CN223685190U - Grinding tool pouring device - Google Patents

Abstract

This utility model relates to the technical field of abrasive production equipment, specifically disclosing an abrasive casting device, including a slurry rack, a slurry tank mounted on the slurry rack, a casting rack below the slurry rack, a conveyor for conveying mold racks below the casting rack, an array-type casting assembly located above the conveyor on the casting rack, the array-type casting assembly being vertically and flexibly mounted on the casting rack, and a material distribution component moving along the length of the conveyor at the upper end of the array-type casting assembly, the material distribution component being connected to the slurry tank via a flexible hose; this abrasive casting device facilitates casting multiple molds at once, improving production efficiency, and the vertically and flexibly mounted array-type casting assembly allows it to extend into the molds on the mold rack, preventing slurry splashing during casting, while the material distribution component can distribute the material among the array-type casting assembly, making the casting of each mold more uniform.

Description

Grinding tool pouring device

Technical Field

The utility model relates to the technical field of grinding tool production equipment, in particular to a grinding tool pouring device.

Background

Abrasive tools are common tools in industry for polishing tools, saw blades, and the like. The existing grinding tool usually adopts the mixture of grinding materials and sizing agents, and is injected into a die for curing and forming, however, as only one station is used for injecting the grinding materials into the die at each time, only a single die can be used for grouting, and the efficiency is relatively slow.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides a pouring device for a grinding tool, which aims to solve the problems in the prior art.

The technical scheme includes that the grinding tool pouring device comprises a slurry frame, a slurry barrel is arranged on the slurry frame, a pouring frame is arranged below the slurry frame, a conveyor for conveying a die frame is arranged below the pouring frame, an array type pouring assembly located above the conveyor is arranged on the pouring frame, the array type pouring assembly is arranged on the pouring frame in a lifting mode, a material distributing assembly moving along the length direction of the conveyor is arranged at the upper end of the array type pouring assembly, and the material distributing assembly is communicated with the slurry barrel through a hose.

In the grinding apparatus pouring device, the array type pouring assembly comprises a pouring groove, a plurality of through holes are formed in the pouring groove, the through holes are arranged in a matrix in the pouring groove, the lower ends of the through holes are provided with splash-proof pouring parts, the outer wall of the pouring groove is provided with a cylinder connecting sheet, the cylinder connecting sheet is connected with a cylinder, and the cylinder body of the cylinder is arranged on a pouring frame.

In the grinding tool pouring device, the outer wall of the pouring groove is further provided with the linear guide rail, and the pouring groove is connected with the pouring frame through the linear guide rail.

In the grinding apparatus pouring device, the splash-proof pouring part comprises a connecting cylinder, the connecting cylinder is arranged at the lower end of the through hole, the lower end of the connecting cylinder is provided with a chute, the lower end of the chute is provided with a slurry receiving groove, and a plurality of output holes are arranged in the slurry receiving groove.

In the grinding apparatus pouring device, the material distributing assembly comprises a material distributing hopper located in the pouring groove, the material distributing hopper is movably arranged in the pouring groove, the upper end of the material distributing hopper is communicated with the slurry barrel through a hose, the lower end of the material distributing hopper is an output port, scraping plates are arranged on two sides of the output port, and the length of each scraping plate is identical to the width of the pouring groove.

In the grinding tool pouring device, one side of the upper end of the pouring frame is provided with the driving wheel, the other side of the upper end of the pouring frame is provided with the driven wheel, the driving wheel is connected with the driving motor, a driving belt is wound between the driving wheel and the driven wheel, two sides of the upper end of the distributing hopper are provided with the belt fixing seats, and two ends of the driving belt are fixed on the belt fixing seats.

The utility model has the advantages that as the array type pouring assembly can form a plurality of pouring stations so as to facilitate pouring of a plurality of moulds at one time, the production efficiency is improved, and the array type pouring assembly can be lifted so as to extend into the moulds on the mould frame, the slurry is prevented from splashing in the pouring process, and meanwhile, the distribution assembly can distribute the material of the array type pouring assembly, so that the pouring of each mould is more uniform.

Drawings

Fig. 1 is a schematic perspective view of a casting device for a grinding tool according to this embodiment.

Fig. 2 is a schematic perspective view of a casting frame.

Fig. 3 is a schematic perspective view of an array type casting assembly and a distributing assembly.

Fig. 4 is a schematic perspective view of the splash guard.

Fig. 5 is a schematic perspective view of a mold frame and a mold.

In the figure, a slurry frame 1, a slurry barrel 2, a casting frame 3, a casting groove 4, a distributing hopper 5, a belt fixing seat 6, a scraping plate 7, a cylinder connecting piece 8, a cylinder 9, a linear guide rail 10, a through hole 11, a splash-proof casting part 12, a driving wheel 13, a driven wheel 14, a driving belt 15, a connecting cylinder 16, a chute 17, a slurry receiving groove 18, an output hole 19, a mold frame 20, a conveyor 21 and a mold 22.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

The utility model provides a grinding apparatus pouring device that combines shown in fig. 1 through 5, including thick liquids frame 1, install thick liquids bucket 2 on the thick liquids frame 1, the below of thick liquids frame 1 is provided with pouring frame 3, the below of pouring frame 3 is provided with the conveyer 21 that is used for carrying mould frame 20, be provided with the array type pouring subassembly that is located conveyer 19 top on pouring frame 3, array type pouring subassembly liftable install on pouring frame 3, array type pouring subassembly upper end is provided with the feed divider subassembly that moves along conveyer 19 length direction, feed divider subassembly is linked together through the hose with thick liquids bucket 2; in this embodiment, since the array type pouring assembly can form a plurality of pouring stations, so that a plurality of dies 22 can be poured at a time, the production efficiency is improved, and the array type pouring assembly can be lifted, so that the array type pouring assembly stretches into the dies 22 on the die frame 20, slurry is prevented from splashing in the pouring process, and meanwhile, the distribution assembly can distribute the array type pouring assembly, so that the pouring of each die 22 is more uniform.

The array type pouring assembly of the embodiment comprises a pouring groove 4, wherein a plurality of through holes 11 are formed in the pouring groove 4, the through holes 11 are arranged in a matrix in the pouring groove 4, splash-proof pouring parts 12 are arranged at the lower ends of the through holes 11, air cylinder connecting pieces 8 are arranged on the outer wall of the pouring groove 4, the air cylinder connecting pieces 8 are connected with air cylinders 9, the cylinder bodies of the air cylinders 9 are arranged on a pouring frame 3, the air cylinders 9 drive the pouring groove 4 to lift, so that the splash-proof pouring parts 12 extend into a die 22, slurry is prevented from splashing in the pouring process, slurry is simultaneously input through the through holes 11, and the slurry is output from the splash-proof pouring parts 12 into each die 22, so that pouring is finished, and the production efficiency is high.

In some embodiments, the outer wall of the pouring tank 4 is also provided with a linear guide rail 10, and the pouring tank 4 is connected with the pouring frame 3 through the linear guide rail 10, so that the lifting process of the pouring tank 4 is smoother.

The splash-proof pouring part 12 of the embodiment comprises a connecting cylinder 16, wherein the connecting cylinder 16 is arranged at the lower end of a through hole 11, a chute 17 is arranged at the lower end of the connecting cylinder 16, a slurry receiving groove 18 is arranged at the lower end of the chute 17, a plurality of output holes 19 are formed in the slurry receiving groove 18, and slurry is quickly guided into the slurry receiving groove 18 through the chute 17 after entering the connecting cylinder 16 from the through hole 11, so that the slurry is uniformly paved in a die 22 through the plurality of output holes 19, and the pouring is more uniform.

The material distributing component of the embodiment comprises a distributing hopper 5 positioned in a pouring groove 4, wherein the distributing hopper 5 is movably arranged in the pouring groove 4, the upper end of the distributing hopper 5 is communicated with a slurry barrel 2 through a hose, the lower end of the distributing hopper 5 is an output port, two sides of the output port are provided with scraping plates 7, the length of each scraping plate 7 is identical to the width of the pouring groove 4, the slurry barrel 2 enters the distributing hopper 5 through the hose, after the pouring groove 4 descends, a splash-proof pouring part 12 stretches into each die 22, a gap is formed between the pouring groove 4 and the distributing hopper 5, so that slurry can be conveniently output from the distributing hopper 5, the slurry can fall into the through holes 11 when the output port at the lower end of the slurry corresponds to each row of through holes 11 in the moving process of the distributing hopper 5, after pouring is finished, the pouring groove 4 moves upwards to reset, the distributing hopper 5 moves backwards to reset, in the moving backwards process, the pouring groove 4 and the distributing hopper 5 contacts each other, and the slurry can be fed for the second time, and the scraping plates can further scrape the slurry remained on the surface of the pouring groove 4, so that the slurry is prevented from being solidified on the surface.

The upper end of the pouring frame 3 of the embodiment is provided with a driving wheel 13 on one side, a driven wheel 14 on the other side, the driving wheel 13 is connected with a driving motor, a transmission belt 15 is wound between the driving wheel 13 and the driven wheel 14, two sides of the upper end of the distributing hopper 5 are provided with belt fixing seats 6, two ends of the transmission belt 15 are fixed on the belt fixing seats 6, the driving wheel 13 can be driven to rotate by the driving motor so as to drive the transmission belt 15 to run, the distributing hopper 5 can move, in some embodiments, two sides of the distributing hopper 5 can be provided with guide rails, and the distributing hopper 5 can move smoothly and stably by the guide rails which are slidably arranged at the upper end of the pouring frame 3.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (6)

1. The utility model provides a grinding apparatus pouring device, includes thick liquids frame (1), install thick liquids storage bucket (2) on thick liquids frame (1), the below of thick liquids frame (1) is provided with pouring frame (3), the below of pouring frame (3) is provided with conveyer (21) that are used for carrying mould frame (20), a serial communication port, be provided with the array pouring subassembly that is located conveyer (21) top on pouring frame (3), array pouring subassembly liftable is installed on pouring frame (3), array pouring subassembly upper end is provided with the branch material subassembly that removes along conveyer (21) length direction, branch material subassembly is linked together through the hose with thick liquids storage bucket (2).

2. The grinding tool pouring device according to claim 1, wherein the array type pouring assembly comprises a pouring groove (4), a plurality of through holes (11) are formed in the pouring groove (4), the through holes (11) are arranged in a matrix in the pouring groove (4), splash-proof pouring parts (12) are arranged at the lower ends of the through holes (11), a cylinder connecting sheet (8) is arranged on the outer wall of the pouring groove (4), a cylinder (9) is connected to the cylinder connecting sheet (8), and a cylinder body of the cylinder (9) is arranged on the pouring frame (3).

3. The grinding tool pouring device according to claim 2, wherein the outer wall of the pouring groove (4) is further provided with a linear guide rail (10), and the pouring groove (4) is connected with the pouring frame (3) through the linear guide rail (10).

4. The grinding tool pouring device according to claim 2, wherein the splash-proof pouring part (12) comprises a connecting cylinder (16), the connecting cylinder (16) is arranged at the lower end of the through hole (11), a chute (17) is arranged at the lower end of the connecting cylinder (16), a slurry receiving groove (18) is arranged at the lower end of the chute (17), and a plurality of output holes (19) are arranged in the slurry receiving groove (18).

5. The grinding tool pouring device according to claim 2, wherein the material distributing assembly comprises a material distributing hopper (5) located in the pouring groove (4), the material distributing hopper (5) is movably arranged in the pouring groove (4), the upper end of the material distributing hopper (5) is communicated with the slurry barrel (2) through a hose, the lower end of the material distributing hopper (5) is an output port, two sides of the output port are provided with scraping plates (7), and the length of the scraping plates (7) is the same as the width of the pouring groove (4).

6. The grinding tool pouring device according to claim 5, wherein one side of the upper end of the pouring frame (3) is provided with a driving wheel (13), the other side is provided with a driven wheel (14), the driving wheel (13) is connected with a driving motor, a driving belt (15) is wound between the driving wheel (13) and the driven wheel (14), two sides of the upper end of the distributing hopper (5) are provided with belt fixing seats (6), and two ends of the driving belt (15) are both fixed on the belt fixing seats (6).