CN115143579B

CN115143579B - Non-contact type dismantling equipment for medical purifier filter element

Info

Publication number: CN115143579B
Application number: CN202210633651.9A
Authority: CN
Inventors: 杨通跃
Original assignee: Anhui Institute of Information Engineering
Current assignee: Anhui Institute of Information Engineering
Priority date: 2022-06-07
Filing date: 2022-06-07
Publication date: 2023-12-15
Anticipated expiration: 2042-06-07
Also published as: CN115143579A

Abstract

The invention relates to non-contact dismantling equipment, in particular to non-contact dismantling equipment for a medical purifier filter element. The invention provides non-contact type dismantling equipment for a medical purifier filter element, which comprises a first shell, a second shell, a moving mechanism and the like, wherein the second shell is arranged in the center of the rear side of the first shell, and the moving mechanism which is convenient for moving the medical purifier filter element and is arranged at the bottom of the first shell. According to the invention, the air cylinder is used as a driving force to drive the grabbing plate to move forwards, then the grabbing plate can move inwards to clamp the filter element, and then the air cylinder can drive the grabbing plate to move backwards, so that the filter element can be driven to move backwards, the dismantling work of the filter element is automatically completed, the workers are prevented from being infected by viruses, and the safety is high.

Description

Non-contact type dismantling equipment for medical purifier filter element

Technical Field

The invention relates to non-contact dismantling equipment, in particular to non-contact dismantling equipment for a medical purifier filter element.

Background

Because the patient in the hospital is more, so the air in the hospital can contain more viruses, therefore, the air purifier can be placed in most hospitals, so that the air in the hospital is purified by the air purifier, and when the air purifier is used for a period of time, the filter element in the air purifier can be infected with more viruses, and the filter element in the air purifier needs to be replaced manually.

At present, the filter element of the air purifier is usually manually removed and replaced, but the removal method easily causes that workers are infected by viruses in the filter element, and after the filter element in the air purifier is removed and taken out, the viruses in the air purifier volatilize into the air, so that air pollution is caused, the safety is low, and the manual removal of the filter element is inconvenient.

In view of the foregoing, there is a strong need for a non-contact removal device for a medical purifier filter cartridge with high safety, which solves the above problems.

Disclosure of Invention

In order to overcome the defects that when a filter element in an air purifier is manually dismantled, the filter element in the air purifier is easy to be infected by viruses in the filter element, and after the filter element in the air purifier is dismantled and taken out, the viruses in the air purifier volatilize into the air, so that air pollution is caused, and the safety is low, the invention aims to provide the non-contact dismantling equipment for the filter element of the medical purifier, which is high in safety.

The invention is realized by the following technical approaches:

the utility model provides a medical treatment is with clarifier filter core non-contact demolishs equipment, including first shell, the second shell, grab the board, moving mechanism, pushing out the mechanism, energy storage mechanism and grasp the mechanism, first shell rear side central point puts and is provided with the second shell, first shell bottom is provided with the moving mechanism that makes things convenient for the medical treatment to remove equipment with clarifier filter core non-contact, the inside pushing out the mechanism that is provided with of second shell, be provided with two on the pushing out the mechanism and be used for grabbing the board with the tight board of grabbing of filter core, be provided with energy storage mechanism in the second shell, be provided with on the pushing out the mechanism and be used for driving grab the board to grasp the mechanism of inboard motion.

In a preferred embodiment of the invention, the moving mechanism comprises a bottom plate, a mounting plate and rollers, the bottom of the first shell is provided with the bottom plate, the bottom of the bottom plate is uniformly and rotatably provided with the mounting plate at intervals, and the rollers are rotatably arranged on the mounting plate.

In a preferred embodiment of the present invention, the pushing mechanism comprises a fixed plate, an air cylinder, a pushing block and a first connecting plate, wherein the fixed plate is arranged at the rear side inside the second housing, the air cylinder is arranged in the middle of the fixed plate, the pushing block is arranged at the front side of a telescopic rod of the air cylinder, and the first connecting plate is arranged at the front side of the pushing block.

In a preferred embodiment of the invention, the energy storage mechanism comprises an energy storage plate, a fixed ring plate, a pressurizing pipe, a first piston rod, a first reset spring, an energy storage pipe, a first connecting pipe and a one-way air inlet valve, wherein the energy storage plate is arranged at the front part of the right side of the inner wall of the second housing, the fixed ring plate is arranged on the right side of the bottom of the first connecting plate, the pressurizing pipe is arranged on the right side of the fixed ring plate, the first piston rod is arranged at the rear side of the pressurizing pipe in a sliding manner, the rear side of the first piston rod is contacted with the front side of the energy storage plate, the first reset spring is connected between the rear part of the first piston rod and the rear side of the pressurizing pipe, the energy storage pipe is arranged in the middle of the fixed ring plate, the first connecting pipe is arranged between the central position of the front side of the pressurizing pipe and the front part of the right side of the energy storage pipe, and the one-way air inlet valve is arranged on the first connecting pipe.

In a preferred embodiment of the invention, the gripping mechanism comprises a second connecting plate, a third connecting plate, a piston cylinder, a second piston rod, a second connecting pipe, a first pressing valve, a fourth connecting pipe, a second pressing valve, a trigger plate and a first scroll spring, wherein the second connecting plate is rotatably arranged at the left side and the right side of the first connecting plate, the front side of the second connecting plate is connected with the adjacent gripping plate, a third connecting plate is slidably arranged between the rear sides of the two second connecting plates, a piston cylinder is arranged at the left side of a fixed ring plate, a second piston rod is slidably arranged at the center position of the rear side of the piston cylinder, the upper end of the second piston rod is connected with the rear side of the third connecting plate, the upper part of the second piston rod is slidably connected with the first connecting plate, a second connecting pipe is arranged between the front side of an energy storage pipe and the front side of the piston cylinder, the center position of the front side of the second connecting pipe is provided with the first pressing valve, the front side of the piston cylinder is provided with the fourth connecting pipe, the rear side of the fourth connecting pipe is provided with the second pressing valve, the front side of the left side of the inner wall of the second outer shell is provided with the trigger plate, the second pressing valve moves forward and contacts the trigger plate with the first connecting plate, and the scroll spring is arranged between the rear side of the first connecting plate and the first connecting plate.

In a preferred embodiment of the invention, the filter cartridge sterilizing device further comprises a sterilizing mechanism for sterilizing the filter cartridge, wherein the sterilizing mechanism comprises a baffle plate, a protective net and a heating ultraviolet lamp, the baffle plate is arranged on the right side of the interior of the first shell, the protective net is arranged in the middle of the baffle plate, the heating ultraviolet lamp is arranged on the right side of the interior of the first shell, and the heating ultraviolet lamp is positioned on the right side of the protective net.

In a preferred embodiment of the invention, the device further comprises a closing mechanism for preventing viruses from being emitted into the air, the closing mechanism comprises a movable door, a sealing ring and a grabbing handle, the movable door is arranged on the front side of the first shell in a sliding mode, the sealing ring is arranged on the outer wall of the movable door, the sealing ring is in contact with the first shell, and the grabbing handle is arranged on the right portion of the front side of the movable door.

In a preferred embodiment of the invention, the device further comprises a grabbing mechanism, wherein the grabbing mechanism comprises a connecting disc, a second reset spring, a first annular plate, a second annular plate, an extrusion plate and a lower pressing plate, the connecting disc is arranged at the upper part of the inner side of the first shell, the second reset springs are uniformly arranged at intervals at the bottom of the connecting disc, the first annular plate is arranged between the bottoms of the second reset springs, the second annular plate is rotatably arranged at the lower part of the inner side of the first annular plate, the extrusion plate is arranged at the upper part of the rear side of the movable door, the lower pressing plate is arranged at the front side of the first annular plate, and the lower pressing plate is in contact with the extrusion plate.

In a preferred embodiment of the invention, the filter element rotating device further comprises a rotating mechanism for driving the filter element to rotate, the rotating mechanism comprises a slow motor, a rotating shaft, a rotating disc, a grabbing hook and a second scroll spring, the slow motor is arranged in the middle of the upper part of the first shell, the rotating shaft is arranged on an output shaft of the slow motor, the rotating disc is arranged at the bottom of the rotating shaft, the grabbing hook is uniformly and rotatably arranged on the rotating disc at intervals, the second annular plate can move downwards to be in contact with the grabbing hook, and the second scroll spring is arranged between the upper part of the grabbing hook and the rotating disc.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the air cylinder is used as a driving force to drive the grabbing plate to move forwards, then the grabbing plate can move inwards to clamp the filter element, and then the air cylinder can drive the grabbing plate to move backwards, so that the filter element can be driven to move backwards, the dismantling work of the filter element is automatically completed, the workers are prevented from being infected by viruses, and the safety is high.

2. According to the invention, the filter element can be disinfected by starting the heating ultraviolet lamp, and the baffle plate and the protective net can prevent hands of people from being injured due to contact with the heating ultraviolet lamp.

3. When the grab hook moves to the inner side, the filter element can be clamped, and then the filter element can be driven to rotate by taking the slow motor as a driving force, so that the filter element can be disinfected in all directions.

Drawings

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

Fig. 2 is a schematic perspective view of a moving mechanism according to the present invention.

Fig. 3 is a schematic perspective view of the ejector mechanism of the present invention.

Fig. 4 is a schematic view of a part of a three-dimensional structure of an energy storage mechanism of the present invention.

Fig. 5 is a schematic view of a partial perspective view of the gripping mechanism of the present invention.

Fig. 6 is a schematic perspective view of the energy storage mechanism and the grasping mechanism of the present invention.

Fig. 7 is a perspective sectional view of the energy storage mechanism of the present invention.

Fig. 8 is a schematic perspective view of the sterilizing mechanism of the present invention.

Fig. 9 is a schematic perspective view of the grabbing mechanism of the present invention.

Fig. 10 is a schematic perspective view of a rotating mechanism according to the present invention.

The marks of the components in the drawings are as follows: 1. a first housing 2, a second housing 3, a grabbing plate 4, a moving mechanism 41, a bottom plate 42, a mounting plate 43, a roller, 5, a pushing mechanism 51, a fixing plate 52, an air cylinder 53, a pushing block 54, a first connecting plate 6, an energy storage mechanism 61, an energy storage plate 62, a fixing ring plate 63, a pressurizing pipe 64, a first piston rod 65, a first return spring 66, an energy storage pipe 67, a first connecting pipe 68, a one-way air inlet valve 7, a grasping mechanism 71, a second connecting plate 72, a third connecting plate 73, a piston cylinder 74, a second piston rod 75, a second connecting pipe, 76, a first pressing valve, 77, a fourth connecting pipe, 78, a second pressing valve, 79, a trigger plate, 710, a first scroll spring, 8, a sterilizing mechanism, 81, a partition plate, 82, a protective net, 83, a heating ultraviolet lamp, 9, a closing mechanism, 91, a movable door, 92, a sealing ring, 93, a grabbing handle, 10, a grabbing mechanism, 101, a connecting disc, 102, a second return spring, 103, a first annular plate, 104, a second annular plate, 105, a pressing plate, 106, a lower pressing plate, 11, a rotating mechanism, 111, a slow motor, 112, a rotating shaft, 113, a rotating disc, 114, a grabbing hook, 115 and a second scroll spring.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Example 1

The utility model provides a medical treatment is with non-contact demolishment equipment of clarifier filter core, refer to fig. 1-7, including first shell 1, second shell 2, grab board 3, mobile mechanism 4, release mechanism 5, energy storage mechanism 6 and grasp mechanism 7, first shell 1 rear side central point puts and is provided with second shell 2, first shell 1 bottom is provided with mobile mechanism 4, the inside release mechanism 5 that is provided with of second shell 2, be provided with two on the release mechanism 5 and grab board 3, can press from both sides the filter core when grabbing board 3 to the inboard motion, be provided with energy storage mechanism 6 in the second shell 2, be provided with grasp mechanism 7 on the release mechanism 5.

Referring to fig. 1 and 2, the moving mechanism 4 comprises a bottom plate 41, a mounting plate 42 and rollers 43, the bottom plate 41 is welded at the bottom of the first housing 1, the mounting plate 42 is rotatably arranged at the bottom of the bottom plate 41 at uniform intervals, the rollers 43 are rotatably arranged on the mounting plate 42, and the rollers 43 can roll on the ground, so that the whole equipment can move conveniently.

Referring to fig. 1 to 3, the push-out mechanism 5 includes a fixed plate 51, an air cylinder 52, a push block 53 and a first connecting plate 54, the fixed plate 51 is welded on the rear side inside the second housing 2, the air cylinder 52 is bolted to the middle of the fixed plate 51, the push block 53 is arranged on the front side of the telescopic rod of the air cylinder 52, and the first connecting plate 54 is arranged on the front side of the push block 53.

Referring to fig. 2-7, the energy storage mechanism 6 includes an energy storage plate 61, a fixed ring plate 62, a pressurizing pipe 63, a first piston rod 64, a first return spring 65, an energy storage pipe 66, a first connecting pipe 67 and a unidirectional air intake valve 68, the energy storage plate 61 is welded at the front right side of the inner wall of the second housing 2, the fixed ring plate 62 is arranged at the right side of the bottom of the first connecting plate 54, the pressurizing pipe 63 is arranged at the right side of the fixed ring plate 62, the pressurizing pipe 63 is slidably provided with the first piston rod 64, the rear side of the first piston rod 64 contacts with the front side of the energy storage plate 61, a first return spring 65 is connected between the rear side of the first piston rod 64 and the rear side of the pressurizing pipe 63, the energy storage pipe 66 is arranged in the middle of the fixed ring plate 62, the first connecting pipe 67 is arranged between the central position of the front side of the pressurizing pipe 63 and the front side of the energy storage pipe 66, and the unidirectional air intake valve 68 is arranged on the first connecting pipe 67.

Referring to fig. 3-7, the grasping mechanism 7 comprises a second connecting plate 71, a third connecting plate 72, a piston cylinder 73, a second piston rod 74, a second connecting pipe 75, a first pressing valve 76, a fourth connecting pipe 77, a second pressing valve 78, a trigger plate 79 and a first scroll spring 710, wherein the second connecting plate 71 is welded on the left side and the right side of the first connecting plate 54 in a rotating mode, the front side of the second connecting plate 71 is connected with the adjacent grasping plate 3, the grasping plate 3 can be driven to move inwards to clamp a filter core when the second connecting plate 71 moves inwards, a third connecting plate 72 is slidably arranged between the rear sides of the two second connecting plates 71, the left side and the right side of the third connecting plate 72 are slidably connected with the second connecting plates 71 on the left side and the right side respectively through waist grooves, the left side and the right side of the fixed ring plate 62 are provided with the piston cylinder 73, the center position of the rear side of the piston cylinder 73 is slidably provided with the second piston rod 74, the upper end of the second piston rod 74 is slidably connected with the rear side of the third connecting plate 72, the front side of the second connecting plate 74 is slidably connected with the first connecting plate 54, the front side of the second connecting plate 75 is provided with the trigger plate 75, the front side of the left side of the piston cylinder 73 is provided with the second connecting plate 78, the front side of the left side is provided with the second connecting plate 78, the front side of the trigger plate 78 is provided with the front side of the second connecting plate 75, the front side of the left side of the piston plate 78 is provided with the front side of the trigger plate 78, and the front side of the left side of the trigger plate 78 is provided with the front side of the second connecting plate 78.

Initially, the first return spring 65 is in a compressed state, a proper amount of high-pressure air is provided in the energy storage tube 66, when the equipment is required to be used, people push the equipment to a designated position through the roller 43, so that the equipment is positioned at the rear side of the purifier, then, people start the air cylinder 52 to control the extension rod of the air cylinder 52, so that the push block 53 is driven to move forwards, the first connecting plate 54, the second connecting plate 71 and the grabbing plate 3 are driven to move forwards, the first connecting plate 54 drives the fixed ring plate 62 to move forwards, the fixed ring plate 62 drives the pressurizing tube 63, the energy storage tube 66 and the piston cylinder 73 to move forwards, the pressurizing tube 63 drives the first piston rod 64 to move forwards, the first piston rod 64 is separated from the energy storage plate 61, the first return spring 65 is restored, the first piston rod 64 is driven to move backwards, so that air enters the pressurizing tube 63, and meanwhile, the energy storage tube 66 and the piston cylinder 73 drive the second connecting tube 75, the first pressing valve 76, the fourth connecting tube 77 and the second pressing valve 78 to move forwards, the second pressing valve 78 can pass through the trigger plate 79, when the first pressing valve 76 contacts with the filter element of the purifier, the first pressing valve 76 is opened, high-pressure air in the energy storage tube 66 flows into the piston cylinder 73 through the second connecting tube 75 at this time, so as to squeeze the second piston rod 74 to move backwards, drive the third connecting plate 72 to move backwards, the third connecting plate 72 drives the second connecting plate 71 to move inwards, further deform the first scroll spring 710, so as to drive the grabbing plate 3 to move inwards, so that the grabbing plate 3 clamps the filter element of the purifier, then the telescopic rod of the control cylinder 52 is shortened, so as to drive the pushing block 53 to move backwards, further drive the first connecting plate 54, the second connecting plate 71 and the grabbing plate 3 to move backwards, the grabbing plate 3 drives the filter element of the purifier to move backwards, so that the filter element of the purifier enters the first shell 1, the first connecting plate 54 drives the fixed ring plate 62 to move backwards, the fixed ring plate 62 drives the pressurizing pipe 63, the energy storage pipe 66 and the piston cylinder 73 to move backwards, the pressurizing pipe 63 drives the first piston rod 64 to move backwards and reset, meanwhile, the energy storage pipe 66 and the piston cylinder 73 drive the second connecting pipe 75, the first pressing valve 76, the fourth connecting pipe 77 and the second pressing valve 78 to move backwards, when the second pressing valve 78 contacts the trigger plate 79, the second pressing valve 78 is opened at the moment, the first scroll spring 710 returns to the original state, the second connecting plate 71 is driven to move outwards, the third connecting plate 72 and the second piston rod 74 are driven to move forwards, the second piston rod 74 presses air in the piston cylinder 73 at the moment, the air in the piston cylinder 73 is discharged through the fourth connecting pipe 77, meanwhile, the second connecting plate 71 drives the grabbing plate 3 to move outwards, the filter element in the purifier is loosened, then the second pressing valve 78 is separated from the triggering plate 79, the first pressing valve 76 is separated from the filter element in the purifier, the first pressing valve 76 and the second pressing valve 78 are closed, when the first piston rod 64 contacts with the energy storage plate 61, the first piston rod 64 stops moving, the pressurizing pipe 63 continues to move backwards, the first restoring spring 65 compresses, at this time, the first piston rod 64 can squeeze the air in the pressurizing pipe 63, the air in the pressurizing pipe 63 enters the energy storage pipe 66 through the first connecting pipe 67, at this time, the air pressure in the energy storage pipe 66 is increased, then the air cylinder 52 is closed, then people push the device to a designated position, and the filter element in the first housing 1 is taken out for treatment.

Example 2

Based on embodiment 1, referring to fig. 2 and 8, the filter element sterilizing device further comprises a sterilizing mechanism 8, wherein the sterilizing mechanism 8 comprises a partition plate 81, a protective net 82 and a heating ultraviolet lamp 83, the partition plate 81 is welded on the right side of the interior of the first shell 1, the protective net 82 is arranged in the middle of the partition plate 81, the heating ultraviolet lamp 83 is arranged on the right side of the interior of the first shell 1, the heating ultraviolet lamp 83 is positioned on the right side of the protective net 82, and the filter element can be sterilized by starting the heating ultraviolet lamp 83.

Referring to fig. 1 and 2, the device further comprises a closing mechanism 9, the closing mechanism 9 comprises a movable door 91, a sealing ring 92 and a grabbing handle 93, the movable door 91 is arranged on the front side of the first housing 1 in a sliding mode, the movable door 91 can block the front side of the first housing 1 and prevent viruses from diffusing into the air, the sealing ring 92 is arranged on the outer wall of the movable door 91, the sealing ring 92 is in contact with the first housing 1, and the grabbing handle 93 is arranged on the right portion of the front side of the movable door 91.

When the filter core is located inside the first shell 1, people move to the right and grab the handle 93, drive dodge gate 91 and sealing washer 92 to the right and remove for dodge gate 91 blocks first shell 1 front side, and sealing washer 92 plays sealed effect, then starts heating purple light lamp 83, thereby disinfect the filter core through heating purple light lamp 83, after the disinfection is accomplished, people close heating purple light lamp 83, then the manual work takes out the filter core that the disinfection was accomplished, baffle 81 and protection network 82 can prevent people's hand contact heating purple light lamp 83 and injury.

Referring to fig. 2, 9 and 10, the device further comprises a grabbing mechanism 10, the grabbing mechanism 10 comprises a connecting disc 101, a second return spring 102, a first annular plate 103, a second annular plate 104, a pressing plate 105 and a pressing plate 106, the connecting disc 101 is welded on the upper portion of the inner side of the first shell 1, the second return springs 102 are uniformly arranged at intervals on the bottom of the connecting disc 101, the first annular plate 103 is arranged between the bottoms of the second return springs 102, the second annular plate 104 is rotatably arranged on the lower portion of the inner side of the first annular plate 103, the pressing plate 105 is arranged on the upper portion of the rear side of the movable door 91, the pressing plate 106 is arranged on the front side of the first annular plate 103, and the pressing plate 106 is in contact with the pressing plate 105.

Referring to fig. 2, 9 and 10, the filter cartridge sterilizing machine further comprises a rotating mechanism 11, the rotating mechanism 11 comprises a slow motor 111, a rotating shaft 112, a rotary table 113, a grabbing hook 114 and a second scroll spring 115, the middle of the upper portion of the first shell 1 is bolted with the slow motor 111, the rotating shaft 112 is arranged on an output shaft of the slow motor 111, the rotary table 113 is arranged at the bottom of the rotating shaft 112, grabbing hooks 114 are uniformly and rotatably arranged on the rotary table 113 at intervals, the second annular plate 104 moves downwards to be in contact with the grabbing hooks 114, so that the grabbing hooks 114 can be driven to rotate inwards to clamp the filter cartridge, then the slow motor 111 can be started to drive the filter cartridge to automatically perform omnibearing sterilization of the filter cartridge, and the second scroll spring 115 is arranged between the upper portion of the grabbing hooks 114 and the rotary table 113.

When the movable door 91 moves to the right, the extrusion plate 105 is driven to move to the right, the extrusion plate 105 extrudes the lower pressure plate 106 to move downwards, thereby driving the first annular plate 103 and the second annular plate 104 to move downwards, the second return spring 102 stretches, the second annular plate 104 extrudes the grabbing hook 114 to rotate inwards, and further the second scroll spring 115 deforms, so that the grabbing hook 114 clamps the filter element, then people start the slow motor 111, the output shaft of the slow motor 111 drives the rotating shaft 112 to rotate, thereby driving the turntable 113 and the grabbing hook 114 to rotate, the grabbing hook 114 drives the filter element to perform omnibearing disinfection, after the filter element is disinfected, people close the slow motor 111, thereby stopping the rotation of the filter element, when the movable door 91 moves to the left, the extrusion plate 105 is driven to move to the left, the extrusion plate 105 is separated from the lower pressure plate 106, the second return spring 102 is restored to the original state, the first annular plate 103 and the second annular plate 104 are driven to move upwards, the second scroll spring 115 is driven to separate the grabbing hook 114, and the second scroll spring 115 is restored to the original state, and the grabbing hook 114 is driven to rotate, and then the filter element is manually released to take out the filter element after the disinfection is completed.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the invention is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims

1. The non-contact type dismantling device for the medical purifier filter element comprises a first shell (1), a second shell (2) and a grabbing plate (3), wherein the second shell (2) is arranged in the center of the rear side of the first shell (1), the grabbing plate (3) is used for clamping the filter element, and the non-contact type dismantling device is characterized by further comprising a moving mechanism (4), a push-out mechanism (5), an energy storage mechanism (6) and a grabbing mechanism (7), wherein the moving mechanism (4) which is convenient for moving the non-contact type dismantling device for the medical purifier filter element is arranged at the bottom of the first shell (1), the push-out mechanism (5) is arranged in the second shell (2), the grabbing plate (3) is arranged on the push-out mechanism (5), and the energy storage mechanism (6) is arranged in the second shell (2), and the push-out mechanism (5) is provided with the grabbing mechanism (7) which is used for driving the grabbing plate (3) to move inwards;

the pushing mechanism (5) comprises a fixed plate (51), an air cylinder (52), a pushing block (53) and a first connecting plate (54), wherein the fixed plate (51) is arranged at the rear side inside the second housing (2), the air cylinder (52) is arranged in the middle of the fixed plate (51), the pushing block (53) is arranged at the front side of a telescopic rod of the air cylinder (52), and the first connecting plate (54) is arranged at the front side of the pushing block (53);

the energy storage mechanism (6) comprises an energy storage plate (61), a fixed ring plate (62), a pressurizing pipe (63), a first piston rod (64), a first reset spring (65), an energy storage pipe (66), a first connecting pipe (67) and a one-way air inlet valve (68), wherein the energy storage plate (61) is arranged at the front part of the right side of the inner wall of the second housing (2), the fixed ring plate (62) is arranged on the right side of the bottom of the first connecting plate (54), the pressurizing pipe (63) is arranged on the right side of the fixed ring plate (62), the first piston rod (64) is arranged in a sliding manner behind the pressurizing pipe (63), the rear side of the first piston rod (64) is in contact with the front side of the energy storage plate (61), the first reset spring (65) is connected between the rear side of the first piston rod (64) and the rear side of the pressurizing pipe (63), the energy storage pipe (66) is arranged in the middle of the fixed ring plate (62), the first connecting pipe (67) is arranged between the center position of the front side of the pressurizing pipe (63) and the front side of the energy storage pipe (66), and the one-way air inlet valve (68) is arranged on the first connecting pipe (67);

the grasping mechanism (7) comprises a second connecting plate (71), a third connecting plate (72), a piston cylinder (73), a second piston rod (74), a second connecting pipe (75), a first pressing valve (76), a fourth connecting pipe (77), a second pressing valve (78), a trigger plate (79) and a first scroll spring (710), wherein the second connecting plate (71) is rotationally arranged at the left side and the right side of the first connecting plate (54), the front sides of the second connecting plates (71) are connected with adjacent grasping plates (3), the third connecting plate (72) is slidably arranged between the rear sides of the two second connecting plates (71), the piston cylinder (73) is arranged at the left side of the fixed ring plate (62), the second piston rod (74) is slidably arranged at the center position of the rear side of the piston cylinder (73), the upper end of the second piston rod (74) is connected with the rear side of the third connecting plate (72), the second connecting pipe (75) is slidably connected with the first connecting plate (54), the second connecting pipe (75) is arranged between the front side of the energy storage tube (66) and the front side of the piston cylinder (73), the fourth connecting pipe (77) is slidably arranged at the front side of the piston cylinder (73), a trigger plate (79) is arranged at the front part of the left side of the inner wall of the second housing (2), the second pressing valve (78) moves forwards to be contacted with the trigger plate (79), and a first scroll spring (710) is arranged between the rear side of the second connecting plate (71) and the first connecting plate (54);

the filter element sterilizing device comprises a filter element, and is characterized by further comprising a sterilizing mechanism (8) for sterilizing the filter element, wherein the sterilizing mechanism (8) comprises a partition plate (81), a protective net (82) and a heating ultraviolet lamp (83), the partition plate (81) is arranged on the right side of the inside of the first shell (1), the protective net (82) is arranged in the middle of the partition plate (81), the heating ultraviolet lamp (83) is arranged on the right side of the inside of the first shell (1), and the heating ultraviolet lamp (83) is positioned on the right side of the protective net (82);

the novel virus-free air purifier is characterized by further comprising a closing mechanism (9) for preventing viruses from dispersing into the air, wherein the closing mechanism (9) comprises a movable door (91), a sealing ring (92) and a grabbing handle (93), the movable door (91) is arranged on the front side of the first shell (1) in a sliding mode, the sealing ring (92) is arranged on the outer wall of the movable door (91), the sealing ring (92) is in contact with the first shell (1), and the grabbing handle (93) is arranged on the right portion of the front side of the movable door (91).

2. The non-contact type dismantling device for the medical purifier filter element according to claim 1, wherein the moving mechanism (4) comprises a bottom plate (41), a mounting plate (42) and rollers (43), the bottom of the first shell (1) is provided with the bottom plate (41), the bottom of the bottom plate (41) is uniformly provided with the mounting plate (42) in a rotary mode at intervals, and the rollers (43) are rotatably arranged on the mounting plate (42).

3. The non-contact type dismantling device for the medical purifier filter element according to claim 2, further comprising a grabbing mechanism (10), wherein the grabbing mechanism (10) comprises a connecting disc (101), a second reset spring (102), a first annular plate (103), a second annular plate (104), a squeezing plate (105) and a lower pressing plate (106), the connecting disc (101) is arranged on the upper portion of the inner side of the first shell (1), the second reset springs (102) are uniformly arranged on the bottom of the connecting disc (101) at intervals, the first annular plate (103) is arranged between the bottoms of the second reset springs (102), the second annular plate (104) is rotatably arranged on the lower portion of the inner side of the first annular plate (103), the squeezing plate (105) is arranged on the upper portion of the rear side of the movable door (91), the lower pressing plate (106) is arranged on the front side of the first annular plate (103), and the lower pressing plate (106) is in contact with the squeezing plate (105).

4. A medical purifier filter element non-contact dismantling device according to claim 3, further comprising a rotating mechanism (11) for driving the filter element to rotate, wherein the rotating mechanism (11) comprises a slow motor (111), a rotating shaft (112), a rotary disc (113), a grabbing hook (114) and a second scroll spring (115), the slow motor (111) is arranged in the middle of the upper part of the first shell (1), the rotating shaft (112) is arranged on an output shaft of the slow motor (111), a rotary disc (113) is arranged at the bottom of the rotating shaft (112), grabbing hooks (114) are uniformly arranged on the rotary disc (113) at intervals in a rotating manner, the second annular plate (104) can move downwards to be in contact with the grabbing hooks (114), and the second scroll springs (115) are arranged between the upper part of the grabbing hooks (114) and the rotary disc (113).