CN210846251U - Elastic silica sand feeding mechanism and stirring device using same - Google Patents

Abstract

The utility model relates to an elastic silica sand feeding mechanism, which comprises at least two groups of feeding components, wherein each group of feeding components comprises a storage bin, and the bottom of each group of feeding components is provided with a discharge hole; the measuring barrel can be arranged below the storage bin in an up-down overturning manner, and the upper part of the measuring barrel is provided with an opening corresponding to the discharge hole of the storage bin; the material receiving bin is arranged below the measuring barrel, a through guide channel is arranged in the material receiving bin, and outlets of the material receiving bins are gathered together. This reinforced mechanism of elasticity silica sand can reduce manpower, convenient operation and work efficiency height. The utility model discloses still relate to an agitating unit, including the reinforced mechanism of elasticity silica sand, still including setting up the vertical scroll mixer in connecing material storehouse export below. This agitating unit can reduce the stirring degree of difficulty, improves the stirring degree of consistency.

Description

Elastic silica sand feeding mechanism and stirring device using same

Technical Field

The utility model relates to a building tool technical field, concretely relates to reinforced mechanism of elasticity silica sand still relates to the agitating unit who uses this reinforced mechanism's agitating unit.

Background

Along with the deepening of the green environmental awareness of people and the progress of science and technology, the novel elastic silica sand road surface material is produced at the beginning, and the surface material is mainly formed by mixing silica sand, rubber particles, curing agents and other substances. For example, the invention of chinese patent application No. CN10147627B (application No. 200810136700.8), entitled "elastic material for paving road, method for preparing the same, and method for paving road using the same", discloses an elastic material for paving road.

The main raw materials of the novel pavement material are silica sand and rubber particles which are mixed according to a certain matching mode, and the raw materials have the characteristics of small particle size, light weight, small gap and the like, and are completely different from the characteristics of the large stone raw materials used in the traditional concrete. This novel pavement material's reinforced mainly by the manual work operation at present, promptly: the two raw materials are respectively poured into different barrels, weighed, the mass of the raw materials in each barrel is adjusted according to the matching proportion, then the weighed raw materials are poured into a vertical shaft stirrer for stirring uniformly at one time, and after the stirring is finished, the materials are discharged, and the operation is circulated. So this operation process is loaded down with trivial details relatively, weighs, falls a large amount of manpowers of material process waste, time, once only pours the aggregate into simultaneously, and the aggregate becomes the heap, and the stirring is difficult to evenly, influences stirring effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the first technical problem that provide one kind can reduce manpower, convenient operation and the reinforced mechanism of elasticity silica sand that work efficiency is high to above-mentioned prior art.

The utility model discloses the second technical problem that will solve provides one kind to above-mentioned prior art and can reduce the stirring degree of difficulty, improves the agitating unit of the stirring degree of consistency.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: the utility model provides an elasticity silica sand mechanism that feeds in raw material, includes at least two sets of reinforced subassemblies, its characterized in that: each group of feeding components comprises

The bottom of the storage bin is provided with a discharge hole;

the measuring barrel can be arranged below the storage bin in an up-down overturning manner, and the upper part of the measuring barrel is provided with an opening corresponding to the discharge hole of the storage bin;

the material receiving bin is arranged below the measuring barrel, a through guide channel is arranged in the material receiving bin, and outlets of the material receiving bins are gathered together.

In order to realize the offset when the raw materials in each feeding assembly are intensively mixed, the mixing degree of each raw material is improved, the stirring strength is reduced, and the stirring efficiency is improved, the guide plate is arranged on the outer side of the lower end of the material receiving bin in a downward extending manner.

For effectual regulation ejection of compact flow for the time of filling the measuring cylinder can once stir the required mixing time with the raw materials and equals, and then improves work efficiency, be provided with the valve on the discharge gate of storage silo.

Preferably, the guide channel has an inlet section diameter greater than an outlet section diameter.

In order to conveniently realize the installation of each feeding assembly, the feeding device also comprises a rack, and each feeding assembly is supported and arranged on the rack.

In order to enhance the flowability of the raw materials, an inflator pump is further arranged on the rack, and an air pipe capable of introducing air into the storage bin and/or the material receiving bin is connected to an air outlet of the inflator pump.

Preferably, the storage silo supports the wall and sets up at the inboard and ventilative storage inner wall of storage support wall including fixing the storage in the frame, the storage supports the wall and offers and is used for connecting tracheal first through-hole.

Preferably, the material receiving bin comprises a material receiving supporting wall fixed on the rack and a material receiving inner wall which is arranged on the inner side of the material receiving supporting wall and can be ventilated, and the material receiving supporting wall is provided with a second through hole used for connecting an air pipe.

The structure is simple, the measuring barrel is provided with support rods extending towards two sides of the barrel wall, and the measuring barrel is rotatably connected to the rack through the support rods;

a brake rod extends upwards from at least one support rod, and a limiting rod capable of blocking the brake rod from turning in one rotation direction is arranged on the rack;

the bottom plate of measurement bucket is the counterweight plate through the counter weight setting, the upper portion of measurement bucket is provided with the eccentric hopper that can make the measurement bucket to another rotation direction upset, the measurement bucket with the chamber of placing of eccentric hopper is linked together.

The utility model provides a technical scheme that above-mentioned second technical problem adopted does: a stirring device is characterized in that: the vertical shaft stirring machine comprises the elastic silica sand feeding mechanism and a vertical shaft stirring machine arranged below an outlet of the material receiving bin.

Compared with the prior art, the utility model has the advantages of: the utility model provides an elasticity silica sand feeding mechanism sets gradually storage silo, measurement bucket and connect the feed bin along top-down's direction, and in the course of the work for the raw materials can loop through storage silo, measurement bucket, connect the feed bin, and then flow into and stir in the vertical scroll mixer and mix. And at the in-process that the raw materials flows, can measure the use amount of raw materials through measuring the bucket, and then enter into through this upset operation and connect the material storehouse, effectively controlled the ratio of each raw materials. This agitating unit has reduced the manpower consumption to the raw materials intermediate process to the operating procedure step is convenient, work efficiency is high. The stirring device using the elastic silica sand feeding mechanism has the advantages that the raw materials are continuously gathered, mixed and flowed out simultaneously when entering the vertical shaft stirrer, premixing of the raw materials is realized, mixing difficulty of the vertical shaft stirrer is reduced, mixing efficiency is improved, and different raw materials are mixed more uniformly.

Drawings

Fig. 1 is a structural diagram of a stirring device in an embodiment of the present invention.

Fig. 2 is a structural diagram of a measurement bucket according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

In this embodiment, a stirring device is taken as an example, and the elastic silica sand feeding mechanism and the stirring device using the elastic silica sand feeding mechanism are explained at the same time.

As shown in fig. 1, the stirring device in this embodiment includes an elastic silica sand feeding mechanism and a vertical shaft stirrer 6 disposed at a lower portion of the elastic silica sand feeding mechanism.

The elastic silica sand feeding mechanism comprises a frame 4, an air pump 5 and at least two groups of feeding assemblies 100, wherein each group of feeding assemblies 100 is used for adding different raw materials for forming elastic silica sand, and two groups of feeding assemblies 100 are arranged in the implementation, wherein one group of feeding assemblies 100 is used for adding silica sand particle raw materials, and the other group of feeding assemblies 100 is used for adding rubber particle raw materials.

The frame 4 is connected with the vertical shaft stirrer 6 through a fixing bolt, the two groups of feeding components 100 are arranged on the frame 4, and the vertical shaft stirrer 6 is arranged below the two groups of feeding components 100 and used for receiving raw materials output from the two groups of feeding components 100.

Each set of charging assemblies 100 comprises: storage silo 1, measurement bucket 2, connect the material storehouse 3.

Wherein storage silo 1 wholly is hourglass hopper-shaped, and the bottom of this storage silo 1 has the discharge gate, for the velocity of flow of raw materials in the convenient control storage silo 1, is provided with valve 11 on the discharge gate of storage silo 1. The valve 11 of the present embodiment may be any valve 11 known in the art. The regulation to 1 ejection of compact flow of storage silo has then been realized through the aperture of adjusting valve 11 for the time of filling up measurement bucket 2 can once stir the required mixing time with the raw materials and equals, thereby makes storage silo 1 and measurement bucket 2 can carry out the automatic cooperation of time, and then improves work efficiency.

The setting that measuring cylinder 2 can overturn from top to bottom is in the below of storage silo 1, and the upper portion of measuring cylinder 2 is provided with the opening corresponding to the discharge gate of storage silo 1. Aiming at different raw material ratios, the measuring barrels 2 with different capacities can be arranged in the two groups of feeding assemblies 100, the capacity of each measuring barrel 2 is manufactured according to the capacity of the vertical shaft stirrer 6, and the volume of the raw material required by one-time stirring is taken as the volume of the measuring barrel 2. The measuring barrel 2 in this embodiment can be automatically turned over when the proportional amount of the corresponding raw material is reached. The specific mounting structure of this measurement bucket 2 does: the barrel wall of the measuring barrel 2 extends towards two sides and is provided with a support rod 21, and the measuring barrel 2 is rotatably connected to the rack 4 through the support rod 21. At least one of the support rods 21 is provided with a brake lever 211 extending upward, and the frame 4 is provided with a limiting lever 41 capable of blocking the brake lever 211 from turning in one rotation direction. The bottom plate of the measuring barrel 2 is a counterweight plate 22 arranged by a counterweight, the upper part of the measuring barrel 2 is provided with an eccentric hopper 23 which can cause the measuring barrel 2 to turn over towards the other rotating direction, and the measuring barrel 2 is communicated with a placing cavity of the eccentric hopper 23. So through the cooperation of eccentric hopper 23 and weight plate 22 for measurement bucket 2 is when not reaching full-load, and measurement bucket 2 can keep vertical state, and when filling with the raw materials and full-load in measurement bucket 2, measurement bucket 2 is eccentric to the direction of rotation that can rotate, and then takes place the upset, makes the opening on measurement bucket 2 upper portion down, pours the raw materials of measurement bucket 2 into and connects material storehouse 3. After the raw material in the measuring barrel 2 is poured out, the measuring barrel 2 rotates and stops when the brake lever 211 touches the stopper rod 41, thereby maintaining the vertical state of the measuring barrel 2.

The material receiving bin 3 is arranged below the measuring barrel 2, a through guide channel 31 is arranged in the material receiving bin 3, the diameter of an inlet section of the guide channel 31 is larger than that of an outlet section, and outlets of the material receiving bins 3 are gathered together. The inlet section of the receiving bin 3 is fixedly arranged on the frame 4. Specifically, the entrance section of the material receiving bin 3 is cylindrical, the diameter of the entrance of the material receiving bin 3 is larger than the diameter of the opening of the measuring barrel 2, and therefore the raw materials in the measuring barrel 2 are poured into the material receiving bin 3 conveniently. The outlet section of the receiving bin 3 is tubular and extends obliquely inwards to realize the gathering of the outlets of the receiving bin 3 in each feeding assembly 100.

In this embodiment, the outlets of the material receiving bins 3 in the two sets of feeding assemblies 100 are closely attached together, so that the gathering output of the unused raw materials is realized. The outside downwardly extending that connects the lower extreme of material storehouse 3 simultaneously is provided with deflector 32 for under deflector 32's effect, the raw materials in each feeding assembly 100 can realize the offset when concentrating the mixture, and then improves the degree of mixing of each raw materials, reduces the stirring and makes strength, improves stirring efficiency. The vertical shaft mixer 6 is arranged below the outlet of the receiving bin 3, specifically below the guide plate 32, but of course, the guide plate 32 can also extend into the inlet of the vertical shaft mixer 6.

In addition, in order to enhance the fluidity of the raw materials, an air pipe 51 which can introduce air into the storage bin 1 and/or the material receiving bin 3 is connected to an air outlet of the inflator pump 5. In this embodiment, the storage silo 1 includes the storage support wall 12 fixed on the frame 4 and the ventilative storage inner wall 13 of setting in the storage support wall 12 inboard, and the first through-hole that is used for connecting trachea 51 is seted up to the storage support wall 12. The receiving bin 3 comprises a receiving supporting wall 33 fixed on the frame 4 and a receiving inner wall 34 which is arranged on the inner side of the receiving supporting wall 33 and can be ventilated, and the receiving supporting wall 33 is provided with a second through hole for connecting the air pipe 51. The storage supporting wall 12 and the receiving supporting wall 33 can be made of sealing materials, and have the function of skeleton manufacturing. The material storage inner wall 13 and the material receiving inner wall 34 are made of air-permeable materials. During ventilation, the air is inflated between the storage supporting wall 12 and the storage inner wall 13 and between the material receiving supporting wall 33 and the material receiving inner wall 34, and the air passes through the storage inner wall 13 and the material receiving inner wall 34 to ventilate the storage bin 1 and the material receiving bin 3, so that the air is injected into the raw materials of the storage bin 1 and the material receiving bin 3, the gap between raw material particles is increased, the flow performance of the raw material particles is enhanced, and the condition of initial blockage is avoided.

The working process of the stirring device is as follows: during operation, the opening degree of the valve 11 is set according to the time required by one-time stirring circulation of the vertical shaft stirrer 6, so that the flow of the discharge hole of the storage bin 1 is adjusted, and the time for filling the measuring tank 2 is equal to the time required by one-time stirring circulation of the vertical shaft stirrer 6. The inflator pump 5 is opened, it is guaranteed that air is introduced into the storage bin 1 and the material receiving bin 3, raw materials are directly poured into the storage bin 1 to be stored, the raw materials enter the measuring barrel 2 from the storage bin 1 through the valve 11, after the measuring barrel 2 is filled with the raw materials, the measuring barrel 2 is turned on one side under the action of the eccentric hopper 23, the raw materials are poured into the material receiving bin 3 from the measuring barrel 2, the raw materials flow downwards along the guide channel 31 in the material receiving bin 3, when the raw materials are discharged from the outlet of the material receiving bin 3, the raw materials and another raw materials are oppositely flushed under the action of the guide plate 32, the mixing for the first time is achieved, the mixed raw materials fall into the vertical shaft stirrer 6, and the vertical shaft stirrer 6 conducts stirring work on the mixed different. Meanwhile, after the measuring barrel 2 is poured out of the raw materials, the measuring barrel is turned backwards to reset under the action of the counterweight plate 22, and in the resetting process, the brake rod 211 stops after touching the limiting rod 41, so that the material receiving is performed for the second circulation measurement. After the raw materials in the vertical shaft stirrer 6 are uniformly stirred and discharged, the measuring barrel 2 is turned over again to pour the raw materials into the material receiving bin 3, and the operation is circulated.

The utility model provides an agitating unit can effectively improve the reinforced work efficiency of elasticity silica sand raw materials, has practiced thrift manpower, material resources, time, the cost is reduced. And the stirring device has simple structure, convenient use, low cost and easy popularization.

Claims (10)

1. The utility model provides an elasticity silica sand mechanism that feeds in raw material, includes at least two sets of reinforced subassemblies (100), its characterized in that: each group of charging assemblies (100) comprises

The bottom of the storage bin (1) is provided with a discharge hole;

the measuring barrel (2) is arranged below the storage bin (1) in a vertically-overturning manner, and the upper part of the measuring barrel (2) is provided with an opening corresponding to the discharge hole of the storage bin (1);

the material receiving bin (3) is arranged below the measuring barrel (2), a through guide channel (31) is arranged in the material receiving bin (3), and outlets of the material receiving bins (3) are gathered together.

2. The elastic silica sand charging mechanism according to claim 1, characterized in that: the outer side of the lower end of the material receiving bin (3) extends downwards to form a guide plate (32).

3. The elastic silica sand charging mechanism according to claim 1, characterized in that: a valve (11) is arranged on the discharge hole of the storage bin (1).

4. The elastic silica sand charging mechanism according to claim 1, characterized in that: the diameter of the inlet section of the guide channel (31) is larger than that of the outlet section.

5. The elastic silica sand charging mechanism according to any one of claims 1 to 4, characterized in that: the feeding device also comprises a rack (4), and each feeding component (100) is supported on the rack (4).

6. The elastic silica sand charging mechanism according to claim 5, characterized in that: still be provided with pump (5) on frame (4), be connected with on the gas outlet of pump (5) can be to storage silo (1) and/or connect trachea (51) that let in gas in feed bin (3).

7. The elastic silica sand charging mechanism according to claim 6, characterized in that: the storage silo (1) is including fixing storage support wall (12) on frame (4) and setting up in storage support wall (12) inboard and can ventilative storage inner wall (13), the first through-hole that is used for connecting trachea (51) is offered in storage support wall (12).

8. The elastic silica sand charging mechanism according to claim 6 or 7, characterized in that: the material receiving bin (3) comprises a material receiving supporting wall (33) fixed on the rack (4) and a material receiving inner wall (34) which is arranged on the inner side of the material receiving supporting wall (33) and can be ventilated, and the material receiving supporting wall (33) is provided with a second through hole used for being connected with an air pipe (51).

9. The elastic silica sand charging mechanism according to claim 5, characterized in that: the measuring barrel (2) is characterized in that supporting rods (21) extend towards two sides of the barrel wall of the measuring barrel (2), and the measuring barrel (2) is rotatably connected to the rack (4) through the supporting rods (21);

a brake rod (211) extends upwards from at least one support rod (21), and a limiting rod (41) capable of blocking the brake rod (211) from turning towards one rotation direction is arranged on the rack (4);

the bottom plate of measurement bucket (2) is for counterweight plate (22) through the counter weight setting, the upper portion of measurement bucket (2) is provided with eccentric hopper (23) that can make measurement bucket (2) to another rotation direction upset, measurement bucket (2) with the chamber of placing of eccentric hopper (23) is linked together.

10. A stirring device is characterized in that: comprising the elastic silica sand feeding mechanism according to any one of claims 1 to 9, and further comprising a vertical shaft stirrer (6) arranged below the outlet of the receiving bin (3).

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