CN220753227U - Pin sleeve device of axial horizontal inductor - Google Patents

Abstract

The utility model provides a pin sleeve device of an axial horizontal inductor, which comprises: the device comprises a support frame, wherein an equipment plate is arranged at the top of the support frame, an air cylinder is arranged in the middle of one side surface of the equipment plate, and a sleeve component for heating, shrinking and clamping a pipe at the root of a pin is arranged at the end part of a telescopic rod of the air cylinder; when the sleeve is carried out, the pipe is fed from the sleeve pipe, sleeved to the periphery of the pin, the second air cylinder works, the telescopic rod of the second air cylinder pushes the piston inside the air cylinder to move, air is fed into the pipe clamping piston cylinder and the pipe cutting piston cylinder through the air guide pipe, the first piston block and the second piston block are clamped at the middle part of the sleeve pipe under the action of air pressure, the electric heating plate and the blade clamp the pipe, the electric heating plate is electrified, the electric heating plate heats and contracts the pipe, the pipe is fixed at the root of the pin, and meanwhile the blade cuts off the pipe, so that sleeve pipe operation is completed, and automatic sleeve pipe is realized.

Description

Pin sleeve device of axial horizontal inductor

Technical Field

The utility model relates to a device mechanism for producing and manufacturing an axial horizontal inductor, in particular to a pin sleeve device of the axial horizontal inductor.

Background

In the production processing field of axial horizontal inductor, wherein carry out the sleeve pipe to the pin of inductor and be one of the most important processes, current sleeve pipe is when inserting on the pin, all is gone on through the mode of manpower, because of manpower sleeve pipe inefficiency, and the cost of labor is higher and higher, along with nonstandard automation's continuous development, nonstandard automation has been used in each processing field, at present to axial horizontal inductor sleeve pipe production processing, realize reducing cost and increase efficiency, the pin sleeve pipe device of an axial horizontal inductor is specifically designed.

Disclosure of Invention

To solve at least one of the above technical disadvantages, the present utility model provides a pin sleeve device of an axial horizontal inductor, including: the support frame, the top of support frame is equipped with the equipment board, and one side surface middle part of equipment board is equipped with the cylinder, and the tip of the telescopic link of cylinder is equipped with the sleeve pipe subassembly that is used for pressing from both sides tubular product heating shrink clamp at the root of a pin.

Preferably, the sleeve assembly comprises two sleeve pipes, a connecting plate is arranged between one ends of the two sleeve pipes, which are close to the cylinders, the telescopic rods of the cylinders are fixed in the middle of the connecting plate 402, one ends of the sleeve pipes, which are far away from the cylinders, are provided with two rectangular symmetrical pipe clamping piston cylinders, two rectangular symmetrical pipe cutting piston cylinders are arranged on the inner sleeve pipes of the pipe clamping piston cylinders, the inner cavities of the sleeve pipes penetrate through the inner cavities of the pipe clamping piston cylinders and the pipe cutting piston cylinders, the inner parts of the pipe clamping piston cylinders are respectively and hermetically connected with a first slidable piston block, two insulating rods are respectively arranged on two sides of one end of the first piston block, which is close to the middle of the sleeve pipe, an electric heating plate is arranged at one end of each of the two insulating rods, a second slidable piston block is arranged at one end of each piston block, which is close to the middle of the sleeve pipe, is provided with a blade for cutting pipe, the pipe cutting piston cylinders and the pipe clamping piston cylinders are far away from the middle of the sleeve pipes, the other ends of the pipe clamping piston cylinders are respectively and are connected with air pipes together, the inner surfaces of the other sides of the equipment plates are fixedly connected with air cylinders, tail parts of the equipment plates, the air cylinders are arranged on the other side surfaces of the equipment plates, two inner telescopic rods are fixedly connected with the air cylinders, and the air cylinders are arranged on the piston surfaces of the air cylinders, and the two telescopic rods of the air cylinders are respectively.

Further, the electric heating plate is made of elastic material.

Preferably, a pipe feeding assembly is arranged on one side surface of the equipment plate and positioned at the tail part of the air cylinder.

Preferably, the U-shaped groove is arranged on the tail part of the cylinder and one side surface of the equipment plate, the pipe conveying component comprises two rotating shafts which are connected with the holes on the two side walls of the U-shaped groove in a shaft fit manner, one ends of the two rotating shafts are driven by gears, the other end of one rotating shaft is provided with a motor, and pipe conveying rollers are arranged on the rotating shafts.

Preferably, the middle part of the pipe feeding roller is provided with an arc-shaped groove.

Preferably, the arcuate recess is aligned with the cannula tube.

The beneficial effects are that: when the sleeve is carried out, the pipe used by the sleeve is fixed at the root of the pin after being heated and contracted by the sleeve component, so that the sleeve can be prevented from falling off in the subsequent processing, when the sleeve is carried out, the pipe is fed from the sleeve pipe, sleeved to the periphery of the pin, the second cylinder works, the telescopic rod of the second cylinder pushes the piston inside the air cylinder to move, gas is fed into the pipe clamping piston cylinder and the pipe cutting piston cylinder through the gas guide pipe, the first piston block and the second piston block are clamped towards the middle part of the sleeve pipe under the action of gas pressure, the electric heating plate and the blade clamp the pipe, the electric heating plate is electrified, the pipe is heated and contracted by the electric heating plate, the pipe is fixed at the root of the pin, and meanwhile, the blade cuts off the pipe, so that the sleeve operation is completed, and the automatic sleeve is realized.

The realization, functional characteristics and advantages of the present utility model are further described with reference to the accompanying drawings in combination with the embodiments.

Drawings

Fig. 1 is an isometric view of the entire present utility model.

Fig. 2 is a second perspective view of the whole of the present utility model.

Fig. 3 is an isometric view of a support frame of the present utility model.

Fig. 4 is an isometric view of a tube assembly of the present utility model.

Fig. 5 is an isometric view of a piston block one of the present utility model.

Fig. 6 is an isometric view of a second piston block of the present utility model.

Fig. 7 is an isometric view of a cannula passageway of the present utility model.

In fig. 1 to 7, the correspondence between the component names or lines and the drawing numbers is: the device comprises a support frame 1, a device plate 2, a U-shaped groove 201, an air cylinder 3, a sleeve assembly 4, a sleeve pipe 401, a connecting plate 402, a pipe clamping piston cylinder 403, a pipe cutting piston cylinder 404, an air duct 405, an air cylinder 406, an air cylinder II 407, a piston block I408, an insulating rod 481, an electric heating plate 482, a piston block II 409, a pipe conveying assembly 5, a rotating shaft 501, a motor 502 and a pipe conveying roller 503.

Description of the embodiments

Please refer to fig. 1 to 7;

the embodiment provides a pin sleeve device of an axial horizontal inductor, which comprises: referring to fig. 1 and 2, a supporting frame 1, wherein an equipment plate 2 is arranged at the top of the supporting frame 1, a cylinder 3 is arranged in the middle of one side surface of the equipment plate 2, and a sleeve component 4 for heating, shrinking and clamping a pipe at the root of a pin is arranged at the end part of a telescopic rod of the cylinder 3;

in the concrete implementation, when the sleeve is carried out, the used pipe material of the sleeve is fixed at the root of the pin after being heated and contracted through the sleeve component 4, so that the sleeve can be prevented from falling off in subsequent processing, the automatic sleeve is realized, the labor cost can be reduced, and the cost reduction and efficiency enhancement are realized.

Preferably, referring to fig. 1 to 7, the sleeve assembly 4 includes two sleeve pipes 401, a connecting plate 402 is disposed between one ends of the two sleeve pipes 401 close to the cylinder 3, a telescopic rod of the cylinder 3 is fixed in the middle of the connecting plate 402, two rectangular symmetrical pipe clamping piston cylinders 403 are disposed at one ends of the sleeve pipes 401 far from the cylinder 3, two rectangular symmetrical pipe cutting piston cylinders 404 are disposed on the inner sleeve pipes 401 of the pipe clamping piston cylinders 403, an inner cavity of the sleeve pipes 401 is penetrated with the inner cavities of the pipe clamping piston cylinders 403 and the pipe cutting piston cylinders 404, slidable piston blocks 408 are disposed in the inner part of the pipe clamping piston cylinders 403 in a sealing manner, insulating rods 481 are disposed at two sides of one ends of the piston blocks 408 close to the middle of the sleeve pipes 401, electric heating plates 482 are disposed at the ends of the two insulating rods 481, two slidable piston blocks 409 are disposed in a sealing manner in the inner part of the pipe cutting piston cylinders 404, blades for cutting end pipes are disposed at the middle of one ends of the piston blocks two 409 close to the middle of the sleeve pipes 401, an air guide plate 406 is disposed at the other ends of the pipe clamping piston cylinders 404 far from the middle of the sleeve pipes 403, and an air guide plate 406 is disposed at the other ends of the piston cylinders 406 are connected with the other ends of the piston blocks, and the piston blocks 406 are disposed at the other ends of the piston blocks 2 are connected with an air guide plate 406, and the air cylinder device is connected with the air cylinder 407;

in the concrete implementation, when the sleeve is carried out, the pipe is fed from the sleeve pipe 401 and sleeved on the periphery of the pin, then the cylinder II 407 works, the telescopic rod of the cylinder II 407 pushes the piston in the air cylinder 406 to move, gas is fed into the pipe clamping piston cylinder 403 and the pipe cutting piston cylinder 404 through the gas guide pipe 405, the piston block I408 and the piston block II 409 are clamped towards the middle part of the sleeve pipe 401 under the action of gas pressure, the electric heating plate 482 and the blade are clamped to clamp the pipe, the electric heating plate 482 is electrified, the electric heating plate 482 heats and contracts the pipe, meanwhile, the two electric heating plates 482 clamp towards the middle, the pipe is fixed at the root part of the pin, and the blade cuts off the pipe to complete the sleeve operation;

and (3) pipe material: heat shrink tube, shrink temperature: 84-120 ℃.

The heat shrinkage tube is at normal temperature: the glass state is that after heating at high temperature: a high-elastic state;

principle of: when the heat shrinkage tube is manufactured, the glassy heat shrinkage tube is heated to be in a high-elastic state, meanwhile, the load is increased, and then the high-elastic state heat shrinkage tube is rapidly cooled, namely, the heat shrinkage tube is unfolded at the moment; when the heat-shrinkable tube is used, the heat-shrinkable tube in a high-elastic state automatically shrinks because of no load after being heated.

In automatic operation, the cylinder 3 controls the extension and retraction of the sleeve assembly 4, so that the sleeve pipe 401 is sleeved on the pin and separated from the pin.

Further, it is characterized in that: the electric heating sheet 482 is made of an elastic material;

in specific implementation, the heat conducting fin 482 better enables the pipe to be tightly attached to the pins;

elastic material: spring heating wire.

Preferably, a pipe feeding assembly 5 is arranged on one side surface of the equipment plate 2 at the tail part of the air cylinder 3;

in the concrete implementation, the pipe is fed through the pipe feeding assembly 5 when the automatic operation is performed.

Preferably, referring to fig. 3 and 4, a U-shaped groove 201 is arranged on one side surface of the equipment board 2 at the tail part of the air cylinder 3, the pipe feeding component 5 comprises two rotating shafts 501 which are connected with the holes on the two side walls of the U-shaped groove 201 in a shaft fit manner, one end of each rotating shaft 501 is driven by a gear, the other end of each rotating shaft 501 is provided with a motor 502, and pipe feeding rollers 503 are arranged on the rotating shafts 501;

in specific implementation, when feeding, the motor 502 drives the rotating shafts 501 to rotate, and the two rotating shafts 501 are meshed to rotate through gears, so that the feeding roller 503 clamps the outer wall of the pipe to feed the pipe forwards, and the pipe passes through the sleeve pipe 401 to feed.

Preferably, the middle part of the pipe feeding roller 503 is provided with an arc-shaped groove;

in particular, the tube feeding roller 503 does not collapse the sleeve.

Preferably, the arcuate recess is aligned with the cannula tube 401;

in the concrete implementation, the sleeve can save more labor when feeding, and is more convenient for feeding.

And (3) sealing and connecting: including but not limited to: and (5) sealing and connecting in a seamless way.

Claims (7)

1. A pin sleeve apparatus for an axial horizontal inductor, comprising: support frame (1), the top of support frame (1) is equipped with equipment board (2), its characterized in that: an air cylinder (3) is arranged in the middle of one side surface of the equipment plate (2), and a sleeve component (4) for heating, shrinking and clamping the pipe at the root of the pin is arranged at the end part of a telescopic rod of the air cylinder (3).

2. The pin sleeve device of an axial horizontal inductor of claim 1, wherein: the sleeve component (4) comprises two sleeve pipelines (401), a connecting plate (402) is arranged between one ends, close to the air cylinders (3), of the two sleeve pipelines (401), the telescopic rod of the air cylinders (3) is fixed in the middle of the connecting plate (402), one ends, far away from the air cylinders (3), of the sleeve pipelines (401) are provided with two rectangular symmetrical pipe clamping piston cylinders (403), two rectangular symmetrical pipe cutting piston cylinders (404) are arranged on the inner sleeve pipelines (401) of the pipe clamping piston cylinders (403), the inner cavities of the sleeve pipelines (401) penetrate through the inner cavities of the pipe clamping piston cylinders (403) and the inner cavities of the pipe cutting piston cylinders (404), a first slidable piston block (408) is arranged in the inner part of the pipe clamping piston cylinders (403) in a sealing mode, two sides, close to one end, close to the middle of the sleeve pipelines (401), of the two insulating rods (481) are provided with electric heating plates (482), the inner parts of the pipe cutting piston cylinders (404) are respectively connected with a second slidable piston block (409) in a sealing mode, the inner ends, close to the middle of the pipe clamping piston blocks (409) are provided with one ends, close to the middle of the pipe clamping piston cylinders (401), of the pipe clamping piston blocks (403) are provided with one ends, far away from the middle ends of the pipe clamping piston cylinders (401), the other end of the air duct (405) is connected with an air cylinder (406), the air cylinder (406) is fixed on the other side surface of the equipment board (2), an air cylinder II (407) is arranged at the tail part of the air cylinder (406) and on the other side surface of the equipment board (2), and a telescopic rod of the air cylinder II (407) is fixedly connected with a piston in the air cylinder (406).

3. The pin sleeve device of an axial horizontal inductor of claim 2, wherein: the electric heating sheet (482) is made of an elastic material.

4. The pin sleeve device of an axial horizontal inductor of claim 2, wherein: and a pipe feeding component (5) is arranged at the tail part of the air cylinder (3) and on one side surface of the equipment plate (2).

5. The pin sleeve device of an axial horizontal inductor of claim 4, wherein: the tail part of the cylinder (3) and one side surface of the equipment plate (2) are provided with U-shaped grooves (201), the pipe conveying component (5) comprises two rotating shafts (501) which are connected with the holes on two side walls of the U-shaped grooves (201) in a shaft fit mode, one ends of the two rotating shafts (501) are driven through gears, the other end of one rotating shaft (501) is provided with a motor (502), and pipe conveying rollers (503) are arranged on the rotating shafts (501).

6. The pin sleeve device of an axial horizontal inductor of claim 5, wherein: the middle part of the pipe feeding roller (503) is provided with an arc-shaped groove.

7. The pin sleeve device of an axial horizontal inductor of claim 6, wherein: the arcuate grooves are aligned with the cannula tube (401).