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Apparatus and method for adhering a particle layer on a ferromagnetic workpiece

A granular layer and workpiece technology, applied in the field of equipment and methods for sticking granular layers on ferromagnetic workpieces, can solve the problems of high cost, slow speed, low efficiency, etc., and achieve the effect of high degree of mechanization

Active Publication Date: 2016-03-23
庄健
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The above-mentioned patented products are all invented by the applicant of this patent, but the above-mentioned products all need to adhere to the particle layer on the surface of the product. At present, they are all produced by hand, with low efficiency, slow speed and high cost.

Method used

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  • Apparatus and method for adhering a particle layer on a ferromagnetic workpiece
  • Apparatus and method for adhering a particle layer on a ferromagnetic workpiece
  • Apparatus and method for adhering a particle layer on a ferromagnetic workpiece

Examples

Experimental program
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Effect test

Embodiment approach 1

[0032] Implementation mode one: if Figure 1-2 And shown in 4, the equipment that the present invention sticks coating particle layer on ferromagnetic workpiece comprises sizing device 1, particle feed bin 2 and chain conveyor 3, and this chain conveyor 3 is provided with a plurality of permanent magnets 36, The ferromagnetic workpiece 4 to be processed is adsorbed by the permanent magnet 36. The chain conveyor includes a frame 32 and at least two chains 31. A plurality of connecting rods 34 are arranged between the two chains, and each connecting rod 34 is connected at both ends. Opposite chain link 33, described permanent magnet 36 is arranged on the connecting rod 34; Perhaps be provided with conveying net chain between chain 31, described permanent magnet 36 is evenly distributed on conveying net chain (not shown in the figure, refer to CN201670528U ).

[0033] figure 2 Each connecting rod 34 is provided with a plurality of columns 35, and the center of the permanent ma...

Embodiment approach 2

[0041] Embodiment 2: The ferromagnetic workpiece 4 to be processed is a V-shaped ferromagnetic workpiece, and its two inner surfaces are the surface of the particle layer to be adhered. The machine 3 is the front section of the chain before the steering sprocket 371, and the upstream chain of the steering sprocket 371 is the rising section of the chain, and the angle ∠a between the front section of the chain and the rising section of the chain is greater than the included angle ∠b of the V-shaped ferromagnetic workpiece, and the chain An approach delay switch 14 is arranged between the front section and the chain ascending section, and a flipping electromagnet 15 is fixed on the frame below the chain ascending section, and the flipping electromagnet 15 is connected with the approaching delay switch 14. Switcher 14 controls electromagnet 15 to supply power, and particle feed bin 2 is provided with two discharge grooves 16 before and after, and front discharge groove 16 notches a...

Embodiment approach 3

[0044] Implementation mode three: if Figure 5 As shown, the discharge section 7 of the frame 32 is provided with one or more raised parts 17, and the chain conveyor 3 undulates and bends on the raised parts 17, and the rest of the structure is as described in Embodiments 1 and 2, and is omitted.

[0045] The method for utilizing the aforementioned equipment to stick a granular layer on a ferromagnetic workpiece comprises the following steps:

[0046] ①. Start the equipment described in any one of Embodiments 1 to 3, and continuously place the ferromagnetic workpiece to be processed on the chain conveyor, and use the permanent magnet 36 on the connecting rod 34 to attract and fix it, and make the ferromagnetic workpiece 4 to be processed corresponding surface up;

[0047] ②.Use the gluing device 1 to spray the adhesive on the ferromagnetic workpiece 4 to be processed;

[0048] ③. Use the granule silo 2 to sprinkle the gluing surface of the ferromagnetic workpiece 4 to be pro...

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Abstract

The invention relates to equipment and method for sticking a granular layer to a ferromagnetic workpiece, for filling the gap in the prior art. The equipment comprises an adhesive applying device, a granule storage bin and a chain conveyor belt, wherein the chain conveyor belt comprises two chains and a rack; the rack is provided with an adhesive applying section, a spreading section, a pouring section and an output section sequentially from the upstream part to downstream part; adhesives are uniformly sprayed on the surface of a to-be-machined ferromagnetic workpiece by utilizing the adhesive applying device; granules are spread onto the surface of the to-be-machined ferromagnetic workpiece by utilizing the granule storage bin; and excessive granules are poured out by utilizing the fluctuant chain conveyor belt. The invention also relates to a corresponding method. The equipment and method for sticking the granular layer to the ferromagnetic workpiece have the advantages of high mechanization degree and suitableness for large-scale continuous production and are suitable for production of various building workpieces such as color stone decorated wall panels, heat-preservation boards and tiles, as well as other workpieces containing ferromagnetic materials.

Description

technical field [0001] The invention relates to a device and a method for sticking a particle layer on a ferromagnetic workpiece. Background technique [0002] The Chinese invention patent application published on September 5, 2007 with the publication number CN101028620A discloses a method for spraying the surface of metal products with natural or dyed stone debris. The specific steps are: degreasing, removing Rust treatment: Spray a layer of anti-rust primer on the surface of the workpiece; then evenly coat the surface of the workpiece with a water-based acrylic resin or a solvent-based acrylic resin layer with a thickness of 15-80MM as an adhesive; then compound the particle size of 0.05- 3.5MM natural or artificially dyed stone chips; coat it with water-based acrylic resin or solvent-based acrylic resin with a thickness of 2MM-1.5MM as a reinforcement and glazing layer; move the workpiece into the drying room and heat it to 70-200°C, curing for 10-60 minutes. [0003] ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B32B37/12B32B37/24B32B38/00
Inventor 庄健
Owner 庄健
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