CN220386381U - Inorganic lightweight aggregate adhesive mixing equipment - Google Patents

Abstract

The utility model provides inorganic lightweight aggregate adhesive mixing equipment, which comprises a vibrating screen, a dust collection device, a mixing device and a stirring device; the mixing arrangement includes gluing agent storage tank, outer barrel, interior barrel, high pressure atomizing nozzle and spiral cloth subassembly, outer barrel cover is located interior barrel outside and with interior barrel fixed connection, high pressure atomizing nozzle locates between outer barrel and the interior barrel, and high pressure atomizing nozzle's export is located the inner tube, gluing agent storage tank locates outer barrel top, and gluing agent storage tank intercommunication high pressure atomizing nozzle's import, spiral cloth subassembly is located interior barrel top, spiral cloth subassembly intercommunication shale shaker is in the one end of lower position, spiral cloth subassembly bottom is equipped with a plurality of discharging pipes, spiral cloth subassembly can rotate for the inner tube. The utility model can fully mix the inorganic lightweight aggregate and the adhesive, achieve the effect of uniform mixing and reduce the dosage of the adhesive.

Description

Inorganic lightweight aggregate adhesive mixing equipment

Technical Field

The utility model relates to mixing equipment, in particular to inorganic lightweight aggregate adhesive mixing equipment, and belongs to the technical field of building materials.

Background

In building construction, the inorganic lightweight aggregate and the adhesive are mixed and stirred by using special mixing equipment, the problem that the inorganic lightweight aggregate and the adhesive are mixed unevenly is easily generated by the existing mixing equipment, so that the adhesive consumption is large, and in addition, the inorganic lightweight aggregate and the adhesive are easy to adhere to the inner wall of the device and are difficult to clean when being mixed.

Disclosure of Invention

Based on the background, the utility model aims to provide the inorganic lightweight aggregate adhesive mixing equipment, which can achieve the optimal mixing state with inorganic lightweight aggregate by using a smaller adhesive dosage, and can be uniformly mixed to save the adhesive.

In order to achieve the above object, the present utility model provides the following technical solutions:

an inorganic lightweight aggregate adhesive mixing device comprises a vibrating screen, a dust collection device, a mixing device and a stirring device; the vibrating screen is obliquely arranged, one end of the vibrating screen at a lower position is communicated with the top inlet of the mixing device, the bottom of the vibrating screen is communicated with the dust collection device, and the bottom outlet of the mixing device is communicated with the stirring device; the mixing arrangement includes gluing agent storage tank, outer barrel, interior barrel, high pressure atomizing nozzle and spiral cloth subassembly, outer barrel cover is located interior barrel outside and with interior barrel fixed connection, high pressure atomizing nozzle locates between outer barrel and the interior barrel, and the export of high pressure atomizing nozzle is located the inner tube, gluing agent storage tank locates outer barrel top, and gluing agent storage tank intercommunication high pressure atomizing nozzle's import, spiral cloth subassembly is located interior barrel top, and spiral cloth subassembly intercommunication shale shaker is in the one end of lower position, and spiral cloth subassembly bottom is equipped with a plurality of discharging pipes, and spiral cloth subassembly can rotate for the inner tube.

The inorganic lightweight aggregate is subjected to vibration screening through the vibrating screen, the dust collection effect of the dust collection device is matched, dust impurities in the inorganic lightweight aggregate are separated, the dust collection device is sucked from the bottom of the vibrating screen, the inorganic lightweight aggregate with high purity is reserved on the vibrating screen and enters the spiral material distribution assembly through the vibrating screen, under the effect of the rotating spiral material distribution assembly, the inorganic lightweight aggregate is uniformly and slowly dispersed and falls downwards in a spiral shape through the bottom material outlet pipe, in the falling process, the inorganic lightweight aggregate is fully contacted and mixed with the adhesive sprayed into the inner cylinder body from the side part through the high-pressure atomizing nozzle in an atomizing state, and the fully mixed inorganic lightweight aggregate and the adhesive enter the stirring device from the bottom outlet of the mixing device to be stirred and mixed again, so that the effect of uniform mixing is achieved, and the using amount of the adhesive is reduced.

Preferably, the high-pressure atomizing nozzles are distributed in multiple layers along the axial direction of the inner cylinder, and each layer of high-pressure atomizing nozzles are distributed along the circumferential direction of the inner cylinder.

Preferably, the outlets of the high-pressure atomizing nozzles located on the top layer are inclined downward, the outlets of the high-pressure atomizing nozzles located on the bottom layer are inclined upward, and the outlets of the high-pressure atomizing nozzles located on each layer between the top layer and the bottom layer are horizontally arranged.

Preferably, the included angle between the outlet inclined direction of the high-pressure atomizing nozzle positioned at the top layer and the horizontal direction is 45 degrees, and the included angle between the outlet inclined direction of the high-pressure atomizing nozzle positioned at the bottom layer and the horizontal direction is 45 degrees.

Preferably, the high-pressure atomizing nozzles of adjacent layers have the same layer spacing.

Preferably, the spacing between adjacent high pressure atomizing nozzles of each layer of high pressure atomizing nozzles is the same.

Preferably, the spiral material distribution assembly comprises a motor, a transmission rod and a material distribution box, wherein the motor is fixed at the top of the inner cylinder body, the output end of the motor is fixedly connected with the material distribution box through the transmission rod, the material distribution box is provided with an inner cavity and an opening at the top, the material discharge pipes are uniformly distributed at the bottom of the material distribution box, and the material discharge pipes are communicated with the inner cavity of the material distribution box.

Preferably, the inner wall of the inner cylinder body is provided with a supporting piece, the surface of the supporting piece is connected with the surface of the peripheral part of the storage box, and the storage box can move relative to the supporting piece. The support piece plays a role in supporting the storage box and plays a role in serving as a rotation track of the storage box, and the rotation motion of the storage box under the drive of the motor is not affected.

Preferably, the inner wall surface of the inner cylinder body is provided with a polytetrafluoroethylene coating. The polytetrafluoroethylene coating can reduce the probability of caking between materials such as adhesives and the inner wall surface of the inner cylinder.

Preferably, the stirring device comprises a stirrer and a feeding hopper communicated with an inlet of the stirrer, wherein the feeding hopper is obliquely arranged and positioned below the inner cylinder.

Compared with the prior art, the utility model has the following advantages:

according to the inorganic lightweight aggregate adhesive mixing equipment, the inorganic lightweight aggregate with high purity is spirally, uniformly and slowly dispersed and falls downwards in the mixing device, and in the falling process, the inorganic lightweight aggregate is fully contacted and mixed with the adhesive sprayed into the mixing device from the side part through the high-pressure atomizing nozzle in an atomizing state, and the fully mixed inorganic lightweight aggregate and the adhesive enter the stirring device from the bottom outlet of the mixing device and are stirred and mixed again, so that the effect of uniform mixing is achieved, and the adhesive consumption is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of an inorganic lightweight aggregate adhesive mixing device according to the present utility model;

FIG. 2 is a schematic top view of the high pressure atomizing nozzle of the present utility model;

FIG. 3 is a schematic view of the structure of the spiral cloth module of the present utility model;

fig. 4 is a schematic top view of the support member of the present utility model.

In the figure: 1. a vibrating screen; 2. a dust collection device; 3. a mixing device; 4. a stirring device; 301. an adhesive storage tank; 302. an outer cylinder; 303. an inner cylinder; 304. a high pressure atomizing nozzle; 305. a spiral material distribution assembly; 306. an observation port; 401. a stirrer; 402. a feed hopper; 3031. a support; 3051. a discharge pipe; 3052. a motor; 3053. a transmission rod; 3054. a cloth box.

Detailed Description

The technical scheme of the utility model is further specifically described below through specific embodiments and with reference to the accompanying drawings. It should be understood that the practice of the utility model is not limited to the following examples, but is intended to be within the scope of the utility model in any form and/or modification thereof.

In the present utility model, unless otherwise specified, all parts and percentages are by weight, and the equipment, materials, etc. used are commercially available or are conventional in the art. The methods in the following examples are conventional in the art unless otherwise specified. The components and devices in the following examples are, unless otherwise indicated, all those components and devices known to those skilled in the art, and their structures and principles are known to those skilled in the art from technical manuals or by routine experimentation.

In the following detailed description of embodiments of the utility model, reference is made to the accompanying drawings, in which, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the embodiments of the utility model. However, one or more embodiments may be practiced by one of ordinary skill in the art without these specific details.

As shown in fig. 1, the embodiment of the utility model discloses inorganic lightweight aggregate adhesive mixing equipment, which comprises a vibrating screen 1, a dust collection device 2, a mixing device 3 and a stirring device 4, wherein the vibrating screen 1 is obliquely arranged, one end of the vibrating screen 1 at a lower position is communicated with the top inlet of the mixing device 3, the bottom of the vibrating screen 1 is communicated with the dust collection device 2, and the bottom outlet of the mixing device 3 is communicated with the stirring device 4.

Specifically, the vibrating screen 1 has a vibrating screen 1 separating function, dust, impurities, and the like fall below the vibrating screen 1, and inorganic lightweight aggregate with high purity falls into the inlet of the mixing device 3 along the inclined direction of the vibrating screen 1. The specific structure of the vibrating screen 1 is the prior art and will not be described in detail here. The dust collection device 2 is a device with a wind power suction function, and the structure is also in the prior art, and the air suction inlet of the dust collection device 2 is communicated with the bottom of the vibrating screen 1 through an air pipe, so that dust impurities and the like falling below the vibrating screen 1 are sucked into the dust collection device 2 to be collected, stored and processed separately.

Specifically, mixing arrangement 3 includes gluing agent storage tank 301, outer barrel 302, inner barrel 303, high pressure atomizing nozzle 304 and spiral cloth subassembly 305, outer barrel 302 cover is located the outside of inner barrel 303 and with inner barrel 303 fixed connection, high pressure atomizing nozzle 304 locates between outer barrel 302 and the inner barrel 303, and the export of high pressure atomizing nozzle 304 is located in the inner barrel 303, gluing agent storage tank 301 locates outer barrel 302 top, and gluing agent storage tank 301 intercommunication high pressure atomizing nozzle 304's import, spiral cloth subassembly 305 is located inner barrel 303 top, spiral cloth subassembly 305 intercommunication shale shaker 1 is in the one end of lower position, spiral cloth subassembly 305 bottom is equipped with a plurality of discharging pipes 3051, spiral cloth subassembly 305 can rotate for inner barrel 303.

In order to improve the distribution uniformity of the adhesive sprayed after atomization in the inner cylinder 303, a plurality of high-pressure atomizing nozzles 304 are arranged at different height positions of the mixing device 3, the high-pressure atomizing nozzles 304 are distributed in multiple layers along the axial direction of the inner cylinder 303, the layer spacing between adjacent layers of high-pressure atomizing nozzles 304 is the same, as shown in fig. 2, each layer of high-pressure atomizing nozzles 304 are distributed along the circumferential direction of the inner cylinder 303, and the spacing between adjacent layers of high-pressure atomizing nozzles 304 is the same, namely, the high-pressure atomizing nozzles 304 which are uniformly distributed at intervals along the axial direction of the inner cylinder 303 are formed in multiple layers in a ring shape.

In order to further improve the mixing effect of the inorganic lightweight aggregate and the adhesive, the outlet of the high-pressure atomizing nozzle 304 positioned at the top layer is inclined downwards, the outlet of the high-pressure atomizing nozzle 304 positioned at the bottom layer is inclined upwards, and the outlets of the high-pressure atomizing nozzles 304 positioned at each layer between the top layer and the bottom layer are horizontally arranged. In this embodiment, the included angle between the outlet inclination direction of the high pressure atomizing nozzle 304 located at the top layer and the horizontal direction is 45 °, and the included angle between the outlet inclination direction of the high pressure atomizing nozzle 304 located at the bottom layer and the horizontal direction is 45 °. The inorganic lightweight aggregate with high purity is sufficiently mixed with the atomized adhesive in the middle region in the height direction of the inner cylinder 303.

In this embodiment, as shown in fig. 3, the spiral material distribution component 305 includes a motor 3052, a transmission rod 3053 and a material distribution box 3054, the motor 3052 is fixed at the top of the inner cylinder 303, the output end of the motor 3052 is fixedly connected with the material distribution box 3054 through the transmission rod 3053, the material distribution box 3054 has an inner cavity and a top opening, the material outlet pipe 3051 is uniformly distributed at the bottom of the material distribution box 3054, the material outlet pipe 3051 is communicated with the inner cavity of the material distribution box 3054, the motor 3052 drives the material distribution box 3054 to rotate, and inorganic lightweight aggregate in the inner cavity of the material distribution box 3054 falls down from the material outlet pipe 3051 under the action of gravity and falls slowly in a spiral state under the action of rotating centrifugal force.

For supporting the storage tank, the inner wall of the inner cylinder 303 is provided with a support 3031, and as shown in fig. 4, the support 3031 has a ring shape. The surface of the support member 3031 is connected with the surface of the outer peripheral part of the storage box, the storage box can move relative to the support member 3031, the support member 3031 not only plays a role in supporting the storage box, but also plays a role in serving as a rotation track of the storage box, and the connection of the support member 3031 and the storage box does not influence the rotation movement of the storage box under the drive of the motor 3052.

In order to reduce the probability of adhesion and agglomeration of materials such as adhesives and the like and the inner wall surface of the inner cylinder 303, the inner wall surface of the inner cylinder 303 is provided with a polytetrafluoroethylene coating.

In order to facilitate the operator to observe the mixing condition of the materials in the mixing device, the outer wall of the mixing device is further provided with an observation hole 306, and the observation hole 306 is located at the lower part of the outer cylinder 302.

In this embodiment, the stirring device 4 includes a stirrer 401 and a feed hopper 402 communicating with an inlet of the stirrer 401, the feed hopper 402 being disposed obliquely, the feed hopper 402 being located below the inner cylinder 303.

The inorganic lightweight aggregate is subjected to vibrating screen 1 division through the vibrating screen 1, and dust and impurities in the inorganic lightweight aggregate are separated and sucked into the dust suction device 2 from the bottom of the vibrating screen 1 by matching with the dust suction effect of the dust suction device 2. Inorganic lightweight aggregate with high purity is reserved on the vibrating screen 1 and enters the spiral material distribution assembly 305 through the vibrating screen 1, under the action of the rotating spiral material distribution assembly 305, the inorganic lightweight aggregate is uniformly and slowly dispersed downwards in a spiral shape through the bottom material discharge pipe 3051 and falls down, and in the falling process, the inorganic lightweight aggregate is fully contacted and mixed with the adhesive sprayed into the inner cylinder 303 from the side through the high-pressure atomizing nozzle 304 in an atomizing state. The fully mixed inorganic lightweight aggregate and the adhesive enter the stirring device 4 from the outlet at the bottom of the mixing device 3 and are stirred and mixed again, so that the effect of uniform mixing is achieved, and the using amount of the adhesive is reduced.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (10)

1. An inorganic lightweight aggregate adhesive mixing device, which is characterized in that: the inorganic lightweight aggregate adhesive mixing equipment comprises a vibrating screen (1), a dust collection device (2), a mixing device (3) and a stirring device (4); the vibrating screen (1) is obliquely arranged, one end of the vibrating screen (1) at a lower position is communicated with the top inlet of the mixing device (3), the bottom of the vibrating screen (1) is communicated with the dust collection device (2), and the bottom outlet of the mixing device (3) is communicated with the stirring device (4); mixing arrangement (3) are including gluing agent storage tank (301), urceolus body (302), interior barrel (303), high pressure atomizing nozzle (304) and spiral cloth subassembly (305), the outside of barrel (303) is located to urceolus body (302) cover and with interior barrel (303) fixed connection, between barrel (302) and interior barrel (303) are located to high pressure atomizing nozzle (304), and the export of high pressure atomizing nozzle (304) is located interior barrel (303), gluing agent storage tank (301) are located outside barrel (302) top, and gluing agent storage tank (301) intercommunication high pressure atomizing nozzle (304) import, spiral cloth subassembly (305) are located interior barrel (303) top, and spiral cloth subassembly (305) intercommunication shale shaker (1) are in the one end of lower position, and spiral cloth subassembly (305) bottom is equipped with a plurality of discharging pipes (3051), and spiral cloth subassembly (305) can rotate for interior barrel (303).

2. The inorganic lightweight aggregate adhesive mixing device as claimed in claim 1, wherein: the high-pressure atomizing nozzles (304) are distributed in multiple layers along the axial direction of the inner cylinder body (303), and the high-pressure atomizing nozzles (304) in each layer are distributed along the circumferential direction of the inner cylinder body (303).

3. The inorganic lightweight aggregate adhesive mixing device as claimed in claim 2, wherein: the outlets of the high-pressure atomizing nozzles (304) positioned on the top layer are inclined downwards, the outlets of the high-pressure atomizing nozzles (304) positioned on the bottom layer are inclined upwards, and the outlets of the high-pressure atomizing nozzles (304) positioned on each layer between the top layer and the bottom layer are horizontally arranged.

4. A mixing device for inorganic lightweight aggregate adhesive according to claim 3, wherein: the included angle between the outlet inclined direction of the high-pressure atomizing nozzle (304) positioned at the top layer and the horizontal direction is 45 degrees, and the included angle between the outlet inclined direction of the high-pressure atomizing nozzle (304) positioned at the bottom layer and the horizontal direction is 45 degrees.

5. The inorganic lightweight aggregate adhesive mixing device as claimed in claim 2, wherein: the layer spacing of adjacent layers of high pressure atomizing nozzles (304) is the same.

6. The inorganic lightweight aggregate adhesive mixing device as claimed in claim 2, wherein: the spacing between adjacent high pressure atomizing nozzles (304) of each layer of high pressure atomizing nozzles (304) is the same.

7. The inorganic lightweight aggregate adhesive mixing device as claimed in claim 1, wherein: spiral cloth subassembly (305) include motor (3052), transfer line (3053) and cloth case (3054), motor (3052) are fixed in interior barrel (303) top, and the output of motor (3052) passes through transfer line (3053) fixed connection cloth case (3054), cloth case (3054) have inner chamber and open-top, discharging pipe (3051) evenly distributed in cloth case (3054) bottom, the inner chamber of discharging pipe (3051) intercommunication cloth case (3054).

8. The inorganic lightweight aggregate adhesive mixing device as defined in claim 7, wherein: the inner wall of the inner cylinder body (303) is provided with a supporting piece (3031), the surface of the supporting piece (3031) is connected with the surface of the outer peripheral part of the storage box, the storage box can move relative to the supporting piece (3031), the supporting piece (3031) plays a role in supporting the storage box and plays a role in serving as a rotation track of the storage box, and the rotation movement of the storage box under the drive of a motor (3052) is not influenced.

9. The inorganic lightweight aggregate adhesive mixing device as claimed in claim 1, wherein: the inner wall surface of the inner cylinder body (303) is provided with a polytetrafluoroethylene coating.

10. The inorganic lightweight aggregate adhesive mixing device as claimed in claim 1, wherein: the stirring device (4) comprises a stirrer (401) and a feeding hopper (402) communicated with an inlet of the stirrer (401), the feeding hopper (402) is obliquely arranged, and the feeding hopper (402) is positioned below the inner cylinder (303).