CN218260914U - Closed raw material lifting device for producing chlorine dioxide disinfectant - Google Patents

Abstract

The utility model discloses a chlorine dioxide disinfectant production is with closed raw materials hoisting device, include: mounting bracket, transfer mechanism and exhaust mechanism, but the raw materials is handled in the transfer mechanism install in the inside of mounting bracket, transfer mechanism carries the raw materials to reaction equipment's inside back, the valve that admits air this moment is opened, the valve that admits air is with transfer case and section of thick bamboo intercommunication of taking a breath, then the inside of section of thick bamboo is taken in with the inside gas suction of transfer mechanism through the pulling piston plate to the second push rod, and seal in the inside of section of thick bamboo of taking a breath, this can effectively reduce the inside chlorine dioxide gas's of transfer mechanism concentration, not only reduced the breathing harm to staff on every side, can also reduce because of chlorine dioxide concentration is too high in the air and arouse the probability of explosion, improve the security of producing chlorine dioxide disinfectant.

Description

Closed raw material lifting device for producing chlorine dioxide disinfectant

Technical Field

The utility model relates to a chlorine dioxide disinfectant production facility technical field, in particular to closed raw materials hoisting device is used in chlorine dioxide disinfectant production.

Background

Chlorine dioxide disinfectants are internationally recognized high-efficiency disinfection sterilizing agents, are widely applied to various industries, and have gradually increased market demands. In the production process of the chlorine dioxide disinfectant, raw materials are often conveyed to reaction equipment by adopting conveying equipment, when the raw materials are put into production equipment by the conveying equipment, the prepared chlorine dioxide in the raw materials is easy to leak into the air through a feed inlet for lifting the raw materials, so that physical and psychological health of surrounding workers is harmed, and explosion is easily caused when the concentration exceeds 10% due to the strong oxidizing property of the chlorine dioxide, so that great potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a chlorine dioxide disinfectant production is with closed raw materials hoisting device in order to solve above-mentioned problem, it is relatively poor to have improved current chlorine dioxide disinfectant production is with raw materials hoisting device sealing performance, causes the problem of incident easily.

The utility model realizes the purpose through the following technical proposal, and the closed raw material lifting device for producing the chlorine dioxide disinfectant comprises a mounting frame, a transfer mechanism, an exhaust mechanism and a lifter; the transfer mechanism is fixedly arranged on the mounting frame, a discharge hole is formed in the bottom end of the transfer mechanism, and a feed hole is formed in the top end of the transfer mechanism; the exhaust mechanism is arranged on one side of the transfer mechanism and is communicated with the inner cavity of the transfer mechanism through a pipeline; the feeding end of the hoister is connected with the discharge hole of the transfer mechanism;

wherein a valve is arranged on a pipeline connecting the exhaust mechanism and the transfer mechanism.

Preferably, the exhaust mechanism includes a ventilation cylinder fixedly connected to one end of the transfer mechanism, the inner wall of the ventilation cylinder is slidably connected with a piston plate, the lower end of the piston plate is fixedly connected with a second push rod fixedly connected with the ventilation cylinder, the upper end of the ventilation cylinder is communicated with an air inlet pipe communicated with the transfer mechanism, and an air inlet valve is mounted on the air inlet pipe.

Preferably, the upper end of the air exchange cylinder is communicated with an air outlet pipe, an air outlet valve is mounted on the air outlet pipe, the air outlet valve is a one-way valve, and the blocking direction of the one-way valve is from the outside of the air exchange cylinder to the inside of the air exchange cylinder.

Preferably, an installation groove is formed in the inner bottom wall of the gas exchange cylinder, a spring is fixedly connected to the inner bottom wall of the installation groove, and a pressure sensor connected with the installation groove in a sliding mode is fixedly connected to the upper end of the spring.

Preferably, the transfer mechanism is including communicateing in the transfer case of lifting machine upper end, the upper end intercommunication of transfer case has the feeder hopper, the upper end of feeder hopper articulates there is sealed lid, the inside of transfer case articulates there is the baffler, the lower extreme sliding connection of baffler has the first push rod with transfer case fixed connection.

Preferably, the two ends of the first push rod are fixedly connected with sliding blocks, and the surfaces of the sliding blocks are connected with sliding ways fixedly connected with the blocking plates in a sliding mode.

Preferably, the inner wall of the transfer box is fixedly connected with a guide frame in contact with the blocking plate, and the cross section of the guide frame is triangular.

The utility model has the advantages that:

(1) The utility model discloses a set up exhaust mechanism, after transfer mechanism carried the raw materials to reaction equipment's inside, the controller can be controlled to open air inlet valve, air inlet valve with transfer case and take a breath section of thick bamboo intercommunication, then the second push rod is through pulling the piston plate with the inside gas suction of transfer mechanism inside the section of thick bamboo of taking a breath, and seal in the inside of taking a breath section of thick bamboo, this can effectively reduce the concentration of transfer mechanism inside chlorine dioxide, not only reduced the breathing harm to staff on every side, can also reduce the probability that causes the explosion because of chlorine dioxide concentration is too high in the air, improve the security of chlorine dioxide disinfectant production;

(2) The utility model discloses a set up transfer mechanism, the position of raw materials not only can be injectd to the guide frame, with the probability that reduces the raw materials and permeate to gap between baffler and the transfer case, with the probability that reduces the baffler and is blocked, simultaneously work as first push rod extension to limit distance, the baffler just with guide frame in close contact with this moment, the transfer case, the baffler, the guide frame, the airtight space that forms between feeder hopper and the sealed lid five, not only can reduce the probability that chlorine dioxide permeates to the baffler top, can also reduce the degree of difficulty that exhaust mechanism handled, thereby reach good separation effect.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an exploded view of the present invention;

fig. 4 is an enlarged view of a point a in fig. 2.

In the figure: 1. a mounting frame; 2. a hoist; 3. a controller; 4. a transfer mechanism; 401. a transfer box; 402. a feed hopper; 403. a sealing cover; 404. a barrier plate; 405. a first push rod; 406. a slideway; 407. a slider; 408. a guide frame; 5. an exhaust mechanism; 501. exchanging the air cylinder; 502. a piston plate; 503. a second push rod; 504. an air inlet pipe; 505. an air outlet pipe; 506. an air intake valve; 507. mounting grooves; 508. a pressure sensor; 509. a spring; 510. and an air outlet valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the specific implementation: as shown in fig. 1-4, a closed raw material lifting device for chlorine dioxide disinfectant production comprises a mounting frame 1, a lifting machine 2, a transfer mechanism 4 and an exhaust mechanism 5, wherein a controller 3 is mounted on the mounting frame 1; the transfer mechanism 4 is arranged on the mounting frame 1, the lower end of the transfer mechanism 4 is provided with a discharge hole, and the discharge hole is connected with a feed inlet of the elevator 2; the exhaust mechanism 5 can empty the raw materials and mix with air, the exhaust mechanism 5 is arranged on one side of the transfer mechanism 4, the inner cavities of the exhaust mechanism 5 and the transfer mechanism 4 are communicated through a pipeline, and a valve is arranged on the pipeline. The elevator 2 adopts a screw conveyor for elevating the chlorine dioxide disinfectant production raw materials and conveying the raw materials into the production equipment, and a discharge hole of the elevator 2 is connected with a feed inlet of the production equipment.

As shown in fig. 2 and 4, the exhaust mechanism 5 includes a ventilation cylinder 501 fixedly connected to one end of the relay mechanism 4, a piston plate 502 is slidably connected to an inner wall of the ventilation cylinder 501, a second push rod 503 fixedly connected to the ventilation cylinder 501 is fixedly connected to a lower end of the piston plate 502, and a sealing gasket is disposed between the second push rod 503 and a bottom plate of the ventilation cylinder 501, and the two are hermetically connected. The second push rod 503 is an electric push rod or an air cylinder, and is used for driving the piston plate 502 to reciprocate linearly up and down, the upper end of the air exchange cylinder 501 is communicated with an air inlet pipe 504 communicated with the transfer mechanism 4, an air inlet valve 506 is installed on the air inlet pipe 504, the air inlet valve 506 belongs to one type of stop valve, a starting valve or an electromagnetic valve can be adopted, after the transfer mechanism 4 conveys raw materials to the inside of the reaction equipment, the controller 3 can control to open the air inlet valve 506, the air inlet valve 506 communicates the transfer box 401 with the air exchange cylinder 501, then the second push rod 503 sucks the gas inside the transfer mechanism 4 into the air exchange cylinder 501 by pulling the piston plate 502 and seals the gas in the air exchange cylinder 501, the concentration of chlorine dioxide inside the transfer mechanism 4 can be effectively reduced, the breathing hazard to surrounding workers is reduced, the explosion probability caused by the chlorine dioxide can be reduced, the workers work more safely, the upper end of the air exchange cylinder 501 is communicated with an air outlet pipe 505, the air outlet pipe 505 is installed with the air outlet valve 510, the blocking direction of the air outlet valve 510 is the direction from the outside of the air exchange cylinder 501 to the direction, the water tank 505, when the air outlet valve 510 is repeatedly pushed by the piston plate 510, and the air outlet valve 510, the air tank is used for pushing water tank, and the air outlet valve 5, and the air outlet valve is used for pushing the air outlet valve, and the air outlet valve is used for pushing water tank, and the air outlet valve, and the air outlet valve is designed for the air outlet mechanism. The check valve can prevent external gas to get into a section of thick bamboo 501 of taking a breath through outlet duct 505, in order to improve 5 internal air extraction effect to the centering mechanism of exhaust mechanism, mounting groove 507 has been seted up to a section of thick bamboo 501 of taking a breath, the interior diapire fixedly connected with spring 509 of mounting groove 507, the upper end fixedly connected with of spring 509 and mounting groove 507 sliding connection's pressure sensor 508, pressure sensor 508's top is higher than a section of thick bamboo 501's bottom plate internal surface of taking a breath, it is when piston plate 502 bottom surface and pressure sensor 508 top surface contact, piston plate 502 produces pressure to pressure sensor 508, trigger controller 3 controls out gas valve 510 and opens, in order to adopt spring 509's design simultaneously, under the prerequisite that does not influence pressure sensor 508 normal work, can reduce the probability that pressure sensor 508 was crushed, improve the utility model discloses the reliability of work.

As shown in fig. 2 and fig. 3, the transfer mechanism 4 includes a transfer box 401 communicated with the upper end of the elevator 2, a feed hopper 402 is installed at the upper end feed inlet of the transfer box 401, a sealing cover 403 is hinged to the upper end of the feed hopper 402, a blocking plate 404 is hinged inside the transfer box 401, a first push rod 405 fixedly connected with the transfer box 401 is slidably connected to the lower end of the blocking plate 404, the first push rod 405 is an electric push rod or an air cylinder, the controller 3 can adjust the angle of the blocking plate 404 through the first push rod 405 so that the raw material can be smoothly poured into the elevator 2, sliding blocks 407 are fixedly connected to both ends of the first push rod 405, a slide 406 fixedly connected with the blocking plate 404 is slidably connected to the surface of the sliding block 407, the slide 406 and the sliding blocks 407 are matched for use, so that the blocking plate 404 can be more smoothly adjusted by the first push rod 405, the probability that the blocking plate 404 and the first push rod 405 are clamped together is reduced, the guide frame 408 in contact with the blocking plate 404 is fixedly connected to the inner wall of the transfer box 401, the cross section of the guide frame 408 is in the shape of a right triangle, the guide frame 408 can limit the position of raw materials, the probability that the raw materials penetrate into a gap between the blocking plate 404 and the transfer box 401 is reduced, the probability that the blocking plate 404 is clamped is reduced, meanwhile, when the first push rod 405 is extended to a limit distance, the blocking plate 404 is just in close contact with the guide frame 408, the transfer box 401, the blocking plate 404, the guide frame 408 and a closed space formed between the feed hopper 402 and the sealing cover 403 can reduce the probability that chlorine dioxide gas penetrates above the blocking plate 404, the difficulty of processing of the exhaust mechanism 5 can be reduced, and a good blocking effect is achieved. The output end of the pressure sensor 508 is electrically connected with the input end of the controller 3, and the input ends of the elevator 2, the first push rod 405, the second push rod 503 and the air inlet valve 506 are electrically connected with the output end of the controller 3.

The utility model discloses a working process and principle: when raw materials are required to be added into reaction equipment, firstly, an air outlet pipe 505 is communicated with a water tank filled with water in advance, a sealing cover 403 is opened, the raw materials are thrown into the interior of a transfer box 401 through a feed hopper 402, the raw materials fall to the upper end of a blocking plate 404 along the feed hopper 402, after all the raw materials are thrown into the transfer box 401, a controller 3 is started, the controller 3 can shorten a first push rod 405 according to control, so that the first push rod 405 drives a sliding block 407 to move downwards, the sliding block 407 drives a sliding way 406 to move downwards, the blocking plate 404 is driven by the sliding way 406 to rotate downwards along a hinged joint of the blocking plate 404 and the transfer box 401 at the moment, and the raw materials can fall along the blocking plate 404 and fall into a lifter 2 along the transfer box 401; starting the elevator 2, the elevator 2 conveys the raw materials into the reaction equipment at a uniform speed, after the first push rod 405 drives the blocking plate 404 to rotate to a maximum angle, the controller 3 controls the first push rod 405 to extend according to a preset program, so that the first push rod 405 drives the slide block 407 to move upwards, the slide block 407 drives the slide way 406 to move upwards, as the blocking plate 404 is hinged to the inside of the transfer box 401, the slide way 406 drives the blocking plate 404 to rotate upwards along a hinged point of the blocking plate 404 and the transfer box 401 until the first push rod 405 extends to a limit distance, the blocking plate 404 is in close contact with the guide frame 408, the blocking plate 404 can effectively seal the guide frame 408 to prevent chlorine dioxide in the reaction equipment from penetrating above the blocking plate 404, and the controller 3 controls the second push rod 503 to shorten and controls to start the air inlet valve 506, the air inlet valve 506 communicates the transfer box 401 with the air exchange cylinder 501, the second push rod 503 drives the piston plate 502 to move downwards, the piston plate 502 sucks air in a closed space formed by the transfer box 401, the blocking plate 404, the guide frame 408, the feed hopper 402 and the sealing cover 403 into the air exchange cylinder 501 through the air inlet pipe 504, the controller 3 controls to close the air inlet valve 506 to disconnect the transfer box 401 from the air exchange cylinder 501, then the controller 3 controls to extend the second push rod 503, and at the moment, the second push rod 503 pushes the air into the water tank through the air outlet pipe 505, so that chlorine dioxide in the air is rapidly dissolved in the water, the breathing hazard to surrounding workers is reduced, the probability of explosion caused by overhigh concentration of the chlorine dioxide in the air can be reduced, and the production safety of the chlorine dioxide disinfectant is improved.

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 (7)

1. The utility model provides a chlorine dioxide disinfectant production is with closed raw materials hoisting device which characterized in that includes:

a mounting frame (1);

the transfer mechanism (4) is fixedly arranged on the mounting rack (1), a discharge hole is formed in the bottom end of the transfer mechanism (4), and a feed hole is formed in the top end of the transfer mechanism;

the exhaust mechanism (5) is arranged on one side of the transfer mechanism (4), and the exhaust mechanism (5) is communicated with the inner cavity of the transfer mechanism (4) through a pipeline; and

the feeding end of the hoister (2) is connected with the discharging hole of the transfer mechanism (4);

wherein a valve is arranged on a pipeline connecting the exhaust mechanism (5) and the transfer mechanism (4).

2. The closed raw material lifting device for producing chlorine dioxide disinfectant as claimed in claim 1, wherein: exhaust mechanism (5) are including air cylinder (501) of fixed connection in transfer mechanism (4) one end, the inner wall sliding connection of air cylinder (501) has piston plate (502), the lower extreme fixedly connected with of piston plate (502) and air cylinder (501) fixed connection's second push rod (503), the upper end intercommunication of air cylinder (501) has intake pipe (504) with transfer mechanism (4) intercommunication, install air inlet valve (506) on intake pipe (504).

3. The closed raw material lifting device for chlorine dioxide disinfectant production as set forth in claim 2, characterized in that: the upper end of the air exchange cylinder (501) is communicated with an air outlet pipe (505), and an air outlet valve (510) is arranged on the air outlet pipe (505).

4. The closed raw material lifting device for chlorine dioxide disinfectant production as set forth in claim 2, characterized in that: mounting groove (507) have been seted up to the interior diapire of gas exchange tube (501), the interior diapire fixedly connected with spring (509) of mounting groove (507), the upper end fixedly connected with of spring (509) and mounting groove (507) sliding connection's pressure sensor (508).

5. The closed raw material lifting device for producing chlorine dioxide disinfectant as claimed in claim 1, wherein: transfer mechanism (4) are including communicateing in transfer case (401) of lifting machine (2) upper end, the upper end intercommunication of transfer case (401) has feeder hopper (402), the upper end of feeder hopper (402) articulates there is sealed lid (403), the inside of transfer case (401) articulates there is separation board (404), the lower extreme sliding connection of separation board (404) has first push rod (405) with transfer case (401) fixed connection.

6. The closed raw material lifting device for producing chlorine dioxide disinfectant as claimed in claim 5, wherein: both ends of the first push rod (405) are fixedly connected with sliding blocks (407), and the sliding blocks (407) are in sliding connection with sliding ways (406) fixedly connected with the blocking plate (404).

7. The closed raw material lifting device for chlorine dioxide disinfectant production as set forth in claim 5, characterized in that: the inner wall of the transfer box (401) is fixedly connected with a guide frame (408) which is in contact with the blocking plate (404), and the cross section of the guide frame (408) is triangular.

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