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CN-224207915-U - Optical camouflage paint production proportioning machine with quantitative proportioning function

CN224207915UCN 224207915 UCN224207915 UCN 224207915UCN-224207915-U

Abstract

The utility model relates to the technical field of optical camouflage paint production, in particular to an optical camouflage paint production proportioning machine with a quantitative proportioning function, which comprises a liquid storage tank, wherein a first liquid pipe is arranged at the bottom end of the liquid storage tank, a liquid flow hopper is vertically penetrated through the bottom end of the first liquid pipe, the outer wall of the top end of the liquid flow hopper is arranged on a liquid weighing mechanism, a second liquid pipe is arranged at the bottom end of the liquid flow hopper, the bottom end of the second liquid pipe vertically penetrates through one side of the top of a mixing cylinder, a second powder pipe vertically penetrates through the other side of the top of the mixing cylinder, a powder weighing mechanism is arranged at the top end of the second powder pipe, the improved proportioning machine can synchronously realize the accurate proportioning of three raw materials with different properties, namely liquid, powder and particles, a spiral conveying rod can prevent the accumulation and blockage of the powder raw materials, and a classifying mechanism can realize proportioning and collecting of classified particles and ensured qualified particle sizes.

Inventors

  • GUO RUI

Assignees

  • 天津市银海特种油漆有限公司

Dates

Publication Date
20260508
Application Date
20250508

Claims (7)

  1. 1. The optical camouflage paint production proportioning machine with the quantitative proportioning function comprises a liquid storage tank (1) and is characterized in that a first liquid pipe (2) is arranged at the bottom end of the liquid storage tank (1), a liquid flow hopper (3) is vertically penetrated at the bottom end of the first liquid pipe (2), a liquid weighing mechanism (4) is arranged on the outer wall of the top end of the liquid flow hopper (3), a second liquid pipe (5) is arranged at the bottom end of the liquid flow hopper (3), the bottom end of the second liquid pipe (5) vertically penetrates through one side of the top of a mixing cylinder (6), a second powder pipe (7) vertically penetrates through the other side of the top of the mixing cylinder (6), a powder weighing mechanism (8) is arranged at the top end of the second powder pipe (7), a first powder pipe (9) is inserted at the top end of the powder weighing mechanism (8), a second particle pipe (11) vertically penetrates through the other side of the top of the mixing cylinder (6), a particle screening mechanism (14) is arranged at the top of the mixing cylinder (13), the middle part at the top of the mixing cylinder (6) vertically penetrates through the stirring mechanism (16).
  2. 2. The optical camouflage paint production proportioning machine with the quantitative proportioning function according to claim 1, wherein the liquid weighing mechanism (4) comprises three connecting plates (401), the three connecting plates (401) are respectively arranged on the outer wall of the top end of the liquid flow hopper (3), a pull rope (402) is wound on the inner wall of the connecting plates (401), and a weighing sensor (403) is arranged on the top end of the pull rope (402).
  3. 3. The optical camouflage paint production proportioning machine with the quantitative proportioning function according to claim 1, wherein a spiral conveying rod (901) is rotatably connected to the bottom wall of the first powder pipe (9), a driving motor (902) is inserted into the bottom end of the spiral conveying rod (901), and an inclined conveying pipe (903) is arranged on one side of the first powder pipe (9).
  4. 4. The optical camouflage paint production proportioning machine with the quantitative proportioning function according to claim 1, wherein the powder weighing mechanism (8) comprises a powder electronic scale (801), the powder electronic scale (801) is embedded in a sliding plate A (802), an electric telescopic rod A (803) is screwed on one side of the sliding plate A (802), the sliding plate A (802) is slidably connected in a protective box A (804), and a first powder pipe (9) and a second powder pipe (7) are respectively inserted in the top and the bottom of the protective box A (804).
  5. 5. The optical camouflage paint production proportioning machine with the quantitative proportioning function according to claim 1, wherein the particle weighing mechanism (12) comprises a particle electronic scale (1201), the particle electronic scale (1201) is embedded in a sliding plate B (1202), an electric telescopic rod B (1203) is connected to one side of the sliding plate B (1202) in a screwed mode, the sliding plate B (1202) is connected to the inside of a protection box B (1204) in a sliding mode, and a screening mechanism (13) and a second particle tube (11) are respectively inserted into the top and the bottom of the protection box B (1204).
  6. 6. The optical camouflage paint production proportioning machine with the quantitative proportioning function according to claim 5, wherein the screening mechanism (13) comprises a screen plate (1301), the screen plate (1301) is slidably connected to a protection box C (1302), a connecting channel (1303) is arranged at the bottom end of the protection box C (1302), a protection box B (1204) is inserted into the bottom end of the connecting channel (1303), vibrating motors (1304) are screwed into the inner walls of two sides of the screen plate (1301), and a first particle pipe (14) is inserted into the top of the protection box C (1302).
  7. 7. The optical camouflage paint production proportioning machine with the quantitative proportioning function according to claim 1, wherein the stirring mechanism (16) comprises a rotating motor (1601), a stirring shaft (1602) is inserted into the bottom end of the rotating motor (1601), a stirring rod (1603) is sleeved on the outer wall of the stirring shaft (1602), the bottom end of the stirring shaft (1602) vertically penetrates through the middle part of the top of the mixing barrel (6), and an electric heating pipe (601) is arranged in an inner wall interlayer of the mixing barrel (6).

Description

Optical camouflage paint production proportioning machine with quantitative proportioning function Technical Field The utility model relates to the technical field of optical camouflage paint production, in particular to an optical camouflage paint production proportioning machine with a quantitative proportioning function. Background The optical camouflage paint is a functional paint which can realize the hiding effect by adjusting the reflection, absorption or scattering properties of light to ensure that a target object is visually fused with the surrounding environment. The production of the optical camouflage paint needs to take account of optical performance, physical stability and production efficiency, realizes the mixing of multiple materials through a batching machine, combines spectrum detection and process optimization, and finally forms a functional coating with both concealment and durability, thereby playing an important role in the military and civil fields. The design process of the utility model finds that the prior art has the following problems: The existing proportioning machine often needs operators to manually proportion all raw materials in advance, and because the raw materials are divided into powder, liquid and different properties of particles, a mechanism capable of synchronously proportioning three types of raw materials at the same time is lacking. Disclosure of utility model The utility model aims to provide an optical camouflage paint production proportioning machine with a quantitative proportioning function so as to solve the problems in the background technology. In order to achieve the purpose, the optical camouflage paint production proportioning machine with the quantitative proportioning function comprises a liquid storage tank, wherein a first liquid pipe is arranged at the bottom end of the liquid storage tank, a liquid flow hopper vertically penetrates through the bottom end of the first liquid pipe, a liquid weighing mechanism is arranged on the outer wall of the top end of the liquid flow hopper, a second liquid pipe is arranged at the bottom end of the liquid flow hopper, the bottom end of the second liquid pipe vertically penetrates through one side of the top of a mixing cylinder, a second powder pipe vertically penetrates through the other side of the top of the mixing cylinder, a powder weighing mechanism is arranged at the top end of the second powder pipe, a first powder pipe is inserted into the top end of the powder weighing mechanism, a powder storage tank is arranged at the top end of the first powder pipe, a second particle pipe is vertically penetrated through the other side of the top of the mixing cylinder, a particle weighing mechanism is inserted into the top end of the second particle pipe, a screening mechanism is vertically penetrated through the top of the first particle pipe, a particle storage tank is arranged at the top of the first particle pipe, and a stirring mechanism vertically penetrates through the top of the mixing cylinder. Further preferably, the liquid weighing mechanism comprises three connecting plates, the three connecting plates are respectively arranged on the outer wall of the top end of the liquid flow hopper, a pull rope is wound on the inner wall of the connecting plate, and a weighing sensor is arranged on the top end of the pull rope. Further preferably, the bottom wall of the first powder tube is rotatably connected with a screw conveying rod, a driving motor is inserted into the bottom end of the screw conveying rod, and an inclined conveying tube is arranged on one side of the first powder tube. Further preferably, the powder weighing mechanism comprises a powder electronic scale, the powder electronic scale is embedded in the sliding plate A, one side of the sliding plate A is in threaded connection with an electric telescopic rod A, the sliding plate A is in sliding connection with the inside of the protection box A, and the top and the bottom of the protection box A are respectively inserted with a first powder pipe and a second powder pipe. Further preferably, the particle weighing mechanism comprises a particle electronic scale, the particle electronic scale is embedded in the sliding plate B, one side of the sliding plate B is in threaded connection with an electric telescopic rod B, the sliding plate B is in sliding connection with the inside of the protection box B, and the top and the bottom of the protection box B are respectively inserted with a screening mechanism and a second particle tube. Further preferably, the screening mechanism comprises a screen plate, the screen plate is slidably connected to the protection box C, a connecting channel is arranged at the bottom end of the protection box C, the protection box B is inserted into the bottom end of the connecting channel, vibrating motors are screwed onto inner walls of two sides of the screen plate, and a first particle tube is inserted into the to