CN205650322U - Control system of mine breaker - Google Patents

Abstract

The utility model discloses a control system of mine breaker, include: detection module, central processing unit, executable module, detection module includes feeding detection module: detection feeding volume, coarse crushing volume detection module: detect the coarse crushing volume of coarse crushing hopper export, water yield detection module: detect the working water jet capacity of cooling water, volume detection module in small, broken bits: detect the volume in small, broken bits of hopper in small, broken bits export, belt conveying detection module: detect conveyer's transfer rate, central processing unit: receive the data signal that detection module sent, handle, send executive signal to the executable module, the executive signal that central processing unit sent is received to the executable module, controls through the executor. The utility model discloses a during control system can detect the breaker use, the speed of feeding, the load after twice breakage to control, what the broken process of messenger can be smooth goes on, and it is insufficient to prevent the breakage, heaps together improvement crushing efficiency.

Description

A kind of control system of In Mine Crusher

Technical field

This utility model relates to the control system of a kind of mine mechanism, the control system of a kind of In Mine Crusher.

Background technology

Development along with science and technology, and ore materials is as the requisite material of building field, particularly more and more higher to the processing request of stone material, the Ore that granule is excessive at present needs to be ground into less Ore, existing typically all workman holds iron hammer and is slowly broken into pieces by bigger Ore, so need substantial amounts of manpower, and workman can suck substantial amounts of dust when breaking Ore into pieces, has a strong impact on healthy.The general reducing mechanism in pulverizer is all to use a kind of crushing mechanism to crush Ore, the crushing effect of this breaker is the highest, crushing efficiency is the highest, and crushing process can cause organism fever, cooling can reduce service life of a machine not in time, and dust can be produced in shattering process, pollute environment, the working environment of operative employee is created ill effect, and present reducing mechanism does not has automatic control system to be controlled, mainly use Control, parameter needed for it controls mostly is digital output modul, its parameter regulates mainly by regulating manually, the most inconvenient, efficiency also ratio is relatively low.

Utility model content

Goal of the invention of the present utility model is: for the problem of above-mentioned existence, it is provided that a kind of automatically can be monitored the whole shattering process of disintegrating machine, and be automatically adjusted between all parts cooperates simultaneously, the In Mine Crusher control system that crushing effect is good.

The technical solution adopted in the utility model is as follows:

The In Mine Crusher that this utility model is based on, including disintegrating machine main body, feed well, broken base plate, crash panel, sparge pipe, water inlet pipe, driving gear, driven gear, motor, water leg, drainage screen, suction pump, cistern；Described feed well is obliquely installed in main body inner wall, and lower end arranges scroll wheel, and scroll wheel is driven by motor A；The other end of described scroll wheel is provided with broken base plate, and broken base plate correspondence upper end is provided with crash panel, and crash panel upper end connects cylinder, and cylinder is also associated with motor B, and broken base plate lower end connects has pillar to be fixed in fixed plate；It is provided with coarse crushing hopper between described broken base plate；Being provided with driven gear on described left side strut, right side strut is provided with driving gear, driving gear is connected with driven gear engagement, and driving gear connects the motor C outside main body；Being provided with hopper in small, broken bits on the downside of described driving gear, hopper lower end in small, broken bits is provided with belt conveyor, is placed in fixed plate, and fixed plate connects left and right sides inwall；It is provided with water leg on the right of described main body inner wall bottom and the left side is provided with cistern；Described water leg upper end is provided with drainage screen, and water leg inner bottom part is also equipped with suction pump, is connected in the sparge pipe on broken base plate lower supporting rod by water inlet pipe；The suction pump that described cistern inner bottom part is arranged is connected in the sparge pipe on broken base plate lower supporting rod by water inlet pipe.

Further, two broken base plates and two crash panels it are provided with in described disintegrating machine；The corresponding crash panel of each broken base plate；In described disintegrating machine, the left and right sides is also each provided with a feed well, is connected with broken base plate by scroll wheel.

Further, 30 degree of angles are become between described feed well and main body inner wall.

The control system of a kind of In Mine Crusher of this utility model, including:

Detection moduleIncluding

Charging detection module: the inlet amount that the solid flowmeter being arranged at feed well import detects is converted into digital signaling zero 1, is sent to central processing unit；

Coarse crushing amount detection module: the broken amount that goes out of the coarse crushing hopper detected by the solid flowmeter being arranged at coarse crushing hopper outlet is converted into digital signaling zero 2, is sent to central processing unit；

Water yield detection module: the injection flow rate detected is converted into digital signaling zero 3, is sent to central processing unit；

Amount detection module in small, broken bits: the broken amount that goes out of the hopper in small, broken bits detected by the solid flowmeter being arranged at hopper outlet in small, broken bits is converted into digital signaling zero 4, is sent to central processing unit；

Belt transmits detection module: the belt transfer rate that the belt speed detector being arranged on belt detects is converted into digital signaling zero 5, is sent to central processing unit；

Central processing unit: receive the digital signaling zero 1 that charging detection module sends, if the crushing of detection is less than inlet amount, send execution signal 001 to performing module；Receive the digital signaling zero 2 that coarse crushing amount detection module sends, if the crushing of detection is more than preset weight, send execution signal 002 to performing module；Receive the digital signaling zero 3 that water yield detection module sends, if the water yield of detection is more than preset value, send execution signal 003 to performing module；Receive the digital signaling zero 4 that amount detection module in small, broken bits sends, if the crushing of detection is more than preset weight, send execution signal 004 to performing module；If the amount in small, broken bits of detection is more than the coarse crushing amount of detection, send execution signal 005；Receive the digital signaling zero 5 that discharging detection module sends, if the amount in small, broken bits of detection is more than the amount of discharging, send execution signal 006；

Execution module:Receive the execution signal 001 that central processing unit sends, turn electromagnetic valve a down and accelerate the speed of motor A；Receive the execution signal 002 that sends of central processing unit, the speed of the motor A that slows down and tune up electromagnetic valve b；Receive the execution signal 003 that central processing unit sends, turn electromagnetic valve d down；Receive the execution signal 004 that central processing unit sends, tune up electromagnetic valve c；Receive the execution signal 005 that central processing unit sends, tune up electromagnetic valve b and turn electromagnetic valve c down；Receive the execution signal 006 that central processing unit sends, accelerate the speed of belt conveyor.

Further, described electromagnetic valve a is arranged at feed well entrance, and electromagnetic valve b is arranged at coarse crushing hopper outlet, and electromagnetic valve c is arranged at hopper outlet in small, broken bits, and electromagnetic valve d is arranged on sparge pipe.

Further, the control method of described a kind of In Mine Crusher control system, including following step:

Step one: the inlet amount that the solid flowmeter being arranged at feed well import detects is converted into digital signaling zero 1, is sent to central processing unit；Central processing unit receives the digital signaling zero 1 that charging detection module sends, if the crushing of detection is less than inlet amount, sends execution signal 001 to performing module；Perform module and receive the execution signal 001 that central processing unit sends, turn electromagnetic valve a down and accelerate the speed of motor A；

Step 2: the broken amount that goes out of the coarse crushing hopper detected by the solid flowmeter being arranged at coarse crushing hopper outlet is converted into digital signaling zero 2, is sent to central processing unit；Central processing unit receives the digital signaling zero 2 that coarse crushing amount detection module sends, if the crushing of detection is more than preset weight, sends execution signal 002 to performing module；Perform module and receive the execution signal 002 that sends of central processing unit, the speed of the motor A that slows down and tune up electromagnetic valve b；

Step 3: the injection flow rate detected is converted into digital signaling zero 3, is sent to central processing unit；Central processing unit receives the digital signaling zero 3 that water yield detection module sends, if the water yield of detection is more than preset value, sends execution signal 003 to performing module；Perform module and receive the execution signal 003 that central processing unit sends, turn electromagnetic valve d down；

Step 4: the broken amount that goes out of the hopper in small, broken bits detected by the solid flowmeter being arranged at hopper outlet in small, broken bits is converted into digital signaling zero 4, is sent to central processing unit；Central processing unit receives the digital signaling zero 4 that amount detection module in small, broken bits sends, if the crushing of detection is more than preset weight, sends execution signal 004 to performing module；If the amount in small, broken bits of detection is more than the coarse crushing amount of detection, send execution signal 005；Perform module and receive the execution signal 004 that central processing unit sends, tune up electromagnetic valve c；Perform module and receive the execution signal 005 that central processing unit sends, tune up electromagnetic valve b and turn electromagnetic valve c down；

Step 5: the belt transfer rate that the belt speed detector being arranged on belt detects is converted into digital signaling zero 5, is sent to central processing unit；Central processing unit receives the digital signaling zero 5 that discharging detection module sends, if the amount in small, broken bits of detection is more than the amount of discharging, sends execution signal 006；Perform module and receive the execution signal 006 that central processing unit sends, accelerate the speed of belt conveyor.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are: during control system of the present utility model can detect disintegrating machine use, the speed of charging, twice broken after load, and be controlled, enable the process crushed to carry out smoothly, prevent broken insufficient, it is accumulated in together, the phenomenon of blocking channel, control cooling down system the most automatically, lower the temperature in time, and the recycling of cooling water, save resource, improve crushing efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of the In Mine Crusher that this utility model is based on.

In figure, 1 is cylinder, and 2 is feed well, and 3 is scroll wheel, and 41 is motor A, 42 is motor B, and 43 is motor C, and 5 is broken base plate, and 6 is water inlet pipe, 7 is driving gear, and 8 is belt conveyor, and 9 is fixed plate, and 10 is drainage screen, 11 is water leg, and 12 is suction pump, and 13 is cistern, and 14 is driven gear, 15 is sparge pipe, and 16 is crash panel, and 17 is pillar, 18 is coarse crushing hopper, and 19 is hopper in small, broken bits, and 20 is broken main body.

Fig. 2 is structural representation of the present utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawings, this utility model is described in detail.

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

As in figure 2 it is shown, the control system of a kind of In Mine Crusher, including:

Detection moduleIncluding

Charging detection module: the inlet amount that the solid flowmeter being arranged at feed well import detects is converted into digital signaling zero 1, is sent to central processing unit；

Coarse crushing amount detection module: the broken amount that goes out of the coarse crushing hopper detected by the solid flowmeter being arranged at coarse crushing hopper outlet is converted into digital signaling zero 2, is sent to central processing unit；

Water yield detection module: the injection flow rate detected is converted into digital signaling zero 3, is sent to central processing unit；

Amount detection module in small, broken bits: the broken amount that goes out of the hopper in small, broken bits detected by the solid flowmeter being arranged at hopper outlet in small, broken bits is converted into digital signaling zero 4, is sent to central processing unit；

Belt transmits detection module: the belt transfer rate that the belt speed detector being arranged on belt detects is converted into digital signaling zero 5, is sent to central processing unit；

Central processing unit: receive the digital signaling zero 1 that charging detection module sends, if the crushing of detection is less than inlet amount, send execution signal 001 to performing module；Receive the digital signaling zero 2 that coarse crushing amount detection module sends, if the crushing of detection is more than preset weight, send execution signal 002 to performing module；Receive the digital signaling zero 3 that water yield detection module sends, if the water yield of detection is more than preset value, send execution signal 003 to performing module；Receive the digital signaling zero 4 that amount detection module in small, broken bits sends, if the crushing of detection is more than preset weight, send execution signal 004 to performing module；If the amount in small, broken bits of detection is more than the coarse crushing amount of detection, send execution signal 005；Receive the digital signaling zero 5 that discharging detection module sends, if the amount in small, broken bits of detection is more than the amount of discharging, send execution signal 006；

Execution module:Receive the execution signal 001 that central processing unit sends, turn electromagnetic valve a down and accelerate the speed of motor A；Receive the execution signal 002 that sends of central processing unit, the speed of the motor A that slows down and tune up electromagnetic valve b；Receive the execution signal 003 that central processing unit sends, turn electromagnetic valve d down；Receive the execution signal 004 that central processing unit sends, tune up electromagnetic valve c；Receive the execution signal 005 that central processing unit sends, tune up electromagnetic valve b and turn electromagnetic valve c down；Receive the execution signal 006 that central processing unit sends, accelerate the speed of belt conveyor.

Further, described electromagnetic valve a is arranged at feed well entrance, and electromagnetic valve b is arranged at coarse crushing hopper outlet, and electromagnetic valve c is arranged at hopper outlet in small, broken bits, and electromagnetic valve d is arranged on sparge pipe.

Further, the control method of described a kind of In Mine Crusher control system, including following step:

Step one: the inlet amount that the solid flowmeter being arranged at feed well import detects is converted into digital signaling zero 1, is sent to central processing unit；Central processing unit receives the digital signaling zero 1 that charging detection module sends, if the crushing of detection is less than inlet amount, sends execution signal 001 to performing module；Perform module and receive the execution signal 001 that central processing unit sends, turn electromagnetic valve a down and accelerate the speed of motor A；

Step 2: the broken amount that goes out of the coarse crushing hopper detected by the solid flowmeter being arranged at coarse crushing hopper outlet is converted into digital signaling zero 2, is sent to central processing unit；Central processing unit receives the digital signaling zero 2 that coarse crushing amount detection module sends, if the crushing of detection is more than preset weight, sends execution signal 002 to performing module；Perform module and receive the execution signal 002 that sends of central processing unit, the speed of the motor A that slows down and tune up electromagnetic valve b；

Step 3: the injection flow rate detected is converted into digital signaling zero 3, is sent to central processing unit；Central processing unit receives the digital signaling zero 3 that water yield detection module sends, if the water yield of detection is more than preset value, sends execution signal 003 to performing module；Perform module and receive the execution signal 003 that central processing unit sends, turn electromagnetic valve d down；

Step 4: the broken amount that goes out of the hopper in small, broken bits detected by the solid flowmeter being arranged at hopper outlet in small, broken bits is converted into digital signaling zero 4, is sent to central processing unit；Central processing unit receives the digital signaling zero 4 that amount detection module in small, broken bits sends, if the crushing of detection is more than preset weight, sends execution signal 004 to performing module；If the amount in small, broken bits of detection is more than the coarse crushing amount of detection, send execution signal 005；Perform module and receive the execution signal 004 that central processing unit sends, tune up electromagnetic valve c；Perform module and receive the execution signal 005 that central processing unit sends, tune up electromagnetic valve b and turn electromagnetic valve c down；

Step 5: the belt transfer rate that the belt speed detector being arranged on belt detects is converted into digital signaling zero 5, is sent to central processing unit；Central processing unit receives the digital signaling zero 5 that discharging detection module sends, if the amount in small, broken bits of detection is more than the amount of discharging, sends execution signal 006；Perform module and receive the execution signal 006 that central processing unit sends, accelerate the speed of belt conveyor.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, within should be included in protection domain of the present utility model.

Claims (2)

1. the control system of an In Mine Crusher, it is characterised in that: including:Detection moduleIncluding

Charging detection module: include the solid flowmeter being arranged at feed well import, be used for detecting inlet amount；

Coarse crushing amount detection module: include the solid flowmeter being arranged at coarse crushing hopper outlet, goes out broken amount for detect coarse crushing hopper；

Water yield detection module: be used for detecting injection flow rate；

Amount detection module in small, broken bits: include the solid flowmeter being arranged at hopper outlet in small, broken bits, goes out broken amount for detect hopper in small, broken bits；

Belt transmits detection module: includes the belt speed detector being arranged on belt, is used for detecting belt transfer rate；

Central processing unit: connect charging detection module, coarse crushing amount detection module, water yield detection module, amount detection module in small, broken bits and belt respectively and transmit detection module；

Execution module:Including electromagnetic valve a, motor A, electromagnetic valve b, electromagnetic valve c and electromagnetic valve d.

A kind of control system of In Mine Crusher, it is characterized in that: described electromagnetic valve a is arranged at feed well entrance, electromagnetic valve b is arranged at coarse crushing hopper outlet, and electromagnetic valve c is arranged at hopper outlet in small, broken bits, and electromagnetic valve d is arranged on sparge pipe.