CN219441413U - Automatic blending system for alkali-resistant seal primer - Google Patents

Abstract

The application relates to the technical field of primer production equipment, specifically an automatic blending system of alkali-resistant seal primer, including the dispenser, the dispenser includes blade disc portion, the conveyer belt is installed to the blade disc below, the conveyer belt both sides are provided with solid material seat and liquid material seat respectively, solid material seat upper end is provided with solid material graduated disk, solid material awl storehouse, title material portion and conveying screw, the feed bucket is installed to conveying screw first end, the second end is located blade disc portion top, conveying screw second end is less than first end, liquid material seat upper end is provided with liquid material graduated disk, liquid material deposit pipe, the feed portion is provided with inlet pipe and discharging pipe, the discharging pipe export is located blade disc portion top, the liquid material deposit pipe is connected to the inlet pipe. According to the primer preparation device, the consumption of solid-liquid raw materials is controlled through the force sensor and the injection tube, and raw materials are conveyed through the conveying screw and the feeding part, so that the automation degree of primer preparation is improved, and the preparation efficiency is improved.

Description

Automatic blending system for alkali-resistant seal primer

Technical Field

The application relates to the technical field of primer production equipment, in particular to an automatic blending system for alkali-resistant seal primer.

Background

The alkali-resistant seal primer is a paint composed of alkali-resistant resin, wear-resistant filler, solvent, auxiliary agent and the like, and the primer can be used for enabling the paint to have better adhesive force and playing a role in moisture-proof alkali-resistant seal, so that the construction effect is further improved. When the alkali-resistant seal primer is produced, the raw materials are mixed mainly through a dispersing machine or a stirrer, the adding sequence and the adding time of the raw materials can influence the quality of the primer, the feeding is mainly controlled manually by workers in the existing primer production, and the automation degree and the production efficiency are low.

Disclosure of Invention

Aiming at the defects existing in the prior art, the purpose of the application is to provide an automatic blending alkali-resistant seal primer blending system.

The above application object of the present application is achieved by the following technical solutions:

an automatic blending system for alkali-resistant seal coats, comprising:

the dispersing machine comprises a cutter head part;

the conveying belt is fixedly arranged above the dispersing machine;

the upper end of the fixed material seat is movably provided with a fixed material dividing disc;

the fixed material cone bins are circumferentially arranged on the fixed material dividing disc in an array manner, and the bottom of each fixed material cone bin is provided with an electric control valve;

the material weighing part comprises a supporting rod fixedly connected to the material fixing seat, a conveying screw is hinged to the upper end of the supporting rod, a feeding barrel is arranged at the first end of the conveying screw, and the second end of the conveying screw is positioned above the cutterhead part;

the lower end of the force sensor is hinged to the fixed material seat, and the upper end of the force sensor is hinged to the second end of the conveying screw;

the upper end of the liquid material seat is movably provided with a liquid material dividing disc;

the liquid material storage pipes are circumferentially arranged on the liquid material dividing plate in an array manner, and a one-way valve is arranged at the bottom of each liquid material storage pipe;

the feeding part comprises an injection tube, the injection tube is fixedly connected with a driving piece, the output end of the driving piece is fixedly connected with the piston rod of the injection tube, a feeding tube and a discharging tube are arranged at the bottom of the injection tube, and the outlet of the discharging tube is positioned above the cutterhead part;

the material taking mechanism comprises a material taking taper pipe, the material taking taper pipe is slidably arranged on the liquid material seat, the material taking taper pipe is connected with a driving rod, the material taking taper pipe is plugged into the one-way valve after sliding, and the material taking taper pipe is communicated with the feeding pipe.

Optionally, the check valve comprises a valve tube, a sealing ring plate is arranged in the valve tube, a sealing spring is fixedly connected with the valve tube, a sealing ball is fixedly connected with the sealing spring, and the sealing ball is plugged with the center of the sealing ring plate.

Optionally, one end of the material taking taper pipe, which is close to the one-way valve, is a taper end, and a plurality of feeding holes are formed in the circumferential array of the inclined surface of the taper end.

Optionally, a spherical concave surface is concavely arranged at the top end of the conical end, and the diameter of the spherical concave surface is the same as that of the sealing ball.

Optionally, the material taking taper pipe is fixedly connected with a sealing ring, and a sealing gasket is installed on one side, close to the sealing ring plate, of the sealing ring.

Optionally, a plurality of fixed rings are hinged on the conveyer belt, and supporting legs are arranged on the lower sides of two sides of the adjacent hinged ends of the fixed rings.

Optionally, a support plate is mounted on the lower side of the upper belt of the conveyor belt.

Optionally, the side circumferential array of the fixing ring is provided with three adjusting bolts, and the three adjusting bolts are arranged in a circumferential array.

In summary, the present application has at least the following technical effects:

raw materials are conveyed to the batching bucket through the conveying screw and the feeding part, the dosage of solid-liquid raw materials is controlled through the force sensor and the injection tube, and the batching bucket is replaced through the conveyer belt, so that the automation degree of primer configuration is improved, the equipment can distribute multiple barrels of primer at one time, and the preparation efficiency is improved.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural view of a solid material dividing plate portion according to an embodiment of the present application;

FIG. 3 is a schematic view of the structure of a liquid index plate portion according to an embodiment of the present application;

FIG. 4 is a schematic structural view of a check valve portion according to an embodiment of the present application;

fig. 5 is a schematic structural view of a fixing ring portion according to an embodiment of the present application.

Reference numerals: 1. a dispersing machine; 11. a cutter head part;

2. a conveyor belt; 201. a fixing ring; 202. a support leg; 203. a support plate; 204. adjusting a bolt;

31. a material fixing seat; 32. a solid material dividing plate; 33. a material fixing cone bin; 34. weighing the material part; 341. a support rod; 342. a conveying screw; 343. a feeding barrel; 344. a force sensor;

41. a liquid material seat; 42. a liquid material dividing plate; 43. a liquid material storage tube; 431. a one-way valve; 4311. a valve tube; 4312. a closed ring plate; 4313. a closing spring; 4314. a sealing ball; 44. a feeding section; 441. a syringe; 442. a driving member; 443. a feed pipe; 444. a discharge pipe; 45. a material taking mechanism; 451. a material taking taper pipe; 4511. a tapered end; 4512. a seal ring; 452. and a driving rod.

Description of the embodiments

The present application is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1-4, an automatic blending system for alkali-resistant seal primer disclosed in this embodiment of the application comprises a dispenser 1, wherein the dispenser 1 comprises a cutter head 11, a conveyor belt 2 is fixedly installed below the cutter head 11, two sides of the conveyor belt 2 are respectively provided with a solid material seat 31 and a liquid material seat 41, a solid material dividing disc 32 is movably installed at the upper end of the solid material seat 31, a plurality of solid material cone bins 33 are installed on the solid material dividing disc 32 in a circumferential array manner, an electric control valve is arranged at the bottom of the solid material cone bins 33, a material weighing part 34 is fixedly installed on the solid material seat 31, the material weighing part 34 comprises a supporting rod 341 fixedly connected with the solid material seat 31, a conveying screw 342 is hinged at the upper end of the supporting rod 341, a feeding barrel 343 is installed at the first end of the conveying screw 342, a force sensor 344 is hinged on the solid material seat 31, the lower end of the force sensor 344 is hinged on the solid material seat 31, the upper end is hinged at the second end of the conveying screw 342, the liquid dividing disc 42 is movably arranged at the upper end of the liquid material seat 41, a plurality of liquid material storage tubes 43 are arranged on the liquid material dividing disc 42 in a circumferential array, a one-way valve 431 is arranged at the bottom of each liquid material storage tube 43, a feeding part 44 is fixedly arranged on the liquid material seat 41, each feeding part 44 comprises an injection tube 441, each injection tube 441 is fixedly connected with a driving member 442, the output end of each driving member 442 is fixedly connected with a piston rod of each injection tube 441, a feeding tube 443 and a discharging tube 444 are arranged at the bottom of each injection tube 441, the outlet of each discharging tube 444 is positioned above the cutter head 11, each feeding tube 443 is connected with a material taking mechanism 45, each material taking mechanism 45 comprises a material taking taper tube 451, each material taking taper tube 451 is slidably arranged on the liquid material seat 41, each material taking taper tube 451 is connected with a driving rod 452, each material taking taper tube 451 is plugged into the one-way valve 431 after sliding, and each material taking taper tube 451 is communicated with the feeding tube 443.

Specifically, the batching bucket is arranged on the conveyer belt 2 below the cutterhead 11, the solid material cone bin 33 on the solid material dividing plate 32 transmits the solid material to the batching bucket through the conveying screw 342, and the liquid material storage tube 43 on the liquid material dividing plate 42 transmits the liquid material to the batching bucket through the feeding portion 44.

In this way, the raw materials are conveyed to the batching bucket through the conveying screw 342 and the feeding part 44, the dosage of solid-liquid raw materials is controlled through the force sensor 344 and the injection tube 441, and the batching bucket is replaced through the conveying belt 2, so that the automation degree of primer configuration is improved, the equipment can dispense multiple barrels of primer at one time, and the preparation efficiency is improved.

In some possible ways, the dispersing machine 1 is a common priming paint preparation device, raw materials are stirred into paint in a dosing barrel through a cutter head 11 of the dispersing machine 1, the conveyor belt 2 is a conveyor belt, and a new dosing barrel is replaced by the conveyor belt 2;

the solid material dividing disc 32 is a circular disc with a plurality of holes in a circumferential array, the solid material dividing disc is controlled to rotate by a driving motor, the solid material cone bin 33 is a solid material placing bin, an outlet and an electric control valve are arranged at the lower end of the solid material dividing disc, when the solid material cone bin 33 discharges materials into the feeding barrel 343, the conveying screw 342 is used for weighing by the pressure sensor 344, and after the solid material dividing disc reaches the quality, the raw materials of the feeding barrel 343 are conveyed to the batching barrel;

the liquid material dividing plate 42 and the solid material dividing plate 32 have the same structure, the injection tube 441 is a piston type injection mechanism, a piston is controlled by the driving piece 442, a feed pipe 443 and a discharge pipe 444 are arranged at the lower end of the injection tube 441, one-way valves are arranged on the feed pipe 443 and the discharge pipe 444, and the material taking mechanism 45 is controlled by the driving rod 452 to slide and push the one-way valve 431 open so as to take materials from the liquid material storage tube 43;

the drive rod 452 is a pneumatic cylinder and the drive 442 is a ball screw mechanism.

It should be appreciated that the above-described solution, while based on an alkali-resistant primer sealer production set-up, is also applicable to other paints where solid, liquid ingredients are stirred by the disperser 1.

As a specific embodiment of an automatic blending system for alkali-resistant seal primer provided in the application, referring to fig. 4, a check valve 431 includes a valve tube 4311, a seal ring plate 4312 is installed in the valve tube 4311, a seal spring 4313 is fixedly connected to the valve tube 4311, a seal ball 4314 is fixedly connected to the seal spring 4313, and the seal ball 4314 seals the center of the seal ring plate 4312.

In the whole, the check valve 431 is arranged to be a closed structure of the closed ball 4314 and the closed spring 4313, so that the material taking taper pipe 451 is convenient to push away and take materials.

Further, one end of the material taking taper pipe 451 near the check valve 431 is a taper end 4511, and a plurality of feeding holes are formed in the taper end 4511 in a circumferential array.

It will be appreciated that by providing a feed aperture, the extraction of liquid feed is facilitated after the take-out cone 451 pushes open the check valve 431.

Further, the tip of the tapered end 4511 is concavely provided with a spherical concave surface having the same diameter as the closure ball 4314.

It should be appreciated that by providing a spherical concave surface, the closure ball 4314 is facilitated to snap into the spherical concave surface, and the tapered end 4511 is facilitated to push away the closure ball 4314.

Further, the material taking taper pipe 451 is fixedly connected with a sealing ring 4512, and a sealing gasket is installed on one side of the sealing ring 4512 close to the sealing ring plate 4312.

It will be appreciated that by providing a sealing ring 4512 with a gasket, it is convenient to seal as the tapered end 4511 pushes away the closure ball 4314, reducing material leakage.

As a specific embodiment of the automatic blending system for alkali-resistant seal primer provided in the application, referring to fig. 5, a plurality of fixing rings 201 are hinged on a conveyor belt 2, and supporting legs 202 are installed on two lower sides of adjacent hinged ends of the fixing rings 201.

It will be appreciated that by providing the securing ring 201, mounting and securing of the dosing barrel is facilitated.

Further, a support plate 203 is installed at the lower side of the upper side belt of the conveyor belt 2.

It will be appreciated that by providing the support plate 203, the rigidity of the upper side of the conveyor belt 2 is increased, reducing the wobble of the batch bucket on the conveyor belt 2.

Further, the side circumferential array of the fixing ring 201 has three adjusting bolts 204, and the three adjusting bolts 204 are arranged in a circumferential array.

It should be appreciated that by adjusting the bolts 204, the retaining ring 201 can secure different diameter compounding barrels.

In some possible ways, the two sides of the conveyor belt 2 are provided with brackets, a cylindrical rod is rotatably arranged between the brackets, the fixing ring 201 is cylindrical, the fixing ring 201 is fixedly connected to the cylindrical rod, and the supporting legs 202 are arranged on the vertical line in the cylindrical rod.

The embodiments of the present utility model are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. An automatic blending system for alkali-resistant seal primer, comprising:

a disperser (1), wherein the disperser (1) comprises a cutter head part (11);

the conveying belt (2), the conveying belt (2) is fixedly arranged above the dispersing machine (1);

the upper end of the material fixing seat (31) is movably provided with a material fixing dividing disc (32);

the fixed material cone bins (33), a plurality of fixed material cone bins (33) are circumferentially arranged on the fixed material dividing disc (32), and an electric control valve is arranged at the bottom of each fixed material cone bin (33);

the material weighing part (34), the material weighing part (34) comprises a supporting rod (341) fixedly connected with the material fixing seat (31), a conveying screw (342) is hinged to the upper end of the supporting rod (341), a material feeding barrel (343) is arranged at the first end of the conveying screw (342), and the second end of the conveying screw is positioned above the cutter head part (11);

a force sensor (344), wherein the lower end of the force sensor (344) is hinged to the fixed material seat (31), and the upper end of the force sensor is hinged to the second end of the conveying screw (342);

a liquid material seat (41), wherein a liquid material dividing disc (42) is movably arranged at the upper end of the liquid material seat (41);

a liquid material storage tube (43), a plurality of liquid material storage tubes (43) are circumferentially arranged on the liquid material dividing disc (42), and a one-way valve (431) is arranged at the bottom of each liquid material storage tube (43);

the feeding part (44), the feeding part (44) comprises a syringe (441), the syringe (441) is fixedly connected with a driving piece (442), the output end of the driving piece (442) is fixedly connected with a piston rod of the syringe (441), a feeding pipe (443) and a discharging pipe (444) are arranged at the bottom of the syringe (441), and an outlet of the discharging pipe (444) is positioned above the cutterhead part (11);

the material taking mechanism (45), the material taking mechanism (45) comprises a material taking taper pipe (451), the material taking taper pipe (451) is slidably installed in the liquid material seat (41), the material taking taper pipe (451) is connected with a driving rod (452), the material taking taper pipe (451) is plugged into the one-way valve (431) after being slid, and the material taking taper pipe (451) is communicated with the material feeding pipe (443).

2. The automatic blending system of alkali-resistant seal primer according to claim 1, wherein: the check valve (431) comprises a valve pipe (4311), a sealing ring plate (4312) is arranged in the valve pipe (4311), a sealing spring (4313) is fixedly connected with the valve pipe (4311), a sealing ball (4314) is fixedly connected with the sealing spring (4313), and the sealing ball (4314) is plugged in the center of the sealing ring plate (4312).

3. The automatic blending system of alkali-resistant seal primer according to claim 2, wherein: one end of the material taking taper pipe (451) close to the one-way valve (431) is a taper end (4511), and a plurality of feeding holes are formed in the taper end (4511) in a bevel circumferential array.

4. An automatic formulation system for an alkali resistant primer sealer according to claim 3, wherein: the top end of the conical end (4511) is concavely provided with a spherical concave surface, and the diameter of the spherical concave surface is the same as that of the sealing ball (4314).

5. The automatic blending system for alkali-resistant seal primers according to claim 4, wherein: the material taking taper pipe (451) is fixedly connected with a sealing ring (4512), and a sealing gasket is arranged on one side, close to the sealing ring plate (4312), of the sealing ring (4512).

6. The automatic blending system of alkali-resistant seal primer according to claim 1, wherein: the conveyer belt (2) is hinged with a plurality of fixing rings (201), and supporting legs (202) are arranged on the lower sides of two sides of the adjacent hinged ends of the fixing rings (201).

7. The automatic blending system for alkali-resistant seal primers according to claim 6, wherein: the supporting plate (203) is arranged on the lower side of the upper side belt of the conveying belt (2).

8. The automatic blending system for alkali-resistant seal primers according to claim 7, wherein: the side surface of the fixed ring (201) is provided with three adjusting bolts (204) in a circumferential array, and the three adjusting bolts (204) are arranged in a circumferential array.