CN112915663A

CN112915663A - Harmful gas treatment equipment for environmental protection engineering

Info

Publication number: CN112915663A
Application number: CN202110150155.3A
Authority: CN
Inventors: 陈水平
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-03
Filing date: 2021-02-03
Publication date: 2021-06-08

Abstract

The invention discloses harmful gas treatment equipment for environmental protection engineering, which structurally comprises a conveying pipe, a purification tank, a conversion cabin and a driver, wherein the conveying pipe of a contact device is in threaded connection with the front end of the conversion cabin; contact means purifying tank is by the frame, purify the layer, adsorption equipment, the installation layer is constituteed, contact means purifies the layer and inlays solid the connection in the inboard upper end of frame, when gaseous extraction has the cotton wool to enter into, can be intercepted and adhere to the infiltration hole department in the bulkhead, utilize the downthehole adsorption plate of infiltration hole to adsorb it, make it be the crooked recess face of spreading out the form laminating in the inside groove, and gaseous can normally circulate from circulation department, and then be favorable to intercepting the cotton wool, avoid its entering to adsorb in adsorption equipment's surface.

Description

Harmful gas treatment equipment for environmental protection engineering

Technical Field

The invention belongs to the field of environmental protection equipment, and particularly relates to harmful gas treatment equipment for environmental protection engineering.

Background

Harmful gas treatment equipment for environmental protection engineering mainly refers to and uses different technology, collects the combustion gas, makes it collect in the clean room, intercepts the particulate matter of different diameters through the filter layer of multilayer, utilizes active carbon to adsorb the peculiar smell afterwards.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: when equipment is handled gas, need utilize the adsorption equipment in the equipment to adsorb it, and when this equipment was used to the wool mill, equipment can be with floating in the air in lighter cotton wool together suction device when adsorbing gas, impel partly rectangular form batting can adhere in adsorption equipment's entry and filter layer surface, form and press and cover to cause the jam to the filter layer, influence its adsorption effect to gas.

Therefore, it is necessary to provide a harmful gas treatment apparatus for environmental protection engineering.

Disclosure of Invention

To solve the problems of the above-described technology.

The invention relates to a harmful gas treatment device for environmental protection engineering, which is achieved by the following specific technical means: the structure of the device comprises a conveying pipe, a purification tank, a conversion cabin and a driver, wherein the conveying pipe is in threaded connection with the front end of the conversion cabin, the purification tank is vertically connected with the lower end of the conveying pipe, the driver is movably clamped at the front end of the conversion cabin, and the conveying pipe is positioned at the upper end of the driver; the purification tank comprises frame, purification layer, adsorption equipment, mounting layer, purify the layer and inlay solid and connect in the inboard upper end of frame, adsorption equipment activity block is in the inboard bottom of frame, mounting layer and frame structure as an organic whole.

The adsorption device is composed of a separation mechanism, a power shaft, rotating blades and a rotating shaft, wherein the separation mechanism is connected to the upper end of the power shaft in a riveting mode, the rotating blades are fixedly connected to the left side and the right side of the rotating shaft in an embedding mode, the rotating shaft is movably clamped in the middle of the lower end of the power shaft in a clamping mode, the separation mechanism is arranged on the upper end of the power shaft in an edge wrapping mode, and the surface of the separation mechanism is hollowed out.

Wherein, separation mechanism comprises filtering layer, seepage hole, slewing mechanism, connecting block, bulkhead, seepage hole and bulkhead structure as an organic whole, slewing mechanism activity joint in the filtering layer rear side, the connecting block is connected in filtering layer rear side outer ring in an embedded manner, the filtering layer is located the bulkhead rear end, the connecting block is the bar and encircles in the inner outer ring of filtering layer.

Wherein, the seepage hole comprises inside groove, adsorption plate, fretwork board, circulation department, the adsorption plate is integrated structure with circulation department, the fretwork board riveting is connected between the adsorption plate, the fretwork board is located inside groove lower extreme middle part, certain angle of adsorption plate slope is gathered together to the inboard, and circulation department is equipped with the adsorption plate inboard, is the fretwork form.

The rotating mechanism is composed of blades, a contact device and a rotating shaft, the contact device and the blades are of an integrated structure, the blades are fixedly embedded in the end face of the outer side of the rotating shaft, the contact device is installed at the top end of each blade in an annular shape, and the left end and the right end of each contact device protrude to form a pointed shape.

The contact device is composed of an ejection block, a connecting plate and a bottom layer, the ejection block is fixedly connected to the left side and the right side of the upper end of the bottom layer in an embedded mode, the bottom layer is welded and connected to the upper end of the connecting plate, two seepage holes are symmetrically distributed, and the top end of each seepage hole is wrapped by a rubber layer.

Wherein, ejecting piece comprises contact block, hollow layer, fixed plate, bending ring, contact block inlays solid and connects in the upper left end face of bending ring, hollow layer and fixed plate structure as an organic whole, the bending ring activity block fits in the fixed plate outside, the hollow layer is installed in the fixed plate inboard for half circular, has certain elasticity simultaneously, and is flexible when the extrusion.

Compared with the prior art, the invention has the following beneficial effects:

1. when gaseous extraction had the cotton wool to enter into, can be intercepted the infiltration orifice department of being attached to in the bulkhead, utilize the downthehole adsorption plate of infiltration to adsorb it, make it be the crooked recess face of spreading out the form laminating in the inside groove, and gaseous can normally circulate from circulation department, and then be favorable to intercepting the cotton wool, avoid its entering to adsorb in adsorption equipment's surface.

2. Through the contact device in the blade, the ejecting piece that utilizes inner bottom layer upper end left and right sides contacts with the connecting block edge at pivoted in-process, utilizes contact piece on the bending ring rather than the collision later in the contact, makes its slight vibration that produces conduct filtering layer department through the collision, and then will adsorb in the batting on filtering layer surface and shake off, avoids it to press to cover and causes the jam in the filtering layer surface

Drawings

FIG. 1 is a schematic structural diagram of a harmful gas treatment facility for environmental protection engineering according to the present invention.

FIG. 2 is a schematic structural diagram of a purification tank of a harmful gas treatment device for environmental protection engineering according to the present invention.

FIG. 3 is a schematic structural diagram of an adsorption device of a harmful gas treatment apparatus for environmental protection engineering according to the present invention.

Fig. 4 is a schematic structural view of a blocking mechanism of a harmful gas treatment device for environmental protection engineering according to the present invention.

FIG. 5 is a schematic structural view of a seepage hole of a harmful gas treatment apparatus for environmental protection engineering according to the present invention.

FIG. 6 is a schematic structural diagram of a rotating mechanism of a harmful gas treatment device for environmental protection engineering according to the present invention.

FIG. 7 is a schematic structural diagram of a contact device of a harmful gas treatment apparatus for environmental protection engineering according to the present invention.

Fig. 8 is a schematic structural diagram of an ejection block of the harmful gas treatment equipment for environmental protection engineering.

In the figure: the device comprises a conveying pipe-1, a purification tank-2, a conversion cabin-3, a driver-4, an outer frame-21, a purification layer-22, an adsorption device-23, an installation layer-24, a blocking mechanism-231, a power shaft-232, a rotating blade-233, a rotating shaft-234, a filtering layer-311, a seepage hole-312, a rotating mechanism-313, a connecting block-314, a partition frame-315, an inner groove-121, an adsorption plate-122, a hollow plate-123, a circulation part-124, a blade-131, a contact device-132, a rotating shaft-133, an ejection block-321, a connecting plate-322, a bottom layer-323, a contact block-211, a hollow layer-212, a fixing plate-213 and a bending ring-214.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides harmful gas treatment equipment for environmental protection engineering, which structurally comprises a conveying pipe 1, a purification tank 2, a conversion cabin 3 and a driver 4, wherein the conveying pipe 1 is in threaded connection with the front end of the conversion cabin 3, the purification tank 2 is vertically connected with the lower end of the conveying pipe 1, the driver 4 is movably clamped at the front end of the conversion cabin 3, and the conveying pipe 1 is positioned at the upper end of the driver 4; purification tank 2 comprises frame 21, purification layer 22, adsorption equipment 23, installation layer 24, purification layer 22 embedded connection is in frame 21 inboard upper end, adsorption equipment 23 activity joint is in frame 21 inboard bottom, installation layer 24 and frame 21 structure as an organic whole.

Wherein, adsorption equipment 23 comprises separation mechanism 231, power shaft 232, commentaries on classics leaf 233, pivot 234, separation mechanism 231 riveting is connected directly over the power shaft 232, commentaries on classics leaf 233 inlays the solid and connects in the pivot 234 left and right sides, pivot 234 activity block closes in power shaft 232 lower extreme middle part, separation mechanism 231 is marginal parcel form and installs in power shaft 232 upper end, and the surface is the fretwork form, and then is favorable to collecting the processing to the cotton fibre when gaseous absorption, avoids causing the jam.

Wherein, separation mechanism 231 comprises filtering layer 311, seepage hole 312, slewing mechanism 313, connecting block 314, bulkhead 315, seepage hole 312 and bulkhead 315 structure as an organic whole, slewing mechanism 313 activity block in filtering layer 311 rear side, connecting block 314 embedded joint is in filtering layer 311 rear side outer loop, filtering layer 311 is located bulkhead 315 rear end, connecting block 314 is the bar and encircles in the inner outer loop of filtering layer 311, and then is favorable to its slewing mechanism 313 to rotate when equipment adsorbs and bumps connecting block 314 outer end, makes it produce slight vibration, will press the cotton fibre on filtering layer 311 surface and shake off.

Wherein, seepage hole 312 comprises inside groove 121, adsorption plate 122, fretwork board 123, circulation department 124, adsorption plate 122 and circulation department 124 structure as an organic whole, fretwork board 123 riveting is connected between adsorption plate 122, fretwork board 123 is located inside groove 121 lower extreme middle part, certain angle of adsorption plate 122 slope is gathered together to the inboard, and circulation department 124 is equipped with the adsorption plate 122 inboard, is the fretwork form, is convenient for adsorb the batting when gas adsorbs and collects in the lower extreme groove position of inside groove 121, and gas circulates from circulation department 124 simultaneously.

The specific use mode and function of the embodiment are as follows:

in the use process of the invention, the purification tank 2 is used for adsorbing and purifying gas, the power shaft 232 in the adsorption device 23 is driven to rotate by the power action of the driver 4, the rotating blade 233 at the lower end is driven to rotate during rotation, external gas is driven to enter the purification layer 22 for purification treatment, when cotton wool is extracted from the gas, the gas is intercepted and attached to the seepage hole 312 in the partition frame 315, the gas is adsorbed by the adsorption plate 122 in the seepage hole 312, the gas is driven to be attached to the curved groove surface of the inner groove 121 in a spreading-out shape, the gas can normally circulate from the circulation part 124, the cotton wool is further favorably intercepted, the gas is prevented from entering and being adsorbed on the outer surface of the adsorption device 23, and finally the evolved gas flows into the conversion cabin 3 through the conveying pipe 1 and is conveyed into the conversion cabin 3.

Example 2:

as shown in fig. 6 to 8: separation mechanism 231 comprises filtering layer 311, seepage hole 312, slewing mechanism 313, connecting block 314, bulkhead 315, seepage hole 312 and bulkhead 315 structure as an organic whole, slewing mechanism 313 activity block in filtering layer 311 rear side, connecting block 314 embedded joint is in filtering layer 311 rear side outer loop, filtering layer 311 is located bulkhead 315 rear end, connecting block 314 is the bar and encircles in the inner outer loop of filtering layer 311, and then is favorable to its slewing mechanism 313 to rotate when equipment adsorbs and bumps connecting block 314 outer end, makes it produce slight vibration, shakes off the cotton fibre of cladding in filtering layer 311 surface.

The rotating mechanism 313 comprises blades 131, a contact device 132 and a rotating shaft 133, the contact device 132 and the blades 131 are of an integrated structure, the blades 131 are fixedly embedded in the end face of the outer side of the rotating shaft 133, the contact device 132 is mounted at the top end of the blades 131 in a ring shape, the left end and the right end of the contact device are protruded to form a pointed angle shape, so that when the rotating shaft 133 drives the blades 131 to rotate, the pointed ends of the contact device can be used for colliding with the outer ring on the inner side of the filter screen, and cotton wool pressed on the surface can be shaken off.

Wherein, contact device 132 comprises ejection block 321, connecting plate 322, bottom 323, ejection block 321 builds in and connects in the bottom 323 upper end left and right sides, bottom 323 welded connection is in connecting plate 322 upper end, seepage hole 312 is equipped with two and is the symmetric distribution, and the top wraps up the rubber layer, and then avoids causing the damage to the filter screen when bumping with the filter layer outer loop.

Wherein, ejecting piece 321 comprises contact piece 211, hollow layer 212, fixed plate 213, crooked ring 214, contact piece 211 embedded solid is connected in crooked ring 214 upper left end face, hollow layer 212 and fixed plate 213 structure as an organic whole, crooked ring 214 activity block is in the fixed plate 213 outside, hollow layer 212 is installed in fixed plate 213 inboardly for the semicircle form, has certain elasticity simultaneously, and flexible when the extrusion is convenient for carry out effectual shrink when contact piece 211 contacts with the filter screen, avoids block in the outer wall when rotating, is difficult to remove.

The specific use mode and function of the embodiment are as follows:

the connecting block 314 is connected to the outer ring of the filter layer 311, the power shaft 232 can drive the rotating shaft 133 in the rotating mechanism 313 to rotate together when rotating, the blades 131 on the outer side can be driven to rotate by being pulled in the rotating process of the rotating shaft 133, the contact device 132 is arranged in the blades 131, the ejection blocks 321 on the left side and the right side of the upper end of the inner bottom layer 323 are in contact with the edge of the connecting block 314 in the rotating process, then the contact blocks 211 on the bending ring 214 are in contact with the contact block 211, slight vibration is caused to be transmitted to the filter layer 311 through collision, so that fluff adsorbed on the surface of the filter layer 311 is shaken off, the filter layer 311 is prevented from being pressed on the surface of the filter layer 311 to cause blockage, and the hollow layer 212 in the fixing plate 213 can be correspondingly contracted when colliding and extruding, and the filter layer is prevented from being difficult.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The harmful gas treatment equipment for the environmental protection project structurally comprises a conveying pipe (1), a purification tank (2), a conversion cabin (3) and a driver (4), wherein the conveying pipe (1) is in threaded connection with the front end of the conversion cabin (3), the purification tank (2) is vertically connected to the lower end of the conveying pipe (1), the driver (4) is movably clamped at the front end of the conversion cabin (3), and the conveying pipe (1) is located at the upper end of the driver (4); the method is characterized in that:

purify jar (2) by frame (21), purify layer (22), adsorption equipment (23), mounting layer (24) and constitute, purify layer (22) built-in connection in frame (21) inboard upper end, adsorption equipment (23) activity joint in frame (21) inboard bottom, mounting layer (24) and frame (21) structure as an organic whole.

2. The harmful gas treatment facility for environmental protection engineering according to claim 1, wherein: the adsorption device (23) is composed of a blocking mechanism (231), a power shaft (232), rotating blades (233) and a rotating shaft (234), the blocking mechanism (231) is connected to the upper end of the power shaft (232) in a riveting mode, the rotating blades (233) are fixedly connected to the left side and the right side of the rotating shaft (234) in an embedding mode, and the rotating shaft (234) is movably clamped in the middle of the lower end of the power shaft (232).

3. The harmful gas treatment facility for environmental protection engineering according to claim 2, wherein: separation mechanism (231) comprise filtering layer (311), seepage hole (312), slewing mechanism (313), connecting block (314), bulkhead (315), seepage hole (312) and bulkhead (315) structure as an organic whole, slewing mechanism (313) activity block in filtering layer (311) rear side, connecting block (314) are embedded and are connected in filtering layer (311) rear side outer ring, filtering layer (311) are located bulkhead (315) rear end.

4. The harmful gas treatment facility for environmental protection engineering according to claim 3, wherein: seepage hole (312) comprise inside groove (121), adsorption plate (122), fretwork board (123), circulation department (124), adsorption plate (122) and circulation department (124) are the integral structure, fretwork board (123) riveting is connected between adsorption plate (122), fretwork board (123) are located inside groove (121) lower extreme middle part.

5. The harmful gas treatment facility for environmental protection engineering according to claim 3, wherein: the rotating mechanism (313) is composed of a blade (131), a contact device (132) and a rotating shaft (133), the contact device (132) and the blade (131) are of an integrated structure, and the blade (131) is fixedly embedded in the end face of the outer side of the rotating shaft (133).

6. The harmful gas treatment facility for environmental protection engineering according to claim 5, wherein: the contact device (132) comprises an ejection block (321), a connecting plate (322) and a bottom layer (323), wherein the ejection block (321) is fixedly embedded in the left side and the right side of the upper end of the bottom layer (323), and the bottom layer (323) is welded on the upper end of the connecting plate (322).

7. The harmful gas treatment facility for environmental protection engineering according to claim 6, wherein: the ejection block (321) is composed of a contact block (211), a hollow layer (212), a fixing plate (213) and a bending ring (214), the contact block (211) is fixedly connected to the upper left end face of the bending ring (214), the hollow layer (212) and the fixing plate (213) are of an integrated structure, and the bending ring (214) is movably clamped on the outer side of the fixing plate (213).