacted and pressed with the feed pipe 102 when moving, and the operation of the nozzle fixedly connected with the feed pipe 102 is not influenced.

Please refer to fig. 1-2, the transmission column 202 is rotatably connected to the plating housing 1 through a bearing, a suspension groove matched with the coil-fastened steel pipe scaffold is disposed between the lifting plates 204, and a movable groove matched with the connecting gear 203 is disposed inside the plating housing 1.

In this embodiment: by arranging the movable groove matched with the connecting gear 203 in the plating shell 1, the connecting gear 203 can rotate to drive the lifting plate 204 to move into the plating shell 1 conveniently.

Please refer to fig. 2 to 4, torsion spring slots matched with the torsion springs are disposed at two ends of the fixing column 301 and the bearing column 303, a telescopic slot matched with the telescopic column 304 is disposed in the L-shaped hanger 302, and an arc surface matched with the fixing column 301 is disposed at the top end of the telescopic column 304.

In this embodiment: torsion spring grooves matched with the torsion springs are formed in the two ends of the fixing column 301 and the two ends of the inside of the bearing column 303, so that the bearing column 303 can extrude the torsion springs to be twisted to drive the L-shaped hanging tool 302 to rotate.

Please refer to fig. 2-4, a tapered block is disposed on a side of the supporting plate 305 close to the clamping column 307, a tapered slot matching with the tapered block is disposed inside the clamping column 307, and a spring slot matching with the supporting spring 306 is disposed inside the L-shaped hanger 302.

In this embodiment: the tapered block on the side of the support plate 305 close to the clamping column 307 facilitates the tapered block to drive the clamping column 307 to press the return spring 308 to move in a contraction mode.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A hanging tool for plating a disc-buckled steel pipe scaffold comprises a plating shell (1) and a transmission mechanism (2) with a lifting plate (204), wherein a sealing cover (101) is arranged at one end of the top end of the plating shell (1), a plurality of feeding pipes (102) are arranged on one side of the plating shell (1), the transmission mechanism (2) is positioned on one side, close to the feeding pipes (102), of the plating shell (1), and the lifting plate (204) is positioned on two sides of the top end of the plating shell (1), and is characterized in that a clamping mechanism (3) is arranged between the lifting plate (204);

the clamping mechanism (3) comprises a fixed column (301), an L-shaped hanger (302), a bearing column (303) and a telescopic column (304), wherein the fixed column (301) is located between two lifting plates (204), the L-shaped hanger (302) is provided with two sides respectively located at the bottom end of the fixed column (301), the bearing column (303) is located at the top end of the L-shaped hanger (302), and the telescopic column (304) is located at the top end of the bearing column (303).

2. The hanging tool for plating the coil button type steel pipe scaffold is characterized in that the transmission mechanism (2) further comprises a first motor (201), a transmission column (202), a connecting gear (203) and a rack (205), wherein the first motor (201) is positioned on one side of the plating shell (1) close to the feeding pipe (102), the transmission column (202) is positioned on one side of the first motor (201), the connecting gear (203) is positioned at one end of the lifting plate (204), and the rack (205) is positioned at one end of the lifting plate (204) close to the transmission column (202).

3. The hanger for plating the coil-fastened steel pipe scaffold according to claim 2, wherein the clamping mechanism (3) further comprises a support plate (305), a support spring (306), a clamping column (307) and a return spring (308), the support plate (305) is located on one side of the telescopic column (304) away from the lifting plate (204), the support spring (306) is located inside the L-shaped hanger (302), the clamping column (307) is located at two ends of the outer wall of one side of the L-shaped hanger (302), and the return spring (308) is located between the clamping columns (307) of the L-shaped hanger (302).

4. The hanging tool for plating the disc-buckled steel pipe scaffold is characterized in that a nozzle fixedly connected with the feeding pipe (102) is arranged inside the plating shell (1) according to the claim 2, and a lifting groove matched with the lifting plate (204) is arranged inside the plating shell (1).

5. The hanging tool for plating the coil-buckled steel pipe scaffold is characterized in that a hanging groove matched with the coil-buckled steel pipe scaffold is arranged between the lifting plates (204), and a movable groove matched with the connecting gear (203) is arranged inside the plating shell (1).

6. The hanging tool for plating the coil-fastened steel pipe scaffold is characterized in that torsion spring grooves matched with torsion springs are formed in two ends of the inner portions of the fixed column (301) and the bearing column (303), telescopic grooves matched with the telescopic columns (304) are formed in the inner portion of the L-shaped hanging tool (302), and arc surfaces matched with the fixed column (301) are formed in the top ends of the telescopic columns (304).

7. The hanging tool for plating the coil button type steel pipe scaffold is characterized in that one side of the supporting plate (305) close to the clamping column (307) is provided with a conical block, the inner part of the clamping column (307) is provided with a conical groove matched with the conical block, and the inner part of the L-shaped hanging tool (302) is provided with a spring groove matched with the supporting spring (306).

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