CN220834803U - Building carbon emission adsorption equipment - Google Patents

Abstract

The utility model provides a building carbon emission adsorption device which comprises an adsorption box and a fixing mechanism, wherein the fixing mechanism is arranged on one side of the inner surface of the adsorption box, the pretreatment mechanism is arranged on one side of the inner surface of the adsorption box, and one end of an air outlet pipe is connected with a fan in a sealing manner. This building carbon discharges adsorption equipment, through fixed establishment's setting, when needs place the box and place the inside at the adsorption case and fix, at first the pulling pull ring, the pull ring passes through the cable wire and drives the stopper to the inside removal of movable groove, return spring carries out compression set simultaneously, when the stopper gomphosis is in the inside of movable groove completely, will lay the box gomphosis of placing of active carbon in the inside of adsorption case, then loosen the effort of applying on the pull ring, return spring rebound deformation this moment, thereby drive the stopper and resume original position, the one end gomphosis of stopper is in the spacing inslot of placing box surface one side and is offered this moment, thereby the stopper will be placed the box and fix the inside at the adsorption case.

Description

Building carbon emission adsorption equipment

Technical Field

The utility model relates to the technical field related to buildings, in particular to a building carbon emission adsorption device.

Background

The building refers to the assets formed by artificial building, which belongs to the category of fixed assets and comprises two major types of houses and structures, wherein the houses refer to engineering buildings for people to live, work, study, production, operation, entertainment, store articles and perform other social activities, the structures are different from the buildings, the structures refer to engineering buildings outside the houses, such as enclosing walls, roads, dams, wells, tunnels, water towers, bridges, chimneys and the like, greenhouse gas emission causes the greenhouse effect, the global air temperature is increased, the earth absorbs solar radiation and simultaneously radiates heat to the outer space, the heat radiation is mainly long-wave infrared rays with the wavelength of 3-30 mu m, and when the long-wave radiation enters an atmosphere, the long-wave radiation is easily absorbed by certain gas molecules with relatively large molecular weight and relatively strong polarity, so that the building carbon emission adsorption device is particularly needed.

But current building carbon discharges adsorption equipment, in the use, most adsorption equipment is comparatively loaded down with trivial details when placing activated carbon in the adsorption case, and is comparatively troublesome when placing and changing activated carbon to extravagant man-hour influences the operating efficiency.

Disclosure of utility model

The utility model aims to provide a building carbon emission adsorption device, which solves the problems that the prior building carbon emission adsorption device provided in the background art is troublesome when most of adsorption devices place activated carbon in an adsorption box in the use process and troublesome when placing and replacing the activated carbon, so that working efficiency is influenced due to waste of working hours.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a building carbon discharges adsorption equipment, includes adsorption case and fixed establishment, surface one side sealing connection of adsorption case has the intake pipe, surface opposite side fixedly connected with supporting leg of adsorption case, the inside gomphosis of adsorption case is connected with places the box, interior surface one side of adsorption case is provided with fixed establishment, interior surface one side of adsorption case is provided with pretreatment mechanism, surface one side hinged joint of adsorption case has the chamber door, surface one side sealing connection of adsorption case has the outlet duct, the ventilation hole has been seted up to surface one side of placing the box, observation glass is installed to surface one side of chamber door, the one end sealing connection of outlet duct has the fan, the one end sealing connection of fan has the blast pipe;

The fixing mechanism comprises a limiting groove, a reset spring and a limiting block, wherein the reset spring is arranged in the movable groove, the limiting block is welded at one end of the reset spring, a steel cable is fixedly connected to one end of the limiting block, and a pull ring is fixedly connected to the other end of the steel cable.

Preferably, a movable groove is formed in one side of the inner surface of the adsorption box, and a limit groove is formed in one side of the surface of the placement box.

Preferably, one end of the return spring is welded with the adsorption box in the movable groove, and the other end of the return spring is welded with the limiting block.

Preferably, one end of the limiting block is embedded in the limiting groove, and one end of the steel cable penetrates through the reset spring.

Preferably, the pretreatment mechanism comprises a fixed block, a connecting rod, a torsion spring, a rotating pipe, a spanner, a clamping strip, a connecting plate and a supporting frame, wherein the fixed block is fixedly connected to one side of the inside of the adsorption box, the connecting rod is welded to one side of the surface of the fixed block, the torsion spring is sleeved on the surface of the connecting rod, the rotating pipe is sleeved on the surface of the connecting rod, the spanner is welded to the surface of the rotating pipe, the clamping strip is welded to one end of the spanner, the connecting plate is connected to one end of the clamping strip in a clamping mode, and the supporting frame is fixedly connected to one side of the surface of the connecting plate.

Preferably, the torsion springs are provided with two groups, one end of each torsion spring is welded with the fixed block, and the other end of each torsion spring is welded with the rotary pipe.

Preferably, the rotating pipe and the connecting rod form a mutual rotating structure, and the supporting frame is of a hollow structure.

Compared with the prior art, the utility model has the beneficial effects that: this building carbon discharges adsorption equipment, through movable tank, the spacing groove, reset spring, stopper, cable wire and pull ring's setting, when using, when needs place the box and fix in the inside of adsorption case, at first pulling pull ring, the pull ring passes through the cable wire and drives the stopper to the inside removal of movable tank this moment, reset spring carries out compression deformation simultaneously, when the stopper gomphosis is in the inside of movable tank completely, the box gomphosis of placing of active carbon will be laid in the inside of adsorption case, then loosen the effort of applying on the pull ring, reset spring carries out rebound deformation this moment, thereby drive the stopper and resume original position, the one end gomphosis of stopper is in the spacing inslot of placing box surface one side and then, thereby the stopper will place the inside of box and fix at the adsorption case, when needs to placing the active carbon of box inside laying more yellow, can pull ring makes the pull ring drive the stopper gomphosis completely in the inside of movable tank, the stopper breaks away from the inside of spacing groove this moment, thereby can take out the inside of placing the box from the adsorption case and change its inside active carbon.

Drawings

FIG. 1 is a schematic diagram of a side view of the present utility model;

FIG. 2 is an exploded view of the securing mechanism of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

FIG. 4 is a schematic cross-sectional view of the adsorption tank of the present utility model;

Fig. 5 is an enlarged view of the structure of fig. 4B according to the present utility model.

In the figure: 1. an adsorption box; 2. an air inlet pipe; 3. support legs; 4. placing a box; 5. a fixing mechanism; 501. a movable groove; 502. a limit groove; 503. a return spring; 504. a limiting block; 505. a wire rope; 506. a pull ring; 6. a pretreatment mechanism; 601. a fixed block; 602. a connecting rod; 603. a torsion spring; 604. a rotating tube; 605. a wrench; 606. clamping strips; 607. a connecting plate; 608. a support frame; 7. a door; 8. an air outlet pipe; 9. a vent hole; 10. observing glass; 11. a blower; 12. and an exhaust pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a building carbon discharges adsorption equipment, including adsorption case 1 and fixed establishment 5, the surface side sealing connection of adsorption case 1 has intake pipe 2, the surface opposite side fixedly connected with supporting leg 3 of adsorption case 1, the inside gomphosis of adsorption case 1 is connected with places box 4, the inside surface side of adsorption case 1 is provided with fixed establishment 5, the inside surface side of adsorption case 1 is provided with pretreatment mechanism 6, surface side hinged joint of adsorption case 1 has chamber door 7, surface side sealing connection of adsorption case 1 has outlet duct 8, the ventilation hole 9 has been seted up to the surface side of placing box 4, observation glass 10 is installed to surface side of chamber door 7, the one end sealing connection of outlet duct 8 has fan 11, the one end sealing connection of fan 11 has blast pipe 12;

The fixing mechanism 5 comprises a limit groove 502, a return spring 503 and a limiting block 504, wherein the return spring 503 is arranged in the movable groove 501, the limiting block 504 is welded at one end of the return spring 503, one end of the limiting block 504 is fixedly connected with a steel cable 505, the other end of the steel cable 505 is fixedly connected with a pull ring 506, when the inside of the adsorption box 1 needs to be fixed by placing the box 4, the pull ring 506 is pulled first, the pull ring 506 drives the limiting block 504 to move towards the inside of the movable groove 501 through the steel cable 505, the return spring 503 is subjected to compression deformation, when the limiting block 504 is completely embedded in the inside of the movable groove 501, the placing box 4 paved with active carbon is embedded in the inside of the adsorption box 1, then the acting force applied to the pull ring 506 is released, the return spring 503 is subjected to rebound deformation, so that the limiting block 504 is driven to restore to the original position, at the moment, one end of the limiting block 504 is embedded in the limit groove 502 arranged on one side of the surface of the placing box 4, the limiting block 504 is fixed in the inside of the adsorption box 1, when the active carbon paved inside the placing box 4 needs to be more yellow, the limiting block 506 can be pulled 506 to drive the limiting block 504 to be completely embedded in the inside of the movable groove 501, and the inside of the movable groove 501 is separated from the inside of the adsorption box 501, and the inside of the limiting block 4 can be replaced.

Further, the movable groove 501 is formed in one side of the inner surface of the adsorption box 1, the limit groove 502 is formed in one side of the surface of the placement box 4, and when the adsorption box is used, one end of the limit block 504 is embedded in the limit groove 502, and the placement box 4 can be fixed in the adsorption box 1 by the limit block 504.

Further, one end of the return spring 503 is welded with the adsorption box 1 in the movable groove 501, the other end of the return spring 503 is welded with the limiting block 504, and through the arrangement of the return spring 503, when in use, the return spring 503 can be subjected to compression deformation when being subjected to pressure, and when the acting force is eliminated, the return spring 503 can be subjected to rebound deformation, so that the return spring 503 can drive the limiting block 504 to move.

Further, one end of the limiting block 504 is embedded in the limiting groove 502, one end of the steel cable 505 penetrates through the reset spring 503, and when the pull ring 506 is pulled in use, the steel cable 505 can transmit acting force applied to the pull ring 506 to the limiting block 504, so that the limiting block 504 is driven to move.

Further, the pretreatment mechanism 6 comprises a fixed block 601, a connecting rod 602, a torsion spring 603, a rotary pipe 604, a wrench 605, a clamping strip 606, a connecting plate 607 and a supporting frame 608, wherein the fixed block 601 is fixedly connected to one side of the inside of the adsorption box 1, the connecting rod 602 is welded to one side of the surface of the fixed block 601, the torsion spring 603 is sleeved on the surface of the connecting rod 602, the rotary pipe 604 is sleeved on the surface of the connecting rod 602, the wrench 605 is welded on the surface of the rotary pipe 604, the clamping strip 606 is welded at one end of the wrench 605, the connecting plate 607 is connected with one end of the clamping strip 606 in a clamping way, the supporting frame 608 is fixedly connected to one side of the surface of the connecting plate 607, and when the pretreatment mechanism is used, the filter screen is firstly installed in the supporting frame 608 and then the wrench 605 is broken off, at this time, the spanner 605 drives the rotating pipe 604 to rotate around the surface of the connecting rod 602 so as to drive the clamping strip 606 to lift, the rotating pipe 604 drives the torsion spring 603 to rotate while rotating, after the clamping strip 606 lifts up, the support frame 608 provided with the filter screen is placed inside the adsorption box 1, at this time, the connecting plate 607 connected with one side of the surface of the support frame 608 is attached to one side of the inner surface of the adsorption box 1, at this time, the acting force applied to the spanner 605 is released, the torsion spring 603 can rotate and deform, thereby driving the rotating pipe 604 to rotate around the connecting rod 602 to restore the original state, at this time, the rotating pipe 604 drives the clamping strip 606 to restore the original position, thereby the clamping strip 606 fixes the connecting plate 607 on one side of the inner surface of the adsorption box 1, thereby fixing the support frame 608 inside the adsorption box 1, when air enters the inside the adsorption box 1 through the air inlet pipe 2, the filter screen inside the support frame 608 is filtered at first, then the activated carbon paved on the placement box 4 is adsorbed and purified.

Further, the torsion spring 603 is provided with two sets of, and the one end and the fixed block 601 of torsion spring 603 are welded mutually, and the other end and the swivelling tube 604 of torsion spring 603 are welded mutually, through the setting of torsion spring 603, when the use, can rotate when torsion spring 603 receives the effort, when the effort that torsion spring 603 received disappears, torsion spring 603 can carry out gyration deformation to when exerting the effort on spanner 605 disappears, torsion spring 603 can drive swivelling tube 604 and resume original state.

Further, the rotating pipe 604 and the connecting rod 602 form a mutual rotating structure, the supporting frame 608 is of a hollow structure, and through the arrangement of the supporting frame 608, when the adsorption box is used, the filter screen can be installed in the supporting frame 608, so that air is filtered by the filter screen installed in the supporting frame 608 when the air inlet pipe 2 enters the adsorption box 1, and pretreatment before adsorption is achieved.

Working principle: firstly, active carbon is paved in a placement box 4, then a pull ring 506 is pulled to enable a limiting block 504 to be completely embedded in a movable groove 501, then the placement box 4 is embedded in an adsorption box 1, then acting force applied to the pull ring 506 is released, one end of a reset spring 503 is rebounded to drive the limiting block 504 to be embedded in the limiting groove 502, the placement box 4 is fixed in the adsorption box 1, then a filter screen is installed in a support frame 608, the support frame 608 is fixed on the inner wall of the adsorption box 1, a fan 11 is turned on, air to be adsorbed at the moment enters the adsorption box 1 through an air inlet pipe 2, then the air to be filtered is filtered to complete pretreatment work before adsorption, then the filtered air is adsorbed through the active carbon paved on the placement box 4, and then outside air is discharged through an air outlet pipe 8 and an exhaust pipe 12, so that the adsorption device for exhausting building carbon is completed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a building carbon discharges adsorption equipment, includes adsorption box (1) and fixed establishment (5), its characterized in that: the novel air conditioner is characterized in that an air inlet pipe (2) is connected to one side of the surface of the adsorption box (1) in a sealing manner, a supporting leg (3) is fixedly connected to the other side of the surface of the adsorption box (1), a placement box (4) is connected to the inner embedded portion of the adsorption box (1), a fixing mechanism (5) is arranged on one side of the inner surface of the adsorption box (1), a pretreatment mechanism (6) is arranged on one side of the inner surface of the adsorption box (1), a box door (7) is hinged to one side of the surface of the adsorption box (1), an air outlet pipe (8) is connected to one side of the surface of the adsorption box (1) in a sealing manner, a vent hole (9) is formed in one side of the surface of the placement box (4), an observation glass (10) is arranged on one side of the surface of the box door (7), a fan (11) is connected to one end of the air outlet pipe (8) in a sealing manner, and an exhaust pipe (12) is connected to one end of the fan (11) in a sealing manner.

A movable groove (501) is formed in one side of the inner surface of the adsorption box (1);

The fixing mechanism (5) comprises a limiting groove (502), a reset spring (503) and a limiting block (504), wherein the reset spring (503) is arranged in the movable groove (501), the limiting block (504) is welded at one end of the reset spring (503), a steel cable (505) is fixedly connected to one end of the limiting block (504), and a pull ring (506) is fixedly connected to the other end of the steel cable (505).

2. A construction carbon emission adsorbing arrangement according to claim 1, wherein: a limit groove (502) is formed in one side of the surface of the placement box (4).

3. A construction carbon emission adsorbing arrangement according to claim 1, wherein: one end of the return spring (503) is welded with the adsorption box (1) in the movable groove (501), and the other end of the return spring (503) is welded with the limiting block (504).

4. A construction carbon emission adsorbing arrangement according to claim 1, wherein: one end of the limiting block (504) is embedded in the limiting groove (502), and one end of the steel cable (505) penetrates through the reset spring (503).

5. A construction carbon emission adsorbing arrangement according to claim 1, wherein: pretreatment mechanism (6) are including fixed block (601), connecting rod (602), torsional spring (603), swivelling tube (604), spanner (605), card strip (606), connecting plate (607) and support frame (608), inside one side fixedly connected with fixed block (601) of adsorption case (1), surface one side welding of fixed block (601) has connecting rod (602), the surface cover of connecting rod (602) is equipped with torsional spring (603), the surface cover of connecting rod (602) is equipped with swivelling tube (604), the surface welding of swivelling tube (604) has spanner (605), the one end welding of spanner (605) has card strip (606), the one end block of card strip (606) is connected with connecting plate (607), surface one side fixedly connected with support frame (608) of connecting plate (607).

6. A construction carbon emission adsorbing arrangement according to claim 5, wherein: the torsion springs (603) are provided with two groups, one end of each torsion spring (603) is welded with the corresponding fixed block (601), and the other end of each torsion spring (603) is welded with the corresponding rotary pipe (604).

7. A construction carbon emission adsorbing arrangement according to claim 5, wherein: the rotary pipe (604) and the connecting rod (602) form a mutual rotary structure, and the support frame (608) is of a hollow structure.