CN120396262B - A molding device for processing anesthesia air storage bag - Google Patents

Abstract

The present invention belongs to the technical field of anesthesia air bag production, and specifically is a molding device for processing anesthesia air bag, comprising a workbench, a lower mold fixedly connected to one side of the upper end face of the workbench, an upper mold slidably connected to the upper end face of the lower mold, the lower mold and the upper mold cooperating to form a complete molding cavity, and a demolding assembly is also provided on the workbench; the demolding assembly includes a guide rail 1 slidably connected to both sides of the upper end face of the workbench, a guide rail 2 slidably connected to the inner side of the guide rail 1, and a displacement rack slidably connected to the inner side of the guide rail 2. The present invention utilizes the demolding assembly to remove the molded anesthesia air bag from the molding cavity by clamping the tail of the molded anesthesia air bag, and arranges multiple anesthesia air bags in a unified state in a collection container, thereby eliminating the process of workers demolding the anesthesia air bag, reducing the workers' labor intensity, and improving demolding efficiency.

Description

Forming device for processing anesthesia gas storage bag

Technical Field

The invention belongs to the technical field of anesthesia gas storage bag production, and particularly relates to a molding device for processing an anesthesia gas storage bag.

Background

The anesthesia air storage bag is a medical apparatus for respiration, anesthesia and first aid, and is mainly used for storing and conveying oxygen or anesthetic gas, so as to ensure the stability and safety of the respiratory system of a patient during operation.

The patent with the bulletin number of CN209007822U discloses an anesthesia air storage bag forming die, which comprises a connecting part, a bag neck part, a bag body part and a cylindrical head part, wherein the connecting part is integrally formed, an external connecting threaded hole is formed in the upper end face of the connecting part, the bag neck part is of a cylindrical structure, the bag body part comprises blades which are symmetrically arranged along two central bodies, semicircular grooves are formed between the two blades, the lower end of the bag body part is of the cylindrical head part, the connecting part is of a square head structure, a groove communicated with the groove of the bag body part is formed in the position, close to the bag body part, of the bag neck part, and the upper edge and the lower edge of the groove are in smooth transition with the circular arc of the bag neck part. According to the scheme, after the impregnated product is shaped and dried, the bag neck and the bag neck are separated from each other at the position of the groove due to the elasticity of the air storage bag, so that demolding is very convenient, and meanwhile, the formed rear bag neck is turned to the position of the groove, so that demolding can be performed by means of the hook-shaped auxiliary tool, the problem that the conventional whole cylindrical structure cannot be used for demolding is solved, the labor intensity of workers is further reduced, and meanwhile, the production efficiency is also improved.

However, the above technical solution has the following disadvantages in the practical application process:

After the anesthesia air storage bag is formed in the die cavity, the air bag is tightly attached to the inner wall of the die cavity due to cooling shrinkage of materials, so that personnel can not take the anesthesia air storage bag out of the die cavity conveniently, single-piece demolding time is prolonged, labor intensity is high, and demolding efficiency is affected. In addition, when the anesthesia gas storage bags are formed in batches, the collection container is generally utilized to uniformly collect the demoulded anesthesia gas storage bags so as to facilitate subsequent detection, assembly and other works, the anesthesia gas storage bags are possibly placed in the container in a messy state after being taken out from the die cavity, and because the anesthesia gas storage bags are soft, the anesthesia gas storage bags are extruded to cause irregular deformation, so that the state of each anesthesia gas storage bag is not uniform, and the follow-up detection, assembly and other works are not facilitated to be continuously carried out.

Disclosure of Invention

In order to overcome the defects in the prior art and solve at least one technical problem in the background art, the invention provides a forming device for processing an anesthetic gas storage bag.

The invention solves the technical problems by adopting the technical scheme that the forming device for processing the anesthesia gas storage bag comprises a workbench, wherein one side of the upper end surface of the workbench is fixedly connected with a lower die, the upper end surface of the lower die is connected with an upper die in a sliding manner, the lower die and the upper die are matched with each other to form a complete forming cavity, and a demoulding assembly is further arranged on the workbench;

the demolding assembly comprises a first guide rail which is connected to two sides of the upper end face of the workbench in a sliding mode, a second guide rail is connected to the inner side of the first guide rail in a sliding mode, a displacement frame is connected to the inner side of the second guide rail in a sliding mode, a turnover plate is arranged at the lower end of the displacement frame in a rotating mode, a third guide rail is connected to one side of the turnover plate in a sliding mode, a first finger cylinder is connected to one side of the third guide rail in a sliding mode, a third cylinder is connected to one side of the lower end of the turnover plate in a sliding mode, a fixing block is fixedly connected to the three piston end of the third cylinder, and a second finger cylinder is fixedly connected to one side of the fixing block.

Preferably, one side of the lower die is provided with an injection molding opening, the injection molding opening is communicated with a die cavity of the lower die, one side of the upper die is in threaded connection with a threaded rod five, one end of the threaded rod five is rotationally arranged on the lower die, one side of the lower die is fixedly connected with a motor eight, and the output end of the motor eight is fixedly connected with one end of the threaded rod five.

Preferably, one side of the lower end of the guide rail is in threaded connection with a threaded rod six, the two ends of the threaded rod six are all rotationally arranged on the workbench, one side of the upper end face of the workbench is fixedly connected with a motor ten, the output end of the motor ten is fixedly connected with one end of the threaded rod six, one end of the guide rail is in threaded connection with a threaded rod one, the two ends of the threaded rod one are all rotationally arranged on the guide rail one, one side of the upper end of the guide rail is fixedly connected with a motor one, and the output end of the motor one is fixedly connected with one end of the threaded rod one.

Preferably, the threaded rod IV is connected to the upper end of the displacement frame in a threaded manner, two ends of the threaded rod IV are rotatably arranged on the guide rail II, the motor seven is fixedly connected to one end of the inner side of the guide rail II, the output end of the motor seven is fixedly connected with one end of the threaded rod IV, the motor IV is fixedly connected to one side of the lower end of the displacement frame, and the output end of the motor IV is fixedly connected with one side of the overturning plate.

Preferably, the three end threaded connection of guide rail has the threaded rod III, the three both ends of threaded rod all rotate and set up on the upset board, upset board one end fixedly connected with motor five, motor five output and the three one end fixed connection of threaded rod.

Preferably, the workbench is also provided with a dustproof auxiliary component in the air storage bag;

The inside dustproof auxiliary assembly of gas storage bag includes the support body of fixed connection in workstation up end one side, support body one side both ends fixedly connected with slide bar, slide bar sliding connection has cylinder two, cylinder two piston end fixedly connected with installation piece, installation piece one side rotates and is provided with the suction head, workstation upper end one side fixedly connected with cylinder one, cylinder one piston end fixedly connected with frid, the equal sliding connection of frid spout department both sides have the clamping lever.

Preferably, the threaded rod II is connected to the second end of the air cylinder in a threaded manner, the two ends of the threaded rod II are rotatably arranged on the frame body, the motor II is fixedly connected to one side of the upper end of the frame body, the output end of the motor II is fixedly connected with one end of the threaded rod II, the motor III is fixedly connected to one side of the mounting block, and the output end of the motor III is fixedly connected with one side of the suction head.

Preferably, an exhaust fan is fixedly connected to one side of the upper end of the mounting block, a hose is communicated with the air inlet end of the exhaust fan, and one end of the hose is communicated with one side of the suction head.

Preferably, one end of the clamping rod is in threaded connection with a bidirectional threaded rod, two ends of the bidirectional threaded rod are all rotatably arranged on the groove plate, one end of the groove plate is fixedly connected with an eleventh motor, and an eleventh output end of the motor is fixedly connected with one end of the bidirectional threaded rod.

Preferably, a pressing rod is rotatably arranged on one side of the upper end of the fixing block, a motor nine is fixedly connected to one side of the upper end of the fixing block, an output end of the motor nine is fixedly connected with one end of the pressing rod, a threaded rod seven is connected to the upper end of the finger cylinder in a threaded manner, a motor six is fixedly connected to one end of the guide rail, and an output end of the motor six is fixedly connected with one end of the threaded rod seven.

The beneficial effects of the invention are as follows:

1. According to the forming device for processing the anesthesia gas storage bag, the demolding assembly is utilized, the anesthesia gas storage bag can be taken out of the forming cavity in a mode of clamping and forming the tail part of the anesthesia gas storage bag, and the anesthesia gas storage bags are arranged in the collecting container in a unified state, so that the process of demolding the anesthesia gas storage bags by workers is omitted, the labor intensity of the workers is reduced, and the demolding efficiency is high. In addition, as the plurality of the anesthetic gas storage bags after demolding are orderly arranged in the collecting container, the situation that the plurality of the anesthetic gas storage bags are messy stacked in the collecting container, so that the anesthetic gas storage bags deform due to extrusion and are not beneficial to follow-up detection, assembly and other work of the plurality of the anesthetic gas storage bags is avoided.

2. According to the forming device for processing the anesthesia gas storage bag, the dustproof auxiliary assembly in the gas storage bag is utilized, so that the anesthesia gas storage bag interface in the collecting container is in a blocking state, foreign matters such as external dust are prevented from entering the inner cavity of the anesthesia gas storage bag, cleanliness in the anesthesia gas storage bag is guaranteed, subsequent use is facilitated, and meanwhile accuracy of detection work such as subsequent air tightness is guaranteed. And after the anesthesia gas storage bag is placed in the collecting container, the compression bar rotates, so that the anesthesia gas storage bag is pressed by the compression bar, and the transverse movement of the first guide rail is matched to reduce wrinkles on the surface of the anesthesia gas storage bag, so that the anesthesia gas storage bag is further convenient to carry out subsequent detection and other works.

Drawings

The invention is further described below with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of a perspective structure of a lower die;

FIG. 3 is a schematic perspective view of a mounting block;

FIG. 4 shows two guide rails a schematic three-dimensional structure;

FIG. 5 is a schematic diagram of a perspective structure at a trough plate;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a schematic view of a three-dimensional structure at a frame;

FIG. 8 is a schematic diagram of a two-position three-dimensional structure of a finger cylinder;

FIG. 9 is a schematic view of a threaded rod in four perspective;

Fig. 10 is a schematic perspective view of the turnover plate.

In the drawing, a workbench, 2, a lower die, 3, a cylinder I, 4, a guide rail I, 5, a guide rail II, 6, a frame body, 7, a motor I, 8, a threaded rod I, 9, a guide rail III, 10, a displacement frame, 11, an upper die, 12, an injection port, 13, a motor II, 14, a threaded rod II, 15, a cylinder II, 16, a slide bar, 17, a mounting block, 18, a motor III, 19, an exhaust fan, 20, a hose, 21, a suction head, 22, a turnover plate, 23, a motor IV, 24, a motor V, 25, a threaded rod III, 26, a finger cylinder I, 27, a motor VI, 28, a motor V, 29, a threaded rod IV, 30, a motor V, 31, a threaded rod V, 32, a cylinder III, a fixed block, 34, a finger cylinder II, 35, a compression bar, 36, a motor V, 37, a motor V, 38, a clamping bar 39, a grooved plate, 40, a motor eleven, 41, a threaded rod VI, 42, seven, 43 and a bidirectional threaded rod.

Detailed Description

The following description of the embodiments of the present invention will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the invention provides a molding device for processing an anesthetic air bag, which comprises a workbench 1, wherein one side of the upper end surface of the workbench 1 is fixedly connected with a lower die 2, the upper end surface of the lower die 2 is slidably connected with an upper die 11, the lower die 2 and the upper die 11 are matched with each other to form a complete molding cavity, and a demolding assembly is further arranged on the workbench 1;

The demoulding assembly comprises a first guide rail 4 which is connected to two sides of the upper end face of the workbench 1 in a sliding mode, a second guide rail 5 is connected to the inner side of the first guide rail 4 in a sliding mode, a displacement frame 10 is connected to the inner side of the second guide rail 5 in a sliding mode, a turnover plate 22 is arranged at the lower end of the displacement frame 10 in a rotating mode, a third guide rail 9 is connected to one side of the turnover plate 22 in a sliding mode, a first finger cylinder 26 is connected to one side of the third guide rail 9 in a sliding mode, a third cylinder 32 is connected to one side of the lower end of the turnover plate 22 in a fixed mode, a fixed block 33 is fixedly connected to the piston end of the third cylinder 32, and a second finger cylinder 34 is fixedly connected to one side of the fixed block 33.

In this embodiment, as shown in fig. 1, 2, 4, 7, 9 and 10, an injection port 12 is disposed on one side of the lower die 2, the injection port 12 is communicated with a cavity of the lower die 2, a threaded rod five 31 is screwed on one side of the upper die 11, one end of the threaded rod five 31 is rotatably disposed on the lower die 2, a motor eight 30 is fixedly connected on one side of the lower die 2, and an output end of the motor eight 30 is fixedly connected with one end of the threaded rod five 31.

The screw thread connection of guide rail one 4 lower extreme one side has threaded rod six 41, and threaded rod six 41 both ends all rotate and set up on workstation 1, and workstation 1 up end one side fixedly connected with motor ten 37, and motor ten 37 output links to each other with threaded rod six 41 one end is fixed, and guide rail two 5 one end screw thread connection has threaded rod one 8, and threaded rod one 8 both ends all rotate and set up on guide rail one 4, and guide rail one 4 upper end one side fixedly connected with motor one 7, and motor one 7 output links to each other with threaded rod one 8 one end is fixed.

The upper end threaded connection of displacement frame 10 has threaded rod IV 29, and threaded rod IV 29 both ends all rotate and set up on guide rail II 5, and guide rail II 5 inboard one end fixedly connected with motor IV 28, and motor IV 28 output links to each other with threaded rod IV 29 one end is fixed, and displacement frame 10 lower extreme one side fixedly connected with motor IV 23, and motor IV 23 output links to each other with upset board 22 one side is fixed.

One end of the guide rail III 9 is in threaded connection with a threaded rod III 25, two ends of the threaded rod III 25 are both rotatably arranged on the overturning plate 22, one end of the overturning plate 22 is fixedly connected with a motor V24, and the output end of the motor V24 is fixedly connected with one end of the threaded rod III 25.

Specifically, among the prior art, anesthesia air storage bag is after the shaping in the die cavity, because of material cooling shrink leads to gasbag and die cavity inner wall closely laminating, so that the personnel is inconvenient take out it from the die cavity to lead to the extension of single drawing of patterns time, intensity of labour is high, influences drawing of patterns efficiency. In addition, when the anesthesia gas storage bags are formed in batches, the collection container is generally utilized to uniformly collect the demoulded anesthesia gas storage bags so as to facilitate subsequent detection, assembly and other works, the anesthesia gas storage bags are possibly placed in the container in a messy state after being taken out from the die cavity, and because the anesthesia gas storage bags are soft, the anesthesia gas storage bags are extruded to cause irregular deformation, so that the state of each anesthesia gas storage bag is not uniform, and the follow-up detection, assembly and other works are not facilitated to be continuously carried out.

Therefore, in order to solve the above-described problems, in the present embodiment, in use, a raw material in a molten state is injected into a molding cavity formed by the lower die 2 and the upper die 11 through an injection port by an external injection device. After the material is cooled and formed, the upper die 11 slides on the upper end face of the lower die 2 in a mode that the motor eight 30 drives the threaded rod five 31 to rotate, so that the formed anesthesia gas storage bag is exposed, then the motor five 24 drives the threaded rod three 25 to rotate, so that the guide rail three 9 slides downwards along the turnover plate 22 until the finger cylinder one 26 moves to the bulge position of the tail part of the anesthesia gas storage bag, then the tail part of the anesthesia gas storage bag is clamped through the finger cylinder one 26, and then the guide rail three 9 is driven to ascend, so that the anesthesia gas storage bag can be taken out from the forming cavity. At this time, the joint of the anesthesia air storage bag is aligned with the clamping end of the finger air cylinder II 34, then the air cylinder III 32 drives the fixing block 33 to transversely move, the joint of the anesthesia air storage bag is clamped by the clamping end of the finger air cylinder II 34, and then the motor IV 23 drives the overturning plate 22 to rotate ninety degrees, so that the anesthesia air storage bag is in a horizontal flattening state. Then drive threaded rod one 8 through motor one 7 and rotate, motor ten 37 drives threaded rod six 41 and rotates, motor seven 28 drives threaded rod four 29 pivoted mode, make the anesthesia air storage bag of being held follow x, y, z axle and remove, and place the container that is used for collecting the anesthesia air storage bag on workstation 1, then the accessible drives the mode that anesthesia air storage bag removed and places it in the container, then repeat above-mentioned operation, the anesthesia air storage bag after a plurality of shaping is all regular arranges and is placed in the container, thereby the workman has saved the process of drawing of patterns to anesthesia air storage bag, reduced workman's intensity of labour, drawing of patterns is efficient. In addition, as the plurality of the anesthetic gas storage bags after demolding are orderly arranged in the collecting container, the situation that the plurality of the anesthetic gas storage bags are messy stacked in the collecting container, so that the anesthetic gas storage bags deform due to extrusion and are not beneficial to follow-up detection, assembly and other work of the plurality of the anesthetic gas storage bags is avoided.

In this embodiment, as shown in fig. 2, 3, and 5-8, the workbench 1 is further provided with an auxiliary dust-proof component inside the air storage bag;

the inside dustproof auxiliary assembly of air storage bag includes the support body 6 of fixed connection in workstation 1 up end one side, and support body 6 one side both ends fixedly connected with slide bar 16, slide bar 16 sliding connection has cylinder two 15, and cylinder two 15 piston end fixedly connected with installation piece 17, installation piece 17 one side rotation is provided with suction head 21, and workstation 1 upper end one side fixedly connected with cylinder one 3, cylinder one 3 piston end fixedly connected with frid 39, and frid 39 spout department both sides all sliding connection has clamp bar 38.

One end of the second cylinder 15 is in threaded connection with a second threaded rod 14, two ends of the second threaded rod 14 are both rotationally arranged on the frame body 6, one side of the upper end of the frame body 6 is fixedly connected with a second motor 13, the output end of the second motor 13 is fixedly connected with one end of the second threaded rod 14, one side of the mounting block 17 is fixedly connected with a third motor 18, and the output end of the third motor 18 is fixedly connected with one side of the suction head 21.

An exhaust fan 19 is fixedly connected to one side of the upper end of the mounting block 17, a hose 20 is communicated with the air inlet end of the exhaust fan 19, and one end of the hose 20 is communicated with one side of a suction head 21.

One end of the clamping rod 38 is connected with a bidirectional threaded rod 43 in a threaded manner, two ends of the bidirectional threaded rod 43 are rotatably arranged on the groove plate 39, one end of the groove plate 39 is fixedly connected with a motor eleven 40, and the output end of the motor eleven 40 is fixedly connected with one end of the bidirectional threaded rod 43.

The upper end one side rotation of fixed block 33 is provided with depression bar 35, and fixed block 33 upper end one side fixedly connected with motor nine 36, and motor nine 36 output links to each other with depression bar 35 one end is fixed, and finger cylinder one 26 upper end threaded connection has threaded rod seven 42, and guide rail three 9 one end fixedly connected with motor six 27, motor six 27 output links to each other with threaded rod seven 42 one end is fixed.

Specifically, in the above embodiment, although the plurality of the formed anesthetic gas storage bags may be regularly placed in the collecting container, since the interface of the anesthetic gas storage bag is in a non-covered state, when the anesthetic gas storage bag is in the collecting container, impurities such as external dust easily enter the inner cavity of the anesthetic gas storage bag from the interface, thereby affecting the cleanliness inside the anesthetic gas storage bag, which is not beneficial to subsequent use, and also, after the impurities such as dust are attached to the inner cavity wall of the anesthetic gas storage bag, the detection work such as the subsequent air tightness of the anesthetic gas storage bag is also affected;

therefore, in order to solve the above problem, when the anesthetic air storage bag is clamped by the first finger cylinder 26 and rises to a certain height, the first cylinder 3 drives the groove plate 39 to move transversely so that the two clamping rods 38 are positioned at two sides of the anesthetic air storage bag, and then the eleven motor 40 drives the two-way threaded rod 43 to rotate so that the two clamping rods 38 are close to each other to clamp the middle part of the anesthetic air storage bag. Then the motor six 27 drives the threaded rod seven 42 to rotate so as to enable the finger cylinder one 26 to transversely move, at the moment, the tail of the anesthesia gas storage bag can deviate, then the finger cylinder one 26 loosens the tail of the anesthesia gas storage bag, the anesthesia gas storage bag can drop down and is folded in half by taking the clamping rod 38 as the center, the tail of the anesthesia gas storage bag is lower than the interface of the anesthesia gas storage bag, at the moment, the suction head 21 is aligned with the tail of the anesthesia gas storage bag, then the cylinder two 15 drives the mounting block 17 to transversely move so as to enable the suction head 21 to contact the tail of the anesthesia gas storage bag, the suction head 21 is enabled to absorb the tail of the anesthesia gas storage bag under the action of the exhaust fan 19, then the motor three 18 drives the suction head 21 to overturn ninety degrees, at the moment, the end part of the suction head 21 is aligned with the anesthesia gas storage bag interface, then the motor two 13 drives the threaded rod two 14 to rotate so as to enable the suction head 21 to ascend until the suction head 21 passes through the anesthesia gas storage bag interface, because the tail of the anesthesia gas storage bag is adsorbed by the suction head 21, the tail of the anesthesia gas storage bag is also plugged into the inner cavity of the anesthesia gas storage bag, the tail of the anesthesia gas storage bag is compressed when passing through the connector, and then the tail of the anesthesia gas storage bag is restored under the action of elastic force after passing through the connector, at the moment, the connector is blocked by the tail of the anesthesia gas storage bag, then the exhaust fan 19 is closed, the suction head 21 is moved out of the inner cavity of the anesthesia gas storage bag, then the guide rail three 9 is driven to descend again, the upper end of the folded anesthesia gas storage bag is clamped by the finger cylinder one 26, the connector of the anesthesia gas storage bag is clamped by the finger cylinder two 34, then the anesthesia gas storage bag is driven to overturn again, and then the anesthesia gas storage bag is put into the collecting container, so that the anesthesia gas storage bag connector in the collecting container is in a blocking state, and impurities such as external dust are prevented from entering the inner cavity of the anesthesia gas storage bag. The cleanliness of the inside of the anesthesia air storage bag is guaranteed, the follow-up use is facilitated, and meanwhile the accuracy of detection work such as follow-up air tightness is guaranteed.

And after the anesthesia air storage bag is placed in the collecting container, the motor nine 36 drives the pressing rod 35 to rotate, so that the pressing rod 35 presses the anesthesia air storage bag, and meanwhile, the transverse movement of the guide rail one 4 is matched to reduce wrinkles on the surface of the anesthesia air storage bag, so that the anesthesia air storage bag is further convenient to carry out subsequent detection and other works.

The working principle is that an external injection device is used for injecting raw materials in a molten state into a forming cavity formed by the lower die 2 and the upper die 11 through an injection port. After the material is cooled and formed, the upper die 11 slides on the upper end face of the lower die 2 in a mode that the motor eight 30 drives the threaded rod five 31 to rotate, so that the formed anesthesia gas storage bag is exposed, then the motor five 24 drives the threaded rod three 25 to rotate, so that the guide rail three 9 slides downwards along the turnover plate 22 until the finger cylinder one 26 moves to the bulge position of the tail part of the anesthesia gas storage bag, then the tail part of the anesthesia gas storage bag is clamped through the finger cylinder one 26, and then the guide rail three 9 is driven to ascend, so that the anesthesia gas storage bag can be taken out from the forming cavity. At this time, the joint of the anesthesia air storage bag is aligned with the clamping end of the finger air cylinder II 34, then the air cylinder III 32 drives the fixing block 33 to transversely move, the joint of the anesthesia air storage bag is clamped by the clamping end of the finger air cylinder II 34, and then the motor IV 23 drives the overturning plate 22 to rotate ninety degrees, so that the anesthesia air storage bag is in a horizontal flattening state. Then drive threaded rod one 8 through motor one 7 and rotate, motor ten 37 drives threaded rod six 41 and rotates, motor seven 28 drives threaded rod four 29 pivoted mode, make the anesthesia air storage bag of being held follow x, y, z axle and remove, and place the container that is used for collecting the anesthesia air storage bag on workstation 1, then the accessible drives the mode that anesthesia air storage bag removed and places it in the container, then repeat above-mentioned operation, the anesthesia air storage bag after a plurality of shaping is all regular arranges and is placed in the container, thereby the workman has saved the process of drawing of patterns to anesthesia air storage bag, reduced workman's intensity of labour, drawing of patterns is efficient. In addition, as the plurality of the anesthetic gas storage bags after demolding are orderly arranged in the collecting container, the situation that the plurality of the anesthetic gas storage bags are messy stacked in the collecting container, so that the anesthetic gas storage bags deform due to extrusion and are not beneficial to follow-up detection, assembly and other work of the plurality of the anesthetic gas storage bags is avoided. When the anesthesia gas storage bag is clamped by the first finger cylinder 26 and rises to a certain height, the first cylinder 3 drives the groove plate 39 to transversely move, so that the two clamping rods 38 are positioned on two sides of the anesthesia gas storage bag, and then the motor eleven 40 drives the bidirectional threaded rod 43 to rotate, so that the two clamping rods 38 are close to each other, and the middle part of the anesthesia gas storage bag is clamped. Then the motor six 27 drives the threaded rod seven 42 to rotate so as to enable the finger cylinder one 26 to transversely move, at the moment, the tail of the anesthesia gas storage bag can deviate, then the finger cylinder one 26 loosens the tail of the anesthesia gas storage bag, the anesthesia gas storage bag can drop down and is folded in half by taking the clamping rod 38 as the center, the tail of the anesthesia gas storage bag is lower than the interface of the anesthesia gas storage bag, at the moment, the suction head 21 is aligned with the tail of the anesthesia gas storage bag, then the cylinder two 15 drives the mounting block 17 to transversely move so as to enable the suction head 21 to contact the tail of the anesthesia gas storage bag, the suction head 21 is enabled to absorb the tail of the anesthesia gas storage bag under the action of the exhaust fan 19, then the motor three 18 drives the suction head 21 to overturn ninety degrees, at the moment, the end part of the suction head 21 is aligned with the anesthesia gas storage bag interface, then the motor two 13 drives the threaded rod two 14 to rotate so as to enable the suction head 21 to ascend until the suction head 21 passes through the anesthesia gas storage bag interface, because the tail of the anesthesia gas storage bag is adsorbed by the suction head 21, the tail of the anesthesia gas storage bag is also plugged into the inner cavity of the anesthesia gas storage bag, the tail of the anesthesia gas storage bag is compressed when passing through the connector, and then the tail of the anesthesia gas storage bag is restored under the action of elastic force after passing through the connector, at the moment, the connector is blocked by the tail of the anesthesia gas storage bag, then the exhaust fan 19 is closed, the suction head 21 is moved out of the inner cavity of the anesthesia gas storage bag, then the guide rail three 9 is driven to descend again, the upper end of the folded anesthesia gas storage bag is clamped by the finger cylinder one 26, the connector of the anesthesia gas storage bag is clamped by the finger cylinder two 34, then the anesthesia gas storage bag is driven to overturn again, and then the anesthesia gas storage bag is put into the collecting container, so that the anesthesia gas storage bag connector in the collecting container is in a blocking state, and impurities such as external dust are prevented from entering the inner cavity of the anesthesia gas storage bag. the cleanliness of the inside of the anesthesia air storage bag is guaranteed, the follow-up use is facilitated, and meanwhile the accuracy of detection work such as follow-up air tightness is guaranteed. And after the anesthesia air storage bag is placed in the collecting container, the motor nine 36 drives the pressing rod 35 to rotate, so that the pressing rod 35 presses the anesthesia air storage bag, and meanwhile, the transverse movement of the guide rail one 4 is matched to reduce wrinkles on the surface of the anesthesia air storage bag, so that the anesthesia air storage bag is further convenient to carry out subsequent detection and other works.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The forming device for processing the anesthesia gas storage bag comprises a workbench (1) and is characterized in that a lower die (2) is fixedly connected to one side of the upper end face of the workbench (1), an upper die (11) is connected to the upper end face of the lower die (2) in a sliding mode, the lower die (2) and the upper die (11) are matched with each other to form a complete forming cavity, and a demoulding assembly is further arranged on the workbench (1);

The demolding assembly comprises a first guide rail (4) which is slidably connected to two sides of the upper end face of the workbench (1), a second guide rail (5) is slidably connected to the inner side of the first guide rail (4), a displacement frame (10) is slidably connected to the inner side of the second guide rail (5), a turnover plate (22) is rotatably arranged at the lower end of the displacement frame (10), a third guide rail (9) is slidably connected to one side of the turnover plate (22), a first finger cylinder (26) is slidably connected to one side of the third guide rail (9), a third cylinder (32) is fixedly connected to one side of the lower end of the turnover plate (22), a fixed block (33) is fixedly connected to the piston end of the third cylinder (32), a second finger cylinder (34) is fixedly connected to one side of the fixed block, and a dust-proof auxiliary assembly inside the air storage bag is further arranged on the workbench (1);

the inside dustproof auxiliary assembly of gas storage bag includes support body (6) of fixed connection in workstation (1) up end one side, support body (6) one side both ends fixedly connected with slide bar (16), slide bar (16) sliding connection has cylinder two (15), cylinder two (15) piston end fixedly connected with installation piece (17), installation piece (17) one side rotates and is provided with suction head (21), workstation (1) upper end one side fixedly connected with cylinder one (3), cylinder one (3) piston end fixedly connected with frid (39), frid (39) spout department both sides all sliding connection have clamp bar (38), during operation, two clamp bars (38) are close to each other, clip anesthesia gas storage bag middle part, and finger cylinder one (26) slide connection has cylinder two (15), and anesthesia gas storage bag's afterbody can produce the skew, then finger cylinder one (26) unclamp the gas storage bag afterbody, and then anesthesia gas storage bag can drop to regard clamp bar (38) as the center, and the gas storage bag afterbody is less than its interface, suction head (21) will anesthesia gas storage bag afterbody, and adsorb nine-fold over, and overturn afterbody (21) suction head, suction head ten degrees are passed on the interface, anesthesia gas storage bag (21) and the suction head is up to the interface.

2. The device for processing the anesthesia gas storage bag according to claim 1, wherein an injection molding opening (12) is formed in one side of the lower die (2), the injection molding opening (12) is communicated with a die cavity of the lower die (2), a threaded rod five (31) is connected to one side of the upper die (11) in a threaded mode, one end of the threaded rod five (31) is rotatably arranged on the lower die (2), a motor eight (30) is fixedly connected to one side of the lower die (2), and an output end of the motor eight (30) is fixedly connected with one end of the threaded rod five (31).

3. The device for processing the anesthesia gas storage bag according to claim 1, wherein a threaded rod six (41) is connected to one side of the lower end of the first guide rail (4) in a threaded manner, two ends of the threaded rod six (41) are rotatably arranged on the workbench (1), a motor ten (37) is fixedly connected to one side of the upper end face of the workbench (1), the output end of the motor ten (37) is fixedly connected with one end of the threaded rod six (41), a threaded rod one (8) is connected to one end of the second guide rail (5) in a threaded manner, two ends of the threaded rod one (8) are rotatably arranged on the first guide rail (4), a motor one (7) is fixedly connected to one side of the upper end of the first guide rail (4), and the output end of the motor one (7) is fixedly connected with one end of the threaded rod one (8).

4. The device for processing the anesthesia gas storage bag according to claim 1, wherein the upper end of the displacement frame (10) is in threaded connection with a fourth threaded rod (29), two ends of the fourth threaded rod (29) are rotatably arranged on a second guide rail (5), one end of the inner side of the second guide rail (5) is fixedly connected with a seventh motor (28), the output end of the seventh motor (28) is fixedly connected with one end of the fourth threaded rod (29), one side of the lower end of the displacement frame (10) is fixedly connected with a fourth motor (23), and the output end of the fourth motor (23) is fixedly connected with one side of the turnover plate (22).

5. The device for processing the anesthesia gas storage bag according to claim 1, wherein one end of the guide rail III (9) is in threaded connection with a threaded rod III (25), two ends of the threaded rod III (25) are rotatably arranged on the overturning plate (22), one end of the overturning plate (22) is fixedly connected with a motor V (24), and the output end of the motor V (24) is fixedly connected with one end of the threaded rod III (25).

6. The device for processing the anesthesia gas storage bag according to claim 1, wherein one end of the second air cylinder (15) is in threaded connection with the second threaded rod (14), two ends of the second threaded rod (14) are rotatably arranged on the frame body (6), one side of the upper end of the frame body (6) is fixedly connected with the second motor (13), the output end of the second motor (13) is fixedly connected with one end of the second threaded rod (14), one side of the mounting block (17) is fixedly connected with the third motor (18), and the output end of the third motor (18) is fixedly connected with one side of the suction head (21).

7. The device for processing the anesthetic gas storage bag according to claim 1, wherein an exhaust fan (19) is fixedly connected to one side of the upper end of the mounting block (17), an air inlet end of the exhaust fan (19) is communicated with a hose (20), and one end of the hose (20) is communicated with one side of a suction head (21).

8. The device for processing the anesthetic gas storage bag according to claim 1, wherein one end of the clamping rod (38) is in threaded connection with a bidirectional threaded rod (43), two ends of the bidirectional threaded rod (43) are rotatably arranged on the groove plate (39), one end of the groove plate (39) is fixedly connected with an eleven motor (40), and the output end of the eleven motor (40) is fixedly connected with one end of the bidirectional threaded rod (43).

9. The device for processing the anesthesia gas storage bag according to claim 1, wherein a compression bar (35) is rotatably arranged on one side of the upper end of the fixing block (33), a motor nine (36) is fixedly connected to one side of the upper end of the fixing block (33), the output end of the motor nine (36) is fixedly connected with one end of the compression bar (35), a threaded rod seven (42) is connected to the upper end of the finger cylinder one (26) in a threaded manner, a motor six (27) is fixedly connected to one end of the guide rail three (9), and the output end of the motor six (27) is fixedly connected with one end of the threaded rod seven (42).