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CN-224227707-U - Iron pin iron powder steel shot recycling vehicle

CN224227707UCN 224227707 UCN224227707 UCN 224227707UCN-224227707-U

Abstract

The utility model relates to an iron pin iron powder steel shot recycling vehicle which comprises a frame base and an armrest frame, wherein the front and the rear of the frame base are respectively and horizontally connected with mounting plates, the bottom surface of each mounting plate is provided with an inverted U-shaped wheel frame through a lifting mechanism, rollers are rotatably arranged at two ends of the wheel frame, the armrest frame is obliquely arranged, the lower end of the armrest frame is fixed at the rear end of the frame base, two armrests are arranged at the upper end of the armrest frame, an operating rod is hinged to the armrest frame, a non-magnetic bottom plate is connected to the opening at the bottom of the frame base, a cover plate rotatably arranged with the armrest frame is arranged at the opening at the top of the frame base, a pull rod is hinged between the cover plate and the middle part of the operating rod, and strong magnetic blocks are uniformly arranged on the bottom surface of the cover plate. The utility model can realize the magnetic adsorption of iron pin iron powder and steel shots, and simultaneously, the bottom plate is used for isolating and matching with the cover plate to rotate so as to conveniently separate the adsorbed iron pin iron powder and the like from the strong magnetic blocks at the bottom of the cover plate, thereby facilitating the recovery and the blanking.

Inventors

  • YANG MINGBO
  • Xu Longran
  • FENG SHUGUO
  • LIU YILIANG

Assignees

  • 山东方垠智能制造有限公司

Dates

Publication Date
20260512
Application Date
20250610

Claims (6)

  1. 1. The iron pin iron powder steel shot recycling vehicle comprises a frame base and a handrail frame and is characterized in that mounting plates are respectively and horizontally connected to the front and the rear of the frame base, an inverted U-shaped wheel frame is mounted on the bottom surface of each mounting plate through a lifting mechanism, rollers are rotatably mounted at two ends of the wheel frame, the handrail frame is obliquely arranged, the lower end of the handrail frame is fixed at the rear end of the frame base, two handrails are arranged at the upper end of the handrail frame, an operating rod is hinged to the handrail frame, a non-magnetic bottom plate is connected to the bottom opening of the frame base, a cover plate rotatably mounted with the handrail frame is arranged at the top opening of the frame base, a pull rod is hinged between the cover plate and the middle of the operating rod, and strong magnetic blocks are uniformly arranged on the bottom surface of the cover plate.
  2. 2. The iron pin iron powder steel shot recycling vehicle of claim 1, wherein the surface of the cover plate is respectively and obliquely connected with two support rods on two sides of the rear end of the hinged pull rod, a fixed shaft is transversely and rotatably arranged on the handrail frame, and two ends of the fixed shaft are respectively connected with the support rods.
  3. 3. The iron pin iron powder steel shot recycling vehicle of claim 1, wherein the lifting mechanism comprises a fixed support, a lifting sleeve and a battery pack, the fixed support is vertically fixed in the middle of the wheel frame, the lifting sleeve is vertically fixed on the bottom surface of the mounting plate and is opposite to the lifting sleeve, the battery pack is mounted on the surface of the mounting plate, a cavity is arranged in the fixed support, a fixing nut is fixedly clamped at the top of the cavity of the fixed support, a lead screw penetrates through the end surface of the fixed support, the lifting sleeve is divided into a mounting cavity and a sliding cavity by a partition plate, the upper end of the lead screw penetrates through the partition plate and is connected with a worm wheel in the mounting cavity, the sliding cavity of the lifting sleeve is sleeved outside the fixed support and is in sliding fit with the fixed support, a worm wheel matched with the worm wheel is transversely rotatably mounted above the lead screw in the mounting cavity of the lifting sleeve, one end of the worm penetrates through the mounting cavity and is connected with a rotating gear, a driving motor electrically connected with the battery pack is further mounted on the bottom surface of the mounting plate, and a driving gear meshed with the rotating gear is mounted on the driving shaft of the driving motor.
  4. 4. The iron pin iron powder steel shot recycling vehicle of claim 3, wherein a control switch is arranged on the side face of each handle, and the control switch is electrically connected with the driving motor and used for controlling the driving motor to rotate positively and negatively.
  5. 5. The iron pin iron powder steel shot recycling vehicle of claim 1, wherein the wheel frame is vertically connected with guide posts on two sides of the fixed post respectively, and the mounting plate is provided with guide through holes corresponding to the guide posts respectively.
  6. 6. The iron pin iron powder steel shot recycling vehicle of claim 1, wherein the bottom open ends of the frame base are bent inwards in the circumferential direction to form inner folds, and the nonmagnetic bottom plate is fixed on the inner folds.

Description

Iron pin iron powder steel shot recycling vehicle Technical Field The utility model relates to the technical field of material recovery, in particular to an iron pin iron powder steel shot recovery vehicle. Background In a steel structure manufacturing plant, one of the most important processes is to perform corrosion protection treatment on a steel plate or a steel member, namely, to perform surface rust removal on the steel plate or the steel member, and then to perform paint spraying. The equipment adopted in the rust removing process is mainly a shot blasting machine, and the working principle of the shot blasting machine is that steel shots are ejected out at high speed through blades by utilizing high-speed rotation of a motor, and the steel shots impact a steel plate at the speed of 70-90 m/s, so that the aim of removing rust on the surface of the steel plate is fulfilled. Therefore, more steel shots are ejected from the inlet end and the outlet end of the shot blasting machine in actual working, fly to the ground around the shot blasting machine, and have larger scattering area, so that larger waste is caused. In addition, during the workshop processing, a large amount of scrap iron is produced due to cutting, forging, punching and the like. The waste materials are usually in a flake shape or a powder shape, contain a large amount of impurities and ferric oxide, have uneven quality, are generally dispersed on the workshop floor, can contain more dust, garbage and the like when being cleaned manually, and also need to be screened and separated, so that the efficiency is low and the labor intensity is high when being cleaned and separated manually. Disclosure of utility model Aiming at the defects of the prior art, the utility model provides the iron pin iron powder steel shot recycling vehicle which can realize the magnetic adsorption of iron pin iron powder and steel shots, and simultaneously, the bottom plate is used for isolating and matching with the cover plate to rotate so as to conveniently separate the adsorbed iron pin iron powder and the like from the strong magnetic blocks at the bottom of the cover plate, thereby being convenient for recycling and separation. The utility model is realized by the following technical scheme: The iron pin iron powder steel shot recycling vehicle comprises a frame base and a handrail frame, wherein mounting plates are respectively and horizontally connected to the front and the rear of the frame base, an inverted U-shaped wheel frame is mounted on the bottom surface of each mounting plate through a lifting mechanism, rollers are rotatably mounted at two ends of the wheel frame, the handrail frame is obliquely arranged, the lower end of the handrail frame is fixed at the rear end of the frame base, two handrails are arranged at the upper end of the handrail frame, an operating rod is hinged to the handrail frame, a non-magnetic bottom plate is connected to the bottom opening of the frame base, a cover plate rotatably mounted with the handrail frame is arranged at the top opening of the frame base, a pull rod is hinged between the cover plate and the middle of the operating rod, and strong magnetic blocks are uniformly arranged on the bottom surface of the cover plate. According to the scheme, through designing the frame base, the non-magnetic partition plate at the bottom of the frame base is utilized to isolate the strong magnet at the bottom of the cover plate from iron objects such as iron pins to be adsorbed, the frame base is driven to move by pushing the armrest frame, then the iron pins, steel shots and the like on the ground of a workshop are adsorbed by utilizing the strong magnetic adsorption action of the strong magnet, after adsorption is completed, the operating rod is utilized to drive the pull rod to rotate, and then the cover plate is driven to rotate upwards by utilizing the rotation of the fixed shaft, so that the strong magnet is forcedly separated from adsorbed substances, and then the adsorbed iron pins and steel shots are conveniently separated, and the convenience of recovery is improved. Further, two support rods are obliquely connected to the surface of the cover plate at two sides of the rear end of the hinged pull rod respectively, a fixed shaft is transversely installed on the armrest frame in a rotating mode, and two ends of the fixed shaft are connected with the support rods respectively. The rear end of the surface of the cover plate is provided with a supporting rod and is connected with a fixed shaft on the armrest frame through the supporting rod, so that the cover plate can be driven to be separated from and close to the frame base through the rotation of the fixed shaft, and the cover plate can be used for realizing the separation of the adsorption iron pins. Further, elevating system includes the fixed stay, elevating sleeve pipe and group battery, the fixed stay is fixed at the wheel carrier middle part perpendicularly, th