CN216511570U - Feed divider of non-fluid agent distributing device - Google Patents

Abstract

The utility model relates to the technical field of distributing devices, in particular to a distributing device of a non-fluid agent distributor, which comprises a distributing pipe and a shifting shaft, wherein the shifting shaft is sleeved in the distributing pipe, the upper end of the distributing pipe is positioned in a main box body, the lower end of the distributing pipe is positioned outside the main box body, a feeding through hole is formed in the distributing pipe inside the main box body, a discharging through hole is formed in the distributing pipe outside the main box body, a power mechanism is arranged on the main box body, the power mechanism is in transmission connection with the shifting shaft, the shifting shaft comprises a shaft body and partition plates arranged on the shaft body at intervals, the partition plates are arranged along the axial direction, the partition plates are uniformly arranged on the shaft body at intervals, and when the shifting shaft is positioned in the distributing pipe, the outer ends of the partition plates are in contact with the inner wall of the distributing pipe. The distributing device of the non-fluid agent distributor, which is disclosed by the utility model, has the advantages of uniform distribution, environmental protection, reliability, high construction efficiency, stable and reliable distributing process and good continuity.

Description

Feed divider of non-fluid agent distributing device

Technical Field

The utility model relates to the technical field of distributing devices, in particular to a distributing device of a non-fluid agent distributor.

Background

Since twelve years, the urbanization process of the country is rapidly promoted, and the urban population rapidly rises; in order to improve urban living environment, the policy of coming out of each big city one after another is adopted, and polluted enterprises and heavy industry enterprises are migrated; however, the pollution of the surrounding environment and soil of the enterprise still needs to be treated harmlessly for many years. The polluted fields are not necessarily continuous and centralized, large-scale continuous treatment equipment is high in construction cost, and the transition moving period is long, so that certain difficulty is brought to harmless treatment of soil, and an additive spreading device with flexible disassembly and assembly is urgently needed.

With the rapid development of national economic construction, the contradiction between the requirement of construction land and the occupation of cultivated land is increasingly prominent, 18 hundred million mu cultivated land red lines are defined by the country for protecting the livelihood of people, and the sight of constructors has to be more shifted to the sedimentary land of rivers, lakes and seas. The depth of the sea phase deposition silt layer reaches dozens of meters, the depth of the soft foundation silt made by artificial dredger fill is also nearly ten meters, the bearing capacity of the silt foundation is extremely low, the water content is high, and the silt foundation cannot be directly used for construction. Therefore, the sludge must be solidified, the traditional solution is to dig mountain and break stone, the mixture of the broken stone and soil is called mountain crust soil, the filled material sinks continuously, and then the filling and the extrusion are continued until the filled mountain crust soil is stable. But the cost is high, the period is long, and the investment is large; at present, a certain amount of curing agent is usually added into the sludge to cure the shallow surface sludge.

Limited by the prior art, the curing agent is usually intensively treated by a mixing station or manually and directly poured into the sludge to be treated, and then mixed on site. The treatment method has relatively high efficiency, but has large manual workload, uneven curing agent laying, large dust emission and serious environmental pollution.

The existing material distributing device has poor material distributing uniformity, low material distributing efficiency and the like.

SUMMERY OF THE UTILITY MODEL

The utility model provides a distributing device of a non-fluid agent distributor, which is used for solving the technical defects and has uniform distribution and smooth operation.

The utility model discloses a distributing device of a non-fluid agent distributing device, wherein the bottom of a main box body of the distributing device is composed of inclined side plates, a rectangular outlet is formed in the middle of the main box body, the distributing device is arranged at the outlet and comprises a distributing pipe and a shifting shaft, the shifting shaft is sleeved in the distributing pipe, two ends of the shifting shaft are rotatably connected through a bearing, the distributing pipe is horizontally fixed at the outlet at the bottom of the main box body, the distributing pipe is hermetically connected with the outlet, the upper end of the distributing pipe is positioned in the main box body, the lower end of the distributing pipe is positioned outside the main box body, a feeding through hole is arranged on the distributing pipe in the main box body, a discharging through hole is arranged on the distributing pipe outside the main box body, a power mechanism is arranged on the main box body and is in transmission connection with the shifting shaft, the shifting shaft comprises a shaft body and partition plates which are arranged on the shaft body at intervals, and the partition plates are arranged along the axial direction, the baffle sets up the interval on the axis body evenly, and when dialling the material axle and being located the branch intraductal, the outer end of baffle and branch material pipe inner wall contact. The angle of the central angle of the feeding through hole on the material distributing pipe is smaller than that of the central angle of the discharging through hole on the material distributing pipe. Preferably, the central angle corresponding to the feeding through hole is 60 degrees, and the central angle corresponding to the discharging through hole is 120 degrees. The feeding through holes and the discharging through holes occupy most or all areas of the material distributing pipe in the range, a small amount of connecting ribs can be reserved, and the conveying of the agent is not influenced. The power mechanism can be a hydraulic motor, is suitable for outdoor operation, and is more convenient to be matched with an excavator and the like.

According to the scheme of the distributor, the non-fluid agent is located at the bottom of the main box body, the inclined side plates at the bottom of the main box body are arranged, the non-fluid agent can be gathered towards the distributing device, meanwhile, due to the design of the feeding through holes at the upper part and the discharging through holes at the lower part of the distributing pipe, the agent can fall into the area between the partition plates on the material stirring shaft in the distributing pipe, the outer side of each partition plate is basically contacted with the inner wall of the distributing pipe, the agent only falls into the area between the partition plates corresponding to the feeding through holes, the partition plates can drive the agent to rotate to the discharging through holes after the material stirring shaft rotates, the agent falls under the action of gravity, the power mechanism drives the material stirring shaft to rotate at a constant speed, and therefore distribution of the agent is uniform and stable. Because the partition plates are uniformly spaced, the spaces among the partition plates are consistent, and the distribution of the agent is uniform. The existence of a small amount of splice bar in order to increase branch material pipe's intensity and stability.

And a branch pressing plate is arranged on a side plate at the bottom of the main box body above the branch material pipe, the branch pressing plate is a V-shaped plate with a downward opening, the length direction of the branch pressing plate is consistent with the axial direction of the material stirring shaft, and two ends of the branch pressing plate are fixed on the side plates at the bottom of the main box body at two ends of the material stirring shaft. A distributing plate is arranged above the distributing pipe, so that a large amount of agent in the main box body can be prevented from being compacted downwards and cannot enter the distributing pipe. Therefore, the compaction degree of the agent below the distributing plate can be reduced, the agent can smoothly enter the distributing pipe from two sides, and the stability and the continuity of the cloth are ensured.

The lower end of the main box body is fixedly connected with a passive scattering plate, two ends of the passive scattering plate are connected to the main box body, the passive scattering plate is located under the material stirring shaft, a gap exists between the passive scattering plate and the material stirring shaft, and the passive scattering plate is of a V-shaped structure with a downward opening. Because the agent gets into between the baffle of stirring the material axle after, the agent in its main tank body can produce certain pressure to it, stir the material axle simultaneously and rotate the in-process, divide the material pipe inner wall also can produce certain extrusion to the agent between the baffle, so stir the agent between the baffle of material axle and have certain compactness, rotate to ejection of compact through-hole department when it, it can drop under the action of gravity, can become block-shaped structure sometimes, so stir the passive board of breaing up of material axle below and can break up the agent that drops, avoid it to be massive cloth, so the cloth is more even, stability and excellent in use effect.

A plurality of reinforcing plates are arranged at the bottom of the main box body below the pressure dividing plate at intervals, two ends of each reinforcing plate are fixed on the side plates of the main box body, and material passing holes are formed in the middle of each reinforcing plate. The design of reinforcing plate can carry out better support to the pressure divider plate, avoids the agent in the main tank body too big and cause the circumstances such as pressure divider plate bending deformation damage even on the effort of pressure divider plate, and the design in punishment in advance hole simultaneously can make the agent can pass the reinforcing plate, so, the reinforcing plate can not lead to the fact the restriction to the transport of agent.

An annular dust cover is arranged on the periphery of the discharge through hole of the material distributing pipe. The dust cover can effectively limit the generation of dust in the cloth process so as to protect the environment and protect the environment.

The baffle is made of rubber. Adopt the rubber material as the baffle, can direct contact between its rubber and the branch material pipe of metal promotes the leakproofness between baffle and the branch material pipe to ensure the accuracy nature of branch material, the wearing and tearing between rubber and the metal are less simultaneously.

The material stirring shaft is characterized in that a plurality of clamping grooves are uniformly formed in the circumferential direction of the material stirring shaft at intervals, each clamping groove is arranged along the axial direction of the material stirring shaft, the opening size of each clamping groove is smaller than the internal size of each clamping groove, the size and the shape of the connecting end of the partition plate made of rubber and the material stirring shaft are consistent with the internal shape and the size of each clamping groove, and the partition plate is inserted into the clamping grooves. According to the design of the structure, the section of the partition plate can be T-shaped, and the section of the clamping groove can also be T-shaped, so that the partition plate and the clamping groove can be spliced, the replacement is convenient, the difficulty in manufacturing and connecting matching is reduced, and the cost is low.

The distributing device of the non-fluid agent distributor, which is disclosed by the utility model, has the advantages of uniform distribution, environmental protection, reliability, high construction efficiency, stable and reliable distributing process and good continuity.

The non-fluid agent distributor obtained by the utility model can be applied to sludge solidification and soil pollution treatment.

Drawings

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

FIG. 2 is a schematic illustration of an explosive structure according to the present invention;

FIG. 3 is a schematic structural view of the distributing pipe of the present invention;

FIG. 4 is a perspective view of the dispensing tube of the present invention;

FIG. 5 is a schematic structural view of the stirring shaft of the present invention;

FIG. 6 is a side view of the kick-off shaft of the present invention;

fig. 7 is a schematic structural view of a kick-out shaft in embodiment 2 of the present invention.

Detailed Description

To further illustrate the technical means and effects of the present invention for achieving the intended purpose of the utility model, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Example 1:

as shown in fig. 1-6, the utility model discloses a distributing device of a non-fluid agent distributor, the bottom of a main box body 1 of the distributor is composed of inclined side plates, a rectangular outlet is formed in the middle, the distributing device is arranged at the outlet and comprises a distributing pipe 16 and a stirring shaft 17, the stirring shaft 17 is sleeved inside the distributing pipe 16, two ends of the stirring shaft 17 are rotatably connected through a bearing, the distributing pipe 16 is horizontally fixed at the outlet at the bottom of the main box body 1, the distributing pipe 16 is hermetically connected with the outlet, the upper end of the distributing pipe 16 is positioned inside the main box body 1, the lower end of the distributing pipe 16 is positioned outside the main box body 1, a feeding through hole 22 is arranged on the distributing pipe 16 inside the main box body 1, a discharging through hole 23 is arranged on the distributing pipe 16 outside the main box body 1, a power mechanism 21 is arranged on the main box body 1, and the power mechanism 21 is in transmission connection with the stirring shaft 17, the material stirring shaft 17 comprises a shaft body and a partition plate 18 arranged on the shaft body at intervals, the partition plate 18 is arranged along the axial direction, the arrangement intervals of the partition plate 18 on the shaft body are uniform, and when the material stirring shaft 17 is positioned in the material distributing pipe 16, the outer end of the partition plate 18 is in contact with the inner wall of the material distributing pipe 16. The central angle of the inlet openings 22 on the distribution pipe 16 should be smaller than the central angle of the outlet openings 23 on the distribution pipe 16. Preferably, the central angle corresponding to the feeding through hole 22 is 60 degrees, and the central angle corresponding to the discharging through hole 23 is 120 degrees.

A pressure distributing plate 13 is arranged above the rectangular outlet at the bottom of the main box body 1, the pressure distributing plate 13 is a V-shaped plate with a downward opening, the length direction of the pressure distributing plate is consistent with the axial direction of the material stirring shaft 17, and two ends of the pressure distributing plate 13 are fixed on side plates at the bottom of the main box body 1 at two ends of the material stirring shaft 17.

The lower end of the main box body 1 is fixedly connected with a passive scattering plate 20, two ends of the passive scattering plate 20 are connected to the main box body 1, the passive scattering plate 20 is located right below the material stirring shaft 17, a gap exists between the passive scattering plate 20 and the material stirring shaft 17, and the passive scattering plate 20 is of a V-shaped structure with a downward opening.

A plurality of reinforcing plates 14 are arranged at the bottom of the main box body 1 below the pressure dividing plate 13 at intervals, two ends of each reinforcing plate 14 are fixed on side plates of the main box body 1, and a material passing hole 15 is formed in the middle of each reinforcing plate 14.

An annular dust cover is arranged on the periphery of the discharge through hole 23 of the material distributing pipe 16.

Example 2:

the technical solution of the present embodiment is different from that of embodiment 1 in that: the partition 18 is made of rubber.

As shown in fig. 7, a plurality of clamping grooves 30 are uniformly arranged at intervals in the circumferential direction of the material shifting shaft 17, each clamping groove 30 is arranged along the axial direction of the material shifting shaft 17, the opening size of the clamping groove 17 is smaller than the internal size of the clamping groove 30, the size and shape of the connecting end of the partition plate 18 made of rubber and the material shifting shaft 17 are consistent with the internal shape and size of the clamping groove 30, and the partition plate 28 is inserted into the clamping groove 30.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (7)

1. A distributing device of a non-fluid agent distributor is characterized in that the bottom of a main box body of the distributor is composed of inclined side plates, a rectangular outlet is formed in the middle of the main box body, and the rectangular outlet is arranged at the outlet: the material distribution device comprises a material distribution pipe and a material shifting shaft, wherein the material shifting shaft is sleeved inside the material distribution pipe, two ends of the material distribution pipe are connected in a rotating mode through a bearing, the material distribution pipe is horizontally fixed at an outlet at the bottom of a main box body, the material distribution pipe is connected with the outlet in a sealing mode, the upper end of the material distribution pipe is located inside the main box body, the lower end of the material distribution pipe is located outside the main box body, a feeding through hole is formed in the material distribution pipe inside the main box body, a discharging through hole is formed in the material distribution pipe outside the main box body, a power mechanism is arranged on the main box body and is in transmission connection with the material shifting shaft, the material shifting shaft comprises a shaft body and partition plates arranged on the shaft body at intervals, the partition plates are arranged in the axial direction, the partition plates are even in intervals in arrangement on the shaft body, and the outer ends of the partition plates are in contact with the inner wall of the material distribution pipe when the material shifting shaft is located inside the material distribution pipe.

2. The dispensing device of claim 1, wherein the dispensing device further comprises: and a branch pressing plate is arranged on a side plate at the bottom of the main box body above the branch material pipe, the branch pressing plate is a V-shaped plate with a downward opening, the length direction of the branch pressing plate is consistent with the axial direction of the material stirring shaft, and two ends of the branch pressing plate are fixed on the side plates at the bottom of the main box body at two ends of the material stirring shaft.

3. A distributor for a non-fluid agent as defined in claim 1 or claim 2 wherein: the lower end of the main box body is fixedly connected with a passive scattering plate, two ends of the passive scattering plate are connected to the main box body, the passive scattering plate is located under the material stirring shaft, a gap exists between the passive scattering plate and the material stirring shaft, and the passive scattering plate is of a V-shaped structure with a downward opening.

4. A dispensing assembly as claimed in claim 3, wherein said dispensing assembly comprises: a plurality of reinforcing plates are arranged at the bottom of the main box body below the pressure dividing plate at intervals, two ends of each reinforcing plate are fixed on the side plates of the main box body, and material passing holes are formed in the middle of each reinforcing plate.

5. The dispensing device of claim 1, wherein the dispensing device further comprises: an annular dust cover is arranged on the periphery of the discharge through hole of the material distributing pipe.

6. The dispensing mechanism of claim 4, wherein the dispensing mechanism further comprises: the baffle is made of rubber.

7. The dispensing device of claim 6, wherein the dispensing device further comprises: the material stirring shaft is characterized in that a plurality of clamping grooves are uniformly formed in the circumferential direction of the material stirring shaft at intervals, each clamping groove is arranged along the axial direction of the material stirring shaft, the opening size of each clamping groove is smaller than the internal size of each clamping groove, the size and the shape of the connecting end of the partition plate made of rubber and the material stirring shaft are consistent with the internal shape and the size of each clamping groove, and the partition plate is inserted into the clamping grooves.

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