CN210146622U

CN210146622U - Admixture reactor belt cleaning device

Info

Publication number: CN210146622U
Application number: CN201920491761.XU
Authority: CN
Inventors: 刘斌
Original assignee: Jiangsu Wan Bang New Mstar Technology Ltd
Current assignee: Jiangsu Wan Bang New Mstar Technology Ltd
Priority date: 2019-04-11
Filing date: 2019-04-11
Publication date: 2020-03-17
Anticipated expiration: 2029-04-11

Abstract

The application provides additive reactor belt cleaning device, this belt cleaning device include honeycomb duct, horizontal nozzle, vertical nozzle, fastener, rotation portion and ball pivot connector. When the guide pipe extends into the reactor from the water adding port, the transverse nozzle sprays high-pressure water flow in the horizontal direction, and the rotation of the rotating part enables the transverse nozzle to rotate circumferentially in the reactor and is used for cleaning the peripheral wall of the reactor; the vertical high-pressure water flow sprayed by the vertical nozzles can do circular motion through the spherical hinge connector, so that the vertical nozzles can be used as vertexes to spray conical water curtains, and the additives with high viscosity and poor water solubility can be washed away through omnibearing high pressure. In addition, the high-pressure water flow sprayed out through the nozzles is used for cleaning, the admixture can be quickly and conveniently washed away, and a large amount of water does not need to be added into the reactor, so that some water resources can be saved compared with the existing mode.

Description

Admixture reactor belt cleaning device

Technical Field

The application belongs to the technical field of concrete admixture reactor cleaning, and particularly relates to an admixture reactor cleaning device.

Background

Concrete admixtures (abbreviated as admixture) are substances which are added in the process of mixing concrete and are used for improving the performance of the concrete. The mixing amount of the concrete admixture is generally not more than 5 percent of the mass of the cement. The quality of the concrete admixture product must meet the regulations of the national standard of concrete admixture (GB 8076-. The application of concrete admixture in engineering is more and more emphasized, the addition of the admixture plays a certain role in improving the performance of concrete, but the selection, addition method and adaptability of the admixture seriously influence the development of the admixture.

At present, many organic polymer additives are obtained by putting monomers into a reactor for polymerization, so that the reactor needs to be cleaned periodically or according to requirements. The existing reactor structure is shown in fig. 1, and includes a stirring device 101, a stirring motor 102, an additive monomer adding port 103, and a water adding port 104, the cleaning method is to add a certain amount of water through the water adding port 104, open the stirring device 101 of the reactor, and make the water in the reactor flow through the rotation of the stirring device 101, so as to wash away the additive in the reactor.

However, the cleaning method has poor cleaning effect on the admixture with high viscosity and poor water solubility. In addition, when the existing mode is adopted for cleaning, a large amount of clear water is needed, so that the additive in the reactor can be flushed away by the liquid surface during stirring. Therefore, the existing mode has the problems of poor cleaning effect and water resource waste.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an additive reactor belt cleaning device to there is the problem of not good, the water resource of wasting of cleaning performance in solving current additive reactor washing mode.

An additive reactor cleaning device comprises a flow guide pipe, a transverse nozzle, a vertical nozzle, a fastener, a rotating part and a spherical hinge connector;

the water spraying direction of the transverse nozzles is vertical to the axis of the flow guide pipe, and the transverse nozzles are arranged in sequence and are positioned on the side edge of the bottom end of the flow guide pipe;

the water spraying direction of the vertical nozzle is parallel to the axis of the flow guide pipe, and the vertical nozzle is positioned at the bottom end of the flow guide pipe;

the fastener is in the same shape as a flange of a water filling port of the reactor and is used for being fastened on the water filling port of the reactor;

the rotating part is in a hollow cylindrical shape and is positioned above the fastener, the hollow part of the rotating part is a rotating space of the flow guide pipe, and the rotating part can rotate on the fastener;

the ball pivot connector is located in the center of the fastener, and the flow guide pipe horizontally rotates in four directions through the ball pivot connector.

Preferably, the rotating part comprises a disc body and a rotating motor for rotating the disc body, and a hydraulic ejector rod and a lantern ring are arranged on the disc body;

the lantern ring is a hollow cylinder, the lantern ring is sleeved on the flow guide pipe, and the flow guide pipe can move up and down in the lantern ring hydraulic ejector rod;

the hydraulic ejector rod stretches and retracts to push the lantern ring to move in the horizontal direction, so that the top of the flow guide pipe section does circular arc motion by taking the spherical hinge connector as a circle center;

the rotating motor is used for driving the disc body to rotate through a gear, so that the spraying direction of the transverse nozzle rotates around the axial direction of the flow guide pipe.

Preferably, the fastener comprises a flange fastener and a spring fastener arranged on the flange fastener, and the spring fastener is used for fastening the flange fastener on a flange of a reactor water filling port.

Preferably, each of the horizontal nozzles and the vertical nozzles is replaced by screwing.

Preferably, each of the transverse nozzles and the vertical nozzles is provided with an electromagnetic valve, and the flow rate of water sprayed by the transverse nozzles and the flow rate of water sprayed by the vertical nozzles are controlled through the electromagnetic valves.

According to the above scheme, the application provides an additive reactor cleaning device, which comprises a flow guide pipe, a transverse nozzle, a vertical nozzle, a fastener, a rotating part and a spherical hinge connector, wherein the water spraying direction of the transverse nozzle is perpendicular to the axis of the flow guide pipe, the water spraying direction of the vertical nozzle is parallel to the axis of the flow guide pipe, the shape of the fastener is the same as that of a flange of a water filling port of a reactor, the fastener is used for being fastened on the water filling port of the reactor, the rotating part is in a hollow cylindrical shape and is positioned above the fastener, the hollow part of the rotating part is a rotating space of the flow guide pipe, and the rotating part can rotate on the fastener; the ball pivot connector is located in the center of the fastener, and the flow guide pipe horizontally rotates in four directions through the ball pivot connector.

Consequently, when the honeycomb duct stretches into in the reactor from adding water inlet, the horizontal nozzle and the vertical nozzle that the belt cleaning device of this application set up can carry out the omnidirectional washing in the reactor. Specifically, the transverse nozzle sprays high-pressure water flow in the horizontal direction, and the rotation of the rotating part enables the transverse nozzle to rotate circumferentially in the reactor and is used for cleaning the peripheral wall of the reactor; the vertical high-pressure water flow sprayed out by the vertical nozzles can do circular motion through the spherical hinge connector, so that the vertical nozzles can be used as vertexes to spray conical water curtains, and the bottoms of the stirring device and the reactor can be cleaned. Therefore, the cleaning device can wash the high-viscosity and poor water-solubility products through all-around high-pressure washing, wash the products from the wall of the reactor and the stirring device, and flow away along the high-speed flowing water flow, so that the cleaning device can adapt to the cleaning of various additives. In addition, because the belt cleaning device of this application washs through nozzle spun high-pressure rivers, consequently can be fast convenient wash away the admixture, need not add a large amount of water in the reactor, therefore can practice thrift some water resources for current mode.

Drawings

Fig. 1 is a schematic structural view of a conventional reactor.

Fig. 2 is a schematic structural view of the reactor cleaning apparatus of the present application.

Detailed Description

The technical solutions in the embodiments shown in the present application will be clearly and completely described below with reference to the drawings in the embodiments shown in the present application.

Referring to fig. 2, the cleaning apparatus 2 for an admixture reactor includes a guide pipe 201, a horizontal nozzle 202, a vertical nozzle 203, a fastener 204, a rotating portion 205, and a spherical hinge connector 206; the water spraying direction of the transverse nozzles 202 is vertical to the axis of the draft tube 201, and a plurality of the transverse nozzles 202 are sequentially arranged at the side edge of the bottom end of the draft tube 201; the water spraying direction of the vertical nozzle 203 is parallel to the axis of the draft tube 201, and the vertical nozzle 203 is positioned at the bottom end of the draft tube 201; the fastener 204 is in the same shape as a flange of a water filling port of the reactor, and the fastener 204 is used for being fastened on the water filling port of the reactor; the rotating part 205 is hollow cylindrical and is located above the fastener 204, the hollow part of the rotating part 205 is a rotating space of the draft tube 201, and the rotating part 205 can rotate on the fastener 204; the ball-and-socket joint 206 is located at the center of the fastener 204, and the flow guide pipe 201 horizontally rotates in four directions through the ball-and-socket joint 206.

Therefore, when the draft tube 201 extends into the reactor from the water filling port, the horizontal nozzle 202 and the vertical nozzle 203 provided in the cleaning device 2 of the present application can clean the inside of the reactor in all directions. Specifically, the transverse nozzle 202 sprays high-pressure water flow in the horizontal direction, and the rotation of the rotating part 205 enables the transverse nozzle 202 to rotate circularly in the reactor for cleaning the peripheral wall of the reactor; the high-pressure water flow vertically sprayed by the vertical nozzle 203 can make circular motion through the spherical hinge connector 206, so that a conical water curtain can be sprayed by taking the vertical nozzle 203 as a vertex, and the stirring device and the bottom of the reactor can be cleaned. Therefore, the cleaning device 2 of the present application washes the high-viscosity and poor water-solubility product through the omnibearing high-pressure washing from the wall of the reactor and the stirring device, and flows away along the high-speed flowing water flow, so that the cleaning device 2 of the present application can adapt to the cleaning of various additives. In addition, because the cleaning device 2 of this application washs through the high-pressure rivers of nozzle spun, consequently can be fast convenient wash away the admixture, need not add a large amount of water in the reactor, therefore can practice thrift some water resources for current mode.

The rotating part 205 comprises a disc body and a rotating motor 2053 for rotating the disc body, and a hydraulic ejector pin 2051 and a lantern ring 2052 are arranged on the disc body; the lantern ring 2052 is a hollow cylinder, the lantern ring 2052 is sleeved on the draft tube 201, and the draft tube 201 can move up and down in the lantern ring 2052; the extension and contraction of the hydraulic ejector rod 2051 pushes the lantern ring 2052 to move in the horizontal direction, so that the top point of the section of the draft tube 201 does circular arc motion by taking the spherical hinge connector 206 as the center of a circle; the rotating motor 2053 is used for driving the disc body to rotate through a gear, so that the spraying direction of the transverse nozzle 202 rotates around the axial direction of the guide pipe 201.

The fasteners 204 comprise flange fasteners 2041 and spring fasteners 2042 arranged on the flange fasteners 2041, and the spring fasteners 2042 are used for fastening the flange fasteners 2041 on the flange of the reactor filler. The flange fastener 2041 can be quickly detached from or installed on the flange of the water inlet by using the spring fastener 2042.

The spray heads of each transverse spray nozzle 202 and each vertical spray nozzle 203 are replaced by screwing. The cleaning device 2 of the application can replace the types of the transverse nozzles 202 and/or the vertical nozzles 203 according to the types of the additives, for example, the high-viscosity additives can replace the spray heads with high sprayed pressure; the low-viscosity water-soluble additive can be replaced by a spray head with small pressure and uniform spraying.

Each of the horizontal nozzles 202 and the vertical nozzles 203 is provided with an electromagnetic valve, and the flow rate of water sprayed from the horizontal nozzles 202 and the vertical nozzles 203 is controlled by the electromagnetic valve. The cleaning device 2 can also control the water spraying pressure and flow of the spray head according to the set electromagnetic valve, and the pressure and flow of water sprayed by the spray head can be controlled to be large in the initial cleaning section; the pressure and the flow of the water sprayed by the spray head can be controlled to be small at the cleaning tail section.

To sum up, the belt cleaning device of this application can the omnidirectional wash the reactor of the various admixtures of reaction to can be through changing the shower nozzle, control pressure and discharge reach the best cleaning state, have the characteristics of the cleaning performance is good, the water economy resource.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims

1. The cleaning device for the additive reactor is characterized in that the cleaning device (2) comprises a guide pipe (201), a transverse nozzle (202), a vertical nozzle (203), a fastener (204), a rotating part (205) and a spherical hinge connector (206);

the water spraying direction of the transverse nozzles (202) is vertical to the axis of the draft tube (201), and a plurality of transverse nozzles (202) are sequentially arranged at the side edge of the bottom end of the draft tube (201);

the water spraying direction of the vertical nozzle (203) is parallel to the axis of the draft tube (201), and the vertical nozzle (203) is positioned at the bottom end of the draft tube (201);

the fastener (204) is in the same shape as a flange of a water filling port of the reactor, and the fastener (204) is used for being fastened on the water filling port of the reactor;

the rotating part (205) is in a hollow cylindrical shape and is positioned above the fastener (204), the hollow part of the rotating part (205) is a rotating space of the draft tube (201), and the rotating part (205) can rotate on the fastener (204);

the spherical hinge connector (206) is located at the center of the fastener (204), and the guide pipe (201) horizontally rotates in four directions through the spherical hinge connector (206).

2. The admixture reactor cleaning apparatus as defined in claim 1, wherein the rotating part (205) comprises a disc body on which a hydraulic ram (2051) and a collar (2052) are provided, and a rotating motor (2053) for rotating the disc body;

the lantern ring (2052) is a hollow cylinder, the lantern ring (2052) is sleeved on the draft tube (201), and the draft tube (201) can move up and down in the lantern ring (2052);

the hydraulic ejector rod (2051) stretches and retracts to push the lantern ring (2052) to move in the horizontal direction, so that the top point of the section of the draft tube (201) makes circular arc motion by taking the spherical hinge connector (206) as the center of a circle;

the rotating motor (2053) is used for driving the disc body to rotate through a gear, so that the spraying direction of the transverse nozzle (202) rotates around the axial direction of the guide pipe (201).

3. The additive reactor cleaning device according to claim 2, wherein the fastener (204) comprises a flange fastener (2041) and a spring fastener (2042) disposed on the flange fastener (2041), the spring fastener (2042) being used for fastening the flange fastener (2041) to a flange of a reactor filler.

4. The admixture reactor cleaning apparatus as claimed in any one of claims 1 to 3, wherein the spray heads of each of the lateral spray nozzles (202) and the vertical spray nozzles (203) are replaced by screwing.

5. The admixture reactor cleaning apparatus as claimed in any one of claims 1 to 3, wherein each of the lateral nozzles (202) and the vertical nozzles (203) is provided with an electromagnetic valve, and the flow rate of water sprayed from the lateral nozzles (202) and the vertical nozzles (203) is controlled by the electromagnetic valve.