CN110757827A

CN110757827A - Medical shell forming equipment

Info

Publication number: CN110757827A
Application number: CN201911122513.9A
Authority: CN
Inventors: 段平泉; 邓美姣
Original assignee: Shenzhen Jiaxin Yifan Technology Co Ltd
Current assignee: Shenzhen Jiaxin Yifan Technology Co Ltd
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2020-02-07

Abstract

The invention discloses medical shell forming equipment, and relates to the technical field of medical shell processing, in particular to a horizontal plate, a plate and a top plate, wherein supporting foot plates are fixed on two sides of a long side below the horizontal plate, a forming template is horizontally inserted into the middle of the upper surface of the horizontal plate, base grooves are embedded into the forming template along the long side direction at equal intervals, hydraulic cylinders are connected to the bottom ends of hydraulic rods, a bearing box is fixed in the middle of the lower surface of the horizontal plate, the plate is supported at the top end of the hydraulic rods, pneumatic support rods are vertically arranged at four corners of the upper surface of the horizontal plate, and the top plate is welded to the tops of the pneumatic support rods. This medical shell former annotates the mould and makes equipment, cuts off, punches, processing equipment such as grinding and plate equipment of bending carry out structure integration for this medical shell former can one step put in place, accomplishes production and diversified processing operation to panel, has greatly saved process time.

Description

Medical shell forming equipment

Technical Field

The invention relates to the technical field of medical shell processing, in particular to medical shell forming equipment.

Background

The medical equipment refers to instruments, equipment, appliances, materials or other articles which are used for a human body independently or in combination, and also comprises required software, the medical equipment is the most basic element of medical treatment, scientific research, teaching, institutions and clinical discipline work, namely comprises professional medical equipment and household medical equipment, and further exemplifies that a CT machine, an X-ray machine, various therapeutic instruments and the like belong to the medical equipment.

In terms of the preparation of medical equipment, the most common method is the processing and manufacturing of equipment shells, the general medical equipment shells are made of metal (such as steel) or rigid plastics, and the like, and because some medical equipment are huge in size, the shells are difficult to be formed at one time by using a mould, so that a plurality of plate pieces are needed, and the plate pieces are sequentially spliced and assembled in a flow line mode.

Just because current assembly line processing makes medical equipment shell course of working time long, the cycle is long, consumes material resources, also comparatively consumes the manpower, and adds man-power to equipment shell, and add the process necessarily through concatenation equipment behind the system plate earlier, and production efficiency is low, and the centre still needs to add quality management and control personnel, has lengthened production time, has caused more troublesome for the forming process of equipment.

Disclosure of Invention

In view of the deficiencies of the prior art, the present invention provides a medical shell molding apparatus that solves the problems set forth in the background above.

In order to achieve the purpose, the invention is realized by the following technical scheme: a medical shell forming device comprises a horizontal plate, a plate and a top plate, wherein supporting foot plates are fixed on two sides of a long edge below the horizontal plate, extension plates are welded on short edges of two sides of the horizontal plate, a forming template is horizontally inserted into the middle of the upper surface of the horizontal plate, a forming plate is vertically inserted into one side of the upper surface of the horizontal plate, a base groove is embedded into the plate of the forming template at equal intervals along the long edge direction, hydraulic rods penetrate through the base groove at equal intervals along the transverse direction, the bottom ends of the hydraulic rods are connected with hydraulic cylinders, a bearing box is fixed in the middle of the lower surface of the horizontal plate, the hydraulic cylinders are arranged in the bearing box, the plate is supported at the top end of the hydraulic rods, pneumatic support rods are vertically installed on four corners of the upper surface of the horizontal plate, compressed gas inlet pipes are connected to the bottoms of the pneumatic support rods, the top plate is welded at the tops of the pneumatic support rods, the movable plate is characterized in that movable grooves are formed in the inner plate of the top plate at equal intervals along the direction of the short edge, screw rods are arranged in the movable grooves, the end portions of the screw rods are connected with displacement motors, movable blocks are sleeved on the outer portions of the screw rods, processing motors are fixed to the lower ends of the movable blocks, and tool holders are connected to the lower portions of the processing motors.

Optionally, the outer wall of the drawing side of the forming template is provided with injection ports at equal intervals, the inside of the forming template and the base groove are provided with cavities in a staggered manner, and the upper surface of each cavity is provided with a material seeping screen plate.

Optionally, the rotary disk is installed on the top of hydraulic stem, and the top of rotary disk is provided with the saddle, the saddle is inside to be hollow structure, and the outer wall of saddle has run through the hole of taking out air.

Optionally, a suction cup is fixed at the top end of the supporting table, and a suction port is uniformly penetrated through a concave part in the middle of the upper disc surface of the suction cup.

Optionally, the last face four corners of extending the board all is connected with the gas pole perpendicularly, and the outer wall all runs through all around of extending the board has the air inlet, the inside cavity of extending the board, and the air inlet all is linked together with the gas pole through the inside cavity of extending the board.

Optionally, every four of the gas rods are set as a group, a support plate is welded above each group of the gas rods, and the support plates are respectively lifted below the displacement motor.

Optionally, a through hole penetrates through the plate of the moving block in the transverse direction, and the size of the through hole is matched with that of the screw rod.

Optionally, a vertical plate is vertically fixed to the other side of the upper plate surface of the horizontal plate, an air blower is uniformly installed on the rear plate surface of the vertical plate, a mesh enclosure is uniformly arranged on the front plate surface of the vertical plate, and the mesh enclosure and the air blower are in one-to-one correspondence in position.

Optionally, the position that two inboard long avris of roof are close to the edge all runs through to insert and joins in marriage the groove, and inserts the equal vertical picture peg that has inserted in inside in groove, the vertical groove of having seted up of inside of picture peg, and the vertical hydraulic thin pole that has run through in inside that just pierces through the groove, hydraulic pressure row's jar is installed at the top of hydraulic thin pole, and pierces through groove, hydraulic thin pole and hydraulic pressure row's jar and all correspond and be provided with two.

Optionally, the bottom of the hydraulic slender rod is respectively fixed with a pressing plate and a bending plate, the pressing plate is arranged on the inner side close to the vertical central line of the top plate, the bottom end of the bending plate is bent with a bending edge, the bending edge faces the vertical central line direction of the top plate, and the bending edge and the bending plate are perpendicular to each other.

The invention provides medical shell forming equipment, which has the following beneficial effects:

1. this medical shell former annotates the mould and makes equipment, cuts off, punches, processing equipment such as grinding and plate equipment of bending carry out structure integration for this medical shell former can one step target in place, accomplishes the production and the diversified processing operation to panel, has greatly saved process time, has shortened processing route and processing cycle, has improved machining efficiency, has saved manpower and material resources, makes the process of equipment shell when production more succinct, easily control.

2. This medical treatment shell former, the forming die board makes up into the forming die of a whole preparation plate with the shaping board, injects the material through the sprue to the cavity in the forming die board for the material is by from last down, slowly infiltrates in foretell mould die cavity from the mesh structure of oozing material otter board, makes the final fashioned plate bubble few in it, and the texture is even.

3. This medical treatment shell former, it is rotatory through rotary disk control saddle, the eye of bleeding of seting up on the saddle is all in negative pressure state on connecting trachea to air exhaust equipment, utilizes the action of bleeding, reduces saddle inner chamber atmospheric pressure alright make the sucking port that the quotation was seted up on the sucking disc, so alright firmly hold the plate of placing above that, simultaneously when the plate shaping back, do also through aerifing to the eye of bleeding, utilize air flow thrust for the fashioned plate of just having formed can break away from the sucking disc.

4. This medical treatment shell former, movable block can be along with the rotation of screw rod and the shift position, so just can adjust the position of installing the cutter on the blade holder, can install different processing cutters according to the processing needs of reality in the blade holder, and the blade holder passes through the processing motor and drives rotatoryly, so can drive the cutter of installing on it and carry out the rotation cutting to can cut off, punch, processing such as grinding to the plate.

5. This medical treatment shell former, the air-blower that sets up on the riser both can cool off the plate after the injection molding processing, orders about its rapid prototyping, also can cut off, punch, add man-hour such as grinding to the plate, blow off the smear metal on the plate, and the screen panel has avoided the air-blower to blow off dust or batting etc. that get into it and has influenced processing or influence the product quality of plate.

6. This medical shell former, the picture peg mainly used bends the plate, hydraulic pressure is arranged the jar and is carried out hydraulic telescoping control to hydraulic pressure slender rod, when bending to the plate, compress tightly the one side of plate earlier with the pressure strip, then will bend the board and lift, the limit of bending of the board bottom is because of the hook catches the plate, consequently under the motionless prerequisite of pressure strip, lift on the board of bending, can upwards buckle the part of plate by the hook, the angle of specifically buckling is decided by the length that shifts up of the board of bending.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure above the horizontal plate according to the present invention;

FIG. 3 is a schematic view of the hydraulic rod mounting structure of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of a tool holder mounting structure according to the present invention;

FIG. 6 is a schematic view of the bending plate structure of the present invention.

In the figure: 1. a foot supporting plate; 2. a horizontal plate; 3. an extension plate; 4. a carrying case; 5. forming a template; 501. a material injection port; 6. forming a plate; 7. a material seepage screen plate; 8. a base groove; 9. a hydraulic lever; 10. a hydraulic cylinder; 11. rotating the disc; 12. a saddle; 1201. air pumping holes; 13. a suction cup; 1301. a suction port; 14. a pneumatic stay bar; 1401. a compressed gas inlet pipe; 15. a gas lever; 1501. an air inlet; 16. a support plate; 17. a displacement motor; 18. a plate member; 19. a top plate; 1901. a moving groove; 1902. inserting and matching the grooves; 20. a screw; 21. a moving block; 2101. a through hole; 22. processing a motor; 23. a tool apron; 24. a vertical plate; 25. a blower; 2501. a mesh enclosure; 26. inserting plates; 2601. penetrating the groove; 27. a hydraulic pin; 28. hydraulic cylinders; 29. a compression plate; 30. bending the plate; 3001. and (6) bending edges.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, the present invention provides a technical solution: a medical shell forming device comprises a horizontal plate 2, a plate 18 and a top plate 19, wherein foot supporting plates 1 are fixed on two sides of a long side below the horizontal plate 2, extension plates 3 are welded on short sides of two sides of the horizontal plate 2, a forming template 5 is horizontally inserted into the middle of the upper surface of the horizontal plate 2, a forming plate 6 is vertically inserted into one side of the upper surface of the horizontal plate 2, base grooves 8 are embedded into the plate of the forming template 5 at equal intervals along the long side direction, hydraulic rods 9 penetrate through the inner part of each base groove 8 at equal intervals along the transverse direction, hydraulic cylinders 10 are connected to the bottom ends of the hydraulic rods 9, a bearing box 4 is fixed in the middle of the lower surface of the horizontal plate 2, the hydraulic cylinders 10 are arranged in the bearing box 4, and the plate 18 is supported at the top end of the hydraulic rod 9;

the outer wall of the drawing side of the forming template 5 is provided with injection ports 501 at equal intervals, cavities are arranged in the forming template 5 and the base groove 8 in a staggered mode, the upper surface of each cavity is provided with a material seepage screen plate 7, the forming template 5 and the forming plate 6 are combined into a whole forming die for preparing the plate 18, materials are injected into the cavities in the forming template 5 through the injection ports 501, the materials slowly permeate into the die cavity from the bottom to the top from the mesh structure of the material seepage screen plate 7, so that the finally formed plate 18 in the forming die has few bubbles and uniform texture, the top end of the hydraulic rod 9 is provided with a rotating disk 11, a supporting platform 12 is arranged above the rotating disk 11, the inside of the supporting platform 12 is of a hollow structure 1201, the outer wall of the supporting platform 12 penetrates through an air suction hole 1201, the rotating disk 11 is used for controlling the rotation of the supporting platform 12, the air suction hole arranged on the supporting platform 12, the air pressure in the inner cavity of the saddle 12 is reduced by air suction, the sucking disc 13 is fixed at the top end of the saddle 12, the suction ports 1301 are uniformly penetrated through the concave part in the middle of the upper disc surface of the sucking disc 13, the suction ports 1301 arranged on the upper disc surface of the sucking disc 13 can be in a negative pressure state by reducing the air pressure in the inner cavity of the saddle 12, so that the plate 18 placed on the sucking disc can be firmly sucked, and meanwhile, after the plate 18 is molded, the air can be inflated into the air suction holes 1201, and the just molded plate 18 can be separated from the sucking disc 13 by utilizing the thrust of airflow;

pneumatic support rods 14 are vertically arranged at four corners of the upper surface of the horizontal plate 2, the bottoms of the pneumatic support rods 14 are connected with compressed gas inlet pipes 1401, a top plate 19 is welded at the tops of the pneumatic support rods 14, the pneumatic support rods 14 are used for jacking the top plate 19, the four corners of the upper plate surface of the extension plate 3 are vertically connected with gas rods 15, the air inlets 1501 penetrate through the peripheral outer walls of the extension plates 3, the extension plates 3 are hollow, and the air inlets 1501 are communicated with the air bars 15 through the inner cavities of the extension plates 3, every four air bars 15 are arranged into a group, and a support plate 16 is welded above each group of air bars 15, and the support plates 16 are respectively lifted below the shift motors 17, the gas lever 15 is used to jack up the support plates 16, so that the displacement motor 17 can be jacked up, the air rod 15 can carry the supporting plate 16 to move up and down, and the displacement motor 17 can move up and down and stably along with the top plate 19;

moving grooves 1901 are equidistantly formed in the plate of the top plate 19 along the short side direction, screw rods 20 are mounted inside the moving grooves 1901, the end portions of the screw rods 20 are connected with displacement motors 17, moving blocks 21 are sleeved outside the screw rods 20, processing motors 22 are fixed at the lower ends of the moving blocks 21, through holes 2101 transversely penetrate through the moving blocks 21, the through holes 2101 are matched with the screw rods 20 in size, a tool apron 23 is connected below the processing motors 22, the moving blocks 21 can move along with the rotation of the screw rods 20 by means of size matching between the through holes 2101 and the screw rods 20, the positions of tools mounted on the tool apron 23 can be adjusted, different processing tools can be mounted on the tool apron 23 according to actual processing requirements, the tool apron 23 is driven to rotate by the processing motors 22, so that tools mounted on the tool apron 23 can be driven to rotate for cutting, and the plate 18 can be cut off, Processing such as punching and grinding;

a vertical plate 24 is vertically fixed on the other side of the upper plate surface of the horizontal plate 2, blowers 25 are uniformly installed on the rear plate surface of the vertical plate 24, mesh enclosures 2501 are uniformly arranged on the front plate surface of the vertical plate 24, the mesh enclosures 2501 correspond to the blowers 25 in position one by one, the blowers 25 arranged on the vertical plate 24 can cool the plate 18 subjected to injection molding processing to drive the plate 18 to be rapidly molded, and can blow off chips on the plate 18 when the plate 18 is subjected to cutting, punching, grinding and other processing, so that the mesh enclosures 2501 prevent dust, lint and the like entering the plate 18 from being blown out by the blowers 25 to influence the processing or the product quality of the plate 18;

inserting and matching grooves 1902 are penetrated through the positions of two long side edges in the plate of the top plate 19 close to the edges, inserting plates 26 are vertically inserted into the inserting and matching grooves 1902, penetrating grooves 2601 are vertically arranged in the inserting plates 26, hydraulic thin rods 27 vertically penetrate through the penetrating grooves 2601, hydraulic arranging cylinders 28 are installed at the tops of the hydraulic thin rods 27, two penetrating grooves 2601, two hydraulic thin rods 27 and two hydraulic arranging cylinders 28 are correspondingly arranged, the inserting plates 26 are mainly used for bending the plate 18, the hydraulic arranging cylinders 28 respectively correspond to one row of hydraulic thin rods 27 and control the hydraulic telescopic movement of the liquid discharging thin rods 27, pressing plates 29 and bending plates 30 are respectively fixed at the bottoms of the hydraulic thin rods 27, the pressing plates 29 are arranged on the inner sides close to the vertical central line of the top plate 19, bending edges 3001 are bent at the bottom ends of the bending plates 30, the bending edges 3001 face the vertical central line direction of the top plate 19, and the bending edges 3001 are perpendicular to the bending plates 30, the pressure strip 29 is used for compressing tightly plate 18, the one end that the board 18 is used for hooking to the board 30 of bending, when bending to plate 18, utilize the thin pole 27 of hydraulic pressure to compress tightly one side of plate 18 earlier with the pressure strip 29, then contract with the thin pole 27 of hydraulic pressure that the board 30 links to each other of bending, the board 30 of will bending lifts, the limit 3001 of bending of the board 30 bottom of bending is because of hooking plate 18, consequently under the motionless prerequisite of pressure strip 29, lift on the board 30 of bending, can upwards buckle the part that the board 18 is hooked, the specific angle of buckling is decided by the length that shifts up of the board 30 of bending.

In summary, the medical shell molding apparatus can complete the injection molding of the plate member 18, which is specifically as follows: the material is injected into the cavity in the forming template 5 through the material injection port 501, so that the material slowly permeates into the die cavity formed by the forming template 5 and the forming plate 6 from the bottom to the top from the mesh structure of the material seepage screen plate 7, the finally formed plate 18 in the die cavity has few bubbles and uniform texture, in the process of cooling and forming the plate 18, the blower 25 on the vertical plate 24 is started to open the air volume to be proper (if the air is large, ripples may be formed on the surface of the unformed material), the plate 18 is formed by using the air cooling heat dissipation mode, after the plate is formed, the hydraulic cylinder 10 arranged in the bearing box 4 is started to drive the hydraulic rod 9 to extend, so as to hold up the plate 18, leave the die cavity, and connect an air pipe to an air extraction device by using the air extraction eye 1201, the air pressure in the inner cavity of the bearing table 12 is reduced by using the air extraction principle, so that the sucking disc 13 has the function of, thus, the plate 18 can be firmly fixed and erected to wait for processing;

the medical shell forming equipment can complete the processing of the plate 18, such as cutting, punching, grinding and the like, and the processing process comprises the following specific steps: according to actual processing requirements, different processing tools are installed in a tool apron 23, a processing motor 22 is started, the tool apron 23 rotates in a rotating mode and drives the tools to rotate together, when a hydraulic rod 9 extends and lifts a plate 18 to be in contact with the tools, the processing work can be completed by utilizing the rotating motion of the tools, in the processing process, the tools can move transversely to complete continuous processing actions, namely a shifting motor 17 is started to rotate a screw rod 20 so as to drive a moving block 21 to move, so that the tools can be driven to move together, meanwhile, the rotation control can be carried out at the position of a pallet 12 so as to drive the plate 18 to rotate, so that the processing can be carried out at other positions of the plate 18, namely, the rotating disk 11 is used for controlling the rotation of the pallet 12 so that the pallet 12 can firmly carry the plate 18 to rotate;

the medical shell forming equipment can also finish the bending processing of the plate 18, and the bending processing process is as follows: when bending the plate 18, utilize the thin pole 27 of hydraulic pressure to compress tightly the pressure strip 29 earlier on plate 18, then with the thin pole 27 shrink of hydraulic pressure that the board 30 links to each other of bending, the board 30 that will bend lifts up, the limit 3001 of bending of board 30 bottom is because of hooking plate 18, consequently under the motionless prerequisite of pressure strip 29, lift on the board 30 of bending, can upwards buckle the part that plate 18 was hooked, the specific angle of buckling is decided by the last length that shifts up of the board 30 of bending.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A medical shell molding apparatus comprising a horizontal plate (2), a plate member (18), and a top plate (19), characterized in that: the device is characterized in that foot supporting plates (1) are fixed on two sides of a long edge below the horizontal plate (2), extension plates (3) are welded on short edges of two sides of the horizontal plate (2), a forming template (5) is horizontally inserted into the middle of the upper surface of the horizontal plate (2), a forming plate (6) is vertically inserted into one side of the upper surface of the horizontal plate (2), base grooves (8) are embedded into the plate of the forming template (5) at equal intervals along the long edge direction, hydraulic rods (9) penetrate through the inner part of each base groove (8) at equal intervals along the transverse direction, hydraulic cylinders (10) are connected to the bottom ends of the hydraulic rods (9), a bearing box (4) is fixed in the middle of the lower surface of the horizontal plate (2), the hydraulic cylinders (10) are arranged in the bearing box (4), plates (18) are supported at the top ends of the hydraulic rods (9), pneumatic supporting rods (14) are vertically installed on four corners of the upper surface of the horizontal plate (2), and the bottom of pneumatic vaulting pole (14) all is connected with compressed gas and advances pipe (1401), roof (19) welding is at the top of pneumatic vaulting pole (14), shifting chute (1901) have been seted up along minor face direction equidistance in the inboard of roof (19), screw rod (20) are all installed to the inside of shifting chute (1901), and the tip of screw rod (20) all is connected with shift motor (17), movable block (21) have all been cup jointed to the outside of screw rod (20), and the lower extreme of movable block (21) is fixed with processing motor (22), the below of processing motor (22) is connected with blade holder (23).

2. The medical housing molding apparatus of claim 1, wherein: the side outer wall equidistance is provided with sprue (501) taking out of shaping template (5), and the inside of shaping template (5) is stagger form with basic groove (8) and is provided with the cavity to surface mounting has oozing material otter board (7) on the cavity.

3. The medical housing molding apparatus of claim 1, wherein: the rotary disc (11) is installed on the top of hydraulic stem (9), and the top of rotary disc (11) is provided with saddle (12), saddle (12) inside is hollow structure, and the outer wall of saddle (12) runs through and has gas extraction eye (1201).

4. A medical housing molding apparatus as claimed in claim 3, wherein: the top end of the saddle (12) is fixed with a sucker (13), and a suction port (1301) is uniformly penetrated through the middle concave part of the upper disc surface of the sucker (13).

5. The medical housing molding apparatus of claim 1, wherein: the gas pole (15) are all connected with perpendicularly in the last face four corners of extension board (3), and extend all run through air inlet (1501) of the outer wall all around of board (3), the inside cavity of extension board (3), and air inlet (1501) all are linked together with gas pole (15) through the inside cavity of extension board (3).

6. The medical shell molding apparatus of claim 5, wherein: every four of gas pole (15) are established to a set of, and the top of every group gas pole (15) all welds backup pad (16) to backup pad (16) lift respectively in the below of aversion motor (17).

7. The medical housing molding apparatus of claim 1, wherein: a through hole (2101) transversely penetrates through the plate of the moving block (21), and the through hole (2101) is matched with the screw rod (20) in size.

8. The medical housing molding apparatus of claim 1, wherein: the vertical plate (24) is vertically fixed to the other side of the upper plate surface of the horizontal plate (2), the air blowers (25) are uniformly installed on the rear plate surface of the vertical plate (24), mesh enclosures (2501) are uniformly arranged on the front plate surface of the vertical plate (24), and the mesh enclosures (2501) are in one-to-one correspondence with the air blowers (25).

9. The medical housing molding apparatus of claim 1, wherein: the position that two inboard long avris of roof (19) are close to the edge all runs through and has inserted joining in marriage groove (1902), and the inside of inserting joining in marriage groove (1902) is vertical to be inserted picture peg (26), the inside of picture peg (26) is vertical to be seted up and has been passed through groove (2601), and the inside vertical running through of passing through groove (2601) has hydraulic pin (27), hydraulic pressure row jar (28) are installed at the top of hydraulic pin (27), and pass through groove (2601), hydraulic pin (27) and hydraulic pressure row jar (28) and all correspond and be provided with two.

10. The medical housing molding apparatus of claim 9, wherein: the bottom of hydraulic pressure slender pole (27) is fixed with pressure strip (29) and board (30) of bending respectively, and pressure strip (29) set up the inboard near the vertical central line of roof (19), the bottom of board (30) of bending all buckles limit (3001), and just bends limit (3001) and all towards the vertical central line direction of roof (19) to bend limit (3001) and bend between board (30) mutually perpendicular.