CN219309888U - Splicing device for plug-in type aluminum alloy pipes - Google Patents

Abstract

The utility model provides a splicing device for plug-in type aluminum alloy pipes, and relates to the field of alloy processing. The splicing device for the plug-in type aluminum alloy pipes comprises a base plate, wherein the upper surface of the base plate is fixedly connected with a return bending frame, the outer surface of the return bending frame is fixedly connected with a concave block, the upper surface of the concave block is fixedly connected with a motor, the upper surface of the motor is fixedly connected with a motion-only tooth, and the motion-only tooth is meshed with a wide toothed plate. According to the plug-in type aluminum alloy pipe splicing device, the motor is started to rotate the movable teeth fixedly connected with the upper surface of the output end of the motor, the movable teeth rotate to further drive the wide toothed plate meshed with the teeth of the movable teeth to move, the wide toothed plate moves to drive the toothed plate to move towards the inside of the device, the toothed plate drives the leakage half block to move towards the inside of the device, the movement of the leakage half block drives the pipe engaging ring to move forwards, the aim of driving two aluminum alloy pipes to be spliced is achieved, and the problems that labor splicing of the aluminum alloy pipes is difficult and a certain danger exists are solved.

Description

Splicing device for plug-in type aluminum alloy pipes

Technical Field

The utility model relates to the technical field of alloy processing, in particular to a splicing device for plug-in type aluminum alloy pipes.

Background

The method is a workpiece forming processing method which applies external force to plates, strips, pipes, sectional materials and the like through a press machine and a die according to the shape and the size of a required workpiece so as to generate plastic deformation or separation.

The aluminum alloy pipe is one of common alloy materials, if the method is not right in the splicing process of the aluminum alloy pipe due to the characteristics of the aluminum alloy pipe, the damage of the aluminum alloy pipe is easy to cause injury of workers, the splicing of the aluminum alloy pipe is difficult due to the corrosion of the aluminum alloy pipe once the characteristics of the aluminum alloy pipe are generated, and if the product is damaged and deformed due to rough splicing.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a splicing device for plug-in type aluminum alloy pipes, which solves the problems that if a method is not right in the splicing process of the aluminum alloy pipes, the damage of the aluminum alloy pipes is easy to cause the injury of workers, the splicing of the aluminum alloy pipes is difficult as soon as the corrosion is caused due to the characteristics of the aluminum alloy pipes, and if the product is damaged and deformed due to rough splicing.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a plug-in type aluminum alloy pipe splicing apparatus, which comprises a substrate, the base plate upper surface fixedly connected with returns the curved frame, return curved frame surface fixedly connected with concave block down, concave block upper surface fixedly connected with motor, motor upper surface fixedly connected with moves only the tooth, move only the tooth meshing and have wide pinion, wide pinion lower surface fixedly connected with connects the pinion, connect the fixed surface to be connected with half piece that leaks under the pinion, half piece that leaks is kept away from and is connected with the meshing pipe ring outward surface fixedly connected with hydraulic stem, meshing pipe ring inward surface fixedly connected with hydraulic stem, hydraulic stem one end fixedly connected with clamp pipe piece, meshing pipe ring upward surface fixedly connected with two supporting pieces, two supporting piece outward surface sliding connection has the track groove, track groove outward surface fixedly connected with trompil board, trompil board outward surface fixedly connected with system landing piece, system landing piece outward surface sliding connection has the meshing pipe ring, the rotation of trompil board inward surface is connected with the driven tooth, driven tooth meshing has flat rotating tooth, the fixed surface is connected with anti-disengaging ring, the transmission shaft outward surface is cup jointed, belt inward surface is kept away from tooth spring connection with the sand-roller pile outward surface, one side is kept away from the fixed pile outward surface of the fixed connection of roller pile.

Preferably, the engaging pipe rings are three cylinders, wherein an annular chute is formed in the outer surface of one cylinder, a falling block is connected to the inner surface of the chute in a sliding manner, and flat rotating teeth are fixedly connected to the outer surface of the cylinder provided with the annular chute.

Preferably, the wide toothed plate is a rack plate, the lower surface of the rack plate is fixedly connected with a toothed plate, teeth are arranged on the outer surface of one side of the rack plate, which is close to the unique moving teeth, and the teeth of the rack plate are meshed with the unique moving teeth.

Preferably, the concave block is a concave block with a downward opening, the inner surface of the concave block is fixedly connected with a track groove, the upper surface of the concave block is fixedly connected with a motor, and the outer surface of the concave block is fixedly connected with a return bending frame.

Preferably, the track groove is a rectangular block, a T-shaped through chute is formed in the outer surface of one side of the rectangular block, which is close to the perforated plate, and double support blocks are connected to the inner surface of the T-shaped through chute in a sliding manner.

Preferably, the pipe clamping block is an arc-shaped block, the outer surface of the arc-shaped block is fixedly connected with a hydraulic rod, and the outer surface of one side of the arc-shaped block, facing the outside of the device, is an arc surface.

(III) beneficial effects

The utility model provides a splicing device for plug-in type aluminum alloy pipes. The beneficial effects are as follows:

1. according to the plug-in type aluminum alloy pipe splicing device, the motor is started to rotate the movable teeth fixedly connected with the upper surface of the output end of the motor, the movable teeth rotate to further drive the wide toothed plate meshed with the teeth of the movable teeth to move, the wide toothed plate moves to drive the toothed plate to move towards the inside of the device, the toothed plate drives the leakage half block to move towards the inside of the device, the movement of the leakage half block drives the pipe engaging ring to move forwards, the aim of driving two aluminum alloy pipes to be spliced is achieved, and the problems that labor splicing of the aluminum alloy pipes is difficult and a certain danger exists are solved.

2. This plug-in type aluminum alloy pipe splicing apparatus, through the rotation of motor, driven the belt and rotated, thereby make the belt drive the transmission shaft rotate, and then make the transmission shaft drive driven tooth rotate, thereby make driven tooth drive rather than the meshing flat tooth rotate, thereby make flat tooth drive offer the ring groove the meshing pipe ring rotate, reached by the aluminium alloy pipe of concatenation carry out pivoted purpose, solved violent butt joint and caused the problem of damage to the aluminum alloy pipe.

Drawings

FIG. 1 is a schematic view of a substrate structure according to the present utility model;

FIG. 2 is a schematic view of the wide toothed plate structure of the present utility model;

FIG. 3 is a schematic view of a transmission shaft according to the present utility model;

FIG. 4 is a schematic view of a structure of a pipe engaging ring according to the present utility model.

The device comprises a base plate 1, a return bending frame 2, a concave block 3, a motor 4, a unique tooth 5, a wide toothed plate 6, a toothed plate 7, a leakage half block 8, a pipe engaging ring 9, a hydraulic rod 10, a pipe clamping block 11, a flat rotating tooth 12, a driven tooth 13, an opening plate 14, a transmission shaft 15, a belt 16, an anti-drop ring 17, a track groove 18, a double-support block 19, a spring rolling pile 20, a key block 21, a sand holding rod 22 and a milling column 23.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The embodiment of the utility model provides a splicing device for plug-in type aluminum alloy pipes, which is shown in fig. 1-4, and comprises a substrate 1, wherein the upper surface of the substrate 1 is fixedly connected with a bending frame 2, the outer surface of the bending frame 2 is fixedly connected with a concave block 3, the concave block 3 is a concave block with a downward opening, the inner surface of the concave block is fixedly connected with a track groove 18, the upper surface of the concave block is fixedly connected with a motor 4, the outer surface of the concave block is fixedly connected with the bending frame 2, and the concave block 3 is used for supporting part of a device main body.

The upper surface of the concave block 3 is fixedly connected with a motor 4, the upper surface of the motor 4 is fixedly connected with a unique tooth 5, the unique tooth 5 is meshed with a wide toothed plate 6, the wide toothed plate 6 is a toothed plate, the lower surface of the toothed plate is fixedly connected with a toothed plate 7, the toothed plate is provided with teeth on the outer surface of one side, close to the unique tooth 5, of the toothed plate, the teeth of the toothed plate are meshed with the unique tooth 5, and the wide toothed plate 6 is used for driving power generated by the motor 4 and used for subsequent device work.

The fixed surface is connected with connects pinion rack 7 under the wide pinion rack 6, connects pinion rack 7 lower surface fixedly connected with hourglass half 8, and the hourglass half 8 is kept away from and connects pinion rack 7 one side surface fixedly connected with and is engaged with pipe ring 9, and the pipe ring 9 is barrel three altogether, and annular spout has been seted up to one of them drum surface, and spout internal surface sliding connection has system to fall piece 24, and the drum surface fixedly connected with of seting up annular spout is flat to change tooth 12, and the pipe ring 9 is used for pressing from both sides tight alloy pipe, is convenient for alloy pipe butt joint and installation.

The inner surface of the pipe engaging ring 9 is fixedly connected with a hydraulic rod 10, one end of the hydraulic rod 10 is fixedly connected with a pipe clamping block 11, the pipe clamping block 11 is an arc-shaped block, the outer surface of the arc-shaped block is fixedly connected with the hydraulic rod 10, the outer surface of one side of the arc-shaped block, facing the outside of the device, is an arc surface, and the pipe clamping block 11 is used for clamping an alloy pipe, so that the alloy pipe can be conveniently abutted and installed.

The upper surface of the pipe engaging ring 9 is fixedly connected with a double-support block 19, the outer surface of the double-support block 19 is slidably connected with a track groove 18, the track groove 18 is a rectangular block, a T-shaped through chute is formed in the outer surface of one side of the rectangular block, which is close to the opening plate 14, of the rectangular block, the inner surface of the T-shaped through chute is slidably connected with the double-support block 19, the track groove 18 is used for controlling the moving track of the device, and the phenomenon that the workpiece is damaged due to deviation of movement of the device is avoided.

The outer surface of the track groove 18 is fixedly connected with an opening plate 14, the lower surface of the opening plate 14 is fixedly connected with a falling block 24, the outer surface of the falling block 24 is slidably connected with a pipe engaging ring 9, the inner surface of the opening plate 14 is rotatably connected with a transmission shaft 15, the lower surface of the transmission shaft 15 is fixedly connected with driven teeth 13, the driven teeth 13 are meshed with flat rotating teeth 12 in a tooth-engaging manner, and the upper surface of the transmission shaft 15 is fixedly connected with an anti-falling ring 17.

The belt 16 has been cup jointed to transmission shaft 15 surface, and belt 16 internal surface has cup jointed the motor 4 output, and track groove 18 keeps away from orifice plate 14 one side surface rotation and is connected with spring roller stake 20, spring roller stake 20 surface fixedly connected with key piece 21, and spring roller stake 20 one side surface fixedly connected with of key piece 21 keeps away from resides sand pole 22, resides sand pole 22 surface rotation and is connected with the mill post 23 that contracts, contracts the mill post 23 surface and be the dull polish material to polish the aluminum alloy tube.

Working principle: when in use, the inserted aluminum alloy pipe is required to be placed in the pipe-engaging ring 9 close to one side of the milling column 23 and the hydraulic rod 10 is regulated, so that the pipe-clamping block 11 clamps the aluminum alloy pipe in the middle of the pipe-engaging ring 9, at the moment, the clamped aluminum alloy pipe is opened in the two pipe-engaging rings 9 close to one side of the flat rotating teeth 12, the process of regulating the hydraulic rod 10 is repeated, then the motor 4 is started, the rotation of the motor 4 drives the movable teeth 5 fixedly connected with the upper surface of the output end of the motor to rotate, the rotation of the movable teeth 5 drives the wide toothed plate 6 meshed with the teeth of the movable teeth 5 to move, the movement of the wide toothed plate 6 drives the toothed plate 7 to move inwards, so that the toothed plate 7 drives the half-leakage block 8 to move inwards, the movement of the half-leakage block 8 drives the pipe-engaging ring 9 to move forwards, thereby drive two aluminum alloy pipes and dock to accomplish the concatenation of aluminum alloy pipe, simultaneously the rotation of motor 4 has driven belt 16 and rotated, thereby make belt 16 drive transmission shaft 15 rotate, and then make transmission shaft 15 drive driven tooth 13 rotate, thereby make driven tooth 13 drive with its meshed flat tooth 12 rotate, thereby make flat tooth 12 drive offer the ring gear 9 of ring channel rotate, and then drive the aluminum alloy pipe that is spliced rotate, thereby avoid violently butt joint to cause the damage to the aluminum alloy pipe, after the concatenation is accomplished hydraulic rod 10 slightly retracts, and make spring roller stake 20 rotate, clip the aluminum alloy pipe, outwards draw the aluminum alloy pipe in the in-process of polishing the aluminum alloy pipe, thereby make the aluminum alloy pipe break away from the device, be convenient for carry out the concatenation of next step aluminum alloy pipe.

Although embodiments of the present utility model 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a plug-in type aluminum alloy pipe splicing apparatus, includes base plate (1), its characterized in that: the utility model discloses a transmission shaft, which comprises a base plate (1), a return bending frame (2) fixedly connected with the upper surface of the base plate, a lower concave block (3) fixedly connected with the outer surface of the return bending frame (2), a motor (4) fixedly connected with the upper surface of the lower concave block (3), a motion-limiting tooth (5) fixedly connected with the upper surface of the motor (4), a wide toothed plate (6) meshed with the motion-limiting tooth (5), a tooth connecting plate (7) fixedly connected with the lower surface of the wide toothed plate (6), a drop half block (8) fixedly connected with the lower surface of the tooth connecting plate (7), a meshing pipe ring (9) fixedly connected with the inner surface of the meshing pipe ring (9), a hydraulic rod (10) fixedly connected with one end of the hydraulic rod (10) fixedly connected with a pipe clamping block (11), a double-supporting block (19) fixedly connected with the upper surface of the meshing pipe ring (9), a track groove (18) fixedly connected with a perforated plate (14) sliding on the outer surface of the double-supporting tooth (19), a dropping block (24) fixedly connected with the lower surface of the perforated plate (14), a drop half block (24) and a rotary transmission shaft (13) fixedly connected with the inner surface of the driven pipe ring (13), the upper surface fixedly connected with anticreep ring (17) of transmission shaft (15), belt (16) have been cup jointed to transmission shaft (15) surface, motor (4) output has been cup jointed to belt (16) internal surface, track groove (18) are kept away from trompil board (14) one side surface rotation and are connected with spring rolling pile (20), spring rolling pile (20) surface fixedly connected with keymat (21), keymat (21) are kept away from spring rolling pile (20) one side surface fixedly connected with and reside sand pole (22), it is connected with mill post (23) to reside sand pole (22) surface rotation.

2. The plug-in type aluminum alloy pipe splicing device according to claim 1, wherein: the number of the engaging pipe rings (9) is three, one of the cylinders is provided with an annular chute, the inner surface of the chute is connected with a falling block (24) in a sliding manner, and the outer surface of the cylinder provided with the annular chute is fixedly connected with a flat rotating tooth (12).

3. The plug-in type aluminum alloy pipe splicing device according to claim 1, wherein: the wide toothed plate (6) is a rack plate, the lower surface of the rack plate is fixedly connected with a toothed plate (7), teeth are formed on the outer surface of one side of the rack plate, which is close to the unique moving teeth (5), and the teeth of the rack plate are meshed with the unique moving teeth (5).

4. The plug-in type aluminum alloy pipe splicing device according to claim 1, wherein: the concave block (3) is a concave block with a downward opening, the inner surface of the concave block is fixedly connected with a track groove (18), the upper surface of the concave block is fixedly connected with a motor (4), and the outer surface of the concave block is fixedly connected with a return bending frame (2).

5. The plug-in type aluminum alloy pipe splicing device according to claim 1, wherein: the track groove (18) is a rectangular block, a T-shaped through chute is formed in the outer surface of one side of the rectangular block, which is close to the opening plate (14), and double support blocks (19) are connected to the inner surface of the T-shaped through chute in a sliding manner.

6. The plug-in type aluminum alloy pipe splicing device according to claim 1, wherein: the pipe clamping block (11) is an arc-shaped block, the outer surface of the arc-shaped block is fixedly connected with the hydraulic rod (10), and the outer surface of one side of the arc-shaped block, facing the outside of the device, is an arc surface.

Images