CN211778390U - High-temperature curing device for tubular parts - Google Patents

Abstract

The utility model discloses a high-temperature curing device for tubular parts, which is used for processing a scalpel component, wherein the scalpel component comprises a tube body, a scalpel head and a mounting seat, the scalpel head is connected with one end of the tube body in a bonding way, and the mounting seat is connected with the other end of the tube body; the curing device comprises a machine base, a bottom plate arranged on the machine base, a movable plate movably arranged above the bottom plate, a sliding rail and a clamp, wherein the sliding rail is arranged on the upper surface of the movable plate, at least one blowing head is arranged on the machine frame positioned on one side of the heating module, when a piston rod of an air cylinder connected to the movable plate is in a contraction state, the blowing head is aligned to the upper end of the clamp, and at least two elastic limiting blocks are arranged on the bottom plate and under the movable plate; the utility model discloses an automatic heating solidification to scalpel assembly tool bit and body, degree of automation is high, avoids the human error that manual operation brought, has improved stability and precision that tool bit and body are connected to very high production efficiency has.

Description

High-temperature curing device for tubular parts

Technical Field

The utility model relates to a high temperature curing device of tubular part belongs to medical instrument processing field.

Background

The surgical operation aims to diagnose and treat surgical diseases, the operation is an important factor determining the treatment effect, the main process of the operation is to cut open, separate tissues and remove pathological changes by using an operation knife, as early as in the stone ware era, people can already use stone needles and stone needles to cut open pus to treat carbuncle swelling, and after entering the slay society, people can change the operation knife to treat general surgical diseases by using an iron knife, and the operation knife has various types from the establishment society to the sealing society.

The existing scalpels or scissors are made of stainless steel materials, and doctors and patients are familiar with the materials, but the doctors and the patients are not aware of the defects of the existing scalpels or scissors. The metal knife is the main culprit of scars, the incision of the metal knife is sawtooth-shaped, although the incision is difficult to distinguish by naked eyes, the wound is slow to heal and easy to scar, and metal diffusion substances exist to pollute the wound and generate pigmentation. Therefore, the prior steel scalpels and surgical scissors are not suitable for the needs of the current surgery, and the ceramic as a novel material is widely applied to the scalpel head due to the excellent physical and chemical properties thereof, and then if the ceramic scalpel head is well connected with the scalpel main body, the problem to be solved by the technical staff in the field is urgently needed.

Disclosure of Invention

The utility model aims at providing a high temperature curing device of tubulose part, this high temperature curing device of tubulose part have realized the self-heating solidification to scalpel assembly tool bit and body, and degree of automation is high, when practicing thrift the manpower in a large number, avoids the human error that manual operation brought, has improved the stability and the precision that the tool bit is connected with the body to very high production efficiency has.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a high-temperature curing device for tubular parts is used for processing a scalpel assembly, wherein the scalpel assembly comprises a tube body, a scalpel head and a mounting seat, the scalpel head is connected with one end of the tube body in an adhering mode, and the mounting seat is connected with the other end of the tube body;

the curing device comprises a machine base, a bottom plate arranged on the machine base, a movable plate movably arranged above the bottom plate, a sliding rail and a clamp, wherein the sliding rail is arranged on the upper surface of the movable plate, and the clamp is movably arranged on the sliding rail through a transfer plate and can reciprocate along the sliding rail;

a heating module is arranged right above the movable plate, a plurality of heating holes for embedding the upper end of the scalpel assembly arranged in the clamp are formed in the lower surface of the heating module, an air cylinder is arranged below the bottom plate, and a piston rod of the air cylinder penetrates through the bottom plate and is fixedly connected with the movable plate and used for driving the movable plate to move up and down;

the clamp further comprises a substrate, first baffle plates arranged on two sides of the substrate in parallel, at least two support plates and a pressing mechanism, wherein the support plates are sequentially stacked between the two first baffle plates and are arranged perpendicular to the first baffle plates;

the top surface of the supporting plate is connected with a strip-shaped block, the length and the width of the strip-shaped block are both greater than those of the top surface of the supporting plate, so that two ends and two sides of the strip-shaped block extend out of the supporting plate, the lower surfaces of the two ends of the strip-shaped block, which extend out of the supporting plate, are respectively in contact connection with the top surfaces of the two first baffles, a plurality of vertical strip-shaped grooves are symmetrically arranged on two side surfaces of the strip-shaped block, and the cross section of each strip-shaped groove is in a semicircular shape matched with the tube;

the surface of one side, opposite to the second baffle plate, of the supporting plate is provided with at least one mounting strip, the mounting strip is provided with a plurality of mounting through holes corresponding to the strip-shaped grooves on one side of the supporting plate, and the lower end of the mounting seat of the scalpel assembly is embedded into the mounting through holes;

the heating module further comprises a shell, a heating plate and at least two heating sheets, a fixed mounting plate is further arranged in the shell, the upper surface of the fixed mounting plate is fixedly connected with the shell, the lower surface of the fixed mounting plate is connected with the heating plate, the heating sheets are positioned between the fixed mounting plate and the heating plate and are in contact connection with the upper surface of the heating plate, the heating sheets are ceramic heating sheets, heating wires penetrate through the heating sheets, the lower surface of the heating plate leaks out of the shell, and the heating plate is provided with heating holes for embedding the upper ends of the scalpel components;

heat insulation cotton is filled between the four inner walls of the shell and the heating plate, between the four side surfaces of the fixed mounting plate, between the fixed mounting plate and the top surface of the shell and between the heating plate and the fixed mounting plate, a first temperature measuring probe is embedded in the heating plate, and a second temperature measuring probe is arranged between the heat insulation cotton and the heating plate;

the frame on one side of the heating module is provided with at least one blowing head, when a piston rod of an air cylinder connected to the movable plate is in a contraction state, the blowing head is aligned to the upper end of the clamp, and the bottom plate is provided with at least two elastic limiting blocks under the movable plate.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, the inner surface of the second baffle is also in contact with and fixedly connected with the end surfaces of the two first baffles.

2. In the above scheme, the heating module is mounted on the lower surface of a fixing plate, and the fixing plate is connected with the base plate through at least two guide posts.

3. In the above scheme, the movable plate is provided with a through hole for the guide pillar to pass through, and the guide pillar passes through the through hole and is movably connected with the movable plate through a guide sleeve arranged in the through hole.

4. In the above scheme, the number of the at least two guide pillars is 4, and the guide pillars are respectively positioned at four corners of the movable plate.

5. In the scheme, one end of the heating wire is uniformly and densely distributed in the heating sheet, and the other end of the heating wire penetrates out of the shell.

6. In the above scheme, one end of each of the first temperature measuring probe and the second temperature measuring probe penetrates out of the shell.

7. In the scheme, the blowing heads are arranged on the rack through a mounting seat, and the number of the blowing heads is 4.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model discloses high temperature curing device of tubulose part, it has realized the automatic heating solidification to scalpel assembly tool bit and body, and degree of automation is high, when saving manpower in a large number, avoids the human error that manual operation brought, has improved the stability and the precision of tool bit and body connection to have very high production efficiency; in addition, the accurate clamping of the scalpel assembly to be machined is realized, the structure is ingenious, the clamping is simple, and the clamping of a plurality of scalpel assemblies can be realized simultaneously, so that the efficiency, the machining precision and the stability of the follow-up machining of the scalpel assemblies can be improved.

2. The high-temperature curing device for the tubular parts of the utility model comprises a heating module, a shell, a heating plate and at least two heating sheets, the shell is also internally provided with a fixed mounting plate, the upper surface of the fixed mounting plate is fixedly connected with the shell, the lower surface of the fixed mounting plate is connected with the heating plate, the heating plate is positioned between the fixed mounting plate and the heating plate and is in contact connection with the upper surface of the heating plate, the heating plate is a ceramic heating plate, the heating sheet is internally provided with a heating wire, the lower surface of the heating plate leaks out of the shell, the heating plate is provided with the heating hole for embedding the upper end of the scalpel component, the heating module is arranged, so that the uniform heating of each scalpel component is realized, and can realize the heating of the long-time constant temperature of the scalpel component, thereby ensuring the effect of thermosetting bonding between the scalpel head and the tube body.

3. The utility model discloses the high temperature curing device of tubulose part, between four inner walls of its shell and four side surfaces of hot plate, fixed mounting panel between the top surface of fixed mounting panel and shell all pack between heating plate and the fixed mounting panel has the heat preservation cotton, it has a first temperature probe to embed in the hot plate, be provided with a second temperature probe between heat preservation cotton and the heating plate, the cotton setting that keeps warm heaies up to the temperature setting back at heating plate and hot plate, can maintain the invariant of temperature to guarantee the constant temperature heating of whole heating module to operation knife tackle spare, thereby further strengthened the effect to the thermosetting bonding between cutter head and the body.

4. The utility model discloses tubular part's high temperature curing device, it is located install at least one blow head in the frame of heating module one side, work as when the piston rod of the cylinder of connecting on the fly leaf is in the shrink state, the upper end of anchor clamps is aimed at to the blow head, install two at least elastic limiting blocks under on the bottom plate and being located the fly leaf, the setting of blow head can be after once heating solidification accomplishes, and the cooling of product both can prevent the harm that the high temperature brought with higher speed, can shorten spaced time between twice heating solidification process again greatly, improves machining efficiency.

Drawings

FIG. 1 is a schematic view of a scalpel assembly;

FIG. 2 is a schematic view of a clamp structure of the high-temperature curing device for tubular parts according to the present invention;

FIG. 3 is a schematic view of a partial structure of a clamp of the high-temperature knife head curing device of the scalpel;

FIG. 4 is a schematic view of a partial structure of the high temperature curing apparatus for tubular parts according to the present invention;

FIG. 5 is a sectional view of a heating module structure of the high-temperature knife head curing device of the scalpel;

FIG. 6 is a schematic view of a heating module of the high temperature curing apparatus for tubular parts according to the present invention;

fig. 7 is a schematic structural diagram of the high-temperature curing device for tubular parts according to the present invention.

In the above drawings: 1. a scalpel assembly; 101. a pipe body; 102. a cutter head; 103. a mounting seat; 2. a substrate; 3. a first baffle plate; 4. a support plate; 5. a hold-down mechanism; 7. a second baffle; 8. a bar-shaped block; 9. a strip-shaped groove; 10. mounting a bar; 11. mounting a through hole; 21. a machine base; 22. a base plate; 23. a movable plate; 24. a slide rail; 25. a clamp; 26. an adapter plate; 30. a heating module; 31. heating the hole; 32. a cylinder; 33. a fixing plate; 34. a guide post; 35. a guide sleeve; 36. a housing; 37. heating plates; 38. a heating plate; 39. heating wires; 40. heat preservation cotton; 41. a first temperature probe; 42. a second temperature measuring probe; 49. a blowing head; 50. an elastic limiting block.

Detailed Description

In the description of this patent, it is noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The meaning of the above terms in this patent may be specifically understood by those of ordinary skill in the art.

Example 1: a high-temperature curing device for tubular parts is used for processing a scalpel assembly 1, the scalpel assembly 1 comprises a tube body 101, a scalpel head 102 and a mounting base 103, the scalpel head 102 is connected with one end of the tube body 101 in an adhering mode, and the mounting base 103 is connected with the other end of the tube body 101;

the curing device comprises a base 21, a bottom plate 22 arranged on the base 21, a movable plate 23 movably arranged above the bottom plate 22, a slide rail 24 and a clamp 25, wherein the slide rail 24 is arranged on the upper surface of the movable plate 23, and the clamp 25 is movably arranged on the slide rail 24 through a transfer plate 26 and can reciprocate along the slide rail 24;

a heating module 30 is installed right above the movable plate 23, a plurality of heating holes 31 for embedding the upper end of the scalpel assembly 1 installed in the clamp 25 are formed in the lower surface of the heating module 30, an air cylinder 32 is installed below the bottom plate 22, and a piston rod of the air cylinder 32 penetrates through the bottom plate 22 and is fixedly connected with the movable plate 23 and used for driving the movable plate 23 to move up and down;

the clamp 25 further comprises a substrate 2, first baffle plates 3 arranged on two sides of the substrate 2 in parallel, at least two support plates 4 and a pressing mechanism 5, wherein the support plates 4 are sequentially stacked between the two first baffle plates 3 and are arranged perpendicular to the first baffle plates 3, the pressing mechanism 5 is installed at one end of the upper surface of the substrate 2, one end, opposite to the pressing mechanism 5, of the substrate 2 is connected with a second baffle plate 7, the inner surface of the second baffle plate 7 is in contact connection with the surface, opposite to the pressing mechanism 5, of one support plate 4, and a pressing head of the pressing mechanism 5 is in abutting contact with the surface, opposite to the second baffle plate 7, of one support plate 4, so that at least two support plates 4 are pressed;

the top surface of the supporting plate 4 is connected with a strip-shaped block 8, the length and the width of the strip-shaped block 8 are both greater than those of the top surface of the supporting plate 4, so that both ends and both sides of the strip-shaped block 8 extend out of the supporting plate 4, the lower surfaces of both ends of the strip-shaped block 8 extending out of the supporting plate 4 are respectively in contact connection with the top surfaces of the two first baffles 3, a plurality of vertical strip-shaped grooves 9 are symmetrically arranged on both side surfaces of the strip-shaped block 8, and the cross-sectional shape of each strip-shaped groove 9 is a semicircle matched with the tube body 101 of the scalpel;

at least one mounting strip 10 is arranged on the surface of one side, opposite to the second baffle 7, of the supporting plate 4, a plurality of mounting through holes 11 corresponding to the strip-shaped grooves 9 on one side of the supporting plate 4 are formed in the mounting strip 10, and the lower end of the mounting seat 103 of the scalpel assembly 1 is embedded into the mounting through holes 11;

the heating module 30 further comprises a shell 36, a heating plate 37 and at least two heating sheets 38, wherein a fixed mounting plate is further arranged in the shell 36, the upper surface of the fixed mounting plate is fixedly connected with the shell 36, the lower surface of the fixed mounting plate is connected with the heating plate 37, the heating sheets 38 are positioned between the fixed mounting plate and the heating plate 37 and are in contact connection with the upper surface of the heating plate 37, the heating sheets 38 are ceramic heating sheets, a heating wire 39 penetrates through the heating sheets 38, the lower surface of the heating plate 37 leaks out of the shell 36, and the heating plate 37 is provided with heating holes 31 for embedding the upper end of the scalpel assembly 1;

heat insulation cotton 40 is filled between the four inner walls of the shell 36 and the heating plate 37, between the four side surfaces of the fixed mounting plate, between the fixed mounting plate and the top surface of the shell 36, and between the heating sheet 38 and the fixed mounting plate, a first temperature measuring probe 41 is embedded in the heating plate 37, and a second temperature measuring probe 42 is arranged between the heat insulation cotton 40 and the heating sheet 38;

at least one blowing head 49 is installed on the frame at one side of the heating module 30, when the piston rod of the cylinder 32 connected to the movable plate 23 is in a contracted state, the blowing head 49 is aligned with the upper end of the clamp 25, and at least two elastic limiting blocks 50 are installed on the bottom plate 22 and under the movable plate 23.

The inner surface of the second baffle 7 is also contacted with and fixedly connected with the end surfaces of the two first baffles 3; the heating module 30 is mounted on the lower surface of a fixing plate 33, and the fixing plate 33 is connected with the bottom plate 22 through at least two guide posts 34; the movable plate 23 is provided with a through hole for the guide post 34 to pass through, and the guide post 34 passes through the through hole and is movably connected with the movable plate 23 through a guide sleeve 35 installed in the through hole.

Example 2: a high-temperature curing device for tubular parts is used for processing a scalpel assembly 1, the scalpel assembly 1 comprises a tube body 101, a scalpel head 102 and a mounting base 103, the scalpel head 102 is connected with one end of the tube body 101 in an adhering mode, and the mounting base 103 is connected with the other end of the tube body 101;

the curing device comprises a base 21, a bottom plate 22 arranged on the base 21, a movable plate 23 movably arranged above the bottom plate 22, a slide rail 24 and a clamp 25, wherein the slide rail 24 is arranged on the upper surface of the movable plate 23, and the clamp 25 is movably arranged on the slide rail 24 through a transfer plate 26 and can reciprocate along the slide rail 24;

a heating module 30 is installed right above the movable plate 23, a plurality of heating holes 31 for embedding the upper end of the scalpel assembly 1 installed in the clamp 25 are formed in the lower surface of the heating module 30, an air cylinder 32 is installed below the bottom plate 22, and a piston rod of the air cylinder 32 penetrates through the bottom plate 22 and is fixedly connected with the movable plate 23 and used for driving the movable plate 23 to move up and down;

the clamp 25 further comprises a substrate 2, first baffle plates 3 arranged on two sides of the substrate 2 in parallel, at least two support plates 4 and a pressing mechanism 5, wherein the support plates 4 are sequentially stacked between the two first baffle plates 3 and are arranged perpendicular to the first baffle plates 3, the pressing mechanism 5 is installed at one end of the upper surface of the substrate 2, one end, opposite to the pressing mechanism 5, of the substrate 2 is connected with a second baffle plate 7, the inner surface of the second baffle plate 7 is in contact connection with the surface, opposite to the pressing mechanism 5, of one support plate 4, and a pressing head of the pressing mechanism 5 is in abutting contact with the surface, opposite to the second baffle plate 7, of one support plate 4, so that at least two support plates 4 are pressed;

the top surface of the supporting plate 4 is connected with a strip-shaped block 8, the length and the width of the strip-shaped block 8 are both greater than those of the top surface of the supporting plate 4, so that both ends and both sides of the strip-shaped block 8 extend out of the supporting plate 4, the lower surfaces of both ends of the strip-shaped block 8 extending out of the supporting plate 4 are respectively in contact connection with the top surfaces of the two first baffles 3, a plurality of vertical strip-shaped grooves 9 are symmetrically arranged on both side surfaces of the strip-shaped block 8, and the cross-sectional shape of each strip-shaped groove 9 is a semicircle matched with the tube body 101 of the scalpel;

at least one mounting strip 10 is arranged on the surface of one side, opposite to the second baffle 7, of the supporting plate 4, a plurality of mounting through holes 11 corresponding to the strip-shaped grooves 9 on one side of the supporting plate 4 are formed in the mounting strip 10, and the lower end of the mounting seat 103 of the scalpel assembly 1 is embedded into the mounting through holes 11;

the heating module 30 further comprises a shell 36, a heating plate 37 and at least two heating sheets 38, wherein a fixed mounting plate is further arranged in the shell 36, the upper surface of the fixed mounting plate is fixedly connected with the shell 36, the lower surface of the fixed mounting plate is connected with the heating plate 37, the heating sheets 38 are positioned between the fixed mounting plate and the heating plate 37 and are in contact connection with the upper surface of the heating plate 37, the heating sheets 38 are ceramic heating sheets, a heating wire 39 penetrates through the heating sheets 38, the lower surface of the heating plate 37 leaks out of the shell 36, and the heating plate 37 is provided with heating holes 31 for embedding the upper end of the scalpel assembly 1;

heat insulation cotton 40 is filled between the four inner walls of the shell 36 and the heating plate 37, between the four side surfaces of the fixed mounting plate, between the fixed mounting plate and the top surface of the shell 36, and between the heating sheet 38 and the fixed mounting plate, a first temperature measuring probe 41 is embedded in the heating plate 37, and a second temperature measuring probe 42 is arranged between the heat insulation cotton 40 and the heating sheet 38;

at least one blowing head 49 is installed on the frame at one side of the heating module 30, when the piston rod of the cylinder 32 connected to the movable plate 23 is in a contracted state, the blowing head 49 is aligned with the upper end of the clamp 25, and at least two elastic limiting blocks 50 are installed on the bottom plate 22 and under the movable plate 23.

The number of the at least two guide posts 34 is 4, and the at least two guide posts are respectively positioned at four corners of the movable plate 23; one end of the heating wire 39 is uniformly and densely distributed in the heating sheet 38, and the other end of the heating wire 39 penetrates out of the shell 36; one end of each of the first temperature probe 41 and the second temperature probe 42 penetrates out of the shell 36; the blowing heads 49 are mounted on the frame through a mounting seat, and the number of the blowing heads 49 is 4.

When in use, the scalpel components are fixedly arranged in the clamp, the upper ends of the scalpel components are fixed on the clamp, namely, the joint of the tool bit and the pipe body extends out from the upper surface of the clamp, the joint of the tool bit and the pipe body is coated with thermosetting glue, the clamp which is well clamped is placed on the adapter plate, the clamp is conveyed to the lower part of the heating module along with the movement of the adapter plate, the cylinder is started, the movable plate moves upwards under the driving of the cylinder until the upper end of the surgical knife assembly extending out of the clamp is respectively embedded into the heating holes of the heating module, the upper end of the scalpel component is heated by the heating module, the thermosetting glue is cured, the scalpel head and the tube body are fixedly bonded, after the curing is finished, the cylinder drives the movable plate to move downwards, the upper end of the scalpel assembly exits from the heating hole of the heating module, and after the scalpel assembly is cooled for a period of time, the adapter plate drives the clamp to move on the slide rail, the clamp is sent out, and the clamp is taken out.

When the high-temperature curing device for the tubular part is adopted, the automatic heating curing of the scalpel assembly tool bit and the tube body is realized, the automation degree is high, the manpower is greatly saved, meanwhile, the human error caused by manual operation is avoided, the stability and the precision of connection of the tool bit and the tube body are improved, and the production efficiency is high; in addition, the accurate clamping of the scalpel assembly to be processed is realized, the structure is ingenious, the clamping is simple, and the clamping of a plurality of scalpel assemblies can be realized simultaneously, so that the efficiency, the processing accuracy and the stability of the subsequent processing of the scalpel assemblies can be improved;

in addition, the heating module is arranged, so that uniform heating of each scalpel component is realized, and long-time constant-temperature heating of the scalpel component can be realized, so that the effect of thermocuring and bonding between the scalpel head and the tube body is ensured;

in addition, the heat insulation cotton is arranged, so that the temperature can be kept constant after the heating sheet and the heating plate are heated to the set temperature, the constant temperature heating of the whole heating module on the scalpel component is ensured, and the effect of thermosetting bonding between the scalpel head and the tube body is further enhanced; in addition, the arrangement of the blowing head can accelerate the cooling of the product after one-time heating and curing is finished, thereby not only preventing the damage caused by overhigh temperature, but also greatly shortening the interval time between two heating and curing processes and improving the processing efficiency.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. A high temperature curing device of tubular part which characterized in that: the scalpel assembly (1) comprises a tube body (101), a scalpel head (102) and a mounting seat (103), wherein the scalpel head (102) is connected with one end of the tube body (101) in an adhering mode, and the mounting seat (103) is connected with the other end of the tube body (101);

the curing device comprises a base (21), a bottom plate (22) arranged on the base (21), a movable plate (23) movably arranged above the bottom plate (22), a sliding rail (24) and a clamp (25), wherein the sliding rail (24) is arranged on the upper surface of the movable plate (23), and the clamp (25) is movably arranged on the sliding rail (24) through a transfer plate (26) and can reciprocate along the sliding rail (24);

a heating module (30) is arranged right above the movable plate (23), a plurality of heating holes (31) for embedding the upper end of the scalpel assembly (1) arranged in the clamp (25) are formed in the lower surface of the heating module (30), an air cylinder (32) is arranged below the bottom plate (22), and a piston rod of the air cylinder (32) penetrates through the bottom plate (22) and is fixedly connected with the movable plate (23) and used for driving the movable plate (23) to move up and down;

the clamp (25) further comprises a substrate (2), first baffle plates (3) arranged on two sides of the substrate (2) in parallel, at least two support plates (4) and a pressing mechanism (5), wherein the support plates (4) are sequentially stacked between the two first baffle plates (3) and are perpendicular to the first baffle plates (3), the pressing mechanism (5) is installed at one end of the upper surface of the substrate (2), one end, opposite to the pressing mechanism (5), of the substrate (2) is connected with a second baffle plate (7), the inner surface of the second baffle plate (7) is in contact connection with the surface, opposite to the pressing mechanism (5), of one support plate (4), and a pressure head of the pressing mechanism (5) is in pressing contact with the surface, opposite to the second baffle plate (7), of one support plate (4), so that the at least two support plates (4) are pressed;

the top surface of the supporting plate (4) is connected with a strip-shaped block (8), the length and the width of the strip-shaped block (8) are both greater than those of the top surface of the supporting plate (4), so that the two ends and two sides of the strip-shaped block (8) all extend out of the supporting plate (4), the lower surfaces of the two ends, extending out of the supporting plate (4), of the strip-shaped block (8) are respectively in contact connection with the top surfaces of the two first baffles (3), a plurality of vertical strip-shaped grooves (9) are symmetrically arranged on the two side surfaces of the strip-shaped block (8), and the cross section of each strip-shaped groove (9) is in a semicircular shape matched with the tube body (101) of the;

at least one mounting bar (10) is mounted on the surface of one side, opposite to the second baffle (7), of the supporting plate (4), a plurality of mounting through holes (11) corresponding to the strip-shaped grooves (9) on one side of the supporting plate (4) are formed in the mounting bar (10), and the lower end of a mounting seat (103) of the scalpel assembly (1) is embedded into the mounting through holes (11);

the heating module (30) further comprises a shell (36), a heating plate (37) and at least two heating sheets (38), a fixed mounting plate is further arranged in the shell (36), the upper surface of the fixed mounting plate is fixedly connected with the shell (36), the lower surface of the fixed mounting plate is connected with the heating plate (37), the heating sheets (38) are positioned between the fixed mounting plate and the heating plate (37) and are in contact connection with the upper surface of the heating plate (37), the heating sheets (38) are ceramic heating sheets, heating wires (39) penetrate through the heating sheets (38), the lower surface of the heating plate (37) leaks out of the shell (36), and the heating plate (37) is provided with heating holes (31) for embedding the upper end of the scalpel assembly (1);

heat-insulating cotton (40) is filled between the four inner walls of the shell (36) and the heating plate (37) and between the four side surfaces of the fixed mounting plate, between the fixed mounting plate and the top surface of the shell (36) and between the heating sheet (38) and the fixed mounting plate, a first temperature-measuring probe (41) is embedded in the heating plate (37), and a second temperature-measuring probe (42) is arranged between the heat-insulating cotton (40) and the heating sheet (38);

at least one blowing head (49) is installed on the machine frame on one side of the heating module (30), when a piston rod of a cylinder (32) connected to the movable plate (23) is in a contraction state, the blowing head (49) is aligned to the upper end of the clamp (25), and at least two elastic limiting blocks (50) are installed on the bottom plate (22) and located under the movable plate (23).

2. The high-temperature curing apparatus for tubular parts according to claim 1, wherein: the inner surface of the second baffle (7) is also contacted and fixedly connected with the end surfaces of the two first baffles (3).

3. The high-temperature curing apparatus for tubular parts according to claim 1, wherein: the heating module (30) is arranged on the lower surface of a fixing plate (33), and the fixing plate (33) is connected with the bottom plate (22) through at least two guide posts (34).

4. The high-temperature curing apparatus for tubular parts according to claim 3, wherein: the movable plate (23) is provided with a through hole for the guide post (34) to pass through, and the guide post (34) passes through the through hole and is movably connected with the movable plate (23) through a guide sleeve (35) arranged in the through hole.

5. The high-temperature curing apparatus for tubular parts according to claim 4, wherein: the number of the at least two guide columns (34) is 4, and the at least two guide columns are respectively positioned at four corners of the movable plate (23).

6. The high-temperature curing apparatus for tubular parts according to claim 1, wherein: one end of the heating wire (39) is uniformly and densely distributed in the heating sheet (38), and the other end of the heating wire (39) penetrates out of the shell (36).

7. The high-temperature curing apparatus for tubular parts according to claim 1, wherein: one end of each of the first temperature measuring probe (41) and the second temperature measuring probe (42) penetrates out of the shell (36).

8. The high-temperature curing apparatus for tubular parts according to claim 1, wherein: the blowing heads (49) are arranged on the rack through a mounting seat, and the number of the blowing heads (49) is 4.

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