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CN-224211307-U - Full-automatic quantitative split charging device for dry-mixed mortar

CN224211307UCN 224211307 UCN224211307 UCN 224211307UCN-224211307-U

Abstract

The utility model relates to the field of quantitative split charging devices, and discloses a full-automatic quantitative split charging device for dry-mixed mortar, which comprises a split charging system, wherein the top of the split charging system is fixedly connected with a feed inlet, a dust collection assembly is arranged outside the split charging system, anti-blocking assembly is installed at partial shipment system top, the dust absorption subassembly includes two casings, the inboard fixed connection of casing is in the partial shipment system is outside, casing inner wall sliding connection has the collection frame, casing top fixedly connected with pipeline. According to the utility model, the exhaust fan is started, so that the air suction port sucks dust at the output end of the split charging system into the collecting frame along the pipeline, and then the inserting rod is pulled to drive the sliding plate to compress the first spring, so that the inserting rod is separated from the collecting frame, and meanwhile, the baffle plate can automatically fall into the shell, so that the generated dust is sucked away, the working environment is prevented from being polluted, and meanwhile, the collecting frame can be quickly taken out, and the dust in the collecting frame can be conveniently recovered.

Inventors

  • XU JIAQUAN
  • CHU JIAN
  • ZHAO ZHENCHAO
  • GAO PENG

Assignees

  • 山东华杰新型环保建材有限公司

Dates

Publication Date
20260508
Application Date
20250617

Claims (8)

  1. 1. The full-automatic quantitative split charging device for the dry-mixed mortar comprises a split charging system (1) and is characterized in that a feed inlet (2) is fixedly connected to the top of the split charging system (1), a dust collection assembly is arranged outside the split charging system (1), and an anti-blocking assembly is arranged at the top of the split charging system (1); The dust collection assembly comprises two sleeves (3), the inner sides of the sleeves (3) are fixedly connected with the outside of the sub-packaging system (1), the inner walls of the sleeves (3) are fixedly connected with a collecting frame (4), the tops of the sleeves (3) are fixedly connected with a pipeline (5), the input ends of the pipeline (5) are fixedly connected with an air suction port (6), the rear sides of the sleeves (3) are fixedly connected with an exhaust fan (7), the outer sides of the sleeves (3) are fixedly connected with a shell (8), the inner sides of the shell (8) are fixedly connected with a inserting rod (9), the outer sides of the inserting rod (9) are fixedly connected with a sliding plate (10), the rear sides of the sliding plate (10) are fixedly connected with a spring (11), the inner sides of the shell (8) are fixedly connected with a baffle (12), and the tops of the shell (8) are fixedly connected with a limiting plate (13).
  2. 2. The full-automatic quantitative split charging device for dry-mixed mortar according to claim 1, wherein the anti-blocking assembly comprises a motor (14) and a sliding shell (16), the motor (14) is fixedly connected to the top of the split charging system (1) in the outside, the output end of the motor (14) is fixedly connected with a cam (15), the rear end of the sliding shell (16) is fixedly connected to the front side of the feeding port (2), a sliding rod (17) is connected to the inside of the sliding shell (16) in a sliding manner, a rubber block (18) is fixedly connected to the rear end of the sliding rod (17), a spring II (19) is fixedly connected to the front side of the rubber block (18), and a poking plate (20) is fixedly connected to the front end of the sliding rod (17).
  3. 3. The full-automatic quantitative split charging device for dry-mixed mortar according to claim 1 is characterized in that the rear side of the air suction port (6) is fixedly connected to the front side of the split charging system (1).
  4. 4. The full-automatic quantitative split charging device for dry-mixed mortar according to claim 1 is characterized in that the outside of the inserting rod (9) is inserted into the collecting frame (4), and the front side of the baffle plate (12) is slidingly connected to the rear side of the limiting plate (13).
  5. 5. The full-automatic quantitative split charging device for dry-mixed mortar according to claim 1, wherein the rear side of the baffle plate (12) is abutted with the front end of the inserted link (9), and the bottom of the baffle plate (12) is abutted with the top of the sliding plate (10).
  6. 6. The full-automatic quantitative split charging device for dry-mixed mortar according to claim 1, wherein the rear end of the first spring (11) is fixedly connected to the inner wall of the shell (8), and the first spring (11) is sleeved outside the inserted link (9).
  7. 7. The full-automatic quantitative split charging device for dry-mixed mortar according to claim 2, wherein the rear side of the rubber block (18) is abutted against the outside of the feeding port (2), and the outside of the rubber block (18) is slidably connected to the inner wall of the sliding shell (16).
  8. 8. The full-automatic quantitative split charging device for dry-mixed mortar according to claim 2, wherein the front end of the second spring (19) is fixedly connected to the inner wall of the sliding shell (16), and the rear side of the poking plate (20) is abutted against the outer part of the cam (15).

Description

Full-automatic quantitative split charging device for dry-mixed mortar Technical Field The utility model relates to the field of quantitative split charging devices, in particular to a full-automatic quantitative split charging device for dry-mixed mortar. Background The dry-mixed mortar is a powdery building material which is formed by mixing main components of the mortar in a certain proportion in advance, and can be used by adding a proper amount of water for stirring when a user is in construction. The dry-mixed mortar is widely applied to the construction engineering, especially in the aspects of wall plastering, ground leveling, masonry and the like, and can be selected according to different requirements during construction due to the accurate formula, such as common plastering mortar, masonry mortar, thermal insulation mortar and the like, so that the requirements of different construction occasions are met, the dry-mixed mortar has stronger binding force, good fluidity and crack resistance, the construction efficiency can be effectively improved, and the construction time is shortened. The dry-mixed mortar is convenient to store and transport, is packaged in bags or in bulk, is easy to store and transport, is not easy to be influenced by environmental factors, and is a common dry-mixed mortar split charging device, quantitative split charging can be realized through the distance between two blades in an impeller, but when the dry-mixed mortar is split charged by the traditional impeller packaging machine, a large amount of dust can be generated during packaging due to the fact that the dry-mixed mortar is in powder form, and the working environment is seriously influenced. Disclosure of utility model In order to make up for the defects, the utility model provides a full-automatic quantitative split charging device for dry-mixed mortar, which aims to solve the problem that when the dry-mixed mortar is split charged by a traditional impeller packing machine, a large amount of dust is generated during packing because the dry-mixed mortar is in powder form, and the working environment is seriously influenced. In order to achieve the aim, the full-automatic quantitative split charging device for the dry-mixed mortar comprises a split charging system, wherein the top of the split charging system is fixedly connected with a feed inlet, a dust collection assembly is arranged outside the split charging system, and an anti-blocking assembly is arranged at the top of the split charging system; The dust collection assembly comprises two casings, the inside fixedly connected with of casing is in the partial shipment system is outside, casing inner wall sliding connection has the collection frame, casing top fixedly connected with pipeline, pipeline input fixedly connected with induction port, casing rear side fixedly connected with air discharge fan, the outside fixedly connected with shell of casing, the inside sliding connection of shell has the inserted bar, the outside fixedly connected with slide of inserted bar, slide rear side fixedly connected with spring one, the inside sliding connection of shell has the baffle, shell top fixedly connected with limiting plate. As a further description of the above technical solution: The anti-blocking assembly comprises a motor and a sliding shell, wherein the motor is fixedly connected to the top of the sub-packaging system, the output end of the motor is fixedly connected with a cam, the rear end of the sliding shell is fixedly connected to the front side of the feed inlet, a sliding rod is slidably connected to the inside of the sliding shell, the rear end of the sliding rod is fixedly connected with a rubber block, the front side of the rubber block is fixedly connected with a second spring, and the front end of the sliding rod is fixedly connected with a shifting plate. As a further description of the above technical solution: the rear side of the air suction port is fixedly connected to the front side of the split charging system. As a further description of the above technical solution: the outside grafting of inserted bar is in collect the frame is inside, baffle front side sliding connection is in limiting plate rear side. As a further description of the above technical solution: The rear side of the baffle is in butt joint with the front end of the inserted link, and the bottom of the baffle is in butt joint with the top of the sliding plate. As a further description of the above technical solution: the rear end of the spring is fixedly connected to the inner wall of the shell, and the inner part of the spring is sleeved outside the inserted link. As a further description of the above technical solution: The rear side of the rubber block is abutted with the outside of the feed inlet, and the outside of the rubber block is connected with the inner wall of the sliding shell in a sliding manner. As a further description of the above technical solution: The fron