CN211358165U - Novel glass steel waste gas tower - Google Patents

Abstract

The utility model relates to the field of waste gas towers, in particular to a novel glass fiber reinforced plastic waste gas tower, which comprises a tower body, wherein the tower body is made of glass fiber reinforced plastic, the lower end of the tower body is provided with a water circulator, a drawer type filter is arranged on the water circulator, and the drawer type filter comprises a frame; when the filter screen is disassembled, the filter screen can be directly jacked upwards through the lower direction of the water permeable hole, so that the filter screen can be moved upwards from the inside of the material collecting groove to be taken out for cleaning, and the filter screen can be disassembled more conveniently and quickly through the mode; under the elastic force effect of spring, can promote the fixed block towards the direction of draw-in groove all the time to can imbed in the draw-in groove all the time when making the fixed block not receive external force, avoid the baffle to break away from the water circulator, in order to guarantee the filtering action of filter screen.

Description

Novel glass steel waste gas tower

Technical Field

The utility model relates to a waste gas tower field especially indicates a novel glass steel waste gas tower.

Background

In the exhaust emission in-process, the waste gas tower that the enterprise generally all adopted when to exhaust-gas treatment, wherein the waste gas tower is after the various fillers in mode and the tower that spray through the water are to exhaust-gas treatment, all will spray the back through the filter screen and filter with the particulate matter that waste gas phase mixing formed to avoid the particulate matter to block up circulating water pipe when being convenient for cyclic utilization this water resource, but the filter screen of present traditional waste gas tower need tear open out after filtering a period and wash the time comparatively troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel glass steel waste gas tower to the filter screen of overcoming prior art traditional waste gas tower need tear open out the comparatively trouble problem when wasing after filtering a period.

The utility model adopts the following technical scheme: the utility model provides a novel glass steel waste gas tower, including tower body 1, the lower extreme of tower body 1 is equipped with water circulator 2, its characterized in that: the water circulator 2 is provided with a drawer type filter 3, the drawer type filter 3 comprises a frame 31, the frame 31 and the water circulator 2 move back and forth relatively, a detachable filter screen 32 is arranged in the frame 31, a baffle 33 is arranged on the frame 31, the upper side and the lower side of the baffle 33 are both provided with inward concave movable grooves 331, a fixer 34 is arranged in the movable groove 331, the fixer 34 comprises a fixed block 341, the fixed block 341 is provided with a stress block 342, one end of the fixed block 341 close to the stress block 342 is provided with a limit block 343 protruding towards both sides, wherein the limit block 343 is embedded in the movable groove 331, the notch of the movable groove 331 is provided with a limit block 332 protruding inwards, the limit block 332 can limit the limit block 343 in the movable groove 331, the movable groove 331 is also embedded with a spring 344, one end of the spring 344 is supported on the limit block 343, the other end of the spring 344 is supported at the bottom of the movable groove 331, an inward-concave clamping groove 22 is arranged at a position of the water circulator 2 corresponding to the fixed block 341, and the fixed block 341 can be embedded into the clamping groove 22.

As a further improvement, sliding grooves 35 are formed on both sides of the frame 31, and an inwardly protruding guide block 21 is disposed at a position of the water circulator 2 corresponding to the sliding grooves 35, and the guide block 21 can be embedded in the sliding grooves 35.

As a further improvement, the frame 31 is provided with an inward-concave object collecting groove 311, the bottom end of the frame 31 is provided with a stopper 312, a water permeable hole 313 is formed through the center of the stopper 312, and the upper surface of the stopper 312 is attached to the lower surface of the filter screen 32.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the utility model can guide the chute 35 to move on the guide block 21 by matching the guide block 21 with the chute 35, thereby realizing the relative movement of the frame 31 and the water circulator 2 back and forth; when the filter screen 32 is disassembled, the filter screen 32 can be directly jacked up in the lower direction through the water permeable holes 313, so that the filter screen 32 can be moved upwards from the object collecting groove 311 for cleaning, and the filter screen 32 can be disassembled more conveniently and quickly through the mode; when the fixed block 341 is embedded into the clamping groove 22, the baffle 33 can be fixed on the water circulator 2, the baffle 33 is prevented from being separated from the water circulator 2, the fixed block 341 can be always pushed towards the clamping groove 22 under the elastic action of the spring 344, so that the fixed block 341 can be always embedded into the clamping groove 22 when not being subjected to external force, the baffle 33 is prevented from being separated from the water circulator 2, and the filtering effect of the filter screen 32 is ensured.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the drawer-type filter of the present invention.

Fig. 3 is a schematic view of the front cut structure of the baffle of the present invention.

Fig. 4 is an enlarged schematic view of a in fig. 1.

Fig. 5 is a schematic view of the front cross-section structure of the frame 31 of the present invention.

Fig. 6 is a schematic view of the front cut structure of the position of the clamping groove of the water circulator of the present invention.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in the attached drawing 1, a novel glass fiber reinforced plastic waste gas tower comprises a tower body 1, wherein the tower body 1 is made of glass fiber reinforced plastic, a water circulator 2 is arranged at the lower end of the tower body 1, an inner cavity of the water circulator 2 is communicated with the tower body 1, a drawer type filter 3 is arranged on the water circulator 2, a gas inlet pipe 4 is connected to a position, close to the lower end, of the tower body 1, a connecting pipe 5 is connected to the upper end of the tower body 1, the end of the connecting pipe 5 is connected to an exhaust fan 6, the other end of the exhaust fan 6 is connected to an exhaust pipe 7, the gas inlet pipe 4 is connected to an external pipe containing waste gas, the waste gas enters the tower body 1 through the gas inlet pipe 4, and after the waste gas is treated in the tower body 1 to a degree suitable for emission, the gas can; and a circulating water pipe 21 is arranged on one side surface of the water circulator 2, a water pump can be connected to the circulating water pipe 21, water in the inner cavity of the water circulator 2 is pumped to the spray pipe in the tower body 1 by the water pump, waste gas is treated by spraying water by the spray pipe, and the treated water flows in the direction of the water circulator 2 under the action of self gravity to form water circulation.

As shown in fig. 2 to 6, the drawer-type filter 3 includes a frame 31, sliding grooves 35 are provided on both sides of the frame 31, a guide block 21 protruding inward is provided at a position of the water circulator 2 corresponding to the sliding grooves 35, the guide block 21 can be embedded into the sliding groove 35, and the sliding grooves 35 can be guided to move on the guide block 21 by the cooperation of the guide block 21 and the sliding grooves 35, so that the frame 31 and the water circulator 2 can move back and forth relatively;

as shown in fig. 2 to 6, the frame 31 is provided with an inward concave object collecting groove 311, the bottom end of the frame 31 is provided with a block 312, a water permeable hole 313 is formed through the center of the block 312, wherein water can flow towards the inner cavity of the water circulator 2 through the water permeable hole 313; the upper surface of the stop block 312 is attached to the lower surface of the filter screen 32, and under the action of the filter screen 32, large particles formed by mixing water and waste gas can be isolated on the filter screen 32, so that the large particles are prevented from entering the inner cavity of the water circulator 2; when the filter screen 32 is detached, the filter screen 32 is directly pushed up downward through the water permeable holes 313, and the filter screen 32 can be moved upward from the inside of the collecting tank 311 and taken out for cleaning.

As shown in fig. 2 to 6, a baffle 33 is disposed on the frame 31, an inwardly concave movable groove 331 is disposed in the baffle 33, a fixer 34 is disposed in the movable groove 331, the fixer 34 includes a fixing block 341, an inwardly concave slot 22 is disposed at a position of the water circulator 2 corresponding to the fixing block 341, the fixing block 341 can be inserted into the slot 22, and when the fixing block 341 is inserted into the slot 22, the baffle 33 can be fixed on the water circulator 2 to prevent the baffle 33 from being separated from the water circulator 2; the fixed block 341 is provided with a stressed block 342, one end of the fixed block 341 close to the stressed block 342 is provided with a limit block 343 protruding towards two sides, wherein the limit block 343 is embedded in the movable groove 331, the notch of the movable groove 331 is provided with a clamp block 332 protruding inwards, and the limit block 343 can be limited in the movable groove 331 by the clamp block 332; the spring 344 is further nested in the movable groove 331, one end of the spring 344 is supported on the limiting block 343, the other end of the spring 344 is supported at the bottom of the movable groove 331, and under the elastic force action of the spring 344, the fixed block 341 can be pushed towards the direction of the clamping groove 22 all the time, so that the fixed block 341 can be embedded into the clamping groove 22 all the time when not subjected to external force, the baffle 33 is prevented from being separated from the water circulator 2, and the filtering effect of the filter screen 32 is ensured.

As shown in fig. 1 to 6, during installation, the fixed block 341, the force-bearing block 342 and the stop block 343 are first inserted into the movable groove 331, the spring 344 is then inserted into the movable groove 331, one end of the spring 344 is supported by the stop block 343, the other end is supported by the bottom of the movable groove 331, the installation block 36 is aligned with the movable groove 331, the installation block 36 is fixed on the baffle 33 by screws, the force-bearing block 342 passes through the abdicating hole 361 of the installation block 36, the installation of the fixer 34 is completed, the filter screen 32 is then directly aligned from the upper side of the object collecting groove 311, the filter screen 32 is inserted into the object collecting groove 311 until the lower surface of the filter screen 32 is attached to the upper surface of the stop block 312, the installation of the filter screen 32 is completed, finally, the sliding grooves 35 at both sides of the frame 31 are aligned with the guide block 21 of the water circulator 2, the frame 31 is pushed into the water circulator 2, and the guide block 21 is inserted into the sliding, after the installation is completed, the stress block 342 is pushed towards the middle of the baffle 33, the stress block 342 drives the end portion of the fixing block 341 to be retracted into the movable groove 331, the fixing block 341 drives the limiting block 343 to move at the moment, the spring 344 is compressed, the baffle 33 can be pushed into the water circulator 2 until the end portion of the fixing block 341 completely enters the movable groove 331, the stress block 342 is loosened, the fixing block 341 is pushed towards the clamping groove 22 under the elastic action of the spring 344 until the fixing block 341 moves to the position of the clamping groove 22, the fixing block 341 is embedded into the clamping groove 22, the baffle 33 is fixed on the water circulator 2, and the filter screen 32 is pushed into the water circulator 2 at the moment so as to filter large particles.

As shown in fig. 1 to 6, when the filter screen 32 is detached, the force-receiving block 342 is pushed toward the middle of the baffle 33, so that the force-receiving block 342 drives the end of the fixing block 341 to retract into the movable groove 331, at this time, the fixing block 341 drives the limiting block 343 to move, the spring 344 is compressed until the end of the fixing block 341 is completely separated from the clamping groove 22, the baffle 33 is pulled outward by the cooperation of the guide block 21 and the sliding groove 35, and the filter screen 32 is pushed out from the lower direction of the water-permeable hole 313 to be cleaned until the frame 31 is completely separated from the water circulator 2.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (3)

1. The utility model provides a novel glass steel waste gas tower, including the tower body, the lower extreme of tower body is equipped with water circulator, its characterized in that: the water circulator is provided with a drawer type filter, the drawer type filter comprises a frame, the frame and the water circulator move back and forth relatively, a detachable filter screen is arranged in the frame, a baffle is arranged on the frame, inward-concave movable grooves are arranged on the upper side and the lower side of the baffle, a fixer is arranged in the movable grooves, the fixer comprises a fixed block, a stress block is arranged on the fixed block, a limit block protruding towards two sides is arranged at one end, close to the stress block, of the fixed block, the limit block is embedded in the movable grooves, an inward-convex clamp block is arranged at the notch of the movable grooves, the limit block can be limited in the movable grooves by the clamp block, springs are further embedded in the movable grooves, one ends of the springs are supported on the limit block, the other ends of the springs are supported at the bottom of the movable grooves, inward-concave clamping grooves are arranged at the positions, corresponding to, the fixed block can be embedded into the clamping groove.

2. The novel glass fiber reinforced plastic waste gas tower as claimed in claim 1, wherein: the frame is provided with sliding grooves on two sides, and guide blocks protruding inwards are arranged at positions, corresponding to the sliding grooves, of the water circulator and can be embedded into the sliding grooves.

3. The novel glass fiber reinforced plastic waste gas tower as claimed in claim 1, wherein: the frame is provided with an inwards-concave object collecting groove, the bottom end of the frame is provided with a stop block, the center of the stop block penetrates through a water permeable hole, and the upper surface of the stop block is attached to the lower surface of the filter screen.

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