CN220030409U - Plastic tubing processing equipment - Google Patents

Abstract

The utility model discloses plastic pipe processing equipment, which relates to the technical field of plastic pipe processing and comprises a plastic pipe and a clamping assembly, wherein a guide assembly is arranged on the side edge of the clamping assembly and comprises a guide sleeve, a first guide ring and a second guide ring are symmetrically and slidingly arranged on the guide sleeve, and the guide sleeve is rotatable. According to the utility model, the plastic pipeline can be freely placed on the guide sleeve through the first guide ring and the second guide ring which are symmetrically arranged, the first guide ring and the second guide ring only play a limiting role, so that the plastic pipeline can freely slide on the guide sleeve to guide the movement of the plastic pipeline, meanwhile, the plastic pipeline can be further cooled in the guide process, the plastic pipeline can be fully cooled and guided when reaching the position of the clamping assembly, the natural plastic pipeline is obtained, and the deformation possibly caused by the applied external force when the plastic pipeline is directly clamped by the clamping assembly is avoided.

Description

Plastic tubing processing equipment

Technical Field

The utility model relates to the technical field of plastic pipe processing, in particular to plastic pipe processing equipment.

Background

The plastic pipe is an extrusion formed pipe made of plastic, and when the plastic pipe is generated, the plastic pipe is soft because the plastic pipe is in a warm state, and when the plastic pipe is subjected to subsequent processing, the soft plastic pipe is required to be clamped, and the clamped plastic pipe is subjected to positioning cutting treatment.

The application number is: 202221830076.3 discloses a plastic pipe processing device, and specifically discloses that utilizes the dead lever to drive the fixed plate through the connecting rod and remove in one side of curb plate, conveniently holds the plastic pipe between two arc grooves through the effect of rubber block, when realizing carrying out the centre gripping with the plastic pipe, avoids the plastic pipe to appear gliding possibility.

In the technical scheme, as the plastic pipe is directly clamped through the rubber block at the initial stage of forming, a certain clamping trace can be generated on the soft plastic pipe, and when the plastic pipe is more serious, the plastic pipe can be slightly deformed, so that the final generation quality of the plastic pipe is affected.

Disclosure of Invention

The technical problems solved by the utility model are as follows: solves the problems that the plastic pipe is soft due to the residual temperature in the initial stage of the plastic pipe production, and when the plastic pipe is clamped, the plastic pipe is directly subjected to micro deformation, so that the quality of the plastic pipe is affected.

The utility model can be realized by the following technical scheme: the utility model provides a plastic tubing processing equipment, includes plastic pipe and clamping component, and the clamping component side is provided with the guide component, and the guide component includes the guide sleeve, and the symmetry slides on the guide sleeve and is provided with first guide ring and second guide ring, and the guide sleeve is rotatable.

The utility model further technically improves that: the opposite surfaces of the first guide ring and the second guide ring are provided with buffer rubber.

The utility model further technically improves that: the guide sleeve is internally provided with a bidirectional screw in a rotating way, symmetrical threads on the bidirectional screw are provided with fixing sleeves, the fixing sleeves are respectively fixedly connected with the first guide ring and the second guide ring, and the fixing sleeves are in sliding connection with the guide sleeve.

The utility model further technically improves that: the bottom of the fixed sleeve is fixed with a sliding sleeve, a sliding plate is fixed in the guide sleeve, and the sliding plate is in sliding connection with the sliding sleeve.

The utility model further technically improves that: an inner rotating shaft is fixed at the end part of the bidirectional screw rod, and an inner hexagonal groove is formed in the middle of the inner rotating shaft.

The utility model further technically improves that: an outer sleeve is fixed outside the guide sleeve, and the outer sleeve is positioned outside the inner rotating shaft.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the plastic pipeline can be freely placed on the guide sleeve through the first guide ring and the second guide ring which are symmetrically arranged, the first guide ring and the second guide ring only play a limiting role, so that the plastic pipeline can freely slide on the guide sleeve to guide the movement of the plastic pipeline, meanwhile, the plastic pipeline can be further cooled in the guide process, the plastic pipeline can be fully cooled and guided when reaching the position of the clamping assembly, the natural plastic pipeline is obtained, and the deformation possibly caused by the applied external force when the plastic pipeline is directly clamped by the clamping assembly is avoided.

2. According to the utility model, the inner hexagonal wrench is placed into the inner hexagonal groove, the guide sleeve is manually fixed, then the inner hexagonal wrench is rotated to enable the inner rotating shaft to rotate to drive the bidirectional screw rod to rotate, then the fixed sleeve can move in opposite directions or back directions under the limiting effect of the sliding plate to drive the sleeve mounting seat to move in opposite directions or back directions, so that the distance between the first guide ring and the second guide ring is adjusted, and the plastic pipeline with various sizes can be adapted according to the adjustment of the distance between the first guide ring and the second guide ring.

Drawings

The present utility model is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic diagram of a guide assembly of the present utility model;

FIG. 2 is a schematic view of the inner structure of the guide sleeve according to the present utility model;

FIG. 3 is a schematic view of the position of a plastic pipe according to the present utility model;

FIG. 4 is a left side view of the present utility model;

FIG. 5 is a schematic view of the location of the clamping assembly of the present utility model;

fig. 6 is a schematic view of a clamping assembly according to the present utility model.

In the figure: 1. a plastic pipe; 2. a guide assembly; 21. an inner hexagonal groove; 22. a first bearing; 23. an outer sleeve; 24. an inner rotating shaft; 25. a first guide ring; 26. an adjustment tank; 27. a second guide ring; 28. a second bearing; 29. a third bearing; 210. a bearing mounting seat; 211. an end seat; 212. a sliding plate; 213. a sliding sleeve; 214. a sleeve mounting seat; 215. a bidirectional screw; 216. a guide sleeve; 3. a clamping assembly; 31. a clamping spring; 32. clamping the sliding rod; 33. a clamping seat; 34. a limiting plate; 35. a fixing seat.

Detailed Description

In order to further describe the technical means and effects adopted by the utility model for achieving the preset aim, the following detailed description is given below of the specific implementation, structure, characteristics and effects according to the utility model with reference to the attached drawings and the preferred embodiment.

Referring to fig. 1-6, a plastic pipe processing apparatus includes a plastic pipe 1, wherein the plastic pipe 1 is erected on a guiding assembly 2, further cooling is performed on the guiding assembly 2, and the guiding assembly 2 can be utilized to ensure the shape of the plastic pipe 1, so as to avoid the deformation of the plastic pipe 1 caused by direct clamping, and then the plastic pipe 1 is clamped by a clamping assembly 3.

Wherein the clamping assembly 3 comprises a guide sleeve 216, wherein the guide sleeve 216 is symmetrically and slidably provided with a first guide ring 25 and a second guide ring 27, so that preliminary limiting can be performed by the first guide ring 25 and the second guide ring 27 by placing the plastic pipeline 1 on the guide sleeve 216, wherein the plastic pipeline 1 is guided to move through the plurality of groups of guide assemblies 2, and buffer rubber is arranged on the opposite surfaces of the first guide ring 25 and the second guide ring 27 and used for protecting the plastic pipeline 1.

In order to realize the relative or backward movement of the first guide ring 25 and the second guide ring 27, an adjusting groove 26 is formed in the guide sleeve 216, an end seat 211 is fixed in the guide sleeve 216, a sliding plate 212 and a bearing mounting seat 210 are fixed on the end seat 211, a second bearing 28 is fixed on the bearing mounting seat 210, the second bearing 28 is mounted on a rotating shaft, a bidirectional screw 215 is fixedly mounted at the end of the rotating shaft, an inner rotating shaft 24 is fixed at the end of the bidirectional screw 215, an inner hexagonal groove 21 is formed in the middle of the inner rotating shaft 24, namely, when an inner hexagonal wrench is placed into the inner hexagonal groove 21, the inner rotating shaft 24 is rotated to drive the bidirectional screw 215 to rotate, so that the rotating shaft rotates under the action of the second bearing 28, namely, a fixing sleeve 213 is symmetrically arranged on the bidirectional screw 215 in a threaded manner, the bottom of the fixing sleeve is fixed with the sliding sleeve 213, namely, the sliding sleeve 213 is in sliding connection with the sliding plate 212, and the movement of the fixing sleeve is limited, and the opposite or backward movement of the fixing sleeve can be realized.

A sleeve mounting seat 214 is fixed above the fixed sleeve, wherein the sleeve mounting seat 214 is slidably connected with the adjusting groove 26, so as to realize a limiting effect on the sleeve mounting seat 214, and a first guide ring 25 and a second guide ring 27 are symmetrically arranged on the sleeve mounting seat 214 respectively.

An outer rotary shaft is fixed to the side of the guide sleeve 216, a third bearing 29 is fixed to the outer rotary shaft, an outer sleeve 23 is fixed to the other end of the guide sleeve 216, the outer sleeve 23 is located outside the inner rotary shaft 24, a first bearing 22 is fixed to the outer sleeve 23, and the first bearing 22 and the third bearing 29 are fixed to the fixing portions.

The specific process includes that firstly, according to the size of the plastic pipeline 1, the distance between the first guide ring 25 and the second guide ring 27 is adjusted, namely, an allen wrench is placed into the interior of the inner hexagonal groove 21, the guide sleeve 216 is manually fixed, then the allen wrench is rotated, the inner rotating shaft 24 is rotated to drive the bidirectional screw 215 to rotate, then under the limiting action of the sliding plate 212, the fixed sleeve can move towards or away from each other to drive the sleeve mounting seat 214 to move towards or away from each other, so that the distance between the first guide ring 25 and the second guide ring 27 is adjusted, the size of the plastic pipeline 1 can be adapted, and then the plastic pipeline 1 is guided on the guide sleeve 216, namely, under the rotating action of the first bearing 22 and the third bearing 29, the guide sleeve 216 is rotated, and thus the plastic pipeline 1 is guided.

In order to realize the clamping effect on the plastic pipeline 1, the clamping assembly 3 comprises a clamping support seat, wherein a fixing seat 35 is symmetrically fixed on the clamping support seat, a clamping sliding rod 32 is arranged on the fixing seat 35 in a sliding manner, a clamping seat 33 and a limiting plate 34 are respectively fixed at two ends of the clamping sliding rod 32, a clamping spring 31 is arranged between the limiting plate 34 and the fixing seat 35, the clamping seat 33 is used for being in sliding connection with the clamping support seat, and the opposite surface of the clamping seat 33 is arc-shaped and is used for adapting to the plastic pipeline 1.

Specifically, when the clamping assembly 3 is used, the limiting plate 34 is pulled, so that the clamping sliding rod 32 slides under the action of the fixing seat 35, the clamping spring 31 is extruded at the moment, then the plastic pipeline 1 can be fully cooled under the condition of full natural cooling due to the fact that the plastic pipeline 1 is hard, and then the limiting plate 34 is loosened, so that the resilience force of the clamping spring 31 can drive the clamping seat 33 to move in opposite directions, and the plastic pipeline 1 is fixedly clamped by the clamping seat 33.

When the plastic pipeline 1 guiding device is used, firstly, the distance between the first guiding ring 25 and the second guiding ring 27 is adjusted according to the size of the plastic pipeline 1, namely, an inner hexagonal wrench is placed into the inner hexagonal groove 21, the guiding sleeve 216 is manually fixed, then the inner hexagonal wrench is rotated, the inner rotating shaft 24 is rotated to drive the bidirectional screw 215 to rotate, then the fixing sleeve can move oppositely or back to back under the limiting action of the sliding plate 212, the sleeve mounting seat 214 is driven to move oppositely or back to adjust the distance between the first guiding ring 25 and the second guiding ring 27, so that the size of the plastic pipeline 1 can be adapted, and then the guiding sleeve 216 is rotated under the rotating action of the first bearing 22 and the third bearing 29, so that the guiding of the plastic pipeline 1 is realized; the pipe then reaches the clamping assembly 3 after being freely cooled down along the guiding assembly 2, after the plastic pipe 1 is clamped by the clamping assembly 3, the plastic pipe 1 is reprocessed, for example, cut, and the like, specifically, the clamping step is that the clamping sliding rod 32 slides under the action of the fixing seat 35 by pulling the limiting plate 34, the clamping spring 31 is extruded at the moment, then the plastic pipe 1 can be sufficiently cooled under the condition of sufficient natural cooling, namely, the plastic pipe 1 at the moment is hard, and then the limiting plate 34 is loosened, so that the resilience force of the clamping spring 31 drives the clamping seat 33 to move in opposite directions, and the plastic pipe 1 is fixedly clamped by the clamping seat 33.

The present utility model is not limited to the above embodiments, but is capable of modification and variation in all aspects, including those of ordinary skill in the art, without departing from the spirit and scope of the present utility model.

Claims (6)

1. Plastic pipe processing equipment, including plastic pipe (1) and clamping component (3), its characterized in that: the clamping assembly (3) is characterized in that a guide assembly (2) is arranged on the side edge of the clamping assembly (3), the guide assembly (2) comprises a guide sleeve (216), a first guide ring (25) and a second guide ring (27) are symmetrically arranged on the guide sleeve (216) in a sliding mode, and the guide sleeve (216) is rotatable.

2. A plastic pipe machining apparatus according to claim 1, characterized in that the opposite faces of the first (25) and second (27) guide rings are provided with a buffer rubber.

3. A plastic pipe machining apparatus according to claim 1, characterized in that the guide sleeve (216) is internally provided with a bi-directional screw (215) in a rotating manner, the bi-directional screw (215) is provided with a fixing sleeve in a symmetrically threaded manner, the fixing sleeve is fixedly connected with the first guide ring (25) and the second guide ring (27) respectively, and the fixing sleeve is in sliding connection with the guide sleeve (216).

4. A plastic pipe machining apparatus according to claim 3, wherein a sliding sleeve (213) is fixed to the bottom of the fixed sleeve, a sliding plate (212) is fixed to the inside of the guiding sleeve (216), and the sliding plate (212) is slidably connected to the sliding sleeve (213).

5. A plastic pipe machining apparatus according to claim 3, characterized in that the end of the bi-directional screw (215) is fixed with an inner spindle (24), and that an inner hexagonal groove (21) is provided in the middle of the inner spindle (24).

6. A plastic pipe machining apparatus according to claim 5, characterized in that the guiding sleeve (216) is externally fixed with an outer sleeve (23), the outer sleeve (23) being located outside the inner rotation shaft (24).