CN204602370U - A kind of numerical control regulates hydraulic breaker - Google Patents

Abstract

The utility model relates to a kind of disintegrating machine, and particularly a kind of numerical control regulates hydraulic breaker.This numerical control regulates hydraulic breaker, and comprise frame, be provided with rotor chamber in described frame, this rotor chamber inner surface is provided with grate plate; Bottom, described frame rear portion is provided with bearing block adjusting bracket; Described bearing block adjusting bracket is provided with bearing block; Be provided with main shaft in described bearing block, this main shaft is positioned at rotor chamber through frame; Described main shaft is provided with tup frame, this tup frame is provided with tup; Described bearing block upper end is provided with hydraulic cylinder; Described hydraulic cylinder upper end is fixed in frame, and lower end is connected with main shaft; Described hydraulic cylinder is connected with Hydraulic Station, and this Hydraulic Station is connected with control electronic box; Described main shaft is connected with inductor, and this inductor is connected with control electronic box.The utility model achieves the gap length automatically regulated between grate plate and tup, product particle size is consistent, avoids the problem that manual operation is wasted time and energy, improve operating efficiency.

Description

A kind of numerical control regulates hydraulic breaker

(1) technical field

The utility model relates to a kind of disintegrating machine, and particularly a kind of numerical control regulates hydraulic breaker.

(2) background technology

The disintegrating machine work power consumption of current existing use is high, yield poorly, adaptive capacity, safeguard measure be poor; and be easy to wearing and tearing due to the tup of existing disintegrating machine and grate plate; cause product particle not of uniform size; affect its follow-up product appearance and quality; and traditional manual adjustments wastes time and energy, not easily gap is regulated evenly again.

(3) utility model content

The utility model, in order to make up the deficiencies in the prior art, provides a kind of numerical control adjustment hydraulic breaker reducing working strength, enhance productivity.

The utility model is achieved by the following technical solution:

A kind of numerical control regulates hydraulic breaker, and comprise frame, it is characterized in that: be provided with rotor chamber in described frame, this rotor chamber inner surface is provided with grate plate; Bottom, described frame rear portion is provided with bearing block adjusting bracket; Described bearing block adjusting bracket is provided with bearing block; Be provided with main shaft in described bearing block, this main shaft is positioned at rotor chamber through frame; Described main shaft is provided with tup frame, this tup frame is hinged respectively is up and down provided with hammer handle; Described hammer handle top is fixed with tup; Described bearing block upper end is provided with hydraulic cylinder; Described hydraulic cylinder upper end is fixed in frame, and lower end is connected with main shaft; Described hydraulic cylinder is connected with Hydraulic Station, and this Hydraulic Station is connected with control electronic box; Described main shaft is connected with inductor, and this inductor is connected with control electronic box.

Described rotor chamber lower end is spherical, and upper end is circular platform type.

In described control electronic box, microcomputer is installed.

Described inductor is connected with microcomputer.

Described bearing block adjusting bracket comprises fixed mount and adjusting bracket; Described fixed mount is fixed in frame, and adjusting bracket is fixed with bearing block; Described adjusting bracket is embedded in fixed mount, and adjusting bracket can move up and down.

When the utility model uses, when main shaft rotates, be contained in the inductor in bearing block adjusting bracket, grate plate and tup gap data are sent to, control in the microcomputer in electronic box, operating personnel input the particles used size data of its product, and microcomputer inputs data according to it, hydraulic control station, hydraulic cylinder presses down bearing block and main shaft, adjusts to required gap, along with the wearing and tearing of grate plate and tup, microcomputer hydraulic control cylinder, remains that its gap is consistent.When grate plate or tup serious wear, when can not continue to use, microcomputer, by automatic alarm, in order to avoid occur differing because of granular size, affects its follow-up product appearance and quality, after its grate plate or tup are changed, can continue to use again.

The beneficial effects of the utility model are, the utility model achieves the gap length automatically regulated between grate plate and tup, product particle size is consistent, automatically can detect the abrasion condition of grate plate or tup simultaneously, make production can continue to carry out, avoid the problem that manual operation is wasted time and energy, improve operating efficiency, reduce labor strength, saved human cost, highly promoted.

(4) accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is further described.

Fig. 1 is structural representation of the present utility model.

Fig. 2 is side structure schematic diagram of the present utility model.

Fig. 3 is rearview of the present utility model.

Fig. 4 is the utility model Hydraulic Station and the structural representation controlling electronic box.

In figure, 1 frame, 2 rotor chamber, 3 grate plates, 4 tup framves, 5 tups, 6 bearing block adjusting brackets, 7 hydraulic cylinders, 8 bearing blocks, 9 main shafts, 10 Hydraulic Stations, 11 control electronic box, 12 inductors, 13 microcomputers, 601 fixed mounts, 602 adjusting brackets.

(5) detailed description of the invention

Accompanying drawing is a kind of specific embodiment of the present utility model.This embodiment comprises frame 1, it is characterized in that: be provided with rotor chamber 2 in described frame 1, and this rotor chamber 2 inner surface is provided with grate plate 3; Bottom, described frame 1 rear portion is provided with bearing block adjusting bracket 6; Described bearing block adjusting bracket 6 is provided with bearing block 8; Be provided with main shaft 9 in described bearing block 8, this main shaft 9 is positioned at rotor chamber 2 through frame 1; Described main shaft 9 is provided with tup frame 3, and this tup frame 3 is hinged respectively is up and down provided with hammer handle; Described hammer handle top is fixed with tup 5; Described bearing block 8 upper end is provided with hydraulic cylinder 7; Described hydraulic cylinder 7 upper end is fixed in frame 1, and lower end is connected with main shaft 9; Described hydraulic cylinder 7 is connected with Hydraulic Station 10, and this Hydraulic Station 10 is connected with control electronic box 11; Described main shaft 9 is connected with inductor 12, and this inductor 12 is connected with control electronic box 11.Described rotor chamber 2 lower end is spherical, and upper end is circular platform type.In described control electronic box 11, microcomputer 13 is installed.Described inductor 12 is connected with microcomputer 13.Described bearing block adjusting bracket 6 comprises fixed mount 601 and adjusting bracket 602; Described fixed mount 601 is fixed in frame 1, adjusting bracket 602 is fixed with bearing block 8; Described adjusting bracket 602 is embedded in fixed mount 601, and adjusting bracket 602 can move up and down.

When the utility model uses, open and control electronic box 11, regulate bearing block 8, when main shaft 9 rotates, the inductor 12 be connected with main shaft 9, inductor 12 detects main shaft 9 rotating cycle, then data are sent to microcomputer 13, when reaching the setting number of turns, microcomputer 13 sends instruction, hydraulic control cylinder 7 presses down certain distance, now the adjusting bracket 602 of bearing block adjusting bracket 6 moves down, main shaft 9 is made also and then to move down respective distance, due to when normally working, main shaft 9 often revolves and turns around, grate plate 3 is substantially identical with tup 5 wear extent, therefore the lower in-migration controlling main shaft 9 reaches the object regulating grate plate 3 and tup 5 clearance distance, control in the microcomputer 13 in electronic box 11, operating personnel input the particles used size data of its product, microcomputer 13 is according to its input data, hydraulic control station 10, hydraulic cylinder 7 presses down bearing block 8 and main shaft 9, adjusts to required gap, along with the wearing and tearing of grate plate 3 and tup 5, microcomputer control 13 hydraulic cylinder 7 processed, remains that its gap is consistent.

When grate plate 3 or tup 5 serious wear, when can not continue to use, microcomputer 13, by automatic alarm, in order to avoid occur differing because of granular size, affects its follow-up product appearance and quality, after its grate plate 3 or tup 5 are changed, can continue to use again.

Be illustrated the utility model by way of example above, but the utility model is not limited to above-mentioned specific embodiment, all any changes of doing based on the utility model or modification all belong to the claimed scope of the utility model.

Claims (5)

1. numerical control regulates a hydraulic breaker, and comprise frame (1), it is characterized in that: be provided with rotor chamber (2) in described frame (1), this rotor chamber (2) inner surface is provided with grate plate (3); Described frame (1) bottom, rear portion is provided with bearing block adjusting bracket (6); Described bearing block adjusting bracket (6) is provided with bearing block (8); Be provided with main shaft (9) in described bearing block (8), this main shaft (9) is positioned at rotor chamber (2) through frame (1); Described main shaft (9) is provided with tup frame (3), this tup frame (3) is hinged respectively is up and down provided with hammer handle; Described hammer handle top is fixed with tup (5); Described bearing block (8) upper end is provided with hydraulic cylinder (7); Described hydraulic cylinder (7) upper end is fixed in frame (1), and lower end is connected with main shaft (9); Described hydraulic cylinder (7) is connected with Hydraulic Station (10), and this Hydraulic Station (10) is connected with control electronic box (11); Described main shaft (9) is connected with inductor (12), and this inductor (12) is connected with control electronic box (11).

2. numerical control according to claim 1 regulates hydraulic breaker, and it is characterized in that: described rotor chamber (2) lower end is spherical, upper end is circular platform type.

3. numerical control according to claim 1 regulates hydraulic breaker, it is characterized in that: be provided with microcomputer (13) in described control electronic box (11).

4. numerical control according to claim 1 regulates hydraulic breaker, it is characterized in that: described inductor (12) is connected with microcomputer (13).

5. numerical control according to claim 1 regulates hydraulic breaker, it is characterized in that: described bearing block adjusting bracket (6) comprises fixed mount (601) and adjusting bracket (602); Described fixed mount (601) is fixed in frame (1), adjusting bracket (602) is fixed with bearing block (8); Described adjusting bracket (602) is embedded in fixed mount (601), and adjusting bracket (602) can move up and down.