CN214242280U

CN214242280U - Binary feed bin module

Info

Publication number: CN214242280U
Application number: CN202023087987.5U
Authority: CN
Inventors: 王斌; 王兰磊
Original assignee: Qingdao Tesco Mechanical And Electrical Engineering Co ltd
Current assignee: Qingdao Tesco Mechanical And Electrical Engineering Co ltd
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-09-21
Anticipated expiration: 2030-12-21

Abstract

The utility model discloses a binary feed bin module, include: the feeding device comprises two bin bodies, two feeding channels and a feeding assembly, wherein the feeding channels are positioned at the bottoms of the corresponding bin bodies; one end part of the feeding channel is connected with the corresponding bin body, and the other end part of the feeding channel is provided with a feeding port; the feeding assembly comprises an enclosing barrier, two baffle plates and two first driving parts, the baffle plates are rotatably arranged in the enclosing barrier, the first driving parts are connected with the corresponding baffle plates and used for driving the baffle plates to rotate, the feeding ports are located in the enclosing barrier, and the baffle plates are used for switching the corresponding feeding ports. The manufacturing cost of the double-body storage bin module is reduced, and the occupied area is reduced.

Description

Binary feed bin module

Technical Field

The utility model relates to the technical field of machinery, especially, relate to a binary feed bin module.

Background

The material is at the transportation process, has under the condition that different materials need carry, and different materials deposit storage in different feed bins usually, to under the more condition of material kind, then arrange a plurality of feed bins side by side usually, every row sets up a plurality of feed bins again. Therefore, when materials are conveyed, the conveying requirements of the materials are met by arranging conveying components corresponding to each discharging bin. This results in a relatively high manufacturing cost and a relatively large footprint for the apparatus. How to design a technology that makes local and reduce area is the utility model discloses the technical problem that will solve.

Disclosure of Invention

The utility model provides a binary feed bin module realizes reducing the manufacturing cost of binary feed bin module to reduce area.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a binary feed bin module, include: the feeding device comprises two bin bodies, two feeding channels and a feeding assembly, wherein the feeding channels are positioned at the bottoms of the corresponding bin bodies; one end part of the feeding channel is connected with the corresponding bin body, and the other end part of the feeding channel is provided with a feeding port; the feeding assembly comprises an enclosing barrier, two baffle plates and two first driving parts, the baffle plates are rotatably arranged in the enclosing barrier, the first driving parts are connected with the corresponding baffle plates and used for driving the baffle plates to rotate, the feeding ports are located in the enclosing barrier, and the baffle plates are used for switching the corresponding feeding ports.

Furthermore, guide plates which are alternately arranged are arranged on opposite side walls in the bin body.

Further, the guide plate extends obliquely downwards.

Further, the cross-sectional area of the bin body is gradually reduced from top to bottom.

Furthermore, a first rotating shaft is arranged on the baffle and can be rotatably arranged in the enclosure, and a connecting rod is further arranged at one end of the first rotating shaft and is positioned outside the enclosure; the first driving part comprises two first air cylinders, and the first air cylinders are hinged between the enclosure and the corresponding connecting rods.

Further, the top of the storehouse body is provided with the feed inlet, be provided with the switch on the storehouse body the apron of feed inlet.

Further, a second air cylinder is hinged between the cover plate and the bin body.

The technical scheme of the utility model prior art relatively has following technological effect: through throwing at two storehouse body bottoms throw between the material passageway through enclosing the fender and link together, two throw the dog-house of material passageway then through the baffle control switch that corresponds, when in-service use, material conveying equipment only need move to the below of enclosing the fender, the baffle that corresponds is controlled as required and is opened, and then make the material in the corresponding storehouse body export via the dog-house, like this, alright satisfy the material transport requirement of two rows of storehouses simultaneously with only configuring single material conveying equipment, the manufacturing cost of binary feed bin module has been reduced, and reduce area.

Drawings

Fig. 1 is one of the structural schematic diagrams of the double-body bunker module of the present invention;

fig. 2 is a second schematic structural diagram of a dual-body bunker module of the present invention;

FIG. 3 is a cross-sectional view of the dual-body silo module of the present invention;

fig. 4 is a reference diagram of the usage status of the dual-body silo module of the present invention.

Detailed Description

As shown in fig. 1-4, the utility model provides a binary feed bin module, includes: the device comprises two bin bodies 1, two feeding channels 2 and a feeding assembly 3, wherein the feeding channels 2 are positioned at the bottoms of the corresponding bin bodies 1; one end part of the feeding channel 2 is connected with the corresponding bin body 1, and the other end part is provided with a feeding port 21; the feeding assembly 3 comprises an enclosure 31, two baffle plates 32 and two first driving parts 33, wherein the baffle plates 32 are rotatably arranged in the enclosure 31, the first driving parts 33 are connected with the corresponding baffle plates 32 and are used for driving the baffle plates 32 to rotate, the feeding port 21 is positioned in the enclosure, and the baffle plates 32 are used for switching the corresponding feeding port 21.

Specifically, in the actual use process, the bin body 1 of the double-body bin module is mounted on the supporting platform 100, the feeding channel 2 and the feeding component 3 are located below the supporting platform 100, and a conveying device (which may be a conventional conveying device such as a feeding trolley or a conveying belt, and is not limited or repeated) may be arranged below the supporting platform 100. When the feeding is needed, the baffle 32 on the corresponding side in the enclosure 31 is driven by the first driving part 33 to open the baffle 32, and further open the feeding port 21 connected with the feeding channel 2 on the corresponding bin body 1, and the material is output from the enclosure 31 and falls onto the conveying equipment. Meanwhile, if the feeding is needed, the baffle 32 is correspondingly opened for the bin body 1 on the other side. Thus, the feeding requirements of the two rows of bin bodies 1 can be simultaneously met by one conveying device.

Further, in order to enable the materials to be smoothly output and avoid being accumulated in the bin body 1, guide plates 11 which are alternately arranged are arranged on opposite side walls in the bin body 1. Specifically, to the storehouse body 1, its top is provided with feed inlet 12, and the material is in the back of the storehouse body 1 via feed inlet 12, and the material descends the in-process at the action of gravity, and the guide plate 11 that will be arranged by turn blocks the direction and disperses with effectual, and then avoids the material to pile up in the bottom and block up and throw material passageway 2. Wherein the baffle 11 extends obliquely downwards. In addition, in order to ensure that the materials can be smoothly output through the feeding channel 2, the cross-sectional area of the bin body 1 is gradually reduced from top to bottom, and the cross-sectional area of the bottom of the bin body 1 is smaller, so that the materials at the bottom are stressed more, and after the baffle 32 opens the feeding port 21, the materials can be rapidly conveyed from the feeding channel 2 and output from the feeding port 21.

Further, a first rotating shaft (not labeled) is arranged on the baffle 32, the first rotating shaft is rotatably arranged in the enclosure 31, a connecting rod 321 is further arranged at one end of the first rotating shaft, and the connecting rod 321 is located outside the enclosure 31; the first driving member 33 comprises two first pneumatic cylinders 331, the first pneumatic cylinders 331 being hinged between the enclosure 31 and the corresponding connecting rods 321. Specifically, when the baffle 32 is opened or closed, the first air cylinder 331 is used for driving, and the first air cylinder 331 drives the first rotating shaft to rotate through the connecting rod 321, so that the baffle 32 is opened or closed to the feeding port 21.

Still further, to the feed inlet 12 at the top of the storehouse body 1, be provided with the apron 13 of switch feed inlet 12 on the storehouse body 1, corresponding, still articulated between apron and the storehouse body 1 have the second cylinder 14, and the second cylinder 14 can drive apron 13 and rotate for storehouse body 1 to realize switch feed inlet 12. Like this, after throwing into the storehouse body 1 through feed inlet 12 with the material, second cylinder 14 drive apron 13 rotates in order to close feed inlet 12, and then avoids the excessive of dust.

The above is only a specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A dual body silo module, comprising: the feeding device comprises two bin bodies, two feeding channels and a feeding assembly, wherein the feeding channels are positioned at the bottoms of the corresponding bin bodies; one end part of the feeding channel is connected with the corresponding bin body, and the other end part of the feeding channel is provided with a feeding port; the feeding assembly comprises an enclosing barrier, two baffle plates and two first driving parts, the baffle plates are rotatably arranged in the enclosing barrier, the first driving parts are connected with the corresponding baffle plates and used for driving the baffle plates to rotate, the feeding ports are located in the enclosing barrier, and the baffle plates are used for switching the corresponding feeding ports.

2. The dual-body silo module of claim 1, wherein the alternating arrangement of baffles is provided on opposing sidewalls within the silo.

3. The dual-body silo module of claim 2, wherein the baffle extends obliquely downward.

4. The dual-body silo module of claim 1, wherein the cross-sectional area of the silo body decreases from top to bottom.

5. The twin mass bin module according to claim 1, wherein the baffle has a first shaft rotatably disposed therein, and a connecting rod is further disposed at one end of the first shaft and located outside the enclosure; the first driving part comprises two first air cylinders, and the first air cylinders are hinged between the enclosure and the corresponding connecting rods.

6. The dual-body bunker module of claim 1, wherein a feed inlet is disposed at a top of the bunker body, and a cover plate capable of opening and closing the feed inlet is disposed on the bunker body.

7. The dual-body bunker module of claim 6, wherein a second cylinder is further articulated between the cover plate and the bunker body.