阅读说明：本技术 热缩套管加工设备 (Heat-shrinkable T bush process equipment ) 是由 李阳 王安 余增峰 费洪俊 于 2019-09-23 设计创作，主要内容包括：本发明公开一种热缩套管加工设备,用于加工热缩套管,所述热缩套管加工设备包括：机架；加热结构,设于所述机架,所述加热结构设有加热通道；预处理组件,设于所述机架,并与所述加热结构间隔设置,所述预处理组件包括加热筒体,所述加热筒体形成有预热通道；所述热缩套管依次穿过所述预热通道和所述加热通道进行加工。本发明旨在提供一种能够消除无规律性的轴向伸长及侧向缩短等不规则形变的热缩套管加工设备,有效提高热缩套管的产品稳定性和轴向收缩率一致性。(The present invention discloses a kind of heat-shrinkable T bush process equipment, and for processing heat-shrinkable T bush, the heat-shrinkable T bush process equipment includes: rack；Heating structure, is set to the rack, and the heating structure is equipped with heating channel；Pre-processing assembly is set to the rack, and is arranged with the heating structure interval, and the pre-processing assembly includes heating cylinder, and the heating cylinder is formed with preheating channel；The heat-shrinkable T bush sequentially passes through the preheating channel and the heating channel is processed.The present invention is intended to provide a kind of heat-shrinkable T bush process equipment of the irregular deformation such as axial elongation that can eliminate irregularities and lateral shortening, effectively improves the product stability and axial shrinkage rate consistency of heat-shrinkable T bush.)

1. a kind of heat-shrinkable T bush process equipment, for processing heat-shrinkable T bush, which is characterized in that the heat-shrinkable T bush process equipment packet It includes:

Rack；

Heating structure, is set to the rack, and the heating structure is equipped with heating channel；And

Pre-processing assembly is set to the rack, and is arranged with the heating structure interval, and the pre-processing assembly includes cartridge heater Body, the heating cylinder are formed with preheating channel；

The heat-shrinkable T bush sequentially passes through the preheating channel and the heating channel is processed.

2. heat-shrinkable T bush process equipment as described in claim 1, which is characterized in that the pre-processing assembly further includes multiple hairs Gas ket, multiple fever snares are set to the outer wall of the heating cylinder, and are spaced setting.

3. heat-shrinkable T bush process equipment as claimed in claim 2, which is characterized in that the pre-processing assembly further includes multiple inserts Seat, each socket and each fever circle connect, and each socket is ceramic socket.

4. heat-shrinkable T bush process equipment as claimed in claim 2, which is characterized in that the pre-processing assembly further includes at least one One end of temperature sensor, the temperature sensor through the heating cylinder and is protruded into the preheating channel, the temperature Sensor is located between the two neighboring fever circle, for detecting the temperature in the preheating channel.

5. heat-shrinkable T bush process equipment as described in claim 1, which is characterized in that the pre-processing assembly further includes the machine that is set to The first directive wheel and the second directive wheel of frame, first directive wheel are equipped with the first guiding clearance, and second directive wheel is equipped with Second guiding clearance, first directive wheel and second directive wheel are located at the both ends of the heating cylinder, so that described One guiding clearance and second guiding clearance and the both ends of the preheating channel are arranged in face；

After the heat-shrinkable T bush sequentially passes through first guiding clearance, the preheating channel and second guiding clearance, into Enter and is processed in the heating channel.

6. heat-shrinkable T bush process equipment as claimed in claim 5, which is characterized in that first directive wheel includes being connected to institute It states the first strut of rack and can drivingly be set to two the first rotating bars of first strut, two first rotations Bar is oppositely arranged, and cooperatively forms first guiding clearance；

And/or second directive wheel include be connected to the rack the second strut and can drivingly be set to described second Two the second rotating bars of strut, two second rotating bars are oppositely arranged, and cooperatively form second guiding clearance.

7. such as heat-shrinkable T bush process equipment described in any one of claims 1 to 6, which is characterized in that the heating structure packet It includes:

An at least heating furnace, is set to the rack, and the heating furnace is formed with the heating channel；With

An at least traction roller is set to the rack, and one end setting in channel is heated described in face；

After the heat-shrinkable T bush passes through the preheating channel, the heating channel is introduced via the traction roller and is processed.

8. heat-shrinkable T bush process equipment as claimed in claim 7, which is characterized in that the traction roller includes being set to the rack Bracket and the roll shaft that is connect with the holder pivots, the bracket be arranged adjacent to one end of the heating furnace, the bracket is opened Equipped with turn hole, one end of the roll shaft is rotatably penetrated and arranged in the turn hole, the other end of the roll shaft and the heating channel Face setting.

9. heat-shrinkable T bush process equipment as claimed in claim 8, which is characterized in that the extending direction of the heating furnace with it is described The extending direction of heating cylinder is identical, so that the heating channel and the preheating channel are in parallel setting；

And/or the heating furnace is in cylindrical shape；

And/or the roll shaft is cylindrical；

And/or the heating cylinder is in cylindrical shape.

10. such as heat-shrinkable T bush process equipment described in any one of claims 1 to 6, which is characterized in that the heat-shrinkable T bush adds Construction equipment further includes disk storage line, and the disk storage line is equipped with container, and the heat-shrinkable T bush winding is in the container；

Heat-shrinkable T bush in the container sequentially passes through the preheating channel and the heating channel is processed.

Technical field

The present invention relates to heat-shrinkable T bush technical field of processing equipment, in particular to a kind of heat-shrinkable T bush process equipment.

Background technique

Existing heat-shrinkable T bush is influenced due to semi-finished product pipe by tension in process of production, and tensile deformation, which occurs, leads to length It changes, being squeezed leads to that volume deformation occurs, and is led to the deformation that is distorted by different directions moment loading, to cause pipe On the one hand base irregularities axial elongation and the irregular deformation laterally shortened so will lead to semi-finished product pipe and is not available directly It is informed of a case useless, finished product stability of the production process is on the other hand caused to decline, axial shrinkage rate frequent fluctuation exceeds standard max, shadow Client is rung to use.

Above content is only used for the technical solution that auxiliary understands the application, does not represent and recognizes that above content is existing skill Art.

Summary of the invention

The main object of the present invention is to provide a kind of heat-shrinkable T bush process equipment, it is desirable to provide one kind can be eliminated irregular Property axial elongation and the lateral heat-shrinkable T bush process equipment for the irregular deformation such as shortening, the product for effectively improving heat-shrinkable T bush is steady Qualitative and axial shrinkage rate consistency.

The axial elongation of irregularities and laterally shortens irregular deformation and fall.

To achieve the above object, heat-shrinkable T bush process equipment proposed by the present invention, for processing heat-shrinkable T bush, the pyrocondensation Casing process equipment includes:

Rack；

Heating structure, is set to the rack, and the heating structure is equipped with heating channel；And

Pre-processing assembly is set to the rack, and is arranged with the heating structure interval, and the pre-processing assembly includes adding Hot cylinder, the heating cylinder are formed with preheating channel；

The heat-shrinkable T bush sequentially passes through the preheating channel and the heating channel is processed.

In one embodiment, the pre-processing assembly further includes multiple fever circles, and multiple fever snares are set to described The outer wall of heating cylinder, and it is spaced setting.

In one embodiment, the pre-processing assembly further includes multiple sockets, and each socket and each fever circle connect, often One socket is ceramic socket.

In one embodiment, the pre-processing assembly further includes an at least temperature sensor, and the one of the temperature sensor End is through the heating cylinder and protrudes into the preheating channel, and the temperature sensor is located at the two neighboring fever circle Between, for detecting the temperature in the preheating channel.

In one embodiment, the pre-processing assembly further includes the first directive wheel and the second directive wheel set on rack, institute The first directive wheel is stated equipped with the first guiding clearance, second directive wheel is equipped with the second guiding clearance, first directive wheel and Second directive wheel is located at the both ends of the heating cylinder so that first guiding clearance and second guiding clearance with The both ends of the preheating channel are arranged in face；

The heat-shrinkable T bush sequentially passes through first guiding clearance, the preheating channel and second guiding clearance Afterwards, into being processed in the heating channel.

In one embodiment, first directive wheel includes being connected to the first strut of the rack and can drivingly setting In two the first rotating bars of first strut, two first rotating bars are oppositely arranged, and cooperatively form described first Guiding clearance；

And/or second directive wheel includes being connected to the second strut of the rack and being drivingly set to described Two the second rotating bars of the second strut, two second rotating bars are oppositely arranged, and cooperatively form it is described second guiding between Gap.

In one embodiment, the heating structure includes:

An at least heating furnace, is set to the rack, and the heating furnace is formed with the heating channel；With

An at least traction roller is set to the rack, and one end setting in channel is heated described in face；

After the heat-shrinkable T bush passes through the preheating channel, the heating channel is introduced via the traction roller and is added Work.

In one embodiment, the traction roller includes the roller for being set to the bracket of the rack and connecting with the holder pivots Axis, the bracket are arranged adjacent to one end of the heating furnace, and the bracket offers turn hole, and one end of the roll shaft is rotationally It is arranged in the turn hole, the other end of the roll shaft and the heating channel face are arranged.

In one embodiment, the extending direction of the heating furnace is identical as the extending direction of the heating cylinder, so that institute Heating channel and the preheating channel are stated in parallel setting；

And/or the heating furnace is in cylindrical shape；

And/or the roll shaft is cylindrical；

And/or the heating cylinder is in cylindrical shape.

In one embodiment, the heat-shrinkable T bush process equipment further includes disk storage line, and the disk storage line is equipped with container, institute Heat-shrinkable T bush winding is stated in the container；

Heat-shrinkable T bush in the container sequentially passes through the preheating channel and the heating channel is processed.

The heat-shrinkable T bush process equipment of technical solution of the present invention is by setting pre-processing assembly, so that heat-shrinkable T bush is entering Before the heating channel of heating structure is processed, the preheating channel for first passing through heating cylinder in pre-processing assembly is located in advance Reason expands to eliminate machining deformation of the heat-shrinkable T bush in the horizontal or vertical direction that preceding process generates for subsequent heat-shrinkable T bush Zhang Jiagong is provided safeguard, it is ensured that the consistency of heat-shrinkable T bush stretcher strain, and then guarantee the subsequent axial receipts used of heat-shrinkable T bush Shrinkage precision.Heat-shrinkable T bush process equipment proposed by the present invention can eliminate the axial elongation of heat-shrinkable T bush irregularities and lateral The irregular deformation such as shortening, effectively improve the stability and axial shrinkage rate consistency of heat-shrinkable T bush.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of heat-shrinkable T bush process equipment of the present invention；

Fig. 2 is the enlarged diagram in Fig. 1 at A.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention In explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if should When particular pose changes, then directionality instruction also correspondingly changes correspondingly.

Meanwhile the "and/or" that occurs in full text or " and/or " meaning be including three schemes, be with " A and/or B " Example, including the scheme that A scheme or B scheme or A and B meet simultaneously.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and should not be understood as Its relative importance of indication or suggestion or the quantity for implicitly indicating indicated technical characteristic.Define as a result, " first ", The feature of " second " can explicitly or implicitly include at least one of the features.In addition, the technical side between each embodiment Case can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution Conflicting or cannot achieve when occur will be understood that the combination of this technical solution is not present, also not the present invention claims guarantor Within the scope of shield.

The present invention proposes a kind of heat-shrinkable T bush process equipment 100, for processing heat-shrinkable T bush 5.

Shown in referring to Figures 1 and 2, in embodiments of the present invention, which includes rack 1, heating structure 2 and pre-processing assembly 3, wherein heating structure 2 is set to rack 1, and heating structure 2 is equipped with heating channel 211；In advance Processing component 3 is set to rack 1, and is spaced and is arranged with heating structure 2, and pre-processing assembly 3 includes heating cylinder 31, heating cylinder 31 It is formed with preheating channel 311.In the present embodiment, heat-shrinkable T bush 5 sequentially passes through preheating channel 311 and heating channel 211 is added Work.

It should be understood that rack 1 is for installing and fixing heating structure 2 and pre-processing assembly 3, rack 1 be chosen as body, Board, base, mounting base, erecting bed, mounting plate or installation frame etc. install heating structure 2 and pretreatment of course for facilitating Component 3, enables 3 accurate fit of heating structure 2 and pre-processing assembly, and rack 1 may also be configured to have certain altitude difference Structure, it is not limited here.

In this embodiment, heat-shrinkable T bush 5 is high molecular material, and by its own material property, heat-shrinkable T bush 5 is in process In influenced by tension, extruding or different directions moment loading, it may occur that tensile deformation causes length, volume to change or distort Deformation, so that the irregular deformation for causing 5 irregularities axial elongation of heat-shrinkable T bush and laterally shortening, leads to 5 nothing of heat-shrinkable T bush Method using directly scrap and the stability of heat-shrinkable T bush 5 decline, axial shrinkage rate frequent fluctuation, exceed standard max the problems such as

In order to the axial elongation for eliminating heat-shrinkable T bush irregularities and the laterally irregular deformation such as shortening, such as Fig. 1 institute Show, heat-shrinkable T bush process equipment 100 of the invention is by setting pre-processing assembly 3, so that heat-shrinkable T bush 5 is entering heating structure Before 2 heating channel 211 is processed, the preheating channel 311 for first passing through heating cylinder 31 in pre-processing assembly 3 is located in advance Reason is subsequent thermal shrinkable sleeve to realize the machining deformation for eliminating heat-shrinkable T bush 5 in the horizontal or vertical direction that preceding process generates The expansion processing of pipe 5 provides safeguard, it is ensured that the consistency of 5 stretcher strain of heat-shrinkable T bush, and then guarantee that heat-shrinkable T bush 5 is subsequent and use Axial shrinkage rate precision effectively improves the stability and axial shrinkage rate consistency of heat-shrinkable T bush 5.

Heat-shrinkable T bush process equipment 100 of the invention is before the semi-finished product pipe of heat-shrinkable T bush 5 enters dilator just by it The axial elongation of irregularities and laterally shorten irregular deformation and eliminate, a variety of complicated deformation being overlapped mutually is made to be converted into list Deformation caused by one gravity sag improves production stability, and breaks through the state of the art of conventional axial shrinking percentage ± 5%, reduces Extremely ± 3%, and axial shrinkage rate is consistent good, to meet military project, medical industry quality requirements, so that product meets The demand of high-end customer reduces customer complaint and return of goods loss of doing over again.

In the present invention, heat-shrinkable T bush process equipment 100 carries out material using the characteristic of high molecular material itself in advance Heat treatment is protected to eliminate machining deformation of the material in the horizontal or vertical direction that preceding process generates for subsequent product expansion processing The consistency of product stretcher strain is demonstrate,proved, and guarantees the subsequent axial shrinkage rate precision used of product.

In one embodiment, the heating cylinder 31 of pre-processing assembly 3 can be used for the heat-shrinkable T bush 5 of preheating channel 311 into Row heating, as depicted in figs. 1 and 2, pre-processing assembly 3 is installed in rack 1 by mounting rack 37.It should be understood that pretreatment Component 3 can be fixedly installed in rack 1 by mounting rack 37, so improve the mounting stability of pre-processing assembly 3.Certainly, in advance Processing component 3 can also be used detachable connection method and be installed in rack 1, so facilitate the dismounting and maintenance of pre-processing assembly 3 Deng it is not limited here.

Optionally, mounting rack 37 is formed using Q235 carbon steel sheet cutting processing, and mounting rack 37 is used to fix heating cylinder 31, And the dilator rack for being also used to and processing heat-shrinkable T bush 5 is attached.

In one embodiment, heating cylinder 31 is heating furnace tube, and heating cylinder 31 is chosen as by aluminium alloy processing and fabricating It forms, heating cylinder 31 is for conducting and keeping temperature.It should be understood that being in hollow namely cartridge heater inside heating cylinder 31 The inside of body 31 is formed with preheating channel 311, so heat-shrinkable T bush 5 can be facilitated to pass through and is heated.Heating cylinder 31 is closed using aluminium Golden material, it is ensured that preferable thermal conductivity is convenient for heat transfer, and whole stability is uniform after also making heat-shrinkable T bush 5 heated.

In one embodiment, as depicted in figs. 1 and 2, pre-processing assembly 3 further includes multiple fever circles 32, multiple fever circles 32 are sheathed on the outer wall of heating cylinder 31, and are spaced setting.

It should be understood that the setting of fever circle 32, is conducive to the heat transfer for ensureing heating cylinder 31, so that heat-shrinkable T bush 5 It is heated in preheating channel 311.Optionally, fever circle 32 is resistance-type fever circle.Fever circle 32 be chosen as by resistance material at Type production.In the present embodiment, fever circle 32 is heated for generating heat to heating cylinder 31.

In one embodiment, the external of fever circle 32 wraps up stainless steel material, can so increase fever circle 32 intensity and Increase service life.The circle 32 that will generate heat for convenience is fixed on the outer wall of heating cylinder 31, and fever circle 32 is fixed on by clip 31 outer wall of heating cylinder, to generate heat after being powered using fever circle 32 to heat heating cylinder 31 and continue to keep cartridge heater The temperature of body 31.

It should be understood that fever circle 32 can be fixed at the outer wall of heating cylinder 31, match for example, by using welding or interference Close etc..Certainly, the outer wall that Detachable connection structure is installed in heating cylinder 31 can also be used in fever circle 32, connects for example, by using buckle Connect, be mating, screw connection or pin connection etc. modes, it is not limited here.

In the present embodiment, fever circle 32 settable one, may also set up it is multiple, with specific reference to the shape of heating cylinder 31 Length setting, it is not limited here.

In one embodiment, as depicted in figs. 1 and 2, pre-processing assembly 3 further includes multiple sockets 33, each socket 33 with Each 32 connection of fever circle, each socket 33 is ceramic socket 33.It should be understood that the number of the quantity of socket 33 and fever circle 32 Amount is consistent.

It should be understood that the setting of socket 33, is conducive to that fever circle 32 and external power supply are connected by socket 33, thus Realize that fever is enclosed 32 pairs of heating cylinders 31 and heated.Socket 33 is chosen as refractory ceramics socket.

In one embodiment, the electroconductive elastic sheet of refractory ceramics socket is fixed in refractory ceramics socket, fever circle 32 operating temperature is continuous work at 150 DEG C~300 DEG C, so more demanding to power supply junction high temperature resistance, and Ceramic high temperature resistant itself simultaneously has good thermal stability, and 32 work of fever circle has been effectively ensured using refractory ceramics socket Reliability.

In one embodiment, as depicted in figs. 1 and 2, pre-processing assembly 3 further includes an at least temperature sensor 34, temperature One end of sensor 34 is through heating cylinder 31 and protrudes into preheating channel 311, and temperature sensor 34 is located at two neighboring fever Between circle 32, for detecting the temperature in preheating channel 311.

It should be understood that temperature sensor 34 settable one, may also set up it is multiple, with specific reference to the shape of heating cylinder 31 The setting of shape length, it is not limited here.In one embodiment, pre-processing assembly 3 includes multiple temperature sensors 34, each temperature Sensor 34 is set between two neighboring fever circle 32, and through heating cylinder 31 and is protruded into preheating channel 311.

In the present embodiment, temperature sensor 34 is chosen as structure of being popped one's head in by shielded signal line and packaged resistance and temperature At shielded signal line is connected with temperature controller, and resistance and temperature probe is mounted on the barrel of heating cylinder 31 and and barrel Vertically.In order to preferably detect the temperature in preheating channel 311, resistance and temperature probe gos deep into the barrel of heating cylinder 31 to visit Survey 311 temperature of preheating channel.It should be understood that temperature controller is electrically connected with fever circle 32, according to the thermal shrinkable sleeve of different size Resistance and temperature probe detection temperature is arranged by temperature controller, and is believed by shielding for the difference of heat treatment temperature needed for pipe 5 Number line feeds back to temperature controller, controls fever 32 heating times of circle, preheating in Lai Shixian heating cylinder 31 by temperature controller The constant effect for guaranteeing heat-shrinkable T bush 5 and being heat-treated of the temperature in channel 311.

In one embodiment, as illustrated in figs. 1 and 2, pre-processing assembly 3 further includes the first directive wheel 35 set on rack 1 With the second directive wheel 36, the first directive wheel 35 is equipped with the first guiding clearance 353, and the second directive wheel 36 is equipped with the second guiding clearance 363, the first directive wheel 35 and the second directive wheel 36 are located at the both ends of heating cylinder 31, so that the first guiding clearance 353 and second Guiding clearance 363 and the both ends of preheating channel 311 are arranged in face.

In the present embodiment, heat-shrinkable T bush 5 sequentially passes through between the first guiding clearance 353, preheating channel 311 and the second guiding After gap 363, processed into heating in channel 211.It should be understood that by being respectively set at the both ends of heating cylinder 31 One directive wheel 35 and the second directive wheel 36 are ensured through preheating channel using the first guiding clearance 353 and the second guiding clearance 363 311 heat-shrinkable T bush 5 is contacted or is collided with the inner wall of preheating channel 311, to effectively avoid heat-shrinkable T bush 5 and preheating channel The phenomenon that 311 inner wall sticks together ensures that 5 heat treatment process of heat-shrinkable T bush is gone on smoothly.

It should be understood that the center of the line of the first guiding clearance 353 and the second guiding clearance 363 and preheating channel 311 Line is overlapped.

In one embodiment, as shown in Fig. 2, the first directive wheel 35 include be connected to rack 1 the first strut 351 and can Two the first rotating bars 352 of the first strut 351 are drivingly set to, two the first rotating bars 352 are oppositely arranged, and are cooperatively formed First guiding clearance 353.

It should be understood that the first strut 351 plays the role of fixing and supporting, the first strut 351 is chosen as support plate or branch Strut etc., it is not limited here.Two the first rotating bars 352 and the first strut 351 are rotatablely connected, and two the first rotating bars 352 are oppositely arranged and cooperatively form the first guiding clearance 353.Optionally, two cylindrical structures of the first rotating bar 352, two First rotating bar 352 is chosen as stainless steel material and is made.

In the present embodiment, the first rotating bar 352 is chosen as being equipped with rolling bearing inside directive wheel namely directive wheel, It is free to rotate.First strut 351 offers mounting hole, and bearing arrangement, one end of the first rotating bar 352 are provided in mounting hole It is provided with shaft, the first rotating bar 352 is arranged in the bearing arrangement in mounting hole by shaft, so realizes the first rotating bar 352 rotate relative to the first strut 351.

It should be understood that in order to further protect heat-shrinkable T bush 5, the outer surface of the first rotating bar 352 is arranged with cushion Or rubber pad etc. connects when so passing through the first guiding clearance 353 by heat-shrinkable T bush 5 with the outside wall surface of the first rotating bar 352 Touching, and the first rotating bar 352 is driven to rotate relative to the first strut 351.

In one embodiment, as shown in Fig. 2, the second directive wheel 36 include be connected to rack 1 the second strut 361 and can Two the second rotating bars 362 of the second strut 361 are drivingly set to, two the second rotating bars 362 are oppositely arranged, and are cooperatively formed Second guiding clearance 363.

It should be understood that the second strut 361 plays the role of fixing and supporting, the second strut 361 is chosen as support plate or branch Strut etc., it is not limited here.Two the first rotating bars 352 and the first strut 351 are rotatablely connected, and two the second rotating bars 362 are oppositely arranged and cooperatively form the second guiding clearance 363.Optionally, two cylindrical structures of the second rotating bar 362, two Second rotating bar 362 is chosen as stainless steel material and is made.

In the present embodiment, the second rotating bar 362 is chosen as being equipped with rolling bearing inside directive wheel namely directive wheel, It is free to rotate.Second strut 361 offers mounting hole, and bearing arrangement, one end of the second rotating bar 362 are provided in mounting hole It is provided with shaft, the second rotating bar 362 is arranged in the bearing arrangement in mounting hole by shaft, so realizes the second rotating bar 362 rotate relative to the second strut 361.

It should be understood that in order to further protect heat-shrinkable T bush 5, the outer surface of the second rotating bar 362 is arranged with cushion Or rubber pad etc. connects when so passing through the second guiding clearance 363 by heat-shrinkable T bush 5 with the outside wall surface of the second rotating bar 362 Touching, and the second rotating bar 362 is driven to rotate relative to the second strut 361.

In one embodiment, as shown in Figure 1, heating structure 2 includes an at least heating furnace 21 and an at least traction roller 22, In, an at least heating furnace 21 is set to rack 1, and heating furnace 21 is formed with heating channel 211；An at least traction roller 22 is set to rack 1, And one end setting in face heating channel 211.

In the present embodiment, heat-shrinkable T bush 5 pass through preheating channel 311 after, via traction roller 22 introduce heating channel 211 into Row processing.It should be understood that heat-shrinkable T bush 5 sequentially passes through the first guiding clearance 353, preheating channel 311 and the second guiding clearance After 363, introduces in heating channel 211 and processed via traction roller 22.

In the present embodiment, heating furnace 21 can be electric furnace or other heating furnaces, it is not limited here.In order to guarantee The heating effect of heat-shrinkable T bush 5, heating furnace 21 are in cylindrical shape, can so extend heating channel 211.Optionally, heating furnace 21 Extending direction it is identical as the extending direction of heating cylinder 31 so that heating channel 211 and preheating channel 311 are in parallel setting. It should be understood that heating cylinder 31 is in cylindrical shape.

In one embodiment, as shown in Figure 1, traction roller 22 includes rotating set on the bracket 221 of rack 1 and with bracket 221 The roll shaft 223 of connection, bracket 221 are arranged adjacent to one end of heating furnace 21, and bracket 221 offers turn hole 222, and the one of roll shaft 223 End is rotatably penetrated and arranged in turn hole 222, the other end of roll shaft 223 and heating 211 face of channel setting.

It should be understood that bracket 221 is fixed in rack 1, bracket 221 offers turn hole 222, sets in turn hole 222 It is equipped with bearing arrangement, one end of roll shaft 223 is provided with shaft, and the shaft of roll shaft 223 is arranged in the bearing arrangement in turn hole 222, So realize the rotation connection of roll shaft 223 and bracket 221.

In order to enable traction roller 22 is able to achieve draw, traction roller 22 further includes driving structure, such as driving motor etc., Driving structure may be disposed in bracket 221 or rack 1, and the output shaft of driving structure is connect with the shaft of roll shaft 223, so that driving Structure drive roller shaft 223 rotates, to drive heat-shrinkable T bush 5 mobile.It should be understood that roll shaft 223 is cylindrical.Certainly, it is Heat-shrinkable T bush 5 is avoided to fall from roll shaft 223, the outside wall surface of roll shaft 223 is provided with groove structure.

In one embodiment, as shown in Figure 1, heat-shrinkable T bush process equipment 100 further includes disk storage line 4, disk storage line 4, which is equipped with, to be received Tank 41, heat-shrinkable T bush 5 are wound in container 41.Heat-shrinkable T bush 5 in container 41 sequentially passes through preheating channel 311 and adds The passage of heat 211 is processed.

It should be understood that disk storage line 4 is for storing and winding unprocessed heat-shrinkable T bush 5, the thermal shrinkable sleeve in container 41 After pipe 5 sequentially passes through the first guiding clearance 353, preheating channel 311 and the second guiding clearance 363, introduces and add via traction roller 22 It is processed in the passage of heat 211.

In the present embodiment, disk storage line 4, which can be, is separately provided, and is also possible to be arranged in rack 1.In order to facilitate receiving Heat-shrinkable T bush 5 in slot 41 realizes movement by traction roller 22, and disk storage line 4 is in disk or turntable.Certainly, disk storage line 4 It is rotatably arranged in rack 1.Specifically, disk storage line 4 includes the rolling of two disks of two disks being oppositely arranged and connection Cylinder, two disks and roller cooperatively form container 41.

In one embodiment, as shown in Figure 1, heat-shrinkable T bush process equipment 100 further includes take-up reel, take-up reel, which is equipped with, to be accommodated Slot, the holding tank of take-up reel is for winding the heat-shrinkable T bush 5 completed the process.It should be understood that the structure of take-up reel and disk storage line 4 Can structure it is identical, it is not limited here.

The foregoing is merely alternative embodiments of the invention, are not intended to limit the scope of the invention, all at this Under the inventive concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly It is included in other related technical areas in scope of patent protection of the invention.