Bend forming device for hoses

By using modular tooling design and a precise heating and cooling bending forming device, the problems of inconsistent quality and low efficiency in hose bending forming have been solved, achieving efficient and stable bending processing.

CN224465246UActive Publication Date: 2026-07-07SHANGHAI XINYUAN MICRO ENTERPRISE DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI XINYUAN MICRO ENTERPRISE DEV CO LTD
Filing Date
2025-08-11
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The existing hose bending process suffers from problems such as poor bending quality consistency, cumbersome operation, and low efficiency.

Method used

The pipe bending forming device with modular tooling design includes a base, modular pipe bending tooling, auxiliary lever mechanism, heating mechanism and cooling gas delivery mechanism. It achieves precise forming of hoses through modular tooling shaping, heating and cooling gas delivery.

Benefits of technology

It improves the quality consistency and operational efficiency of pipe bending, simplifies the operation process, and ensures the stability and safety of pipe bending dimensions.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of elbow forming device of hose, comprising: base;Elbow modular tooling, detachably be equipped in base and adjustable in the mounting position on base, for the pipe shaping of hose;Auxiliary force arm mechanism, detachably be equipped in base and adjustable in the mounting position on base;Heating mechanism, be equipped in auxiliary force arm mechanism, for heating after the hose of shaping;Cooling gas conveying mechanism, detachably be equipped in base and adjustable in the mounting position on base, cooling gas conveying mechanism is used to send cooling gas to after the hose of heating, make after the hose of heating cooling forming.The utility model can better control elbow size, ensure elbow forming quality, improve product consistency, need not manual elbow, so that operation is more convenient, improve operating efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of hose bending technology, and in particular to a hose bending forming device. Background Technology

[0002] Semiconductor equipment requires flexible tubing (such as PFA tubing). Bending is a crucial step in the tubing manufacturing process. Current tubing bending methods are difficult, primarily involving manual bending with heating. This method is inefficient, difficult to control in terms of dimensions, and suffers from inconsistent quality, cumbersome operation, and low overall efficiency.

[0003] In view of this, it is necessary to propose a hose bending and forming device to solve the above problems. Utility Model Content

[0004] The purpose of this utility model is to provide a hose bending and forming device to improve the problems of poor bending quality, cumbersome operation and low efficiency in the existing manual hose bending and heating forming.

[0005] This utility model provides a hose bending forming device, comprising:

[0006] Base;

[0007] A modular pipe bending fixture, detachably mounted on the base and with an adjustable mounting position on the base, is used to shape the hose into a pipeline.

[0008] An auxiliary lever mechanism is detachably mounted on the base and its mounting position on the base is adjustable;

[0009] A heating mechanism, located in the auxiliary lever mechanism, is used to heat the shaped hose.

[0010] A cooling gas delivery mechanism is detachably mounted on the base and its installation position on the base is adjustable. The cooling gas delivery mechanism is used to deliver cooling gas to the heated hose so that the heated hose cools and takes shape.

[0011] In one possible embodiment, the modular pipe bending fixture includes at least one straight segment fixture and at least one angle bending fixture, wherein the straight segment fixture is provided with a first positioning groove in a straight shape, and the angle bending fixture is provided with a second positioning groove in a curved shape.

[0012] By assembling the straight section tooling and the angle bending tooling, the arrangement of the first positioning groove and the second positioning groove conforms to the required forming bend pipe diagram. Then, the hose is sequentially inserted into the first positioning groove and the second positioning groove to achieve pipe shaping of the hose.

[0013] In one possible embodiment, the cooling gas delivery mechanism includes a gas delivery pipe connected to a cooling gas pipeline of a plant gas supply system via a pipe joint, the plant gas supply system being used to deliver cooling gas to the cooling gas delivery mechanism.

[0014] In one possible embodiment, the cooling gas delivery mechanism further includes a guide assembly and a telescopic adjustment mechanism;

[0015] The pipeline joint is slidably mounted on the guide assembly;

[0016] The telescopic adjustment mechanism is connected to the pipe joint and is used to drive the pipe joint to slide on the guide assembly.

[0017] In one possible embodiment, the guide assembly includes a base plate and a pair of side plates disposed parallel to the base plate, the distance between the pair of side plates being adapted to the width of the pipe joint, and a guide groove being formed by the base plate and the pair of side plates, the pipe joint being slidably disposed within the guide groove.

[0018] In one possible embodiment, the auxiliary lever mechanism includes:

[0019] A vertical pole is detachably mounted on the base and its installation position on the base is adjustable; the vertical pole is perpendicular to the base.

[0020] A horizontal slide rail mechanism is detachably mounted on the upright and its installation position on the upright is adjustable, and it is horizontally arranged.

[0021] A clamping mechanism is rotatably and adjustablely disposed at the end of the horizontal slide rail mechanism for clamping the heating mechanism. The installation orientation of the clamping mechanism can be adjusted by rotating and adjusting the orientation of the clamping mechanism, thereby adjusting the posture of the heating mechanism. The position of the clamping mechanism in the horizontal direction can be adjusted by sliding and adjusting the horizontal slide rail mechanism, thereby adjusting the position of the heating mechanism in the horizontal direction.

[0022] In one possible embodiment, the horizontal slide rail mechanism includes:

[0023] The track seat is horizontally arranged and has an installation part. The installation part is sleeved on the upright and is fixed by a limiting block. One end of the track seat has a support part and the other end has a guide block. The guide block has a track groove that runs horizontally through it.

[0024] A sliding track passes horizontally through the track groove and can slide within the track groove, and is also slidably mounted on the support portion. The clamping mechanism is located at the end of the sliding track.

[0025] In one possible embodiment, a control system disposed on the base is further included, the control system being electrically connected to the heating mechanism and the cooling gas delivery mechanism.

[0026] In one possible embodiment, the control system includes control buttons, including a heating start button, an emergency stop button, and a cooling start button; and / or,

[0027] The control system includes a time controller for setting heating and cooling times.

[0028] In one possible embodiment, the base is provided with a plurality of mounting holes arranged in an array, and the modular bending tool, the auxiliary lever mechanism, and the cooling gas delivery mechanism are detachably mounted to the base through different mounting holes.

[0029] The advantages of the hose bending and forming device provided by this utility model are as follows:

[0030] 1. The modular bending tooling shapes the hose, which can better control the bending size, ensure the bending quality, improve product consistency, and eliminate the need for manual bending, making the operation more convenient and improving operational efficiency.

[0031] 2. The heating mechanism is adjusted in height and horizontal direction by using a horizontal slide rail mechanism, and the posture of the heating mechanism is adjusted by using a clamping mechanism, which helps personnel to operate the heating mechanism, saves the physical strength of the pipe bending personnel, and improves safety.

[0032] 3. The control system can control the heating and cooling time, making the bending parameters controllable, solidifying the process parameters, ensuring heating uniformity, improving product quality, and solving problems such as high springback rate and poor consistency in existing bending processes. Attached Figure Description

[0033] Figure 1 This is a schematic diagram of the hose bending and forming device of this utility model.

[0034] Explanation of reference numerals in the attached drawings: 110, base; 111, mounting hole; 1111, first hole; 1112, second hole; 1113, third hole; 120, modular tooling for bending pipes; 121, tooling for straight sections; 1211, first positioning groove; 122, angle bending tooling; 1221, second positioning groove; 130, auxiliary lever mechanism; 131, upright; 132, horizontal slide rail mechanism; 1321, track seat; 13211, mounting part; 1 3212, Supporting part; 13213, Guide block; 1322, Sliding track; 133, Balancer; 134, Limiting block; 135, Clamping mechanism; 1351, First clamping part; 1352, Second clamping part; 140, Cooling gas conveying mechanism; 141, Guide assembly; 1411, Base plate; 1412, Side plate; 142, Telescopic adjustment mechanism; 150, Control system; 151, Control button; 152, Time controller. Detailed Implementation

[0035] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0036] To address the problems existing in the prior art, embodiments of this utility model provide a flexible hose bending forming device. The hose is a flexible pipe such as PFA pipe that is not easily bent and formed. See [link to relevant documentation]. Figure 1 The pipe bending forming device includes: a base 110, a modular pipe bending fixture 120, an auxiliary lever mechanism 130, a heating mechanism, and a cooling gas delivery mechanism 140. The modular pipe bending fixture 120 is detachably mounted on the base 110 and its installation position on the base 110 is adjustable. The modular pipe bending fixture 120 is used for pipe shaping of the hose. The auxiliary lever mechanism 130 is detachably mounted on the base 110 and its installation position on the base 110 is adjustable. The heating mechanism is located on the auxiliary lever mechanism 130 and is used to heat the shaped hose. The heating mechanism can be a hot air gun, an infrared heater, etc. The cooling gas delivery mechanism 140 is detachably mounted on the base 110 and its installation position on the base 110 is adjustable. The cooling gas delivery mechanism 140 is used to deliver cooling gas to the heated hose, allowing the heated hose to cool and solidify.

[0037] The modular bending fixture 120 is used to shape the hose, ensuring that the hose maintains a stable shape and size during bending, reducing deformation and springback issues, better controlling bending dimensions, ensuring bending quality, improving product consistency, eliminating the need for manual bending, achieving rapid bending and shaping, and improving operational efficiency. A heating mechanism heats the shaped hose to soften it, and a cooling gas delivery mechanism 140 delivers cooling gas to the softened hose, cooling it and maintaining its shaped form, thus processing the straight hose into the desired bend shape.

[0038] In one embodiment, see Figure 1 The modular pipe bending fixture 120 includes at least one straight section fixture 121 and at least one angle bending fixture 122. The straight section fixture 121 has a first positioning groove 1211 in a straight line, and the angle bending fixture 122 has a second positioning groove 1221 in a curved shape. By assembling the straight section fixture 121 and the angle bending fixture 122, the arrangement of the first positioning groove 1211 and the second positioning groove 1221 conforms to the required pipe bending diagram. Then, the hose is sequentially inserted into the first positioning groove 1211 and the second positioning groove 1221 to achieve pipe shaping of the hose.

[0039] It should be noted that the first positioning groove 1211 and the second positioning groove 1221 of different sizes can be designed according to the hose shape to adapt to hoses of different shapes, with a diameter range of 2mm-30mm. In addition, the second positioning groove 1221 with different bending shapes can be designed according to the bending path of the hose to control the bending angle, and complex bending paths such as S-shaped and U-shaped can be formed in one step.

[0040] The modular pipe bending fixture 120 is assembled from a straight section fixture 121 and an angle bending fixture 122. This modular fixture design, compared to existing roller benders, allows for integrated pipe forming, improving pipe forming consistency and efficiency. It can be flexibly assembled according to the required pipe bending diagram to meet the needs of different pipe bending paths, thus improving flexibility and adaptability.

[0041] In one embodiment, the cooling gas delivery mechanism 140 includes a gas delivery pipe, which is connected to the cooling gas pipeline of the plant gas supply system via a pipe connector. The plant gas supply system is used to deliver cooling gas to the cooling gas delivery mechanism 140, and the opening and closing of the cooling gas delivery can be adjusted via the pipe connector.

[0042] Specifically, the gas supply pipe is a universal gas pipe, and the pipe joint is a universal joint.

[0043] In one specific embodiment, see Figure 1The cooling gas delivery mechanism 140 also includes a guide assembly 141 and a telescopic adjustment mechanism 142. The pipe joint is slidably mounted on the guide assembly 141, and the telescopic adjustment mechanism 142 is connected to the pipe joint and is used to drive the pipe joint to slide on the guide assembly 141.

[0044] The telescopic adjustment mechanism 142 provides support and fixation for the pipe joint at the connection between the cooling gas delivery mechanism 140 and the cooling gas pipeline. By telescopically adjusting the telescopic adjustment mechanism 142, the pipe joint can be driven to slide on the guide assembly 141, and the jet nozzle of the gas delivery pipe can be adjusted so that the jet nozzle is aimed at the hose for blowing air. The guide assembly 141 provides a sliding path for the pipe joint, ensuring the stability of the pipe joint during movement.

[0045] Further, see Figure 1 The guide assembly 141 includes a base plate 1411 and a pair of side plates 1412 parallel to the base plate 1411. The spacing between the side plates 1412 is adapted to the width of the pipe joint. The base plate 1411 and the pair of side plates 1412 enclose a guide groove, in which the pipe joint slides. The guide groove provides a precise sliding path for the pipe joint, ensuring that the pipe joint can move along a predetermined direction during movement, such as... Figure 1 The width direction of the base 110 shown.

[0046] In some specific embodiments, the telescopic adjustment mechanism 142 is a cylinder, a hydraulic cylinder, or an electric telescopic rod, etc.

[0047] In one embodiment, see Figure 1 The auxiliary lever mechanism 130 includes: a vertical rod 131, a horizontal slide rail mechanism 132, and a clamping mechanism 135. The vertical rod 131 is detachably mounted on the base 110 and its mounting position on the base 110 is adjustable; the vertical rod 131 is perpendicular to the base 110. The horizontal slide rail mechanism 132 is horizontally positioned and detachably mounted on the vertical rod 131, and its mounting position on the vertical rod 131 is adjustable. The clamping mechanism 135 is rotatably and adjustablely located at the end of the horizontal slide rail mechanism 132, and is used to clamp the heating mechanism.

[0048] The height of the heating mechanism can be adjusted by adjusting the mounting position of the horizontal slide rail mechanism 132 on the upright 131. The horizontal position of the clamping mechanism 135 can be adjusted by sliding the horizontal slide rail mechanism 132, thereby adjusting the horizontal position of the heating mechanism. The mounting orientation of the clamping mechanism 135 can be adjusted by rotating it, thereby adjusting the posture of the heating mechanism, i.e., 360° orientation adjustment. By adjusting the horizontal position and posture of the heating mechanism, it can be precisely aligned and heated towards the desired heating position on the flexible hose.

[0049] In one specific embodiment, see Figure 1 The horizontal slide rail mechanism 132 includes a track seat 1321 and a sliding rail 1322. The track seat 1321 is horizontally arranged and has a mounting part 13211. The mounting part 13211 is movably sleeved on the upright 131 and is limited and fixed by a limiting block 134. One end of the track seat 1321 has a support part 13212 and the other end has a guide block 13213. The guide block 13213 has a track groove that runs horizontally through it. The sliding rail 1322 passes horizontally through the track groove and can slide within the track groove. The sliding rail 1322 is also slidably mounted on the support part 13212. A clamping mechanism 135 is provided at the end of the sliding rail 1322.

[0050] By pulling the sliding rail 1322, the sliding rail 1322 can slide within the rail groove, thereby adjusting the distance between the heating mechanism and the upright 131. Since the mounting part 13211 is movably fitted onto the upright 131, before the mounting part 13211 is limited and fixed, the heating mechanism can be rotated and adjusted around the upright 131 by rotating and adjusting the mounting part 13211. The distance between the heating mechanism and the upright 131 is the radius of rotation of the heating mechanism. Therefore, the horizontal position adjustment of the heating mechanism in the horizontal direction can be achieved through the horizontal sliding rail mechanism 132.

[0051] Further, see Figure 1 The clamping mechanism 135 is detachably locked to the end of the sliding rail 1322 by a first fastener. Before locking the clamping mechanism 135, the orientation of the heating mechanism can be adjusted by rotating the clamping mechanism 135. The first fastener can be a bolt, screw, etc.

[0052] Furthermore, see Figure 1 The clamping mechanism 135 includes a first clamping part 1351 and a second clamping part 1352. A receiving area for clamping the heating mechanism is formed between the first clamping part 1351 and the second clamping part 1352. The first clamping part 1351 and the second clamping part 1352 are detachably locked and fixed by a second fastener. By clamping and fixing the heating mechanism by the first clamping part 1351 and the second clamping part 1352, the heating mechanism can be installed quickly and efficiently. The first clamping part 1351 and the second clamping part 1352 are C-shaped, and the second fastener can be a bolt, screw, etc.

[0053] Specifically, see Figure 1 The clamping mechanism 135 has stops at both ends to prevent the sliding rail 1322 from coming out of the rail groove, and the clamping mechanism 135 is located on one of the stops.

[0054] In one specific embodiment, see Figure 1The limiting block 134 is detachably locked onto the upright 131. By adjusting the sleeve position of the mounting part 13211 on the upright 131, the installation position of the horizontal slide rail mechanism 132 on the upright 131 can be adjusted. Specifically, there is a pair of limiting blocks 134. After adjusting the position of the mounting part 13211, the pair of limiting blocks 134 are moved to the top and bottom ends of the mounting part 13211 respectively and locked in place, thereby limiting and fixing the mounting part 13211 through the pair of limiting blocks 134.

[0055] In one specific embodiment, see Figure 1 The horizontal slide rail mechanism 132 also includes a balancer 133 located at the top of the upright 131 to provide weight-adding balance.

[0056] In one embodiment, see Figure 1 The pipe bending forming device also includes a control system 150 located on the base 110, which is electrically connected to the heating mechanism and the cooling gas conveying mechanism 140.

[0057] In one specific embodiment, see Figure 1 The control system 150 includes control buttons 151, which include a heating start button, an emergency stop button, and a cooling start button. It can flexibly control the start and stop of heating of the heating mechanism and the start and stop of cooling of the cooling gas delivery mechanism 140.

[0058] In one specific embodiment, see Figure 1 The control system 150 includes a time controller 152 for setting heating and cooling times. It can precisely control the heating time of the heating mechanism and the cooling time of the cooling gas delivery mechanism 140, so as to realize controllable bending parameters, solidify process parameters, ensure the uniformity of heating and cooling of different areas of the hose, and improve the quality of bending products.

[0059] In one embodiment, see Figure 1 The base 110 is provided with multiple mounting holes 111 arranged in an array. The bending pipe modular tooling 120, the auxiliary lever mechanism 130, and the cooling gas delivery mechanism 140 are detachably mounted on the base 110 through different mounting holes 111 in conjunction with a third fastener, such as a bolt or screw.

[0060] Further, see Figure 1 The mounting holes 111 include a plurality of first holes 1111 arranged in an array for mounting the straight segment tooling 121 and the angle bending tooling 122, a plurality of second holes 1112 arranged in an array for mounting the auxiliary lever mechanism 130, and a third hole 1113 arranged in an array for mounting the cooling gas conveying mechanism 140.

[0061] Furthermore, the first hole 1111, the second hole 1112, and the third hole 1113 are all threaded holes with a diameter of 5mm and a spacing of 10mm.

[0062] In one specific embodiment, the modular bending fixture 120 is located in the middle of the base 110, the control system 150 is located at the lower left of the base 110, the auxiliary lever mechanism 130 is located on the left side of the base 110 and directly above the control system 150, and the cooling gas conveying mechanism 140 is located on the right side of the base 110. Figure 1 It is shown in the image located to the lower right of base 110.

[0063] The following is a detailed explanation of the bending method of the flexible tube bending forming device of this utility model.

[0064] S1: According to the required forming bend pipe diagram, assemble the straight section fixture 121 and the angle bending fixture 122 and lock them onto the base 110.

[0065] S2: Adjust the height of the auxiliary lever arm mechanism 130 and limit and fix the auxiliary lever arm mechanism 130 by the limiting block 134 to adjust the height of the clamping mechanism 135; use the clamping mechanism 135 to clamp the heating mechanism and adjust the orientation of the clamping mechanism 135.

[0066] S3: Set the required heating time of the heating mechanism and the cooling time of the cooling gas delivery mechanism 140 on the time controller 152.

[0067] S4: Cut the hose to the required length and put the cut hose into the assembled modular bending tool 120.

[0068] S5: Press the heating start button of control button 151.

[0069] S6: Hold the heating head of the heating mechanism by hand and move it over the hose to heat the hose.

[0070] S7: When cooling and shaping are required, press the cooling start button in the control button 151 to control the opening of the cooling gas delivery mechanism 140 to deliver cooling gas to the hose, so that the hose cools and shapes.

[0071] S8: Remove the hose and bend it into shape.

[0072] In the description of this utility model, it should be understood that the terms "comprising" and "having" as used herein, and any variations thereof, are intended to cover non-exclusive inclusion, for example, a process, method, system, product, or device that includes a series of steps or units is not necessarily limited to those steps or units that are explicitly listed, but may include other steps or units that are not explicitly listed or that are inherent to such process, method, product, or device.

[0073] It should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0074] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, unless otherwise stated, "a plurality of" means two or more.

[0075] While the embodiments of this utility model have been described in detail above, it will be apparent to those skilled in the art that various modifications and variations can be made to these embodiments. However, it should be understood that such modifications and variations fall within the scope and spirit of this utility model as set forth in the claims. Furthermore, the utility model described herein may have other embodiments and can be implemented or realized in various ways. Unless otherwise defined, the technical or scientific terms used herein should have the ordinary meaning understood by one of ordinary skill in the art to which this utility model pertains.

Claims

1. A hose bending and forming device, characterized in that, include: Base (110); A modular pipe bending fixture (120) is detachably mounted on the base (110) and its installation position on the base (110) is adjustable, and is used to shape the hose. An auxiliary lever mechanism (130) is detachably mounted on the base (110) and its mounting position on the base (110) is adjustable; A heating mechanism, located in the auxiliary lever mechanism (130), is used to heat the shaped hose. A cooling gas delivery mechanism (140) is detachably mounted on the base (110) and its mounting position on the base (110) is adjustable. The cooling gas delivery mechanism (140) is used to deliver cooling gas to the heated hose so that the heated hose is cooled and shaped.

2. The hose bending and forming device according to claim 1, characterized in that, The modular bending fixture (120) includes at least one straight section fixture (121) and at least one angle bending fixture (122). The straight section fixture (121) is provided with a first positioning groove (1211) in a straight shape, and the angle bending fixture (122) is provided with a second positioning groove (1221) in a curved shape. By assembling the straight section tool (121) and the angle bending tool (122), the arrangement of the first positioning groove (1211) and the second positioning groove (1221) conforms to the required forming bend pipe diagram. Then, the hose is sequentially inserted into the first positioning groove (1211) and the second positioning groove (1221) to achieve pipe shaping of the hose.

3. The hose bending and forming device according to claim 1, characterized in that, The cooling gas delivery mechanism (140) includes a gas delivery pipe, which is connected to the cooling gas pipeline of the plant gas supply system via a pipe joint. The plant gas supply system is used to deliver cooling gas to the cooling gas delivery mechanism (140).

4. The hose bending and forming device according to claim 3, characterized in that, The cooling gas delivery mechanism (140) also includes a guide assembly (141) and a telescopic adjustment mechanism (142). The pipe joint is slidably mounted on the guide assembly (141); The telescopic adjustment mechanism (142) is connected to the pipe joint and is used to drive the pipe joint to slide on the guide assembly (141).

5. The hose bending and forming device according to claim 4, characterized in that, The guide assembly (141) includes a base plate (1411) and a pair of side plates (1412) arranged parallel to the base plate (1411). The distance between the pair of side plates (1412) is adapted to the width of the pipe joint. The base plate (1411) and the pair of side plates (1412) form a guide groove, and the pipe joint slides in the guide groove.

6. The hose bending forming apparatus according to any one of claims 1-5, characterized in that, The auxiliary lever mechanism (130) includes: The upright (131) is detachably mounted on the base (110) and its mounting position on the base (110) is adjustable; The horizontal slide rail mechanism (132) is detachably mounted on the upright (131) and its mounting position on the upright (131) is adjustable, and it is horizontally arranged. The clamping mechanism (135) is rotatably adjustable at the end of the horizontal slide rail mechanism (132) and is used to clamp the heating mechanism. The installation orientation of the clamping mechanism (135) can be adjusted by rotating and adjusting the orientation of the clamping mechanism (135), thereby adjusting the posture of the heating mechanism. The position of the clamping mechanism (135) in the horizontal direction can be adjusted by sliding and adjusting the horizontal slide rail mechanism (132), thereby adjusting the position of the heating mechanism in the horizontal direction.

7. The hose bending and forming device according to claim 6, characterized in that, The horizontal slide rail mechanism (132) includes: The track seat (1321) is horizontally arranged and has an installation part (13211). The installation part (13211) is sleeved on the upright (131) and is fixed by a limiting block (134). One end of the track seat (1321) has a support part (13212) and the other end has a guide block (13213). The guide block (13213) has a track groove that runs horizontally through it. A sliding track (1322) passes horizontally through the track groove and can slide within the track groove, and is also slidably mounted on the support part (13212). The clamping mechanism (135) is located at the end of the sliding track (1322).

8. The hose bending forming apparatus according to any one of claims 1-5, characterized in that, It also includes a control system (150) disposed on the base (110), the control system (150) being electrically connected to the heating mechanism and the cooling gas delivery mechanism (140).

9. The hose bending and forming apparatus according to claim 8, characterized in that, The control system (150) includes control buttons (151), which include a heating start button, an emergency stop button, and a cooling start button; and / or, The control system (150) includes a time controller (152) for setting heating and cooling times.

10. The hose bending forming apparatus according to any one of claims 1-5, characterized in that, The base (110) is provided with a plurality of mounting holes (111) arranged in an array. The bending modular tooling (120), the auxiliary lever mechanism (130), and the cooling gas conveying mechanism (140) are detachably mounted on the base (110) through different mounting holes (111).