CN216172873U - High-chromium wear-resistant ball cooling type feeding mechanism - Google Patents

Abstract

The utility model provides a high-chromium wear-resistant ball cooling type feeding mechanism. It has solved current technical problem. The high-chromium wear-resistant ball cooling type feeding mechanism comprises a feeding seat, wherein side plate bodies extend upwards from two sides of the feeding seat respectively, the two side plate bodies are adjacent to each other to form a feeding channel, the feeding seat is arranged on a water storage seat with a water storage cavity, a plurality of strip-shaped water outlet grooves which are arranged at intervals in the width direction of the feeding seat and extend axially are formed in the feeding seat, the water outlet grooves are communicated with the feeding channel and the water storage cavity, a plurality of feeding rollers which are arranged at intervals in the axial direction of the feeding seat are further arranged on the top sides of the side plate bodies at two sides, the feeding rollers on the two side plate bodies are staggered in the width direction of the feeding seat, and the water storage cavity is connected with a water circulation assembly. The utility model has the advantages of good cooling effect, capability of reducing cooling time and the like.

Description

High-chromium wear-resistant ball cooling type feeding mechanism

Technical Field

The utility model belongs to the technical field of wear-resistant materials, and particularly relates to a high-chromium wear-resistant ball cooling type feeding mechanism.

Background

The wear-resistant material is a novel material with special electric, magnetic, optical, acoustic, thermal, mechanical, chemical and biological functions, is an important basic material for the high-tech fields of information technology, biotechnology, energy technology and the like and national defense construction, and has very important effect on the reconstruction of certain traditional industries.

The existing wear-resistant materials mainly comprise wear-resistant balls, wear-resistant steel plates, wear-resistant welding rods, wear-resistant ceramics, wear-resistant terraces, wear-resistant rubber, wear-resistant pipelines, wear-resistant bearings, wear-resistant welding materials, wear-resistant castings, cast stones, high polymers, composite wear-resistant materials and other wear-resistant materials.

The wear-resistant balls are a crushing medium used in a ball mill and are used for crushing materials in the mill. The manufacturing of the wear-resistant ball generally comprises the steps of heating and melting iron into molten iron, injecting the molten iron into a mold, and forming the wear-resistant ball after molding; then the steel ball is pushed into a cooling pool to be cooled and formed.

The existing wear-resistant balls are mostly pushed into a cooling pool after being quenched through a feeding belt, and cannot be cooled in the feeding process, so that the cooling time in the cooling pool is prolonged.

In response to this problem, research and study have been conducted in long-term production and living practices, and for example, chinese utility model patent discloses a processing apparatus for increasing the cooling efficiency of a wear-resistant ball [ application No.: 202020430226.6], the utility model discloses a include that the lower extreme is connected with the box of base through the bracing piece, the top of box is equipped with down the hopper, and the lower port of hopper is to the pipe that has downwardly extending down, and its structural feature is, is equipped with the upper portion cooling tube that is helical structure setting around pipe downwardly extending in the box, and the upper end that is equipped with apopore and the upper portion cooling tube of inside radial water spray on the upper portion cooling tube is run through by the top surface of box.

The solution described above improves to some extent some of the problems of the prior art, but it also has at least the following drawbacks: the cooling can not be realized during feeding, and the cooling time is long.

Disclosure of Invention

The utility model aims to solve the problems and provides a high-chromium wear-resistant ball cooling type feeding mechanism.

In order to achieve the purpose, the utility model adopts the following technical scheme: the high-chromium wear-resistant ball cooling type feeding mechanism comprises a feeding seat, wherein side plate bodies extend upwards from two sides of the feeding seat respectively, the two side plate bodies are adjacent to each other to form a feeding channel, the feeding seat is arranged on a water storage seat with a water storage cavity, a plurality of strip-shaped water outlet grooves which are arranged at intervals in the width direction of the feeding seat and extend axially are formed in the feeding seat, the water outlet grooves are communicated with the feeding channel and the water storage cavity, a plurality of feeding rollers which are arranged at intervals in the axial direction of the feeding seat are further arranged on the top sides of the side plate bodies at two sides, the feeding rollers on the two side plate bodies are staggered in the width direction of the feeding seat, and the water storage cavity is connected with a water circulation assembly.

In the high-chromium wear-resistant ball cooling type feeding mechanism, one end of the feeding seat is connected with a feeding channel which inclines downwards, the other end of the feeding channel is connected with a collecting hopper, and one end of the feeding seat, which is far away from the collecting hopper, is in a closed shape and is provided with a feeding baffle plate with an arc-shaped section.

In the high-chromium wear-resistant ball cooling type feeding mechanism, the water circulation component comprises a water pump, the water pump is communicated with the water storage cavity and the material collecting hopper through a circulation water path, and the horizontal height of the end face of one end, connected with the feeding seat, of the feeding channel is not higher than the horizontal height of the end face of the feeding seat. The collecting hopper is used for containing the wear-resistant balls after feeding, and because the feeding channel is inclined, water on the feeding seat flows into the collecting hopper along with the feeding channel, so that the wear-resistant balls in the collecting hopper are soaked in the water to realize standing and cooling; the water pump is through circulation water route intercommunication retaining chamber and collecting hopper, can realize the flow of the rivers between pay-off seat, retaining chamber, the collecting hopper and the compensation of the water yield of retaining intracavity, prevents that the too much and the water yield of retaining intracavity of collecting hopper is too little unable rivers lead to overflowing to the mesa of pay-off seat.

In the high-chromium wear-resistant ball cooling type feeding mechanism, a plurality of tile-shaped material pushing plates are arranged on the circumferential outer side of the feeding roller, and the feeding roller is connected with a driving motor capable of driving the feeding roller to rotate actively. The abrasive ball feeding device is characterized in that the abrasive ball feeding device is provided with a material pushing plate, the abrasive ball feeding device comprises a feeding seat, a feeding roller and a feeding roller, wherein the feeding roller is arranged on the feeding seat, the feeding roller is arranged on the feeding roller, and the feeding roller is arranged on the feeding roller.

In the high-chromium wear-resistant ball cooling type feeding mechanism, a feeding guide assembly is further arranged between two adjacent feeding rollers on the same side plate body.

In the high-chromium wear-resistant ball cooling type feeding mechanism, the feeding guide assembly comprises a plurality of guide rollers which are rotatably connected to the inner side of the side plate body, and the upper end and the lower end of each guide roller are respectively rotatably connected to a roller frame fixed on the side plate body.

In the high-chromium wear-resistant ball cooling type feeding mechanism, the guide rollers are arranged on the roller frame in an arc shape, and an arc line formed by connecting axes of the guide rollers is concave towards the inner side of the side plate body.

In the high-chromium wear-resistant ball cooling type feeding mechanism, the outer wall of the guide roller is further coated with a barrel sleeve made of a water absorbing material. The guide roll is in passive rotation, and the barrel sleeve can absorb water to enable the wear-resistant balls to be cooled when contacting the guide roll.

In the high-chromium wear-resistant ball cooling type feeding mechanism, the length of the strip-shaped water outlet groove does not exceed the length of the feeding seat.

In the high-chromium wear-resistant ball cooling type feeding mechanism, water changing holes which can be communicated with a circulating water channel are respectively formed below the side parts of the water storage seat and the collecting hopper.

Compared with the prior art, the high-chromium wear-resistant ball cooling type feeding mechanism has the advantages that: reasonable in design, the water of retaining intracavity can be gone on the mesa of pay-off seat by the bar play basin, and the wear-resisting ball can roll on the pay-off seat and advance when the pay-off gyro wheel on the curb plate body of both sides can be sent wear-resisting ball to the other end pay-off by the one end of pay-off seat to let each face of wear-resisting ball can both be soaked, wear-resisting ball also can cool down at the pay-off in-process, and the cooling effect is good.

Drawings

FIG. 1 is a cross-sectional view of a structure provided by the present invention;

FIG. 2 is a schematic diagram of a top view configuration provided by the present invention;

FIG. 3 is a sectional view of the structure of one end of the feeding base provided by the present invention;

in the figure, a feeding seat 201, a side plate body 202, a water storage cavity 203, a water storage seat 204, a strip-shaped water outlet groove 205, a feeding roller 206, a water circulation assembly 207, a feeding channel 208, a collecting hopper 209, a feeding baffle 210, a water pump 211, a circulation water channel 212, a material pushing plate 213, a feeding guide assembly 214, a guide roller 215, a roller frame 216, a sleeve 217 and a water changing hole 218.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, the high-chromium wear-resistant ball cooling type feeding mechanism includes a feeding seat 201, two sides of the feeding seat 201 are respectively extended upward to form side plate bodies 202, two side plate bodies 202 are adjacent to form a feeding channel, the feeding seat 201 is erected on a water storage seat 204 with a water storage cavity 203, the feeding seat 201 is provided with a plurality of strip-shaped water outlet grooves 205 which are arranged at intervals in the width direction of the feeding seat 201 and extend axially, the water outlet grooves are communicated with the feeding channel and the water storage cavity 203, the top sides of the side plate bodies 202 at two sides are also provided with a plurality of feeding rollers 206 which are arranged at intervals in the axial direction of the feeding seat 201, the feeding rollers 206 on the two side plate bodies 202 are staggered in the width direction of the feeding seat 201, and the water storage cavity 203 is connected with a water circulation assembly 207.

The water in the water storage cavity 203 can flow over the table top of the feeding seat 201 through the strip-shaped water outlet groove 205, the feeding rollers 206 on the side plate bodies 202 on the two sides can send the wear-resistant balls to the other end of the feeding seat 201 from one end of the feeding seat 201, and the feeding rollers 206 on the two side plate bodies 202 are staggered in the width direction of the feeding seat 201, so that the wear-resistant balls can roll and advance on the feeding seat 201 during feeding, all surfaces of the wear-resistant balls can be soaked, the wear-resistant balls can be cooled in the feeding process, and the cooling effect is good.

Preferably, one end of the feeding seat 201 is connected with a feeding channel 208 which is inclined downwards, the other end of the feeding channel 208 is connected with a collecting hopper 209, and one end of the feeding seat 201, which is far away from the collecting hopper 209, is in a closed shape and is provided with a feeding baffle 210 with an arc-shaped section. The water circulation assembly 207 comprises a water pump 211, the water pump 211 is communicated with the water storage cavity 203 and the collecting hopper 209 through a circulation water channel 212, and the horizontal height of the end surface of the feeding channel 208, which is connected with the feeding seat 201, is not higher than the horizontal height of the upper end surface of the feeding seat 201.

The aggregate bin 209 is used for containing the wear-resistant balls after feeding, and because the feeding channel 208 is inclined, water on the feeding seat 201 can flow into the aggregate bin 209 along with the feeding channel 208, so that the wear-resistant balls in the aggregate bin 209 are soaked in the water to realize standing and cooling; the water pump 211 is communicated with the water storage cavity 203 and the water collection hopper 209 through the circulating water channel 212, so that the flow of water flow among the feeding seat 201, the water storage cavity 203 and the water collection hopper 209 and the compensation of water quantity in the water storage cavity 203 can be realized, and the water is prevented from overflowing to the table top of the feeding seat 201 due to the fact that the water quantity in the water collection hopper 209 is too large and the water quantity in the water storage cavity 203 is too small.

Furthermore, a plurality of tile-shaped material pushing plates 213 are arranged on the outer circumferential side of the feeding roller 206, the feeding roller 206 is connected with a driving motor capable of driving the feeding roller 206 to rotate actively, and the material pushing plates 213 are arranged to enable the feeding roller 206 to stir the wear-resistant balls in the feeding process, so that the wear-resistant balls roll in the advancing process, and more surfaces of the wear-resistant balls are in contact with water flow overflowing from the feeding seat 201.

Furthermore, a feeding guide assembly 214 is further disposed between two adjacent feeding rollers 206 on the same side plate body 202, the feeding guide assembly 214 includes a plurality of guide rollers 215 rotatably connected to the inner side of the side plate body 202, the upper and lower ends of the guide rollers 215 are respectively rotatably connected to roller frames 216 fixed on the side plate body 202, the guide rollers 215 are arranged in an arc shape on the roller frames 216, and an arc line formed by connecting axes of the plurality of guide rollers 215 is recessed toward the inner side of the side plate body 202.

The wear-resistant balls contact the inner wall of the side plate body 202 in the pushing process of the material pushing plate 213 on the material feeding roller 206, the guide rollers 215 arranged in the arc shape can enable the wear-resistant balls to contact the guide rollers 215 in the advancing process, and the guide rollers 215 enable the wear-resistant balls to have the rolling trend towards the side plate body 202 on the other side, so that the material pushing plate 213 on the other side can be ensured to stably contact the wear-resistant balls and further push the wear-resistant balls.

In addition, the outer wall of the guide roller 215 is further coated with a sleeve 217 made of a water-absorbing material, the guide roller 215 rotates passively, and the sleeve 217 can absorb water so that the wear-resistant balls can be cooled when contacting the guide roller 215.

The length of the strip-shaped water outlet groove 205 is not more than that of the feeding seat 201, and water changing holes 218 which can be communicated with the circulating water channel 212 are respectively arranged below the side parts of the water storage seat 204 and the collecting hopper 209.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the terms of the feeding seat 201, the side plate 202, the water storage cavity 203, the water storage seat 204, the strip-shaped water outlet groove 205, the feeding roller 206, the water circulation assembly 207, the feeding channel 208, the collecting hopper 209, the feeding baffle 210, the water pump 211, the water circulation path 212, the material pushing plate 213, the feeding guide assembly 214, the guide roller 215, the roller frame 216, the sleeve 217, the water changing hole 218 and the like are used more, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. A high-chromium wear-resistant ball cooling type feeding mechanism is characterized by comprising a feeding seat (201), two sides of the feeding seat (201) are respectively extended upwards to form side plate bodies (202), the two side plate bodies (202) are adjacent to form a feeding channel (), the feeding seat (201) is erected on a water storage seat (204) with a water storage cavity (203), the feeding seat (201) is provided with a plurality of strip-shaped water outlet grooves (205) which are arranged at intervals in the width direction of the feeding seat (201) and extend axially, the water outlet groove () is communicated with the feeding channel () and the water storage cavity (203), a plurality of feeding rollers (206) which are arranged at intervals in the axial direction of the feeding seat (201) are further arranged on the top sides of the side plate bodies (202) on the two sides, the feeding rollers (206) on the two side plate bodies (202) are staggered in the width direction of the feeding seat (201), and the water storage cavity (203) is connected with a water circulation component (207).

2. The high-chromium wear-resistant ball cooling type feeding mechanism is characterized in that one end of the feeding seat (201) is connected with a feeding channel (208) which is inclined downwards, the other end of the feeding channel (208) is connected with a collecting hopper (209), and one end of the feeding seat (201) far away from the collecting hopper (209) is closed and provided with a feeding baffle (210) which is arc-shaped in cross section.

3. The high-chromium wear-resistant ball cooling type feeding mechanism as claimed in claim 2, wherein the water circulation assembly (207) comprises a water pump (211), the water pump (211) is communicated with the water storage cavity (203) and the collecting hopper (209) through a circulation water path (212), and the horizontal height of the end face of the feeding channel (208) at the end connected with the feeding seat (201) is not higher than the horizontal height of the upper end face of the feeding seat (201).

4. The high-chromium wear-resistant ball cooling type feeding mechanism as claimed in claim 1, wherein a plurality of tile-shaped material pushing plates (213) are arranged on the circumferential outer side of the feeding roller (206), and the feeding roller (206) is connected with a driving motor capable of driving the feeding roller (206) to rotate actively.

5. The high-chromium wear-resistant ball-cooling type feeding mechanism according to claim 4, wherein a feeding guide assembly (214) is further arranged between two adjacent feeding rollers (206) on the same plate body (202).

6. The feeding mechanism of claim 5, wherein the feeding guide assembly (214) comprises a plurality of guide rollers (215) rotatably connected to the inner side of the side plate (202), and the upper and lower ends of the guide rollers (215) are rotatably connected to roller frames (216) fixed to the side plate (202), respectively.

7. The high-chromium wear-resistant ball cooling type feeding mechanism as claimed in claim 6, wherein the guide rollers (215) are arranged in an arc shape on the roller frame (216), and the arc line formed by the connecting lines of the axes of the plurality of guide rollers (215) is concave towards the inner side of the side plate body (202).

8. The high-chromium wear-resistant ball-cooling type feeding mechanism as claimed in claim 6, wherein the outer wall of the guide roller (215) is further coated with a sleeve (217) made of water-absorbing material.

9. The high-chromium wear-resistant ball cooling type feeding mechanism as claimed in claim 1, wherein the length of the strip-shaped water outlet groove (205) does not exceed the length of the feeding seat (201).

10. The high-chromium wear-resistant ball cooling type feeding mechanism as claimed in claim 2, wherein water exchange holes (218) capable of communicating with a circulating water channel (212) are respectively formed below the side portions of the water storage seat (204) and the water collection hopper (209).

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