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CN-224226205-U - Discharging device

CN224226205UCN 224226205 UCN224226205 UCN 224226205UCN-224226205-U

Abstract

The utility model provides a discharging device, which belongs to the technical field of loading and unloading materials, wherein a first flashboard, a second flashboard and a storage bin are arranged in sequence on the storage bin along a first direction, the first direction is the direction from the inlet to the outlet, the first flashboard and the second flashboard are both used for controlling the unloading of work materials in the storage bin, a driving component is respectively connected with the first flashboard and the second flashboard, the driving component drives the first flashboard and the second flashboard to move along a second direction, the second direction is intersected with the first direction, the driving component is provided with a unloading position and a feeding position, when the driving component is positioned at the unloading position, the first flashboard is positioned on the flow track of the work materials and stops the work materials from flowing through the first flashboard, the second flashboard is positioned outside the flow track of the work materials, when the driving component is positioned at the feeding position, the second flashboard is positioned on the flow track of the work materials and stops the work materials from flowing, and the first flashboard is positioned outside the flow track of the work materials. When in use, the energy is saved, and the quantitative discharging can be realized.

Inventors

  • HE LIPING
  • XU DENGKE
  • LUO YUGUANG

Assignees

  • 庆铃汽车(集团)有限公司
  • 重庆庆铃铸造有限公司

Dates

Publication Date
20260512
Application Date
20250522

Claims (10)

  1. 1. The utility model provides a discharge apparatus, its characterized in that, including drive subassembly, first flashboard, second flashboard and feed bin, the feed bin has inlet port and discharge port, first flashboard with the second flashboard sets gradually along first direction on the feed bin, first direction is the inlet port extremely the direction of discharge port, first flashboard and second flashboard all are used for controlling the discharge of work material in the feed bin, drive the subassembly respectively with first flashboard and second flashboard are connected, drive the subassembly drive first flashboard with the second flashboard is followed the second direction and is removed, the second direction with first direction is crossing, drive the subassembly has unloading position and feeding position, when drive the subassembly and be located the unloading position, first flashboard is located the flow path of work material, and stops the work material to flow through first flashboard, the second flashboard is located when drive the subassembly is located the feeding position, the second flashboard is located the flow path of work material, and stops the work material flow path, first flashboard is located the work material flow path.
  2. 2. The discharge apparatus of claim 1, further comprising a linkage, a first connector and a second connector, wherein the first connector is coupled to the linkage and the first ram, respectively, the second connector is coupled to the linkage and the second ram, respectively, and the silo is positioned between the first connector and the second connector.
  3. 3. The discharge apparatus as recited in claim 2, wherein the linkage is disposed at an upper portion of the bin.
  4. 4. The discharging device of claim 3, wherein the driving assembly further comprises a mounting frame, a driving shaft seat arranged on the mounting frame and a power output piece connected with the linkage piece, the linkage piece is rod-shaped and penetrates through the driving shaft seat, and the linkage piece is driven by the power output piece to reciprocate along the axial direction of the linkage piece.
  5. 5. The discharging device of claim 4, wherein the transmission shaft seat is internally provided with a containing cavity for containing lubricant, the containing cavity is positioned on a penetrating track of the linkage piece, the transmission shaft seat is provided with an inlet opening and an outlet opening for the linkage piece to penetrate in and out, and the inlet opening and the outlet opening are respectively provided with a first sealing component for sealing a gap between the linkage piece and the transmission shaft seat.
  6. 6. The discharge apparatus as claimed in claim 4 or 5, wherein the power take-off is a cylinder, a return spring for return is arranged in the cylinder, and the return spring is used for driving a piston of the cylinder to move towards a gas inlet of the cylinder.
  7. 7. The discharge device of claim 1, wherein the driving assembly includes a third connecting member connected to the first shutter and the second shutter, respectively.
  8. 8. The discharge apparatus of claim 7, wherein the first gate includes a first blocking portion for blocking passage of the work material, the second gate includes a second blocking portion for blocking passage of the work material and a second discharge portion for passage of the work material, the second discharge portion has a passage structure, the second blocking portion is connected to the second discharge portion, the first blocking portion is located outside a flow path of the work material when the driving assembly is located at the feeding position, the second blocking portion is located on the flow path of the work material and blocks flow of the work material through the second blocking portion, and the first blocking portion is located on the flow path of the work material and blocks flow of the work material through the first blocking portion when the driving assembly is located at the discharging position, the second discharge portion is located on the flow path of the work material and the work material flows through the second discharge portion through the passage structure.
  9. 9. The discharge apparatus as recited in claim 8, wherein the passage structure is a passage hole penetrating the second shutter plate in the first direction.
  10. 10. The discharge apparatus as recited in claim 1-5, wherein the first gate and the second gate are disposed on the bin in a penetrating manner, and a second sealing assembly is disposed on an outer surface of the bin for penetrating the first gate and the second gate, and the second sealing assembly is used for sealing a gap between the first gate or the second gate and the bin.

Description

Discharging device Technical Field The utility model belongs to the technical field of loading and unloading, and particularly relates to a discharging device. Background The discharging device is mainly used for controlling the discharge of the work materials, ensuring that the work materials are discharged from a storage bin, a hopper or a pipeline according to the needs, quantitatively, continuously or intermittently, and is widely applied to industrial production, work material conveying and automatic processes. At present, in certain production states, the discharging device needs to have a quantitative discharging function, and quantitative discharging can ensure that the amount of work materials discharged each time meets the process requirements (such as batching and packaging), so that the discharging device has an important role in industrial production. The current quantitative discharging device is complex in structure due to the fact that equipment for calculating the work material quantity such as a weighing sensor or a flowmeter is required to be arranged, meanwhile, on-off valves for discharging the work material need to use different power sources to achieve on-off of different states, linkage is difficult to achieve, and accordingly manufacturing cost of the quantitative discharging device and energy consumption cost during production are high, improvement of production benefits of a production line is not facilitated, and the problem needs to be solved. Disclosure of utility model In view of the above-mentioned drawbacks of the prior art, an object of the present utility model is to provide a discharging device for solving the problems of high manufacturing cost and high energy consumption cost during production of the quantitative discharging device in the prior art. To achieve the above and other related objects, the present utility model provides a discharging device, including a first gate, a second gate, and a bin, where the bin has an inlet and an outlet, the first gate and the second gate are sequentially disposed on the bin along a first direction, the first direction is a direction from the inlet to the outlet, the first gate and the second gate are both used to control discharging of a work material in the bin, the driving component is connected to the first gate and the second gate, respectively, the driving component drives the first gate and the second gate to move along a second direction, the second direction intersects the first direction, the driving component has a discharging position and a feeding position, when the driving component is located at the discharging position, the first gate is located on a flow path of the work material and blocks the flow of the work material, when the driving component is located at the feeding position, the second gate is located at the flow path of the work material and blocks the flow path of the work material. Optionally, the driving assembly comprises a linkage piece, a first connecting piece and a second connecting piece, wherein the first connecting piece is connected with the linkage piece and the first flashboard respectively, the second connecting piece is connected with the linkage piece and the second flashboard respectively, and the storage bin is located between the first connecting piece and the second connecting piece. Optionally, the linkage is disposed at an upper portion of the bin. Optionally, the driving assembly further comprises a mounting frame, a driving shaft seat arranged on the mounting frame and a power output piece connected with the linkage piece, wherein the linkage piece is rod-shaped and penetrates through the driving shaft seat, and the linkage piece is driven by the power output piece to reciprocate along the axial direction of the linkage piece. Optionally, a containing cavity for containing lubricant is arranged in the transmission shaft seat, the containing cavity is located on a penetrating track of the linkage piece, the transmission shaft seat is provided with an inlet and outlet opening through which the linkage piece penetrates in and out, and first sealing assemblies for sealing gaps between the linkage piece and the transmission shaft seat are arranged at the inlet and outlet opening. Optionally, the power take off is the cylinder, be provided with the reset spring that is used for the reset in the cylinder, the reset spring is used for driving the piston of cylinder towards the gas inlet port motion of cylinder. Optionally, the driving assembly includes a third connecting piece, and the third connecting piece is connected with the first flashboard and the second flashboard respectively. Optionally, the first gate plate includes a first blocking portion for blocking the passage of the work material, the second gate plate includes a second blocking portion for blocking the passage of the work material and a second discharging portion for passing the work material, the second discharging porti