CN111992007A - Aldehyde device that removes of multimode operation - Google Patents

Abstract

The invention discloses an aldehyde removing device operated in multiple modes, and belongs to the field of aldehyde removing devices. A multi-mode operation aldehyde removing device comprises a device main body, a storage structure, an extrusion structure, a pipe collecting structure and a pipeline structure; the storage structure is arranged in the device main body and is used for storing gas and liquid; but extrusion structrual installation is at device main part lower extreme intermittent type nature extrusion storage structure extrudees the gas and the liquid in the storage structure respectively, simultaneously extrusion structure has two kinds of extrusion operation modes of manual and foot-actuated, it can realize through setting up extrusion structure punching press storage structure, continuous input is gaseous in to the storage structure, gas or the formaldehyde removing agent blowout in with the storage structure, carry out the dust blow-off operation before spraying to furniture surface formaldehyde removing agent, thereby make except that the aldehyde effect better, simultaneously extrusion structure has manual extrusion and foot-actuated extrusion two kinds of modes, the user can independently select the use as required, be favorable to long-time operation.

Description

Aldehyde device that removes of multimode operation

Technical Field

The invention relates to the field of aldehyde removal devices, in particular to an aldehyde removal device operated in multiple modes.

Background

Generally, in the production and processing process of furniture factories, in order to increase the beauty and smoothness of furniture and prolong the service life of furniture, so that the furniture is not easy to decay, and the like, paint is sprayed on the surface of the furniture, however, the paint contains formaldehyde which is harmful to human bodies, the formaldehyde is colorless and irritant gas, has an irritant effect on human eyes, noses and the like, and can cause formaldehyde poisoning after being contacted with the human bodies for a long time, so that the formaldehyde remover spraying operation needs to be carried out on the furniture sprayed with the paint containing formaldehyde in the existing life.

However, the direct spraying mode is generally adopted for removing aldehyde at present, because the dust of furniture factories is large, wood dust is easy to accumulate on furniture, the dust is more and easy to influence the aldehyde removing efficiency of the aldehyde removing agent, and the existing aldehyde removing device in life only has the effect of spraying the aldehyde removing agent and cannot blow off the dust on the surface of the furniture by spraying gas.

Disclosure of Invention

The invention aims to provide a multi-mode operation aldehyde removing device, which can realize that a storage structure is punched by arranging an extrusion structure, gas is continuously input into the storage structure to spray the gas or aldehyde removing agent in the storage structure, and dust blowing operation is performed before the aldehyde removing agent on the surface of furniture is sprayed, so that the aldehyde removing effect is better.

In order to solve the above problems, the present invention adopts the following technical solutions.

A multi-mode operation aldehyde removing device comprises a device main body, a storage structure, an extrusion structure, a pipe collecting structure and a pipeline structure;

the storage structure is arranged in the device main body and is used for storing gas and liquid;

the extrusion structure is arranged at the lower end of the device main body and can intermittently extrude the storage structure to respectively extrude the gas and the liquid in the storage structure, and meanwhile, the extrusion structure has two extrusion operation modes of manual extrusion and foot-operated extrusion;

receive tubular construction and install in device main part upper end for accomodate the pipeline, tubular construction install receive tubular construction and with storage structure intercommunication, tubular construction has gas end and liquid end, is used for the discharge of storage structure interior gas and liquid respectively.

Further, the storage structure comprises a liquid collecting cavity chiseled on the device main body, a first groove chiseled at the lower end of the device main body, a pressing plate sliding up and down in the first groove and an air bag placed between the pressing plate and the bottom end in the first groove, a plurality of first compression springs are fixedly connected between the pressing plate and the bottom surface in the first groove and distributed on the outer side of the air bag, a one-way valve is installed on the air bag and is far away from the pressing plate, the one-way valve is used for enabling air to enter the air bag from the outside in a one-way manner, a communicating pipe is further connected between the liquid collecting cavity and the air bag and penetrates through the side wall of the device main body, a first air outlet and a second air outlet are arranged on the communicating pipe, the first air outlet is communicated with the air end of the pipeline structure, the second air outlet is located on the upper side of the first air outlet and is communicated with the upper side inside of the, the end of the liquid outlet far away from the device main body is communicated with the liquid end of the pipeline structure, and the upper end of the device main body is fixedly connected with a liquid inlet communicated with the inside of the liquid collecting cavity.

Furthermore, the extrusion structure comprises a foot pressing device and a hand pressing device, the foot pressing device is connected with the lower end of the device main body and used for foot-operated extrusion of the storage structure to perform gas or liquid discharge operation, and the hand pressing device is connected between the foot pressing device and the device main body and used for hand-operated extrusion of the storage structure to perform gas or liquid discharge operation.

Furthermore, the foot pressing device comprises a pair of positioning blocks fixedly connected with the lower end of the device main body, a pressing rod rotatably connected between the pair of positioning blocks, a second groove formed in the lower end of the device main body and at least one first extension spring in quantity, the first extension spring is fixedly connected between the bottom end in the second groove and the pressing rod and is positioned on one side, away from the storage structure, of the positioning block, one end, away from the first extension spring, of the pressing rod is in contact with the storage structure, and the storage structure can be pressed when the pressing rod rotates clockwise by taking the positioning block as an axis.

Further, the hand pressing device comprises a push plate, a rectangular hole formed in the push plate, a pair of telescopic rods fixedly connected with the foot pressing device and a rotating shaft fixed between the upper end portions of the telescopic rods, a slide way for the rotating shaft to slide is formed in the push plate, the push plate is sleeved at the outer end of the rotating shaft through the slide way, a spring groove communicated with the slide way is further formed in the push plate, a second extension spring is fixedly connected between the bottom end in the spring groove and the rotating shaft, and the second extension spring is located between the slide way and the rectangular hole;

the hand press device further comprises a slot formed in the side wall of the device body, the slot is matched with the end portion of the push plate, and the rectangular hole is located in one side, far away from the slot, of the push plate.

Furthermore, a positioning device is connected between the push plate and the telescopic rod, and the push plate can be fixed when the positioning device enables the push plate to rotate to a vertical state.

Further, positioner includes that fixed connection is close to the third groove of pivot one side in the telescopic link outer end, cuts up the locating lever at the third groove of push pedal lower extreme and sliding connection at the third inslot, is close to fixedly connected with second compression spring between the inner wall of slot one side at locating lever and third groove, and the locating lever slides along push pedal length direction, has the confession on the limiting block the through-hole that the locating lever was inserted and is established, is connected with the footboard between a pair of locating lever.

Furthermore, the limiting block is composed of a clamping ring and a fixing block, the through hole is formed in the fixing block, the distance between one side face, close to the device body, of the fixing block and the center of the clamping ring is equal to one half of the thickness of the push plate, and therefore the push plate can be limited by the fixing block and cannot rotate any more when rotating to be vertical.

Further, receive tubular construction include with the fixed base in device main part upper end and fixed connection receive the pipe pole at the base both ends, pipeline structure winding is in receiving the pipe pole outer end and is run through the base outwards extends.

Further, pipeline structure includes the trachea that communicates with first gas outlet, the liquid pipe that communicates with the liquid outlet, has the installation piece in the upper end joint of receiving the pipe structure, and a pair of removal pipe of fixedly connected with in installation piece upper end, a pair of removal pipe respectively with trachea and liquid pipe fixed connection, install the valve on removing the pipe, trachea and liquid pipe are respectively twined at receiving pipe structure both ends and are run through receive pipe structure and installation piece.

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

first, this scheme is through setting up storage structure, stores gas and liquid, and gaseous accessible extruded mode constantly gets into constantly and supplements.

Two, set up the extrusion structure, have manual extrusion and foot-operated extrusion dual mode, the user can independently select the use as required, is favorable to long-time operation, and when adopting the foot-operated extrusion, manual device still can use as the pushing hands, and convenient to use person promotes this device and removes.

And thirdly, a positioning device is further arranged on the manual operating device, and the telescopic rod is utilized to ensure that a push plate in the manual operating device is kept vertical, so that a user can directly exert the maximum force on the foot pressing device when the user downwards extrudes the manual operating device, and the pressing effect of the foot pressing device is effectively ensured.

Fourth, set up and receive a tub device, cooperate the soft or hard combination of pipeline structure, accomodate each pipeline when not using, more neat, take off during the use, at pipeline length within range, can take to optional position, the flexibility ratio is higher.

And fifthly, a new technical idea is provided, the two operation modes are alternately used, and the user efficiency is greatly improved.

Drawings

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

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the structure at B in FIG. 1;

FIG. 4 is a schematic side view of the tube collecting structure according to the present invention;

FIG. 5 is a perspective view of the extrusion structure of the present invention;

fig. 6 is a schematic structural view of the hand press device of the present invention in use.

The reference numbers in the figures illustrate:

1 a device body;

2, a storage structure, a 21 liquid collecting cavity, a 211 liquid outlet, a 212 liquid inlet, a 22 pressure plate, a 23 air bag, a 231 one-way valve, a 24 first compression spring, a 25 communicating pipe, a 251 first air outlet and a 252 second air outlet;

3, extruding structure, 31 foot pressing device, 311 positioning block, 312 compression bar, 313 first extension spring, 32 hand pressing device, 321 push plate, 322 rectangular hole, 323 extension bar, 324 rotating shaft, 325 slideway, 326 spring slot, 327 second extension spring, 33 positioning device, 331 positioning rod, 332 second compression spring and 333 limiting block;

4, a pipe collecting structure, a base 41 and a pipe collecting rod 42;

5 pipe structure, 51 air pipe, 52 liquid pipe, 53 moving pipe, 54 handheld block, 55 valve, 56 installation block.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

Example 1:

referring to fig. 1-6, a multi-mode operation aldehyde removing device includes a device body 1, a storage structure 2, an extrusion structure 3, a pipe collecting structure 4 and a pipeline structure 5; a storage structure 2 is installed inside the apparatus body 1 for storing gas and liquid; the extrusion structure 3 is arranged at the lower end of the device main body 1 and can intermittently extrude the storage structure 2 to respectively extrude the gas and the liquid in the storage structure 2, and meanwhile, the extrusion structure 3 has two extrusion operation modes of manual extrusion and foot-operated extrusion; receive tubular construction 4 and install in device main part 1 upper end for accomodate the pipeline, tubular construction 5 installs on receiving tubular construction 4 and with storage structure 2 intercommunication, and tubular construction 5 has gas end and liquid end, is used for the discharge of gas and liquid in the storage structure 2 respectively.

Referring to fig. 1-2, the storage structure 2 includes a liquid collecting chamber 21 formed on the device body 1, a first groove formed at the lower end of the device body 1, a pressing plate 22 sliding up and down in the first groove, and an air bag 23 disposed between the pressing plate 22 and the inner bottom of the first groove, the first groove is located at the lower side of the liquid collecting chamber 21, the width of the opening of the first groove is smaller than the width of the bottom of the first groove, the cross section of the pressing plate 22 is a T-shaped structure for preventing the pressing plate 22 from falling out, a plurality of first compression springs 24 are fixedly connected between the pressing plate 22 and the bottom of the first groove, the plurality of first compression springs 24 are distributed at the outer side of the air bag 23, and a gap is formed between the air bag 23 and the air bag 23, so that the expansion and contraction of the first compression springs 24 are not easily affected by the air bag 23, a check valve 231 is installed on the air bag 23 at a side away from the pressing plate 22, a communicating pipe 25 is connected between the liquid collecting cavity 21 and the air bag 23, the communicating pipe 25 penetrates through the side wall of the device main body 1, a first air outlet 251 and a second air outlet 252 are arranged on the communicating pipe 25, the first air outlet 251 is communicated with the air end of the pipeline structure 5, the second air outlet 252 is positioned at the upper side of the first air outlet 251 and is communicated with the upper side inside the liquid collecting cavity 21, a liquid outlet 211 communicated with the lower side inside the liquid collecting cavity 21 is fixedly connected with the outer wall of the device main body 1, the liquid outlet 211 is flush with the bottom surface of the liquid collecting cavity 21 so as to be convenient for the sufficient discharge of the liquid in the liquid collecting cavity 21, one end of the liquid outlet 211 far away from the device main body 1 is communicated with the liquid end of the pipeline structure 5, a liquid inlet 212 communicated with the inside of the liquid collecting cavity 21 is fixedly connected with the upper end of the device main body 1, a cover is hermetically connected with the liquid inlet 212, no other communicable channel is formed, and a relatively sealed space is formed.

Referring to fig. 5, the pressing structure 3 includes a foot pressing device 31 and a hand pressing device 32, the foot pressing device 31 is connected to the lower end of the device body 1 for foot-pressing the storage structure 2 for gas or liquid discharge, and the hand pressing device 32 is connected between the foot pressing device 31 and the device body 1 for hand-pressing the storage structure 2 for gas or liquid discharge.

Referring to fig. 1, the foot pressing device 31 includes a pair of positioning blocks 311 fixedly connected to the lower end of the device body 1, a pressing rod 312 rotatably connected between the pair of positioning blocks 311, a second groove formed in the lower end of the device body 1, and at least one first tension spring 313, the first tension spring 313 is fixedly connected between the bottom end of the second groove and the pressing rod 312 and is located on one side of the positioning block 311 away from the storage structure 2, one end of the pressing rod 312 away from the first tension spring 313 contacts with the storage structure 2, specifically, the middle of the lower end of the pressing plate 22, and the storage structure 2 can be pressed when the pressing rod 312 rotates clockwise with the positioning block 311 as an axis.

Referring to fig. 1 and 3, the hand press device 32 includes a push plate 321, a rectangular hole 322 cut on the push plate 321, a pair of telescopic rods 323 fixedly connected with the foot press device 31, and a rotating shaft 324 fixed between upper ends of the pair of telescopic rods 323, a slideway 325 for the rotating shaft 324 to slide is cut on the push plate 321, the push plate 321 is sleeved on the outer end of the rotating shaft 324 through the slideway 325, the push plate 321 is further provided with a spring slot 326 communicated with the slide 325, a second extension spring 327 is fixedly connected between the bottom end of the spring slot 326 and the rotating shaft 324, the width of the spring slot 326 is slightly larger than the second extension spring 327 and smaller than the width of the slide 325, the diameter of the rotating shaft 324 is larger than the width of the spring slot 326, so that the rotating shaft 324 is not easy to enter the spring slot 326, when the rotating shaft 324 is located at the position closest to the spring groove 326, the second extension spring 327 is in the extension state, and the second extension spring 327 is located between the slide 325 and the rectangular hole 322; the hand press device 32 further comprises a slot formed in the side wall of the device body 1, the slot is matched with the end of the push plate 321, the depth of the slot is enough, and the slot can be set by a person skilled in the art, so that when the end of the push plate 321 is inserted into the slot, the push plate 321 is not easy to touch and disengage randomly, and the rectangular hole 322 is located on one side of the push plate 321 far away from the slot.

Referring to fig. 3 and 5, a positioning device 33 is further connected between the push plate 321 and the telescopic rod 323, and the positioning device 33 enables the push plate 321 to be fixed when rotating to a vertical state, so that the push plate 321 can be held to directly exert the maximum force on the foot pressing device 31 when being pressed down, and the pressing effect on the foot pressing device 31 can be more effectively ensured; the positioning device 33 comprises a limiting block 333 fixedly connected to one side of the outer end of the telescopic rod 323 close to the rotating shaft 324, a third groove cut at the lower end of the push plate 321, and a positioning rod 331 slidably connected in the third groove, the telescopic rod 323 is composed of an inner rod and an outer sleeve, the limiting block 333 is fixed at the outer end of the inner rod and moves synchronously with the rotating shaft 324, a second compression spring 332 is fixedly connected between the positioning rod 331 and the inner wall of the third groove close to one side of the slot, the head of the positioning rod 331 is in an L-shaped structure, the joint of the tail of the positioning rod and the second compression spring 332 is in a T-shaped structure, the section of the third groove is in a T shape matched with the T-shaped structure, so that the positioning rod 331 slides along the length direction of the push plate 321 and is not easy to be separated from the third groove, the limiting block 333 is provided with a through hole for the positioning rod 331 to be inserted, a pedal is connected between a pair of the positioning, namely, the positioning rod 331 is just inserted into the through hole on the limiting block 333, the limiting block 333 is composed of a snap ring and a fixing block, the through hole is arranged on the fixing block, the distance between one side surface of the fixing block close to the device main body 1 and the center of the snap ring is equal to one half of the thickness of the push plate 321, so that the push plate 321 can be limited by the fixing block and does not rotate any more when rotating to be vertical.

Referring to fig. 4, the tube collecting structure 4 includes a base 41 fixed to an upper end of the apparatus body 1 and tube collecting rods 42 fixedly connected to two ends of the base 41, the tube collecting structure 5 is wound around the outer ends of the tube collecting rods 42 and extends outward through the base 41, the tube collecting structure 5 includes an air tube 51 communicating with the first air outlet 251 and a liquid tube 52 communicating with the liquid outlet 211, an installation block 56 is fastened to an upper end of the tube collecting structure 4, specifically, the installation block 56 is T-shaped, a slot is formed in the base 41 to facilitate insertion and fastening of the installation block 56, a pair of moving tubes 53 are fixedly connected to an upper end of the installation block 56, the pair of moving tubes 53 are respectively and fixedly connected to the air tube 51 and the liquid tube 52, a valve 55 is installed on the moving tube 53, the valve 55 controls the flow of air or liquid, the air tube 51 and the liquid tube 52 are respectively wound around two ends of the tube collecting structure 4, the base 41 is used as a boundary, and the air tube 51 and the liquid tube, the transfer pipe 53 is hard, the gas pipe 51 and the liquid pipe 52 are soft, and an atomizing head for dispersing the aldehyde removing agent into fine particles is attached to a port of the transfer pipe 53 connected to the liquid pipe 52 and discharging the fine particles.

The work is as follows: when the extrusion structure 3 is extruded by foot, the valve 55 is opened first, then the user steps on one end of the pressing rod 312 close to the telescopic rod 323, that is, the arrow 31 in fig. 5, the pressing rod 312 rotates clockwise around the rotating point of the pressing rod 312 and the positioning block 311, the other end of the pressing rod 312 presses the pressing plate 22 upwards, the pressing plate 22 moves upwards to press the air bag 23, the air in the air bag 23 is extruded into the communicating pipe 25, the air end valve 55 is opened first, the air in the air bag 23 enters the air pipe 51 through the first air outlet 251 and is sprayed out through the moving pipe 53 to blow off dust on the surface of the furniture, the air end valve 55 is opened by closing the air end, the air in the air bag 23 enters the liquid collecting chamber 21 through the second air outlet 252 to increase the air above the liquid collecting chamber 21, the aldehyde removing agent liquid stored in the liquid collecting chamber 21 is extruded by increasing the air pressure, the aldehyde removing agent is extruded from the liquid outlet 211 into the liquid pipe 52, and is sprayed out, it should be noted that, this moment, the liquid inlet 212 is in a sealed state, otherwise, the gas will leak to the external world and influence the result of use, the user steps on the operation with the foot intermittently and will carry out intermittent extrusion to the gasbag 23, the gas in the gasbag 23 can be continuously supplemented through the check valve 231 after being extruded, moreover, this moment, the push pedal 321 is in the state shown in fig. 1, can use as the pushing hands, the user of being convenient for promotes this device and removes.

However, when the pressing structure 3 is pressed by foot, the user is required to perform a leg lifting operation, and may feel a feeling of a sour leg after a long time, and at this time, the pressing structure may be switched to a manual pressing operation, and when the pressing structure 3 is pressed by hand, unlike the above, after the user opens the valve 55, the user needs to first move the push plate 321 in a direction away from the device body 1, pull the end of the push plate 321 out of the slot, and then rotate the push plate 321 counterclockwise around the rotation shaft 324 as an axis until the push plate 321 is restricted by the restriction block 333 to be in a vertical state shown in fig. 6, and during the rotation, the user needs to step on the pedal by foot, that is, as shown in fig. 5, the filling region on the upper side moves the positioning rod 331 downward below the restriction block 333, so that after the push plate 321 rotates to be vertical, the positioning rod 331 is inserted into the restriction block, and after the insertion, the push plate 321 is difficult to rotate again, when the push plate 321 is pressed downwards until the telescopic rod 323 is compressed to the minimum, the pressing rod 312 can rotate clockwise by continuously pressing downwards.

The user can also remove the mounting block 56 from the base 41, disperse the air tube 51 and the liquid tube 52 wound on the tube collecting rod 42 for several turns, and then hold the holding block 54 to align the pair of moving tubes 53 to the spraying port of the furniture to be sprayed with the aldehyde removing agent.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (10)

1. A multimode-operated aldehyde removal device, characterized in that:

comprises a device main body (1), a storage structure (2), an extrusion structure (3), a pipe collecting structure (4) and a pipeline structure (5);

the storage structure (2) is arranged inside the device main body (1) and is used for storing gas and liquid;

the extrusion structure (3) is arranged at the lower end of the device main body (1) and can intermittently extrude the storage structure (2) to respectively extrude the gas and the liquid in the storage structure (2), and meanwhile, the extrusion structure (3) has two extrusion operation modes of manual operation and foot operation;

receive tubular construction (4) and install in device main part (1) upper end for accomodate the pipeline, install on receiving tubular construction (4) and communicate with storage structure (2) pipeline construction (5), pipeline construction (5) have gas end and liquid end, are used for the discharge of gas and liquid in storage structure (2) respectively.

2. The multi-mode operation aldehyde removal device of claim 1, wherein: the storage structure (2) comprises a liquid collecting cavity (21) dug on the device body (1), a first groove dug at the lower end of the device body (1), a pressing plate (22) sliding up and down in the first groove and an air bag (23) placed between the pressing plate (22) and the bottom end of the first groove, a plurality of first compression springs (24) are fixedly connected between the pressing plate (22) and the bottom surface of the first groove, the plurality of first compression springs (24) are distributed on the outer side of the air bag (23), a one-way valve (231) is installed on one side, away from the pressing plate (22), of the air bag (23) and used for enabling gas to enter the air bag (23) from the outside in a one-way mode, a communicating pipe (25) is further connected between the liquid collecting cavity (21) and the air bag (23), the communicating pipe (25) penetrates through the side wall of the device body (1), a first air outlet (251) and a second air outlet (252) are arranged on the communicating pipe, first gas outlet (251) communicates with each other with the gas end of pipeline structure (5), second gas outlet (252) are located first gas outlet (251) upside and communicate with each other with the inside upside in collecting liquid chamber (21), outer wall fixedly connected with and the communicating liquid outlet (211) of the inside downside in collecting liquid chamber (21) of device main part (1), the one end that device main part (1) was kept away from in liquid outlet (211) communicates with each other with the liquid end of pipeline structure (5), still fixedly connected with and the communicating liquid inlet (212) of collecting liquid chamber (21) inside in the upper end of device main part (1).

3. The multi-mode operation aldehyde removal device of claim 1, wherein: the extrusion structure (3) comprises a foot pressing device (31) and a hand pressing device (32), the foot pressing device (31) is connected with the lower end of the device main body (1) and used for performing gas or liquid discharging operation on the foot-operated extrusion storage structure (2), and the hand pressing device (32) is connected between the foot pressing device (31) and the device main body (1) and used for performing gas or liquid discharging operation on the hand-operated extrusion storage structure (2).

4. A multi-mode operation aldehyde removal device as defined in claim 3, wherein: the foot pressing device (31) comprises a pair of positioning blocks (311) fixedly connected with the lower end of the device main body (1), a pressing rod (312) rotatably connected between the pair of positioning blocks (311), a second groove formed in the lower end of the device main body (1) and at least one first stretching spring (313) in number, the first stretching spring (313) is fixedly connected between the bottom end and the pressing rod (312) in the second groove and is located on one side, far away from the storage structure (2), of the positioning block (311), one end, far away from the first stretching spring (313), of the pressing rod (312) is in contact with the storage structure (2), and the storage structure (2) can be squeezed when the pressing rod (312) rotates clockwise by taking the positioning block (311) as an axis.

5. A multi-mode operation aldehyde removal device as defined in claim 3, wherein: the hand press device (32) comprises a push plate (321), a rectangular hole (322) formed in the push plate (321), a pair of telescopic rods (323) fixedly connected with the foot press device (31) and a rotating shaft (324) fixed between the upper ends of the telescopic rods (323), a slideway (325) for the rotating shaft (324) to slide is formed in the push plate (321), the push plate (321) is sleeved at the outer end of the rotating shaft (324) through the slideway (325), a spring groove (326) communicated with the slideway (325) is further formed in the push plate (321), a second extension spring (327) is fixedly connected between the inner bottom end of the spring groove (326) and the rotating shaft (324), and the second extension spring (327) is located between the slideway (325) and the rectangular hole (322);

the hand press device (32) further comprises a slot formed in the side wall of the device body (1), the slot is matched with the end of the push plate (321), and the rectangular hole (322) is located on one side, far away from the slot, of the push plate (321).

6. The multi-mode operation aldehyde removal device of claim 5, wherein: and a positioning device (33) is also connected between the push plate (321) and the telescopic rod (323), and the positioning device (33) enables the push plate (321) to be fixed when rotating to a vertical state.

7. The multi-mode operation aldehyde removal device of claim 6, wherein: positioner (33) are including fixed connection in telescopic link (323) outer end be close to limiting block (333) of pivot (324) one side, cut at third groove and the locating lever (331) of sliding connection in the third groove of push pedal (321) lower extreme, be close to fixedly connected with second compression spring (332) between the inner wall of slot one side in locating lever (331) and third groove, locating lever (331) slide along push pedal (321) length direction, have the confession on limiting block (333) the through-hole of establishing is inserted in locating lever (331), is connected with the footboard between a pair of locating lever (331).

8. The multi-mode operation aldehyde removal device of claim 7, wherein: the limiting block (333) is composed of a clamping ring and a fixing block, the through hole is formed in the fixing block, the distance between one side face, close to the device main body (1), of the fixing block and the center of the clamping ring is equal to one half of the thickness of the push plate (321), and therefore the push plate (321) can be limited by the fixing block to stop rotating when rotating to be vertical.

9. The multi-mode operation aldehyde removal device of claim 1, wherein: receive tub structure (4) including with fixed base (41) of device main part (1) upper end and fixed connection receive tub pole (42) at base (41) both ends, pipeline structure (5) winding is in receiving tub pole (42) outer end and is run through base (41) are outside to be extended.

10. A multi-mode operation aldehyde removal device as defined in claim 2, wherein: pipeline structure (5) include trachea (51) with first gas outlet (251) intercommunication, liquid pipe (52) with liquid outlet (211) intercommunication, upper end joint in receipts tub structure (4) has installation piece (56), at a pair of removal pipe (53) of installation piece (56) upper end fixedly connected with, a pair of removal pipe (53) respectively with trachea (51) and liquid pipe (52) fixed connection, install valve (55) on removing pipe (53), trachea (51) and liquid pipe (52) twine respectively and run through receive tub structure (4) and installation piece (56).

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