CN113567278B

CN113567278B - Reciprocating type medical anesthesia gas storage bag quality detection device

Info

Publication number: CN113567278B
Application number: CN202110851015.9A
Authority: CN
Inventors: 陶小娟; 刘好
Original assignee: Individual
Current assignee: Tao Xiaojuan
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2024-04-26
Anticipated expiration: 2041-07-27
Also published as: CN113567278A

Abstract

The invention relates to medical supplies detection, in particular to a reciprocating medical anesthesia gas storage bag quality detection device, which comprises a support base, a round support frame, a ventilation circular tube, a pushing and switching assembly and the like; the round support frame is fixedly arranged on the support base, a ventilation round tube is arranged on the round support frame, and a pushing and switching assembly is arranged on the round support frame. Through the effect of first slotted plate for the reciprocating motion about the slip push pedal, the slip push pedal passes through fourth spring promotion disc frame reciprocating motion about, and the disc frame reciprocating motion extrudees the gas in the circular braced frame about, and gas passes through the pipe of ventilating and gets into in the gas storage bag, tests gas storage bag quality.

Description

Reciprocating type medical anesthesia gas storage bag quality detection device

Technical Field

The invention relates to medical supplies detection, in particular to a reciprocating medical anesthesia gas storage bag quality detection device.

Background

The anesthetic air storage bag is mainly used for storing fresh gas from an anesthetic machine and can play a role in adjusting air supply quantity, the operating principle of the anesthetic air storage bag is that when air is supplied for the air needed by an excessive system, the excessive air can be discharged, and when the air supply is insufficient, the anesthetic air storage bag can be manually inflated in a mode of pressing the anesthetic air storage bag to play a role in supplementing the air.

In the production detection procedure of the medical anesthesia air storage bag, process monitoring and quality detection are needed to be carried out on the pressure of a product, the traditional detection mode is to test the pressure needed by the expansion resistance of the air storage bag through sampling, the air storage bag is expanded by the air with the specified volume in the pressure range which is needed to be measured in advance, when the air storage bag reaches the limit, the fragmentation can be generated, the working personnel can be easily injured by the impact force generated during the fragmentation, and the detection efficiency can be influenced.

Disclosure of Invention

The invention aims to provide a reciprocating medical anesthetic air storage bag quality detection device which can rapidly test the quality of air storage bags and classify the detected air storage bags, so as to solve the problems that the conventional pressure detection process of the air storage bags is not rapid and convenient and is easy to hurt staff in the background art.

The technical scheme is as follows: the utility model provides a reciprocating type medical anesthesia gas storage bag quality testing device, includes supporting base, circular supporting frame, the pipe of ventilating, promotes switching component and test assembly, and fixed mounting has circular supporting frame on the supporting base, is provided with the pipe of ventilating on the circular supporting frame, is equipped with on the circular supporting frame and promotes switching component, and test assembly is located on the supporting base.

In addition, it is particularly preferred that the pushing and switching assembly comprises a pushing frame, a first spring, a supporting column, a first swinging rod, a first guide frame, a second guide frame, a first sliding support frame, a second spring, a limiting plate and a third spring, wherein the pushing frame is connected to the round support frame in a sliding manner, the first spring is connected between the pushing frame and the round support frame, the supporting column is fixedly arranged on the top surface of the round support frame, the first swinging rod is connected to the supporting column in a rotating manner, the first swinging rod is in limiting fit with the pushing frame, the first guide frame is fixedly arranged on the round support frame, the second guide frame is in limiting fit with the first swinging rod, the first sliding support frame is connected to the round support frame in a sliding manner, the second spring is connected to the round support frame in a connecting manner, the third limiting plate is connected to the limiting plate in a sliding manner, and one end of the third spring is connected to the first sliding support frame.

In addition, it is particularly preferred that the test assembly comprises an electric push rod, a first slotted plate, a sliding push plate, a disc frame and a fourth spring, wherein the electric push rod is fixedly arranged on the support base, one end of a telescopic shaft of the electric push rod is welded with the first slotted plate, the first slotted plate is in contact with the first sliding support frame, the sliding push plate is connected to the circular support frame in a lifting manner, the sliding push plate is in limit fit with the first slotted plate, the disc frame is connected to the sliding push plate in the circular support frame in a lifting manner, the sliding push plate is connected with the disc frame in a sliding manner, the disc frame is connected with the support base in a sliding manner, the fourth spring is connected to the disc frame in a connecting manner, and one end of the fourth spring is connected with the sliding push plate.

In addition, the circular support frame is particularly preferably provided with a sleeving assembly, the sleeving assembly is arranged on the circular support frame and comprises a guide frame, a second slotted plate, a limiting strip, a placing plate, a sliding pushing frame, a second sliding support frame, a supporting frame, a fifth spring and a guide block, the guide frame is arranged on the first slotted plate, two second slotted plates are arranged on the top surface of the circular support frame, the limiting strip is welded on the outer side of the circular support frame, the placing plate is connected to the limiting strip in a sliding mode, the sliding pushing frame is connected to the two second slotted plates in a sliding mode, the sliding pushing frame is in limiting fit with the guide frame, the second sliding support frame is connected to the second sliding support frame in a sliding mode, the supporting frame is connected to the second sliding support frame in a symmetrical sliding mode, the supporting frame is connected with the fifth spring, one end of the fifth spring is fixedly connected with the second sliding support frame, the guide block is fixedly connected to one side of the second slotted plate, and the guide block and the supporting frame touch each other.

In addition, particularly preferred is, still include the separation subassembly, the separation subassembly sets up on embolia the subassembly, the separation subassembly is including fluting pushing away frame, fixed bolster and second swinging arms, fluting pushing away the frame and link to each other perpendicularly on placing the board, support together on two second fluting boards and have fixed bolster, fixed bolster is last to be connected with the second swinging arms that rotate, second swinging arms pushes away the spacing cooperation of frame with fluting, second swinging arms is the same with the spacing cooperation of sliding pushing away the frame.

In addition, particularly preferred is, still including pushing out the subassembly, be provided with on the circular braced frame and push out the subassembly, it includes supporting shoe, the carriage, inclined plane push ring, sixth spring, slip wedge and seventh spring to push out the subassembly, circular braced frame top surface fixed mounting has the supporting shoe, sliding connection has the carriage on the supporting shoe, the carriage cup joints with the pipe that ventilates, the rigid coupling has the inclined plane push ring on the carriage, the pipe that ventilates cup joints with the inclined plane push ring, the connection has the sixth spring on the carriage, sixth spring one end and supporting shoe rigid coupling, sliding connection has the slip wedge on the carriage, be connected with the seventh spring between carriage and the slip wedge.

The beneficial effects of the invention are as follows:

Through the effect of first slotted plate for the reciprocating motion about the slip push pedal, the slip push pedal passes through fourth spring promotion disc frame reciprocating motion about, and the disc frame reciprocating motion extrudees the gas in the circular braced frame about, and gas passes through the pipe of ventilating and gets into in the gas storage bag, tests gas storage bag quality.

Through the effect of leading truck for the slip pushes away frame and device on it and moves towards being close to circular braced frame direction, and the guide block promotes and struts the frame relative motion, struts the frame and struts the air storage bag mouth, through the effect of second slotted plate, second sliding support frame and device on can upward movement and swing, makes the frame of struts with the air storage bag cover to ventilation pipe on.

Through the guiding effect of first guide frame or second guide frame, the quality that is released up to standard stores up the gasbag and can drop to the containing box through first guide frame in, the quality that is released does not up to standard stores up the gasbag and can drop to the containing box through the second guide frame in to the realization carries out categorised purpose to the gas storage bag.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first portion of the push switch assembly according to the present invention.

Fig. 4 is a schematic perspective view of a second portion of the push switch assembly of the present invention.

Fig. 5 is a schematic perspective view of a testing assembly according to the present invention.

Fig. 6 is a schematic perspective view of a separation assembly according to the present invention.

Fig. 7 is a schematic perspective view of a first portion of the ejector assembly of the present invention.

Fig. 8 is a schematic perspective view of a second portion of the ejector assembly of the present invention.

Wherein the above figures include the following reference numerals: 1. support base, 2, round support frame, 21, ventilation round tube, 3, push switch assembly, 31, push rack, 32, first spring, 33, support column, 34, first swing rod, 35, first guide frame, 36, second guide frame, 37, first slide support frame, 38, second spring, 39, limit plate, 310, third spring, 4, test assembly, 41, electric push rod, 42, first slotted plate, 43, slide push plate, 44, disc rack, 45, fourth spring, 5, telescoping assembly, 51, guide frame, 52, second slotted plate, 53, limit bar, 54, placement plate, 55, slide push rack, 56, second slide support frame, 57, spreader rack, 58, fifth spring, 59, guide block, 6, separation assembly, 61, slotted push rack, 62, fixed support frame, 63, second swing rod, 7, push assembly, 71, support block, 72, slide rack, 73, bevel push ring, 74, sixth spring, 75, seventh wedge spring, 76.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Example 1

The utility model provides a reciprocating type medical anesthesia gas storage bag quality testing arrangement, as shown in fig. 1-5, including supporting base 1, circular braced frame 2, ventilation pipe 21, promote switching component 3 and test component 4, fixed mounting has circular braced frame 2 on the supporting base 1, is provided with the ventilation pipe 21 that is used for carrying gas on the circular braced frame 2, is equipped with on the circular braced frame 2 and promotes switching component 3 for test component 4 that tests the gas storage bag is located on supporting base 1.

The pushing and switching assembly 3 comprises a pushing frame 31, a first spring 32, a supporting column 33, a first swinging rod 34, a first guide frame 35, a second guide frame 36, a first sliding support frame 37, a second spring 38, a limiting plate 39 and a third spring 310, wherein the pushing frame 31 is connected to the round support frame 2 in a sliding manner, the first spring 32 is connected between the pushing frame 31 and the round support frame 2, the supporting column 33 is fixedly arranged on the top surface of the round support frame 2, the first swinging rod 34 is rotatably connected to the supporting column 33, the first swinging rod 34 is in limiting fit with the pushing frame 31, the first guide frame 35 is fixedly arranged on the round support frame 2, the second guide frame 36 is in limiting fit with the first swinging rod 34, the first sliding support frame 37 is connected to the round support frame 2 in a sliding manner, the second spring 38 is connected to the first sliding support frame 37, one end of the second spring 38 far away from the first sliding support frame 37 is fixedly connected to the round support frame 2, the third limiting plate 39 is connected to the first sliding support frame 37, and the first limiting plate 39 is connected to the third sliding support frame 39 is far away from the first sliding support frame 37, and the third limiting plate 39 is connected to the first sliding support frame 310.

The test assembly 4 comprises an electric push rod 41, a first slotted plate 42, a sliding push plate 43, a disc frame 44 and a fourth spring 45, wherein the electric push rod 41 is fixedly installed on the support base 1, one end of a telescopic shaft of the electric push rod 41 is welded with the first slotted plate 42, the first slotted plate 42 is in contact with the first sliding support frame 37, the sliding push plate 43 is connected to the circular support frame 2 in a lifting manner, the sliding push plate 43 is in limit fit with the first slotted plate 42, the first slotted plate 42 is used for guiding the sliding push plate 43, the disc frame 44 is connected to the circular support frame 2 in a lifting manner, the disc frame 44 is used for extruding gas in the circular support frame 2, the sliding push plate 43 is connected with the disc frame 44 in a sliding manner, the disc frame 44 is connected with the support base 1 in a sliding manner, the fourth spring 45 is connected to the disc frame 44, and one end of the fourth spring 45 far away from the disc frame 44 is connected with the sliding push plate 43.

When the quality detection needs to be carried out on the medical anesthesia air storage bag, storage boxes for placing detection completion are respectively placed below the first guide frame 35 and the second guide frame 36, firstly, a worker manually sleeves the air storage bag on the ventilation round tube 21, the worker manually controls the electric push rod 41 to stretch, the electric push rod 41 stretches to drive the first slotted plate 42 to move in the direction away from the first sliding support frame 37, the first slotted plate 42 is separated from the first sliding support frame 37, the second spring 38 in a compressed state resets to drive the first sliding support frame 37 and devices on the first sliding support frame 37 to move in the direction close to the electric push rod 41, and the limiting plate 39 is in contact with the pushing frame 31. When the sliding push plate 43 moves to the leftmost side of the first slotted plate 42, the worker manually controls the electric push rod 41 to shrink, and the electric push rod 41 shrinks to drive the first slotted plate 42 to move towards the direction approaching the first sliding supporting frame 37. Through the effect of first slotted plate 42 for the reciprocating motion about slip push pedal 43, the reciprocating motion about disc frame 44 is promoted through fourth spring 45 to slip push pedal 43, and the reciprocating motion about disc frame 44 extrudees the gas in the circular support frame 2, and the gas passes through ventilation pipe 21 and gets into in the gas storage bag, tests gas storage bag quality.

If the air storage bag quality reaches the standard, the air storage bag anti-expansion pressure can be opposed to the air in the circular supporting frame 2, so that the fourth spring 45 can be compressed, and the disc frame 44 can not be in contact with the pushing frame 31. If the quality of the air storage bag does not reach the standard, the anti-expansion pressure of the air storage bag cannot be opposed to the air in the circular supporting frame 2, the fourth spring 45 cannot be compressed, so that the disc frame 44 can be in contact with the pushing frame 31, the disc frame 44 can push the pushing frame 31 to move upwards, the pushing frame 31 can push the limiting plate 39 to move away from the first slotted plate 42, then the stretched third spring 310 resets to drive the limiting plate 39 to move towards the direction close to the first slotted plate 42 for resetting, the limiting plate 39 blocks the pushing frame 31, and a worker can judge whether the quality of the air storage bag reaches the standard through the position of the pushing frame 31.

After detection is completed, a worker takes down the air storage bag with the quality reaching the standard from the ventilation circular tube 21, puts the air storage bag into the storage basket from the first guide frame 35, when the air storage bag quality does not reach the standard, the pushing frame 31 moves upwards to drive the first swinging rod 34 to swing, the first swinging rod 34 drives the second guide frame 36 to move upwards, and the worker puts the taken down air storage bag into the storage basket from the second guide frame 36, so that the purpose of classifying the air storage bags is achieved. Then the first slotted plate 42 contacts with the first sliding supporting frame 37 again, the first slotted plate 42 pushes the first sliding supporting frame 37 and the device thereon to move away from the electric push rod 41, the limiting plate 39 does not block the pushing frame 31 any more, and the stretched first spring 32 resets to drive the pushing frame 31 to move downwards to reset.

Example 2

On the basis of embodiment 1, as shown in fig. 5-6, the air bag opening device further comprises a sleeving component 5, the sleeving component 5 is arranged on the circular supporting frame 2, the sleeving component 5 is used for sleeving the air bag on the ventilation circular tube 21, the sleeving component 5 comprises a guide frame 51, a second slotted plate 52, a limit bar 53, a placing plate 54, a sliding pushing frame 55, a second sliding supporting frame 56, a spreading frame 57, a fifth spring 58 and a guide block 59, the first slotted plate 42 is provided with the guide frame 51, the top surface of the circular supporting frame 2 is provided with two second slotted plates 52, the outside of the circular supporting frame 2 is welded with the limit bar 53, the limit bar 53 is connected with a placing plate 54 used for placing the air bag, the two second slotted plates 52 are connected with a sliding pushing frame 55 in a sliding way, the guide frame 51 is in a limiting way, the guide frame 51 is used for guiding the sliding pushing frame 55, the two second slotted plates 52 are connected with the second sliding supporting frame 56 in a sliding way, the second sliding supporting frame 56 is in a limiting way with the sliding frame 55, the second sliding frame 56 is connected with the sliding frame 55 in a sliding way, the second slotted plate 56 is connected with the second supporting frame 57 in a sliding way, the second slotted plate 57 is connected with the second supporting frame 57 in a sliding way, and the second slotted plate 57 is connected with the fifth slotted plate 57 in a sliding way, and the second supporting frame 57 is connected with the fifth slotted plate 57 in a sliding way, and the second slotted block 57 is connected with the guide frame 57 in a sliding way, and the fifth slotted frame 57 is connected with the sliding frame 57 to the fifth slotted frame 57 is opposite to the sliding frame 57.

The staff can place the air storage bag on placing plate 54, strut the frame 57 and stretch into the air storage bag mouth, when first slotted plate 42 moves towards keeping away from first sliding support frame 37 direction, first slotted plate 42 drives leading truck 51 and moves towards keeping away from first sliding support frame 37 direction, through the effect of leading truck 51, make sliding push away frame 55 and upper device towards being close to circular braced frame 2 direction motion, leading block 59 can promote the relative motion of strut 57, strut 57 relative motion struts the air storage bag mouth, strut 57 drives the air storage bag and moves towards being close to circular braced frame 2 direction, through the effect of second slotted plate 52, second sliding support frame 56 and upper device can upward motion and swing, make strut 57 overlap the air storage bag on ventilation pipe 21. Then the guide block 59 is separated from the expanding frame 57, the compressed fifth spring 58 resets to drive the expanding frame 57 to move in opposite directions, the expanding frame 57 is separated from the air storage bag, the air storage bag is tightly sleeved on the ventilation circular tube 21 through the elastic action of the air storage bag, and the air storage bag is sleeved on the ventilation circular tube 21 instead of manual operation. The above operation is repeated to test the quality of the air bag, when the first slotted plate 42 drives the guide frame 51 to move towards the direction approaching to the first sliding support frame 37, the sliding pushing frame 55 and the upper device thereof move towards the direction far away from the circular support frame 2 under the action of the guide frame 51, and then the second sliding support frame 56 and the upper device thereof move downwards and swing to reset under the action of the second slotted plate 52.

Example 3

On the basis of embodiment 2, as shown in fig. 6, the device further comprises a separation assembly 6, the separation assembly 6 is arranged on the sleeving assembly 5, the separation assembly 6 is used for separating the placing plate 54 from the air storage bag, the separation assembly 6 comprises a slotted pushing frame 61, a fixed supporting frame 62 and a second swinging rod 63, the slotted pushing frame 61 is vertically connected to the placing plate 54, the fixed supporting frame 62 is jointly supported on the two second slotted plates 52, the second swinging rod 63 is rotatably connected to the fixed supporting frame 62, the second swinging rod 63 is in limit fit with the slotted pushing frame 61, and the second swinging rod 63 far away from the slotted pushing frame 61 is in limit fit with the sliding pushing frame 55.

When the sliding pushing frame 55 and the upper device thereof move towards the direction close to the circular supporting frame 2, the sliding pushing frame 55 drives the second swinging rod 63 to swing, and the second swinging rod 63 drives the slotting pushing frame 61 and the placing plate 54 to move towards the direction far away from the circular supporting frame 2, so that the placing plate 54 does not support the air storage bags any more, and the air storage bags can be conveniently classified subsequently.

Example 4

On the basis of embodiment 3, as shown in fig. 7-8, the device further comprises a pushing component 7, the circular supporting frame 2 is provided with the pushing component 7, the pushing component 7 is used for pushing the detected air storage bag out of the ventilation circular tube 21, the pushing component 7 comprises a supporting block 71, a sliding frame 72, an inclined push ring 73, a sixth spring 74, a sliding wedge 75 and a seventh spring 76, the supporting block 71 is fixedly arranged on the top surface of the circular supporting frame 2, the sliding frame 72 is connected with the sliding frame 72 in a sliding manner, the sliding frame 72 is sheathed with the ventilation circular tube 21, the inclined push ring 73 is fixedly connected with the inclined push ring 73, the inclined push ring 73 is used for pushing the detected air storage bag out of the ventilation circular tube 21, the ventilation circular tube 21 is sheathed with the inclined push ring 73, the sliding frame 72 is connected with the sixth spring 74, one end of the sixth spring 74 far away from the sliding frame 72 is fixedly connected with the supporting block 71, the sliding frame 72 is connected with the sliding wedge 75 in a sliding manner, and the seventh spring 76 is connected between the sliding frame 72 and the sliding wedge 75.

When the second sliding support frame 56 and the upper device thereof move towards the direction close to the circular support frame 2, the second sliding support frame 56 is contacted with the sliding wedge block 75, the second sliding support frame 56 pushes the sliding wedge block 75 to move upwards, then the second sliding support frame 56 is separated from the sliding wedge block 75, the stretched seventh spring 76 resets to drive the sliding wedge block 75 to move downwards to reset, when the second sliding support frame 56 and the upper device thereof move towards the direction far away from the circular support frame 2, the second sliding support frame 56 pushes the sliding wedge block 75 and the upper device thereof move towards the direction far away from the circular support frame 2, the inclined plane pushing ring 73 can push out the detected air storage bags from the ventilation circular tube 21, the pushed air storage bags with standard quality can drop into the storage box through the guiding function of the first guiding frame 35 or the second guiding frame 36, and the air storage bags with standard quality which are not pushed out can drop into the storage box through the second guiding frame 36, so that the purpose of classifying the air storage bags is achieved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The reciprocating type medical anesthesia gas storage bag quality detection device is characterized by comprising a support base (1), a round support frame (2), a ventilation circular tube (21), a pushing and switching assembly (3) and a testing assembly (4), wherein the round support frame (2) is fixedly installed on the support base (1), the ventilation circular tube (21) is arranged on the round support frame (2), the pushing and switching assembly (3) is arranged on the round support frame (2), and the testing assembly (4) is positioned on the support base (1); the pushing and switching assembly (3) comprises a pushing frame (31), a first spring (32), a supporting column (33), a first swinging rod (34), a first guide frame (35), a second guide frame (36), a first sliding support frame (37), a second spring (38), a limiting plate (39) and a third spring (310), wherein the pushing frame (31) is connected to the round support frame (2) in a sliding manner, the first spring (32) is connected between the pushing frame (31) and the round support frame (2), the supporting column (33) is fixedly arranged on the top surface of the round support frame (2), the first swinging rod (34) is rotatably connected to the supporting column (2), the first swinging rod (34) is in limiting fit with the pushing frame (31), the first guide frame (35) is fixedly arranged on the round support frame (2), the second guide frame (36) is in limiting fit with the first swinging rod (34), the first sliding support frame (37) is connected to the round support frame (2) in a sliding manner, the second sliding support frame (37) is fixedly connected to the first spring (38), the first sliding support frame (38) is fixedly connected to the first sliding support frame (38), the limiting plate (39) is connected with a pair of third springs (310), and one ends of the third springs (310) are connected with the first sliding support frame (37);

The testing assembly (4) comprises an electric push rod (41), a first slotted plate (42), a sliding push plate (43), a disc frame (44) and a fourth spring (45), wherein the electric push rod (41) is fixedly installed on a supporting base (1), one end of a telescopic shaft of the electric push rod (41) is welded with the first slotted plate (42), the first slotted plate (42) is in contact with a first sliding support frame (37), the sliding push plate (43) is connected to a circular supporting frame (2) in a lifting mode, the sliding push plate (43) is in limit fit with the first slotted plate (42), the disc frame (44) is connected in the circular supporting frame (2) in a lifting mode, the sliding push plate (43) is connected with the disc frame (44) in a sliding mode, the disc frame (44) is connected with the supporting base (1) in a sliding mode, the fourth spring (45) is connected to the disc frame (44), and one end of the fourth spring (45) is connected with the sliding push plate (43).

2. The reciprocating medical anesthesia gas storage bag quality detection device according to claim 1, further comprising a sleeving component (5), wherein the sleeving component (5) is arranged on the circular support frame (2), the sleeving component (5) comprises a guide frame (51), a second slotted plate (52), a limit bar (53), a placing plate (54), a sliding push frame (55), a second sliding support frame (56), a supporting frame (57), a fifth spring (58) and a guide block (59), the guide frame (51) is arranged on the first slotted plate (42), two second slotted plates (52) are arranged on the top surface of the circular support frame (2), the limit bar (53) is welded on the outer side of the circular support frame (2), the placing plate (54) is connected to the limit bar (53) in a sliding mode, the sliding push frame (55) is connected to the two second slotted plates (52) in a sliding mode, the sliding push frame (55) is in limit fit with the guide frame (51), the second sliding support frame (56) is connected to the two second slotted plates (52) in a sliding mode, the second sliding support frame (56) is connected to the second sliding support frame (56) in a sliding mode, the second sliding support frame (56) is in a sliding mode in a limit mode, the second sliding support frame (56) is connected to the second slotted support frame (55) in a sliding mode, the second slotted support frame (57) is in a sliding mode, and the second slotted support frame (57) is connected to the second sliding support frame (57), one end of a fifth spring (58) is fixedly connected with the second sliding support frame (56), one side of the second slotted plate (52) is fixedly connected with a guide block (59), and the guide block (59) and the opening support frame (57) are mutually contacted.

3. The reciprocating type medical anesthesia gas storage bag quality detection device according to claim 2 is characterized by further comprising a separation assembly (6), wherein the separation assembly (6) is arranged on the sleeving assembly (5), the separation assembly (6) comprises a grooved pushing frame (61), a fixed supporting frame (62) and a second swinging rod (63), the grooved pushing frame (61) is vertically connected to the placing plate (54), the fixed supporting frame (62) is commonly supported on the two second grooved plates (52), the second swinging rod (63) is rotatably connected to the fixed supporting frame (62), the second swinging rod (63) is in limiting fit with the grooved pushing frame (61), and the second swinging rod (63) is also in limiting fit with the sliding pushing frame (55).

4. The reciprocating type medical anesthesia gas storage bag quality detection device according to claim 3 is characterized by further comprising a pushing component (7), wherein the pushing component (7) is arranged on the circular supporting frame (2), the pushing component (7) comprises a supporting block (71), a sliding frame (72), an inclined pushing ring (73), a sixth spring (74), a sliding wedge block (75) and a seventh spring (76), the supporting block (71) is fixedly arranged on the top surface of the circular supporting frame (2), the sliding frame (72) is connected with the sliding frame (72) in a sliding mode, the sliding frame (72) is sleeved with the ventilation circular tube (21), the inclined pushing ring (73) is fixedly connected to the sliding frame (72), the ventilation circular tube (21) is sleeved with the inclined pushing ring (73), the sixth spring (74) is connected to the sliding frame (72), one end of the sixth spring (74) is fixedly connected with the supporting block (71), the sliding wedge block (75) is connected to the sliding frame (72), and the seventh spring (76) is connected between the sliding frame (72) and the sliding wedge block (75).