阅读说明：本技术 一种矫形器的生产工艺及其流水线 (Production process and production line of orthotics ) 是由 葛海军 李芳瑞 徐妍 于 2020-04-21 设计创作，主要内容包括：本发明涉及一种矫形器的生产流水线,包括依次设置的加热模块、定型模块、切割打磨模块、装饰模块和检测模块,所述的定型模块包括定型装置,定型装置包括底座,底座的上端铰接有两个弧形夹持杆,两个弧形夹持杆的转动轴线水平设置且相互平行,弧形夹持杆可转动并拼合形成夹持环,弧形夹持杆与底座连接的一端上连接有限位绳,限位绳上套设有弹性挤压筒；弧形夹持杆远离底座的一端滑动安装有限位筒,限位筒竖直设置,两根限位绳均穿设过限位筒。能够保护工人,使工人不易在加工的时候被烫伤。(The invention relates to a production line of an orthopedic device, which comprises a heating module, a shaping module, a cutting and polishing module, a decoration module and a detection module which are sequentially arranged, wherein the shaping module comprises a shaping device, the shaping device comprises a base, the upper end of the base is hinged with two arc-shaped clamping rods, the rotating axes of the two arc-shaped clamping rods are horizontally arranged and are parallel to each other, the arc-shaped clamping rods can rotate and are spliced to form a clamping ring, one end of each arc-shaped clamping rod, which is connected with the base, is connected with a limiting rope, and an elastic extrusion cylinder is sleeved on the limiting rope; the one end slidable mounting that the base was kept away from to arc supporting rod has a spacing section of thick bamboo, and the vertical setting of a spacing section of thick bamboo, two spacing ropes are all worn to establish a spacing section of thick bamboo. Can protect workers and lead the workers not to be easily scalded during processing.)

1. The utility model provides an orthopedic device's production water line, is including the heating module, the design module, the cutting module of polishing, decorate module and the detection module that set gradually, its characterized in that: the shaping module comprises a shaping device (1), the shaping device (1) comprises a base (11), two arc-shaped clamping rods (21) are hinged to the upper end of the base (11), the rotating axes of the two arc-shaped clamping rods (21) are horizontally arranged and are parallel to each other, the arc-shaped clamping rods (21) can be rotated and spliced to form a clamping ring (2), a limiting rope (5) is connected to one end, connected with the base (11), of each arc-shaped clamping rod (21), and an elastic extrusion cylinder (51) is sleeved on each limiting rope (5); one end of the arc-shaped clamping rod (21) far away from the base (11) is slidably provided with a limiting cylinder (4), the limiting cylinder (4) is vertically arranged, and the limiting cylinder (4) is arranged in a penetrating way on two limiting ropes (5).

2. An orthosis production line according to claim 1, wherein: arc supporting rod (21) keep away from the one end fixed mounting of base (11) have spacing arc (31), spacing arc (31) on two arc supporting rod (21) can splice and fixed connection forms spacing ring (3), the vertical setting of axis of spacing ring (3), spacing section of thick bamboo (4) are worn to establish in spacing ring (3), it establishes logical groove (42) to have seted up to inlay on the lateral wall of spacing section of thick bamboo (4), the both ends that spacing led to the groove are connected with the both ends of spacing section of thick bamboo (4) respectively, spacing rope (5) can be passed and established and establish logical groove (42) and inlay and establish in spacing section of thick bamboo (4).

3. An orthosis production line according to claim 2, wherein: the both ends department of spacing arc (31) all fixed stopper (32) of being provided with, stopper (32) on two spacing arcs (31) that laminate each other and form spacing ring (3) butt each other, fixed mounting has gag lever post (41) on the lateral wall of a spacing section of thick bamboo (4), the upper end and the spacing section of thick bamboo (4) fixed connection of gag lever post (41), and there is the space at the interval between gag lever post (41) and the spacing section of thick bamboo (4), fixed being provided with two sets of gag lever posts (41) on the lateral wall of a spacing section of thick bamboo (4), every gag lever post (41) of group all includes two gag lever posts (41), when spacing section of thick bamboo (4) is worn to establish in spacing ring (3), stopper (32) of two spacing arcs (31) with the one end are fixed to same group gag lever post (41) centre gripping.

4. A production line of orthoses according to claim 3, characterized in that: the cutting machine is characterized in that a cutting through groove (12) is formed in the base (11), the top surface of the cutting through groove (12) is coplanar with the top surface of the base (11), the axis of the cutting through groove (12) is horizontally arranged, the arc-shaped clamping rods (21) are respectively positioned on two sides of the cutting through groove (12), cutting wheels (61) are rotatably mounted in the cutting through groove (12), one cutting wheel (61) is respectively arranged at the upper end of the inner side surface of the cutting through groove (12), the rotating axis of each cutting wheel (61) is vertically arranged, the cutting wheels (61) are in a ratchet shape, the two cutting wheels (61) are mutually meshed, a pawl (62) and an elastic piece used for pushing the pawl (62) and abutting against the cutting wheels (61) are rotatably mounted on the base (11), the rotating directions of the two cutting wheels (61) abutting against the pawl (62) are opposite, each cutting wheel (61) comprises at least eight curved unit teeth (63), the unit teeth (63) comprise long sides and short sides, and the long sides of the unit teeth (63) are arranged to be knife-edge-shaped.

5. An orthosis production line according to claim 4, wherein: pawl (62) buckle into the arc, the side of pawl (62) and the laminating of the long side of unit tooth (63) is binding face, has seted up spacing groove (64) on the binding face of pawl (62), the long side of unit tooth (63) can inlay and establish in spacing groove (64).

6. An orthosis production line according to claim 5, wherein: the cross section of the limiting groove (64) is the same as that of the long side of the unit tooth (63).

7. An orthosis production line according to claim 6, wherein: and abrasive paper is adhered to the inner side wall of the limiting groove (64).

8. A process for producing an orthotic device, comprising the steps of:

s1, manufacturing a female die, and manufacturing a gypsum female die by using gypsum;

s2, manufacturing a positive membrane, manufacturing a plaster mold by using plaster, and installing an exhaust pipe on the plaster mold;

s3, softening the section, and heating and softening the section;

s4, shaping and coating, and wrapping the softened section bar with a gypsum mould;

s5, air extraction and shaping, wherein the section is tightly attached to the gypsum mold through a shaping device (1), and then air between the gypsum mold and the section is extracted through an air extraction pump;

s6, cooling and cutting, namely cutting and taking down the cooled section from the plaster mold;

s7, polishing, namely polishing and burnishing the section;

s8, drilling holes, and forming mounting holes and air holes in the section bar;

s9, assembling accessories, and mounting a connecting mechanism and cloth on the section bar;

and S10, checking the product and detecting the product.

Technical Field

The invention relates to the technical field of orthosis production, in particular to a production process and a production line of an orthosis.

Background

Orthotics are a generic term for in vitro instruments to be fitted to limbs, trunk, etc. of a human body, and are intended to prevent or correct deformities of limbs, trunk, or treat osteoarticular and neuromuscular diseases and compensate for their functions.

When the existing orthotics are produced, a section is heated to soften the section and shape the section, then the section is cooled and shaped, and then fine processing is carried out. In the in-process of processing, in order to make the section bar accomplish the back at the design, the human gypsum mould of human body of better laminating itself needs to be made earlier, later with the section bar cladding on the gypsum mould to seal up the gypsum mould through the section bar, then take out the air between section bar and the gypsum mould through the aspiration pump, thereby make the fine laminating of section bar on the gypsum mould. At present, when the section bar is processed, workers often wear gloves to extrude the section bar by hands because the shape of limbs of the human body is irregular. However, when the profile is softened, the temperature is high, and workers can feel hot after extruding the profile for a long time, so that the workers are easily injured.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a production process of an orthosis, and the invention aims to provide a production line of the orthosis. It can protect the worker, makes the worker be difficult for being scalded in the processing.

The first invention purpose of the invention is realized by the following technical scheme:

the production line of the orthotics comprises a heating module, a shaping module, a cutting and polishing module, a decoration module and a detection module which are sequentially arranged, wherein the shaping module comprises a shaping device, the shaping device comprises a base, the upper end of the base is hinged with two arc-shaped clamping rods, the rotating axes of the two arc-shaped clamping rods are horizontally arranged and are parallel to each other, the arc-shaped clamping rods can rotate and are spliced to form a clamping ring, one end of each arc-shaped clamping rod, which is connected with the base, is connected with a limiting rope, and an elastic extrusion cylinder is sleeved on the limiting rope; the one end slidable mounting that the base was kept away from to arc supporting rod has a spacing section of thick bamboo, and the vertical setting of a spacing section of thick bamboo, two spacing ropes are all worn to establish a spacing section of thick bamboo.

Through adopting above-mentioned technical scheme, heating module is the oven, and its mainly used heats the section bar, makes its softening be convenient for moulding. The shaping module is mainly used for cooling and shaping the softened section bar to form a structure fitting the human body. Then through cutting the module of polishing, cut and polish to the section bar, install part and inside lining after that, detect at last and can use. Through being provided with setting device, the workman can make the amalgamation of arc supporting rod form the grip ring through rotating the arc supporting rod, later wears to establish spacing section of thick bamboo with spacing rope. Wear to establish into the grip ring with the one end of gypsum mould when using, and be located between two spacing ropes, the workman promotes spacing section of thick bamboo towards one side of base while pulling spacing rope. Under the effect of spacing rope and spacing section of thick bamboo, the elastic extrusion section of thick bamboo on the spacing rope can make the inseparable laminating gypsum mould of section bar, is difficult for leaving the space between section bar and the gypsum mould. By the structure, workers do not need to extrude the section by hands, the workers are protected, and the workers are not easy to scald during processing. Which can be used for conveniently processing the plaster moulds with the shapes of the limbs of the human body.

The present invention in a preferred example may be further configured to: the one end fixed mounting that the base was kept away from to the arc supporting rod have spacing arc, spacing arc on two arc supporting rods can amalgamate and fixed connection forms the spacing ring, the vertical setting of axis of spacing ring, spacing section of thick bamboo is worn to establish in spacing ring, has seted up on the lateral wall of spacing section of thick bamboo and has inlayed and establish logical groove, the both ends of spacing logical groove are connected with the both ends of spacing section of thick bamboo respectively, spacing rope can wear to establish to inlay and establish logical groove and inlay and establish in spacing section of thick bamboo.

Through adopting above-mentioned technical scheme, after the arc supporting rod rotates to the position that makes spacing arc amalgamation form the grip ring, spacing arc fixed connection on two arc supporting rods forms the spacing ring, wears to establish spacing section of thick bamboo in the spacing ring, and is more convenient when installing and taking off spacing section of thick bamboo. And the side wall of the limiting cylinder is provided with an embedded through groove, so that a worker can conveniently wear the limiting rope in the limiting cylinder. When workers add the gypsum mold, the two arc-shaped clamping rods are rotated to the position where the clamping rings are formed in a splicing mode, the gypsum mold is sleeved in the clamping rings, then the limiting ropes are embedded in the limiting cylinders, the limiting cylinders are arranged in the limiting rings in a penetrating mode, and the sectional materials can be extruded and shaped. After the processing is finished, the limiting cylinder is pulled out from the limiting ring, and the two arc-shaped clamping rods are opened to separate the arc-shaped clamping rods from the gypsum mold. And then, the next processing can be carried out, the installation and preparation time is short during the processing, and the use by workers is convenient.

The present invention in a preferred example may be further configured to: the both ends department of spacing arc all fixed stopper that is provided with, the stopper mutual butt on two spacing arcs of laminating formation spacing ring each other, fixed mounting has the gag lever post on the lateral wall of a spacing section of thick bamboo, the upper end and a spacing section of thick bamboo fixed connection of gag lever post, and there is the space at the interval between gag lever post and the spacing section of thick bamboo, the fixed two sets of gag lever posts that are provided with on the lateral wall of a spacing section of thick bamboo, every group gag lever post all includes two gag lever posts, when a spacing section of thick bamboo was worn to establish in the spacing ring, the stopper of two spacing arcs with the one end is fixed in the same group gag lever.

Through adopting above-mentioned technical scheme, after two spacing arcs amalgamate each other and form the grip ring, the workman can wear to establish into the grip ring with spacing section of thick bamboo from top to bottom to two gag lever posts that make spacing section of thick bamboo side wall mounting grasp the stopper respectively. Because there is the space between gag lever post and the spacing section of thick bamboo, the grip ring can wear to establish between gag lever post and the spacing section of thick bamboo. Under the centre gripping of gag lever post, the structure of two spacing arcs remains stable, when workman pulling spacing rope and the spacing section of thick bamboo of promotion downwards, the amalgamation that two arc supporting rods can be stable forms the circularity, its simple structure, and the workman of just being convenient for extrudees the section bar, and it is more convenient to use.

The present invention in a preferred example may be further configured to: the base on be provided with the cutting and lead to the groove, the top surface that the groove was led to in the cutting and the top surface coplane of base, and the axis level that the groove was led to in the cutting sets up, arc supporting rod is located the both sides that the groove was led to in the cutting respectively, the cutting wheel is installed to the inslot internal rotation of cutting, the cutting wheel respectively is provided with one in the upper end department that the inslot medial surface was led to in the cutting, the vertical setting of rotation axis of cutting wheel, the cutting wheel is ratchet form, and two cutting wheel intermeshing, rotate on the base and install the pawl and be used for promoting the pawl and with the elastic component of cutting wheel butt, opposite with the rotation direction of two cutting wheels of pawl butt, the cutting wheel includes that eight at least bends is curved unit teeth, the unit tooth includes long side and.

Through adopting above-mentioned technical scheme, because when cutting the section bar, the area of section bar often needs to be greater than gypsum mould surface area to can wrap up the gypsum mould. Therefore, after the section bar is extruded and attached to the gypsum mold, a circle of sheet of the section bar protrudes, and the section bar needs to be cut manually by a worker. Through being provided with the cutting logical groove, can be with the section bar laminating back that finishes, place the unnecessary part of section bar in the cutting logical groove. When the worker moves the shaping device from one end of the gypsum mold to the other end of the gypsum mold, the cutting wheel arranged in the cutting through groove rotates in a single direction under the limitation of the pawl because the cutting wheel is a ratchet wheel. The long side edges of the unit teeth on the cutting wheel are arranged in a knife edge shape, and the short side edges have certain thickness. When the shaping device moves and the ratchet wheel can rotate, the ratchet wheel is meshed with the profile and rotates relative to the profile, and one end of the unit tooth, which is far away from the center of the cutting wheel, can extrude a row of concave points on the redundant part of the profile; when the shaping device moves reversely and the ratchet wheel cannot rotate, the long side edges of the unit teeth can cut the redundant part of the section bar along the concave points. When a worker smooths out the section bar through the limiting rope, the shaping device is moved forwards to fix the edge of the section bar, and then the section bar is moved backwards to cut. The use is very convenient, and the time spent on shaping the section is effectively saved.

The present invention in a preferred example may be further configured to: the pawl bend into the arc, the pawl is the binding face with the side of the long side laminating of unit tooth, has seted up the spacing groove on the binding face of pawl, the long side of unit tooth can inlay and establish at the spacing inslot.

Through adopting above-mentioned technical scheme, seted up the spacing groove on the binding face of pawl, make the cutting wheel when rotating, the edge of a knife of unit tooth length side passes from the spacing inslot, and the laminating cutting wheel that the pawl can be fine has improved the life of unit tooth length side in the cutting wheel.

The present invention in a preferred example may be further configured to: the cross section of the limiting groove is the same as that of the long side of the unit tooth in size.

Through adopting above-mentioned technical scheme, after the unit tooth passed from the spacing inslot, can wipe off long side because the adhered piece of shearing section bar, be convenient for carry out subsequent cutting.

The present invention in a preferred example may be further configured to: and abrasive paper is adhered to the inner side wall of the limiting groove.

Through adopting above-mentioned technical scheme, establish abrasive paper through pasting on the inside wall at the spacing groove, can polish the long side of the unit tooth that passes the spacing groove. The cutting wheel is more convenient to use, and the maintenance frequency of the cutting wheel is reduced.

The second invention purpose of the invention is realized by the following technical scheme:

s1, manufacturing a female die, and coating the body part of the patient with gypsum to manufacture a gypsum female die of the body part of the patient;

s2, manufacturing a male mold, filling gypsum into the gypsum female mold, cutting the gypsum female mold to manufacture a gypsum mold, and mounting an exhaust pipe on the gypsum mold;

s3, softening the section, and heating and softening the section in an oven;

s4, shaping and coating, taking out the softened section and placing the section on a gypsum mold, and pinching the corners of the section to enable the section to completely wrap the gypsum mold;

s5, air extraction and shaping, wherein the section is tightly attached to the gypsum mold through a shaping device, then an air extraction pipe is connected with an air extraction pump, air between the gypsum mold and the section is extracted through the air extraction pump, so that the section is tightly attached to the gypsum mold, and finally, redundant sections are cut off;

s6, cooling and cutting, wherein after the section bar is cooled, the section bar on the plaster mold is cut and taken down;

s7, polishing, namely trimming, polishing and polishing the section;

s8, drilling holes, and forming mounting holes and air holes in the section bar;

s9, assembling accessories, and mounting a connecting mechanism and cloth on the section bar;

and S10, checking the product and detecting the product.

Through adopting above-mentioned technical scheme, it extrudees the section bar through being provided with setting device, makes the more inseparable laminating of section bar on the gypsum mould, can reduce aspiration pump operating time, has improved process velocity and efficiency.

In summary, the invention includes at least one of the following beneficial technical effects:

1. the device can protect workers and prevent the workers from being scalded during processing;

2. the structure is simple and the use is convenient.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

FIG. 2 is a schematic structural view of the cutting wheel with a portion of the base hidden.

Fig. 3 is a schematic view of the structure of the unit teeth and pawls.

Fig. 4 is a flow chart of the production of the orthosis.

In the figure, 1, a shaping device; 11. a base; 12. cutting a through groove; 2. a clamp ring; 21. an arc-shaped clamping rod; 3. a limiting ring; 31. a limiting arc plate; 32. a limiting block; 4. a limiting cylinder; 41. a limiting rod; 42. a through groove is embedded; 5. a limiting rope; 51. an elastic extrusion cylinder; 6. mounting grooves; 61. a cutting wheel; 62. a pawl; 63. unit teeth; 64. a limiting groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the production line for orthotics disclosed by the invention comprises a heating module, a shaping module, a cutting and polishing module, a decoration module and a detection module which are sequentially arranged. Wherein the heating module includes the oven, and the stock module includes gypsum mould and vacuum pump, and fixed mounting has the exhaust tube on the gypsum mould, and the one end of exhaust tube is buried underground in the gypsum mould. One end of the vacuum pump is connected with one end of the exhaust pipe far away from the plaster mold. The cutting and grinding module comprises a grinding machine and a polishing machine. The decoration module is manually installed with the connector and the lining cloth by a worker. The shaping module further comprises a shaping device 1, the shaping device 1 comprises a base 11, and a cutting through groove 12 is formed in the side face of the base 11. Two arc-shaped clamping rods 21 are arranged on the top surface of the base 11, and one arc-shaped clamping rod 21 is arranged on each of two sides of the cutting through groove 12. One end of each arc-shaped clamping rod 21 is hinged to the top surface of the base 11, and the rotating shafts of the two arc-shaped clamping rods 21 are horizontally arranged and are all parallel to the axis of the cutting through groove 12. The two arc-shaped clamping rods 21 can rotate to enable one ends of the arc-shaped clamping rods 21 far away from the base 11 to be attached to each other, so that the clamping ring 2 is formed. One end of the arc-shaped clamping rods 21 far away from the base 11 is welded with a limiting arc-shaped plate 31, and when one ends of the arc-shaped clamping rods 21 far away from the base 11 are mutually attached, the limiting arc-shaped plates 31 on the two arc-shaped clamping rods 21 can be mutually spliced to form a limiting ring 3. The axis of the spacing ring 3 is arranged vertically.

Referring to fig. 1 and 2, the two ends of the limiting arc-shaped plates 31 are both fixedly provided with limiting blocks 32, and when the two limiting arc-shaped plates 31 are mutually attached, the limiting blocks 32 at the two ends of the limiting arc-shaped plates 31 are also abutted together. A limiting cylinder 4 is arranged in the limiting ring 3 in a penetrating way, and the outer diameter of the limiting cylinder 4 is equal to the inner diameter of the limiting ring 3. The outer side wall of the limiting cylinder 4 is fixedly provided with a limiting rod 41, the limiting rod 41 is parallel to the axis of the limiting cylinder 4, a gap is formed between the limiting rod 41 and the limiting cylinder 4, and the upper end of the limiting rod 41 is fixedly connected with the limiting cylinder 4. Two sets of limiting rods 41 are fixedly mounted on the outer side wall of the limiting barrel 4, and the two sets of limiting rods 41 are respectively positioned on two sides of the limiting barrel 4. Each set of the limiting rods 41 comprises two limiting rods 41, and a gap is formed between the two limiting rods 41 in the same set. When the limiting cylinder 4 is arranged in the limiting ring 3 in a penetrating manner, the two limiting rods 41 in the same group can well clamp the two limiting blocks 32 at the same end of the limiting arc plate 31, so that the two limiting blocks 32 are tightly attached. The end of the arc-shaped clamping rod 21 connected with the base 11 is connected with a limiting rope 5, and a plurality of elastic extrusion cylinders 51 made of rubber are sleeved on the limiting rope 5. The other end of the limiting rope 5 penetrates through the limiting cylinder 4 from bottom to top. The side wall of the limiting cylinder 4 is provided with an embedded through groove 42, two ends of the embedded through groove 42 are respectively connected with two ends of the limiting cylinder 4, and the embedded through groove 42 is positioned between the two groups of limiting rods 41.

Referring to fig. 2 and 3, mounting grooves 6 are provided at the upper ends of the inner side walls of the through grooves 12, and the mounting grooves 6 are provided one on each of the inner side walls of the through grooves 12. All rotate in mounting groove 6 and install a cutting wheel 61, cutting wheel 61 respectively is provided with one on the inside wall that the groove 12 was led to in the cutting, and cutting wheel 61 is located the upper end department that the groove 12 was led to in the cutting. The axis of rotation of cutting wheel 61 is vertical, and cutting wheel 61 is ratchet form, and two cutting wheels 61 intermeshing. The mounting groove 6 is internally and fixedly provided with a vertical mounting column, the mounting column is hinged with a pawl 62, an elastic part is mounted on the mounting column, the elastic part is a torsion spring, and one end of the torsion spring is connected with the pawl 62. The torsion spring pushes the pawl 62 to make the pawl 62 abut against the cutting wheel 61, so that the cutting wheel 61 can only rotate in one direction, and the rotation directions of the two cutting wheels 61 are opposite. The cutter wheel 61 includes nine unit teeth 63, the unit teeth 63 include long sides and short sides, and the long sides of the unit teeth 63 are arranged in a knife-edge shape. The pawl 62 is bent in an arc shape and the pawl 62 can be closely fitted with the long side of the unit tooth 63. A limit groove 64 is formed in the side face, attached to the long side of the unit tooth 63, of the pawl 62, the cross section of the limit groove 64 is triangular and is the same as the cross section of the long side of the unit tooth 63, and abrasive paper is attached to the inner side wall of the limit groove 64. When the cutting wheel 61 rotates, the long side edges of the unit teeth 63 of the cutting wheel 61 are embedded in the limiting groove 64, and then one end, far away from the mounting column, of the limiting groove 64 slides out.

Referring to fig. 1 and 4, a process for producing an orthosis includes the steps of:

s1, manufacturing a female die, and coating the body part of the patient with gypsum to manufacture a gypsum female die of the body part of the patient;

s2, manufacturing a male mold, filling gypsum into the gypsum female mold, cutting the gypsum female mold to manufacture a gypsum mold, and mounting an exhaust pipe on the gypsum mold;

s3, softening the section, and heating and softening the section in an oven;

s4, shaping and coating, taking out the softened section and placing the section on a gypsum mold, and pinching the corners of the section to enable the section to completely wrap the gypsum mold;

s5, air extraction and shaping, wherein the section is tightly attached to the gypsum mold through the shaping device 1, then the air extraction pipe is connected with an air extraction pump, air between the gypsum mold and the section is extracted through the air extraction pump, so that the section is tightly attached to the gypsum mold, and finally, redundant sections are cut off;

s6, cooling and cutting, wherein after the section bar is cooled, the section bar on the plaster mold is cut and taken down;

s7, polishing, namely trimming, polishing and polishing the section;

s8, drilling holes, and forming mounting holes and air holes in the section bar;

s9, assembling accessories, and mounting a connecting mechanism and cloth on the section bar;

and S10, checking the product and detecting the product.

Through being provided with setting device 1, the workman can make the amalgamation of arc supporting rod 21 form grip ring 2 through rotating arc supporting rod 21, later install spacing section of thick bamboo 4 in spacing ring 3. Under the limit of the limiting rod 41, the limiting blocks 32 at the two ends of the limiting arc plate 31 are attached together, so that the arc clamping rods 21 are spliced together. Install spacing section of thick bamboo 4 at spacing ring 3 embedded, the workman wears to establish in spacing section of thick bamboo 4 through inlaying the logical groove 42 with spacing rope 5 earlier. Wear to establish into grip ring 2 through the one end with the gypsum mould in, and be located between two spacing ropes 5, later the workman promotes spacing section of thick bamboo 4 towards one side of base 11 while pulling spacing rope 5. Under the effect of spacing rope 5 and spacing section of thick bamboo 4, the lateral wall of laminating gypsum mould that spacing rope 5 can be inseparable to under the extrusion of elastic extrusion cylinder 51, make the inseparable laminating gypsum mould of section bar, be difficult for leaving the space between section bar and the gypsum mould, the laminating is inseparabler. The profile extrusion machine enables workers to extrude the profile without hands, protects the workers and enables the workers not to be easily scalded during processing. When the gypsum mould is the shape of human four limbs, this setting device 1 can make the inseparabler laminating of section bar on the gypsum mould, can reduce aspiration pump operating time, has improved process velocity and efficiency. When the shaping device 1 moves and the ratchet wheel can rotate, the ratchet wheel is meshed with the section bar and rotates relative to the section bar, and one end of the unit tooth 63, which is far away from the center of the cutting wheel 61, can extrude a row of concave points on the redundant part of the section bar; when the shape fixing device 1 moves reversely and the ratchet wheel cannot rotate, the long side edges of the unit teeth 63 can cut the redundant part of the section bar along the concave points. When a worker smooths out the section bar through the limiting rope 5, the shaping device 1 is moved forwards to fix the edge of the section bar, and then the section bar is moved backwards to cut. The use is very convenient, and the time spent on shaping the section is effectively saved.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.