CN109966851B

CN109966851B - Air purification drying equipment for removing formaldehyde

Info

Publication number: CN109966851B
Application number: CN201910175168.9A
Authority: CN
Inventors: 陈宗德; 邵金元; 李惠明; 万日兴
Original assignee: Shanghai Shenjing Electromechanical Complete Equipment Co ltd
Current assignee: Shanghai Shenjing Electromechanical Complete Equipment Co ltd
Priority date: 2019-03-08
Filing date: 2019-03-08
Publication date: 2021-09-21
Anticipated expiration: 2039-03-08
Also published as: CN109966851A

Abstract

The invention discloses air purification drying equipment for removing formaldehyde, which structurally comprises an equipment main body, a control panel, an air inlet, a self-replacing activated carbon purification device, an activated carbon feeding port, an activated carbon discharging port and a purified air discharging port, wherein the equipment main body is of a rectangular structure, and the control panel is embedded in the upper part of the front surface of the equipment main body. According to the invention, the self-replacing activated carbon purification device is arranged, so that the activated carbon for air purification can be automatically replaced, namely, the activated carbon is uniformly filled in a vibration mode, and the saturated activated carbon is replaced by a pushing mode without manual regular replacement, so that the disassembly frequency of the equipment during the replacement of the activated carbon is reduced, the use is convenient, and the purification equipment is protected.

Description

Air purification drying equipment for removing formaldehyde

Technical Field

The invention relates to the field of air purification, in particular to air purification drying equipment for removing formaldehyde.

Background

The house and the new furniture of present new fitment often can have some formaldehyde, and formaldehyde can cause very big injury to human health, and the air purification equipment that can get rid of formaldehyde class is often equipped with in the old family, but, the getting rid of formaldehyde class air purification drying equipment of prior art does have following defect:

air purification equipment mainly utilizes the active carbon to realize air purification, but the active carbon needs regularly to be changed, and traditional manual work is dismantled and is changed, and is comparatively troublesome and time-consuming, often dismantles the damage that can cause the certain degree to equipment simultaneously, and the urgent need can be from the getting rid of formaldehyde air purification drying equipment who changes the active carbon.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide air purification drying equipment for removing formaldehyde, which aims to solve the defects that the air purification equipment in the prior art mainly utilizes activated carbon to realize air purification, but the activated carbon needs to be replaced regularly, the traditional manual disassembly and replacement are troublesome and time-consuming, and the equipment is damaged to a certain extent due to frequent disassembly.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the air purification and drying equipment for removing formaldehyde structurally comprises an equipment main body, a control panel, air inlet holes, a self-replacing activated carbon purification device, an activated carbon adding hole, an activated carbon discharging hole and a purified gas discharging hole, wherein the equipment main body is of a rectangular structure, the control panel is embedded in the upper part of the front surface of the equipment main body, the air inlet holes are uniformly and equidistantly formed in the center of the front surface of the equipment main body, the self-replacing activated carbon purification device is arranged in the equipment main body, the activated carbon adding hole is formed in the upper part of the equipment main body, the activated carbon discharging hole is formed in the lower part of the equipment main body, and the purified gas discharging hole is formed in two sides of the rear part of the equipment main body;

from changing active carbon purifier and accepting the fill by vibrations active carbon unloading mechanism, rotation type from changing mechanism, top bullet mechanism, active carbon and forming, vibrations active carbon unloading mechanism locates inside the equipment main part and is located the rotation type from changing the mechanism top, the rotation type is located inside the equipment main part from changing the mechanism, top bullet mechanism locates the rotation type from changing the mechanism inside below, the active carbon is accepted the fill and is located the rotation type from changing the mechanism below and with equipment main part swing joint.

As a further scheme of the invention, the vibrating activated carbon blanking mechanism is composed of an activated carbon storage hopper, a partition plate, blanking holes and a vibrating spring, wherein the activated carbon storage hopper is positioned above the ejection mechanism, the partition plate is arranged at the bottom of the activated carbon storage hopper and is of an integrated forming structure, the blanking holes are uniformly and equidistantly arranged in the middle of the partition plate, and the vibrating spring is arranged at the edge of the partition plate and is connected with the partition plate through electric welding.

As a further scheme of the invention, the rotary type self-replacing mechanism consists of a rotary mesh belt, hole bags, driving wheels and auxiliary wheels, wherein the rotary mesh belt is in an annular belt shape, the hole bags are uniformly and equidistantly arranged on the outer surface of the rotary mesh belt, the driving wheels are arranged above the inner part of the rotary mesh belt and are in meshing movable connection, and the auxiliary wheels are arranged below the inner part of the rotary mesh belt and are in meshing movable connection.

As a further aspect of the invention, the blanking aperture is aligned with the pocket.

As a further scheme of the invention, the ejection mechanism consists of a cam, a driving shaft, a fixing plate, a stress plate, an extension spring and ejector pins, wherein the cam is connected with the driving shaft through electric welding, the fixing plate is connected with the inner wall of the equipment main body through a telephone, the stress plate is arranged below the fixing plate and welded through the extension spring, and the ejector pins are uniformly and equidistantly arranged on the lower surface of the stress plate.

As a further scheme of the invention, the thimble penetrates through the mesh hole of the rotary mesh belt to be aligned with the hole bag.

Advantageous effects of the invention

Compared with the traditional air purification equipment, the air purification drying equipment for removing formaldehyde can automatically replace the active carbon for air purification through the self-replacing active carbon purification device, namely the active carbon is uniformly filled in a vibration mode, the saturated active carbon is replaced in a pushing mode, manual regular replacement is not needed, the disassembly frequency of the equipment during active carbon replacement is reduced, the equipment is convenient to use, and the purification equipment is protected.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

fig. 1 is a schematic structural diagram of an air purification drying device for removing formaldehyde of the present invention.

Fig. 2 is a structural plan view of a self-replacing activated carbon purification device of the invention.

Fig. 3 is a structural plan view of a self-replacing activated carbon purification device of the invention.

Fig. 4 is a structural plan view of a bullet ejecting mechanism of the present invention.

Fig. 5 is a top view structural diagram of a bullet ejecting mechanism according to the present invention.

In the figure: the device comprises a device main body 1, a control panel 2, an air inlet 3, a self-replacing activated carbon purification device 4, an activated carbon inlet 5, an activated carbon outlet 6, a purified air outlet 7, a vibrating activated carbon blanking mechanism 41, a rotary self-replacing mechanism 42, a top spring mechanism 43, an activated carbon receiving hopper 44, an activated carbon storage hopper 411, a partition plate 412, a blanking hole 413, a vibrating spring 414, a rotary mesh belt 421, a hole bag 422, a driving wheel 423, an auxiliary wheel 424, a cam 431, a driving shaft 432, a fixing plate 433, a stress plate 434, an extension spring 435 and a thimble 436.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-5, the present invention provides a technical solution of an air purification drying apparatus for removing formaldehyde:

an air purifying and drying device for removing formaldehyde comprises a device main body 1, a control panel 2, an air inlet 3, a self-replacing activated carbon purifying device 4, an activated carbon inlet 5, an activated carbon outlet 6 and a purified gas outlet 7, wherein the device main body 1 is of a rectangular structure, the control panel 2 is embedded on the upper portion of the front surface of the device main body 1, the air inlet 3 is uniformly and equidistantly arranged in the center of the front surface of the device main body 1, the self-replacing activated carbon purifying device 4 is arranged in the device main body 1, the activated carbon inlet 5 is arranged on the upper portion of the device main body 1, the activated carbon outlet 6 is arranged on the lower portion of the device main body 1, and the purified gas outlet 7 is arranged on two sides of the rear portion of the device main body 1;

from changing activated carbon purifier 4 by vibrations activated carbon unloading mechanism 41, rotation type from changing mechanism 42, top bullet mechanism 43, activated carbon and hold and connect fill 44 to constitute, vibrations activated carbon unloading mechanism 41 is located 1 inside of equipment main part and is located the rotation type from changing mechanism 42 top, the rotation type is located 1 inside of equipment main part from changing mechanism 42, top bullet mechanism 43 is located the rotation type from changing mechanism 42 inside in the below, activated carbon holds and connects fill 44 to locate the rotation type from changing mechanism 42 below and with equipment main part 1 swing joint.

Vibrations active carbon unloading mechanism 41 is stored by the active carbon and is fought 411, baffle 412, unloading hole 413, vibrations spring 414 and constitutes, active carbon is stored fight 411 and is located the top bullet mechanism 43 top, baffle 412 is located active carbon and is stored fill 411 bottom and be the integrated into one piece structure, the even equidistance in unloading hole 413 is located in the middle of baffle 412, vibrations spring 414 is located baffle 412 edge and is connected through the electric welding.

Rotation type is from changing mechanism 42 and comprises rotatory guipure 421, hole bag 422, drive wheel 423, auxiliary wheel 424, rotatory guipure 421 is the annular belt, rotatory guipure 421 surface is located to the even equidistance of hole bag 422, drive wheel 423 locates the inside top of rotatory guipure 421 and meshes swing joint, inside below of rotatory guipure 421 and meshing swing joint are located to auxiliary wheel 424.

The blanking aperture 413 is aligned with the aperture pocket 422.

The elastic ejection mechanism 43 comprises a cam 431, a driving shaft 432, a fixing plate 433, a stress plate 434, an extension spring 435 and a thimble 436, wherein the cam 431 is connected with the driving shaft 432 through electric welding, the fixing plate 433 is connected with the inner wall of the equipment main body 1 through a telephone, the stress plate 434 is arranged below the fixing plate 433 and welded through the extension spring 435, and the thimbles 436 are uniformly and equidistantly arranged on the lower surface of the stress plate 434.

The thimbles 436 penetrate through the mesh holes of the rotating mesh belt 421 to align with the hole pockets 422.

The working principle of the invention is as follows: firstly, adding a proper amount of activated carbon into an activated carbon storage hopper 411 through an activated carbon inlet 5, then connecting a power supply, setting working parameters through a control panel 2, starting to start working, and allowing waste gas with formaldehyde to enter the interior of an equipment main body 1 through an air inlet 3, pass through the activated carbon in a hole bag 422 and a rotary mesh belt 421, and then be discharged through a purified gas discharge port 7; after the activated carbon facing the air inlet 3 direction is used for a period of time, the driving wheel 423 drives the rotating mesh belt 421 to rotate counterclockwise, at this time, the vibrating partition 412 shakes the activated carbon in the activated carbon storage hopper 411 into the hole bag 422 below through the discharging hole 413, and rotates to the position facing the air inlet 3, and the used activated carbon rotates to the below, and simultaneously, the driving shaft 432 drives the rotating cam 431 to intermittently push the stress plate 434, so that the thimble 436 moves downwards to push the activated carbon in the hole bag 422 out to the activated carbon receiving hopper 44, and when the activated carbon is full, the activated carbon is poured out, and thus the activated carbon self-replacement is completed in a circulating manner.

The invention solves the problem that the air purification equipment in the prior art mainly utilizes the active carbon to realize air purification, but the active carbon needs to be replaced at regular time, the traditional manual disassembly and replacement are troublesome and time-consuming, and meanwhile, the equipment can be damaged to a certain extent due to frequent disassembly.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a get rid of formaldehyde air purification drying equipment, its structure includes equipment main part (1), control panel (2), inlet port (3), changes active carbon purifier (4), active carbon inlet (5), active carbon discharge port (6), net gas discharge port (7) from, its characterized in that:

the equipment main body (1) is of a rectangular structure, the control panel (2) is embedded in the upper portion of the front surface of the equipment main body (1), the air inlets (3) are uniformly and equidistantly arranged in the center of the front surface of the equipment main body (1), the self-replacement activated carbon purification device (4) is arranged in the equipment main body (1), the activated carbon inlet (5) is arranged at the upper portion of the equipment main body (1), the activated carbon outlet (6) is arranged at the lower portion of the equipment main body (1), and the purified gas outlet (7) is arranged at two sides of the rear portion of the equipment main body (1); the automatic-replacement activated carbon purification device (4) consists of a vibration activated carbon blanking mechanism (41), a rotary automatic-replacement mechanism (42), a top bullet mechanism (43) and an activated carbon receiving hopper (44), wherein the vibration activated carbon blanking mechanism (41) is arranged inside the equipment main body (1) and is positioned above the rotary automatic-replacement mechanism (42), the rotary automatic-replacement mechanism (42) is arranged inside the equipment main body (1), the top bullet mechanism (43) is arranged in the rotary automatic-replacement mechanism (42) and below the middle part, and the activated carbon receiving hopper (44) is arranged below the rotary automatic-replacement mechanism (42) and is movably connected with the equipment main body (1); the vibrating activated carbon blanking mechanism (41) is composed of an activated carbon storage hopper (411), a partition plate (412), a blanking hole (413) and a vibrating spring (414), wherein the activated carbon storage hopper (411) is positioned above a top bullet mechanism (43), the partition plate (412) is arranged at the bottom of the activated carbon storage hopper (411) and is of an integrated forming structure, the blanking hole (413) is uniformly and equidistantly arranged in the middle of the partition plate (412), and the vibrating spring (414) is arranged at the edge of the partition plate (412) and is connected with the partition plate through electric welding; the rotary type self-replacing mechanism (42) is composed of a rotary mesh belt (421), hole bags (422), driving wheels (423) and auxiliary wheels (424), the rotary mesh belt (421) is in an annular belt shape, the hole bags (422) are uniformly and equidistantly arranged on the outer surface of the rotary mesh belt (421), the driving wheels (423) are arranged above the inside of the rotary mesh belt (421) and are in meshing movable connection, and the auxiliary wheels (424) are arranged below the inside of the rotary mesh belt (421) and are in meshing movable connection; the elastic ejection mechanism (43) is composed of a cam (431), a driving shaft (432), a fixing plate (433), a stress plate (434), an extension spring (435) and a thimble (436), the cam (431) is connected with the driving shaft (432) through electric welding, the fixing plate (433) is connected with the inner wall of the equipment main body (1) through electric welding, the stress plate (434) is arranged below the fixing plate (433) and welded through the extension spring (435), and the thimble (436) is uniformly arranged on the lower surface of the stress plate (434) at equal intervals.

2. The air purifying and drying equipment for removing the formaldehyde according to claim 1, characterized in that: firstly, adding a proper amount of activated carbon into an activated carbon storage hopper (411) through an activated carbon inlet (5), then connecting a power supply, setting working parameters through a control panel (2), starting to start working, and enabling waste gas with formaldehyde to enter the interior of an equipment main body (1) through an air inlet (3), pass through the activated carbon in a hole bag (422) and a rotary mesh belt (421), and then be discharged through a purified gas discharge port (7); when the activated carbon facing the air inlet hole (3) is used for a period of time, the driving wheel (423) drives the rotary mesh belt (421) to rotate anticlockwise, the vibrating partition plate (412) shakes the activated carbon in the activated carbon storage hopper (411) into the hole bag (422) below through the discharging hole (413), the activated carbon rotates to the position facing the air inlet hole (3), the used activated carbon rotates to the lower side, meanwhile, the driving shaft (432) drives the rotary cam (431) to intermittently push the stress plate (434), the ejector pin (436) moves downwards to eject the activated carbon in the hole bag (422) out to the activated carbon receiving hopper (44), and when the activated carbon receiving hopper is full, the activated carbon is poured out, so that the activated carbon self-replacement is completed in a circulating mode.