JP2022031040A - Multi-way-operable aldehyde-removing device - Google Patents

Abstract

To provide an aldehyde-removing device capable of continuously jetting a gas and an aldehyde-removing agent and capable of giving an effect to furniture or the like on which dust, etc. are accumulated.SOLUTION: A multi-way operable aldehyde-removing device of the present invention includes a device body 1, a storage mechanism, a pressing mechanism, a tube storage mechanism 4, and a tube mechanism 5. The storage mechanism is mounted inside the device body and stores a gas and a liquid. The pressing mechanism is mounted on the lower end of the device body and presses the storage mechanism intermittently to separately discharge the gas and the liquid in the storage mechanism under pressure. The pressing mechanism has two types of pressing operation way, which are a hand-operated way 32 and a leg-operated way 31. The tube storage mechanism is attached to the upper end of the device body and stores a tube line. The tube mechanism is attached to the tube storage mechanism and communicates with the storage mechanism. The tube mechanism has a gas end and a liquid end that discharge gas and liquid in the storage mechanism, respectively.SELECTED DRAWING: Figure 1

Description

The present invention belongs to the area of aldehyde removing devices and particularly relates to multi-method operable aldehyde removing devices.

In the production of furniture, it is common to spray paint on the surface of the furniture in order to meet the demands of aesthetics, smoothness, longevity, and resistance to putrefaction. However, paint contains formaldehyde, which is harmful to the human body. Formaldehyde is a colorless and irritating gas that has an irritating effect on the eyes and nose, and long-term contact with the human body causes formaldehyde poisoning. Therefore, conventionally, it has been submitted to perform an operation of ejecting an aldehyde removing agent on furniture coated with formaldehyde-containing paint.

However, at present, it is generally adopted to remove aldehydes by spraying and applying them as they are. There is a lot of dust in furniture factories, and there is a high possibility that wood chips will accumulate on furniture. If there is a lot of dust, it will severely affect the aldehyde removal efficiency of the aldehyde remover. Even with this, all the conventional aldehyde removing devices have a simple function of ejecting an aldehyde removing agent, but they cannot blow out gas to wipe off dust on the furniture surface.

To solve the problems in the prior art, it is an object of the present invention to provide a multi-method operable aldehyde removing device. Thereby, by providing a pressing structure that presses the storage structure, the gas is constantly sent into the storage structure, and the gas or the aldehyde removing agent in the storage structure is ejected. By performing a dust blowing operation before spraying the aldehyde removing agent on the surface of the furniture, the aldehyde removing effect is further improved. In addition, there are two types of pressing methods, manual pressing and foot movement pressing, which the user can select and use by himself / herself according to the actual situation, and is applied to long-term work.

In order to solve the above problems, the present invention adopts the following technical plan.
The aldehyde removal device that can be operated in multiple ways is
The device body, the storage mechanism, the pressing mechanism, the pipe storage mechanism, and the pipe mechanism are included.
The storage mechanism is installed inside the main body of the device to store gas and liquid.
The pressing mechanism is attached to the lower end of the main body of the device and intermittently presses the storage mechanism to press out the gas and liquid in the storage mechanism, respectively, and the pressing mechanism has two types of pressing operation methods, manual and foot movement. death,
The pipe storage mechanism is attached to the upper end of the main body of the device to store the pipeline, the pipe mechanism is attached to the pipe storage mechanism and communicates with the storage mechanism, and the pipe mechanism discharges the gas and liquid in the storage mechanism, respectively. It has an edge and a liquid edge.

Preferably, the storage mechanism includes a liquid collecting chamber opened in the main body of the apparatus, a first groove opened in the lower end of the main body of the apparatus, a pressure plate slidable up and down in the first groove, and a pressure plate and a first groove. A plurality of first compression springs are fixedly connected between the pressure plate and the bottom surface in the first groove, and the plurality of first compression springs include an airbag arranged between the inner bottom end and the inner bottom end. Located on the outside of the airbag, a one-way valve is mounted on the opposite side of the pressure plate in the airbag, which allows gas to enter the airbag from the outside in one direction, with the liquid collection chamber and the airbag. A communication pipe is further connected between the two, the communication pipe penetrates the side wall of the main body of the apparatus, the communication pipe is provided with a first outlet and a second outlet, and the first outlet and the air of the pipe mechanism 5 are provided. The ends communicate with each other, the second outlet is located above the first outlet and communicates with the inside upper side of the liquid collection chamber, and communicates with the outer wall of the main body of the device to the inner lower side of the liquid collection chamber. The liquid discharge port is fixedly connected, one end of the liquid discharge port opposite to the device main body communicates with the liquid end of the tube mechanism, and the liquid discharge port further communicates with the inside of the liquid collection chamber is fixedly connected to the upper end of the device body. ..

Preferably, the pressing mechanism includes a foot pressure device and a hand pressure device, and the foot pressure device is connected to the lower end of the main body of the device, and the storage mechanism is pressed by the foot movement to discharge gas or liquid. The manual pressure device is connected between the foot pressure device and the main body of the device, and manually presses the storage mechanism to discharge gas or liquid.

Preferably, the foot pressure device is a pair of positioning blocks that are fixedly connected to the lower end of the device body.
It includes a pressure rod rotatably connected between a pair of positioning blocks, a second groove formed at the lower end of the apparatus body, and at least one first tension spring, the first tension spring being the second groove. It is fixedly connected between the bottom end of the inner part and the pressure rod, and is located on the opposite side of the storage mechanism of the positioning block.
One end of the pressure rod on the opposite side to the first tension spring contacts the storage mechanism, and the pressure rod presses the storage mechanism when it rotates clockwise with the positioning block as the axis.

Preferably, the manual pressure device is a thrust plate, a rectangular hole provided in the thrust plate, a pair of telescopic rods fixedly connected to the foot pressure device, and a rotation fixed between the upper ends of the pair of telescopic rods. A runway is opened on the slipway, including the shaft, on which the rotating shaft slides. , The second tension spring is fixedly connected between the bottom end in the spring groove and the rotating shaft, the second tension spring is in tension and the second tension spring is located between the runway and the rectangular hole.
The manual pressure device further includes an insertion groove provided in the side wall of the main body of the device, the insertion groove and the end of the thrust plate are fitted, and the rectangular hole is located on the opposite side of the insertion groove of the thrust plate. do.

Preferably, a positioning device is further connected between the thrust plate and the telescopic rod, and the positioning device fixes the thrust plate when it is rotated to a vertical state.

Preferably, the positioning device is slidably connected to a stop block fixedly connected to the rotation shaft side at the outer end of the telescopic rod, a third groove opened at the lower end of the thrust plate, and the third groove. A second compression spring is fixedly connected between the positioning rod and the inner wall on the fitting groove side in the third groove, and the positioning rod slides along the longitudinal direction of the thrust plate. It is movable, the stop block is provided with a through hole for inserting the positioning rod, and a pedal is connected between the pair of positioning rods.

Preferably, the stop block is mechanismd by an engagement ring and a fixing block, the through holes are installed in the fixing block, and the distance between the side surface of the fixing block on the device body side and the center of the engagement ring is the thickness of the plumb bob. Equal to half, when the thrust plate rotates to the vertical state, it is restricted by the fixed block and cannot rotate.

Preferably, the tube storage mechanism includes a bottom seat fixed to the upper end of the main body of the apparatus and a tube storage rod fixedly connected to both ends of the bottom seat, and the pipe mechanism is wound around the outer end of the pipe storage rod and penetrates the bottom seat. Stretch to the outside.

Preferably, the tube mechanism has a trachea communicating with the first outlet and a fluid tube communicating with the outlet.
A mounting block is engaged and connected to the upper end of the tube storage mechanism, a pair of moving tubes are fixedly connected to the upper end of the mounting block, a pair of moving tubes are fixedly connected to the trachea and a liquid tube, respectively, and a valve is attached to the moving tube. , The trachea and the liquid tube are wound around both ends of the tube storage mechanism, respectively, and penetrate the tube storage mechanism and the mounting block in sequence.

Compared with the prior art, there are the following advantageous effects of the present invention.
(1) The present invention can accumulate gas and liquid by installing a storage configuration, and gas can be constantly sent and replenished by a pressing method.
(2) A pressing configuration is provided, and both manual pressing and foot pressing are provided, so that the user can select and use it by himself / herself according to the actual situation, and it is applied to long-term work. Further, in the case of foot motion pressing, the manual device can be used as a pusher, whereby the user can push the device of the present invention.
(3) A positioning device is provided in the manual device. The telescopic rod holds the thrust plate in the manual device vertically. With this, when the user presses the manual device downward, the maximum force can be directly applied to the foot pressure device. This ensures the pressing effect on the foot pressure device.
A four-tube storage device is provided. In addition to using the soft / hard connection of the pipe configuration, it can be organized by storing each pipe when not in use. In addition, although it is used by picking it up when it is used, it can be picked up to any position within the length range of the pipe, and it is highly flexible.
It provides a new idea of alternating use of five-car operation methods. The efficiency of use is greatly improved.

It is a block diagram of this invention. It is a block diagram at the place A of FIG. It is a block diagram at the B location of FIG. It is a block diagram of the side surface in the pipe storage mechanism of this invention. It is a perspective view which shows the structure of the pressing mechanism of this invention. It is a block diagram of the use state of the manual pressure apparatus of this invention.

[Explanation of code]
2 Accumulation configuration 21 Liquid collection chamber 211 Discharge port 212 Discharge port 22 Pressure plate 23 Air bag 231 One-way valve 24 First compression spring 25 Communication pipe 251 First outlet 252 Second outlet 3 Pressing configuration 31 Foot pressure Device 311 Positioning block 312 Pressure spring 313 First tension spring 32 Manual pressure device 321 Thrust plate 322 Rectangular hole 323 Telescopic rod 324 Rotating shaft 325 Slide 326 Spring groove 327 Second tension spring 33 Positioning device 331 Positioning rod 332 Second compression spring 333 Stop block 4 Pipe storage configuration 41 Bottom seat 42 Pipe storage rod 5 Pipe configuration 51 Air pipe 52 Liquid pipe 53 Moving pipe 54 Handheld block 55 Valve 56 Mounting block

Hereinafter, the technical aspects of the embodiments of the present invention will be clearly and completely described with reference to the drawings of the embodiments of the present invention. Obviously, the embodiments described are only partial embodiments of the present invention. Not all embodiments. Based on the embodiments of the present invention, all other embodiments acquired by those skilled in the art without creative labor belong to the scope of protection of the present invention.

Example 1
As shown in FIGS. 1 to 6, the multi-method operable aldehyde removing device includes a device main body 1, a storage structure 2, a pressing structure 3, a tube storage structure 4, and a tube structure 5. Accumulation configuration 2
It is attached inside the main body of the device 1 and stores gas and liquid. The pressing configuration 3 is attached to the lower end of the apparatus main body 1 and intermittently presses the storage configuration 2 to extrude the gas and the liquid in the storage configuration 2, respectively. Further, the pressing configuration 3 has both types of pressing operation methods, manual and foot movement. The pipe storage configuration 4 is attached to the upper end of the apparatus main body 1 and stores the pipe line. The pipe configuration 5 is attached to the pipe storage configuration 4 and communicates with the storage configuration 2. The pipe configuration 5 has an air end and a liquid end for discharging the gas and the liquid in the storage configuration 2, respectively.

As shown in FIGS. 1 and 2, the storage configuration 2 has a liquid collecting chamber 21 opened in the apparatus main body 1, a first groove opened at the lower end of the apparatus main body 1, and slidable up and down in the first groove. Pressure plate 22 and pressure plate 2
Includes an airbag 23 disposed between 2 and the bottom end in the first groove. The first groove is located below the liquid collecting chamber 21. The width at the opening of the first groove is smaller than the width of the bottom surface of the first groove, and the pressure plate 22
By having a T-shaped cross section, it is possible to prevent the pressure plate 22 from coming off. A plurality of first compression springs 24 are fixedly connected between the pressure plate 22 and the bottom surface in the first groove, and the plurality of first compression springs 24 are airbags so as to have a gap between them and the airbag 23. It will be distributed outside of 23. As a result, the airbag 23 can be prevented from affecting the expansion and contraction of the first compression spring 24. A one-way valve 231 is attached to the opposite side of the pressure plate 22 in the airbag 23. The one-way valve 231 can allow gas to enter the airbag 23 from the outside in one direction, and cannot easily flow out to the outside. A communication pipe 25 is further connected between the liquid collecting chamber 21 and the airbag 23. The communication pipe 25 penetrates the side wall of the apparatus main body 1. The communication pipe 25 is provided with a first outlet 251 and a second outlet 252. The first outlet 251 and the air end of the pipe configuration 5 communicate with each other. The second outlet 252 is located above the first outlet 251 and communicates with the inner upper side of the liquid collecting chamber 21. A liquid discharge port 211 communicating with the inner lower side of the liquid collection chamber 21 is fixedly connected to the outer wall of the apparatus main body 1. By flushing the bottom surface of the liquid discharge port 211 and the liquid collection chamber 21,
The liquid in the liquid collecting chamber 21 can be sufficiently discharged. One end of the liquid discharge port 211 on the opposite side of the device main body 1 communicates with the liquid end of the pipe configuration 5. A liquid discharge port 212 that communicates with the inside of the liquid collection chamber 21 is fixedly connected to the upper end of the device main body 1. The lid is hermetically connected to the discharge port 212. When the liquid discharge port 212 is sealed by the lid, the liquid collection chamber 21 has other communication paths other than the second air outlet 252 and the liquid discharge port 211, which are passages that indirectly communicate with the outside world. It does not have and constitutes a relatively closed space.

As shown in FIG. 5, the pressing configuration 3 includes a foot pressure device 31 and a manual pressure device 32. The foot pressure device 31 is connected to the lower end of the device main body 1 and presses the storage configuration 2 by foot movement to discharge gas or liquid. The manual pressure device 32 is connected between the foot pressure device 31 and the device main body 1.
It is assumed that the storage configuration 2 is manually pressed to discharge the gas or liquid.

As shown in FIG. 1, the foot pressure device 31 is rotatably connected between a pair of positioning blocks 311 fixedly connected to the lower end of the device main body 1 and a pair of positioning blocks 311.
12. Includes a second groove formed at 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 in the second groove and the pressure rod 312, and is located on the opposite side of the storage configuration 2 of the positioning block 311. One end of the pressure rod 312 on the opposite side of the first tension spring 313 contacts the storage configuration 2, but specifically contacts the middle portion of the lower end of the pressure plate 22. The pressure rod 312 is configured to press the storage configuration 2 when rotated clockwise with the positioning block 311 as the axis.

As shown in FIGS. 1 and 3, the hand pressure device 32 includes a thrust plate 321, a rectangular hole 322 provided in the thrust plate 321 and a pair of telescopic rods 323 fixedly connected to the foot pressure device 31. Includes a rotating shaft 324 fixed between the upper ends of the pair of telescopic rods 323. A runway 325 on which the rotation shaft 324 slides is provided on the slipway 321. The thrust plate 321 is connected to the outer end of the rotating shaft 324 by a runway 325. Further, a spring groove 326 communicating with the runway 325 is opened in the slipway 321. A second tension spring 327 is fixedly connected between the bottom end in the spring groove 326 and the rotary shaft 324. The width of the spring groove 326 is slightly larger than the second tension spring 327 and smaller than the width of the runway 325.
By making the diameter of the rotating shaft 324 larger than the width of the spring groove 326, the rotating shaft 324 cannot easily enter the spring groove 326. When the rotating shaft 324 is located closest to the spring groove 326, it appears that the second tension spring 327 is in tension and the second tension spring 327 is located between the runway 325 and the rectangular hole 322. .. The manual pressure device 32 further includes an insertion groove provided in the side wall of the device main body 1. The fitting groove and the end portion of the thrust plate 321 are fitted. The groove depth of the fitting groove is sufficient, and it can be installed by a person skilled in the art. As a result, when the end portion of the thrust plate 321 is inserted into the fitting groove, the thrust plate 321 does not easily come off when touched, and the rectangular hole 32 is formed.
2 is located on the opposite side of the insertion groove of the thrust plate 321.

As shown in FIGS. 3 and 5, a positioning device 33 is further located between the thrust plate 321 and the telescopic rod 323.
Is connected. The thrust plate 321 can be fixed by rotating the thrust plate 321 in a vertical state by the positioning device 33. As a result, when the thrust plate 321 is gripped and pressed down, the maximum force can be directly applied to the foot pressure device 31. This makes it possible to more effectively guarantee the pressing effect on the foot pressure device 31. The positioning device 33 is slidable in a stop block 333 fixedly connected to the rotation shaft 324 side at the outer end of the telescopic rod 323, a third groove opened at the lower end of the thrust plate 321 and the third groove. Includes a positioning rod 331 to be connected. The telescopic rod 323 is composed of an inner rod and an outer cylinder. The stop block 333 is fixed to the outer end of the inner rod and can move along the vertical direction in synchronization with the rotation shaft 324. The second compression spring 332 is fixedly connected between the positioning rod 331 and the inner wall on the fitting groove side of the third groove. The front end of the positioning rod 331 has an L-shaped structure, and the end portion has a T-shaped structure connected to the second compression spring 332. Together with that, the third
The cross section of the groove is T-shaped. As a result, the positioning rod 331 can slide along the longitudinal direction of the thrust plate 321 and does not easily escape from the third groove. The stop block 333 is provided with a through hole into which the positioning rod 331 is inserted. A pedal is connected between the pair of positioning rods 331. When the second compression spring 332 draws a circle with the rotating shaft 324 as the center of the circle while the second compression spring 332 is in a natural state, the positioning rod 331 can be positioned in the orbit of the circle together with the stop block 333. That is, the positioning rod 331 can be inserted into the through hole on the stop block 333. The stop block 333 is composed of an engagement ring and a fixed block. Through holes are installed in the fixed block. By making the distance between the side surface of the fixed block on the device body 1 side and the center of the engaging ring equal to one half of the thickness of the thrust plate 321, the rotation of the thrust plate 321 in the vertical state is restricted by the fixed block. It becomes impossible to rotate further.

As shown in FIG. 4, the pipe storage configuration 4 includes a bottom seat 41 fixed to the upper end of the apparatus main body 1 and a pipe storage rod 42 fixedly connected to both ends of the bottom seat 41. The pipe configuration 5 is wound around the outer end of the pipe storage rod 42 and extends outward through the bottom seat 41. The pipe configuration 5 has a trachea 51 communicating with the first outlet 251 and a liquid pipe 52 communicating with the liquid outlet 211. The mounting block 56 is engaged and connected to the upper end of the pipe storage configuration 4. Specifically, the mounting block 56 has a T-shape, and a groove is provided in the bottom seat 41. As a result, the mounting block 56 is inserted and engaged. A pair of moving pipes 53 are fixedly connected to the upper end of the mounting block 56. Each pair of moving tubes 53 is a trachea 5
1 and the liquid pipe 52 are fixedly connected. The valve 55 is attached to the moving pipe 53. The valve 55 controls the flow / shutoff of gas or liquid. The trachea 51 and the liquid tube 52 are wound around both ends of the tube storage structure 4, respectively, and the trachea 51 and the liquid tube 52 both sequentially penetrate the tube storage structure 4 and the mounting block 56 with the bottom seat 41 as a boundary. Further, the moving tube 53 is made of a hard material, and the trachea 51 and the liquid tube 52 are made of a soft material. At the end of the moving pipe 53 connected to the liquid pipe 52,
By attaching the atomizing head, the aldehyde removing agent can be dispersed in fine granules and discharged.

The operating principle of the present invention will be described. When the pressing configuration 3 is a foot motion pressing, first the valve 55
To open the valve. Then, when the user steps on one end of the rod 312 on the telescopic rod 323 side and presses it (as shown by the point indicated by the arrow 31 in FIG. 5), the pivot points of the rod 312 and the positioning block 311 are circled. The pressure rod 312 is rotated clockwise as a center, and the pressure plate 2 is rotated by the other end of the pressure rod 312.
Push up 2. When the pressure plate 22 is moved upward, the airbag 23 is pressed. As a result, the gas in the airbag 23 is extruded and entered into the communication pipe 25. First, the valve 55 at the air end is opened to allow the gas in the airbag 23 to enter the trachea 51 through the first air outlet 251. Then, the gas is ejected by the moving pipe 53 to blow off the dust on the furniture surface. Then, the air end is closed and the liquid end valve 55 is opened to allow the gas in the airbag 23 to enter the liquid collection chamber 21 through the second air outlet 252. This increases the air above the liquid collection chamber 21. When the atmospheric pressure increases, the aldehyde removing agent liquid accumulated in the liquid collecting chamber 21 is pressed. As a result, the aldehyde removing agent is extruded from the discharge port 211 to enter the liquid pipe 52, and finally is ejected from the other moving pipe 53 onto the surface of the furniture. It should be noted that in this case, the discharge port 212 should be in a sealed state, otherwise it will be exposed to the outside and affect the effect of use. When the user intermittently steps on the airbag, the airbag 23 is intermittently pressed. Airbag 23
Once extruded, the gas in it is constantly replenished via the one-way valve 231. In addition, the thrust plate 32
Since No. 1 is in the state shown in FIG. 1, it can be used as a pusher and is convenient for pushing the device.
However, depending on the above-mentioned foot movement pressing method, the user should raise his / her foot for operation, and therefore he / she should feel foot acid over time. When this happens, you may switch to the manual pressing operation. When the pressing configuration 3 is a manual pressing operation, the valve 5 is different from the above.
To open 5, first move the thruster 321 to the opposite side of the device body 1, pull out the end of the thruster 321 from the insertion groove, and then the thruster 321 stops the block 33 with the rotating shaft 324 as the axis.
The thrust plate 321 is rotated in a counterclockwise order until it is limited to 3 and stays in the vertical state shown in FIG. Here, the pedal should be depressed over the rotation period, i.e., as shown in the filling area above FIG. 5, by stopping the positioning rod 331 downward and moving it below the block 333, the thruster 321 is vertical. When rotated to, the positioning rod 331 stops and the block 3
It comes to be inserted into 33, and if it is inserted, it is difficult to rotate the thrust plate 321 again unless the pedal is pressed again. At this time, while holding the thrust plate 321 and the telescopic rod 323 vertically, the thrust plate 321 is pressed, and the telescopic rod 323 is pressed until it is compressed to the shortest limit. Start rotating.

The user can also remove the mounting block 56 from the bottom seat 41. The trachea 51 and the liquid tube 52 wound around the tube storage rod 42 may be loosened several times, and the handheld block 54 may be grasped to align the spouts of the pair of moving pipes 53 with the furniture to which the aldehyde removing agent is ejected. ..

Only better embodiments of the invention have been described above. However, the scope of the present invention is not limited to this. Technicians familiar with the art should include within the scope of the invention the technical schemes according to the invention and ideas of improvements thereof, equivalent replacements or modifications within the scope of the technology to which the invention belongs. It should be understood that there is.

Claims (10)

It is an aldehyde removal device that can be operated in multiple ways.
The apparatus main body 1, the accumulating mechanism 2, the pressing mechanism 3, the pipe accommodating mechanism 4, and the pipe mechanism 5 are included.
The storage mechanism 2 is mounted inside the main body 1 of the apparatus and stores gas or liquid to store gas or liquid.
The pressing mechanism 3 is attached to the lower end of the apparatus main body 1 and intermittently presses the storage mechanism 2 to press out the gas and the liquid in the storage mechanism 2, respectively, and the pressing mechanism 3 has two types of manual movement and foot movement. Has a pressing operation method,
The pipe storage mechanism 4 is attached to the upper end of the apparatus main body 1 to store the pipe, and the pipe mechanism 5 is the pipe storage mechanism 4.
And communicated with the storage mechanism 2, the pipe mechanism 5 has an air end and a liquid end for discharging the gas and the liquid in the storage mechanism 2, respectively.
A multi-method operable aldehyde removal device. The storage mechanism 2 includes a liquid collecting chamber 21 opened in the apparatus main body 1, a first groove opened at the lower end of the apparatus main body 1, a pressure plate 22 slidable up and down in the first groove, and a pressure plate 22. A plurality of firsts including an airbag 23 arranged between the bottom end in the first groove and the pressure plate 22 and the bottom surface in the first groove.
The compression spring 24 is fixedly connected, and the plurality of first compression springs 24 are arranged outside the airbag 23, and a one-way valve 231 is attached to the opposite side of the pressure plate 22 in the airbag 23, so that the one-way valve 231 has a one-way valve 231. Gas can enter the air bag 23 from the outside in one direction, a communication pipe 25 is further connected between the liquid collecting chamber 21 and the air bag 23, and the communication pipe 25 penetrates the side wall of the apparatus main body 1. A first outlet 251 and a second outlet 252 are provided in the communication pipe 25, the first outlet 251 and the air end of the pipe mechanism 5 communicate with each other, and the second outlet 252 is the first. The liquid discharge port 211, which is located above the air discharge port 251 and communicates with the inner upper side of the liquid collection chamber 21, and communicates with the inner lower side of the liquid collection chamber 21 to the outer wall of the apparatus main body 1, is fixedly connected to the liquid discharge port. One end of the 211 opposite to the device main body 1 communicates with the liquid end of the tube mechanism 5, and a liquid discharge port 212 communicating with the inside of the liquid collection chamber 21 is fixedly connected to the upper end of the device main body 1. The multi-method operable aldehyde removing device according to claim 1. The pressing mechanism 3 includes a foot pressure device 31 and a hand pressure device 32, and the foot pressure device 31 is connected to the lower end of the device main body 1 to press the storage mechanism 2 by foot movement to discharge gas or liquid. The manual pressure device 32 is connected between the foot pressure device 31 and the device main body 1, and is characterized in that the storage mechanism 2 is manually pressed to discharge gas or liquid. The multi-method operable aldehyde removing device according to claim 1. The foot pressure device 31 includes a pair of positioning blocks 311 fixedly connected to the lower end of the device main body 1 and a pair of positioning blocks 311.
A first including a pressure rod 312 rotatably connected between the pair of positioning blocks 311 and a second groove formed at the lower end of the apparatus body 1 and at least one first tension spring 313.
The tension spring 313 is fixedly connected between the bottom end in the second groove and the pressure rod 312, and is located on the side opposite to the storage mechanism 2 of the positioning block 311 and on the side opposite to the first tension spring 313 of the pressure rod 312. The multi-method operable aldehyde removal according to claim 3, wherein one end contacts the storage mechanism 2 and the pressure rod 312 presses the storage mechanism 2 when it rotates clockwise around the positioning block 311. Device. The manual pressure device 32 includes a thrust plate 321, a rectangular hole 322 provided in the thrust plate 321 and a foot pressure device 31.
A runway 325 on which the rotary shaft 324 slides is opened on the thrust plate 321 including a pair of telescopic rods 323 fixedly connected to the slipway and a rotary shaft 324 fixed between the upper ends of the pair of telescopic rods 323. , The slipway 321 is connected to the outer end of the rotary shaft 324 through the slipway 325, and the slipway 321 is further provided with a spring groove 326 communicating with the slipway 325, and the bottom end in the spring groove 326 and the rotary shaft 324.
The second tension spring 327 is fixedly connected to and from, the second tension spring 327 is in a tension state, and the second tension spring 327 is located between the runway 325 and the rectangular hole 322.
The manual pressure device 32 further includes a fitting groove provided in the side wall of the device main body 1, and the fitting groove and the thrust plate 32.
The multi-method operable aldehyde removing device according to claim 3, wherein the end portion of 1 is fitted and the rectangular hole 322 is located on the opposite side of the insertion groove of the thrust plate 321. A positioning device 33 is further connected between the thrust plate 321 and the telescopic rod 323, and the positioning device 33 is further connected.
5. The thrust plate 321 is fixed when it is rotated to a vertical state.
The multi-method operable aldehyde removal device described in. The positioning device 33 slides into a stop block 333 fixedly connected to the rotation shaft 324 side at the outer end of the telescopic rod 323, a third groove opened at the lower end of the thrust plate 321 and the third groove. The second compression spring 332 is fixedly connected between the positioning rod 331 and the inner wall on the fitting groove side in the third groove, including the positioning rod 331 to be connected, and the positioning rod 33 is connected.
Reference numeral 1 is slidable along the longitudinal direction of the thrust plate 321. The stop block 333 is provided with a through hole for inserting the positioning rod 331, and a pedal is connected between the pair of positioning rods 331. The multi-method operable aldehyde removing device according to claim 6, wherein the aldehyde removing device is characterized by the above. The stop block 333 is a mechanism consisting of an engagement ring and a fixed block, a through hole is installed in the fixed block, and the distance between the side surface of the fixed block on the device body 1 side and the center of the engaging ring is the thrust plate 3.
The multi-method operable aldehyde removing device according to claim 7, wherein when the thrust plate 321 is rotated to a vertical state, it is restricted by a fixed block and cannot rotate, which is equal to one half of the thickness of 21. The pipe storage mechanism 4 includes a bottom seat 41 fixed to the upper end of the apparatus main body 1 and a pipe storage rod 42 fixedly connected to both ends of the bottom seat 41, and the pipe mechanism 5 is wound around the outer end of the pipe storage rod 42 and has a bottom seat. 41
The multi-method operable aldehyde removing device according to claim 1, wherein the aldehyde removing device penetrates the aldehyde and extends to the outside. The pipe mechanism 5 includes a trachea 51 communicating with the first outlet 251 and a liquid pipe 52 communicating with the liquid outlet 211.
The mounting block 56 is engaged and connected to the upper end of the tube storage mechanism 4, the pair of moving tubes 53 is fixedly connected to the upper end of the mounting block 56, and the pair of moving tubes 53 are the trachea 51 and the liquid tube 5, respectively.
A valve 55 is attached to the moving tube 53, and the trachea 51 and the liquid tube 52 are wound around both ends of the tube accommodating mechanism 4, respectively, and sequentially penetrate the tube accommodating mechanism 4 and the attachment block 56. 2. The multi-method operable aldehyde removing device according to claim 2.

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