CN105923288A - Automatic hydraulic blockage cleaning device for bacteria residue hopper - Google Patents

Abstract

The invention discloses an automatic hydraulic blockage cleaning device for a bacteria residue hopper. The automatic hydraulic blockage cleaning device comprises a blockage cleaning rake, a hydraulic pump and a control circuit. The blockage cleaning rake comprises a transmission pipe, blockage cleaning rake pieces, a hydraulic rod, a hydraulic cylinder, a retaining frame and a material fracturing signal detection probe. The multiple blockage cleaning rake pieces are installed on the transmission pipe in parallel. The lower portion of the transmission pipe is arranged on the retaining frame in a sleeving mode, so that the transmission pipe moves up and down along the oblique surface of the hopper. The upper end of the transmission pipe is connected with the hydraulic rod. The hydraulic cylinder is connected with the hydraulic pump. The hydraulic pump and the material fracturing signal detection probe are both connected with the control circuit. The automatic hydraulic blockage cleaning device for the bacteria residue hopper is capable of achieving the function of intelligently cleaning blockage of the hopper through an automatic detection and control system, has the characteristics that the system structure is simple, the investment cost is low, the adopted device is mature in structure, operation is easy, and running is reliable and has good economy.

Description

Dreg hopper automatization hydraulic pressure blockage-clearing device

Technical field

The present invention relates to medicine bacterium dregs innocent resource energy processing technology field, particularly relate to a kind of bacterium Slag charge bucket automatization hydraulic pressure blockage-clearing device.

Background technology

Along with social economy and the development of urbanization, medicine dreg generation amount is constantly increasing.Medicine dreg mesh Front most efficient method is to burn, and the volume of solid waste can be made to be reduced to minimize, and processing speed is fast, Process the most thorough, but the material-falling hopper link of medicine dreg CIU feed arrangement directly affects solid waste The effect of thing CIU.

In the prior art that hopper blanking is anti-blocking, main conventional non-vibrating cleaning device, but for high viscosity, Easily put up a bridge, the material of the difficulty that falls then acts on the faintest, and fluctuation of service, and effect is bad, easily The problems such as putty.

Summary of the invention

For the deficiencies in the prior art, the present invention provides a kind of dreg hopper automatization hydraulic pressure blockage-clearing device, solves The problems such as certainly material dropping process of the prior art is difficult, fluctuation of service.

In order to achieve the above object, the technical solution used in the present invention is as follows: a kind of dreg hopper automatic liquid Pressure blockage-clearing device, including block clearing rake, hydraulic pump and control circuit；Described block clearing rake includes transmission tube, block clearing Blade, hydraulic stem, hydraulic cylinder, retainer, fracture signal detection are popped one's head in；Parallel installation on described transmission tube Some block clearing blades；The bottom of described transmission tube is set on retainer, makes transmission tube along the inclined-plane of hopper Lower movement；The upper end of described transmission tube is connected with hydraulic stem；Described hydraulic cylinder is connected with hydraulic pump；Described liquid Press pump is all connected with control circuit with fracture signal detection probe.

Further, described control circuit includes thermorelay FR1, circuit breaker Q F1-QF2, single-pole double throw Switch SW1, relay K 1-K6, auxiliary reclay KM1, shutdown switch SB1, activate switch SB2, PLC；Described hydraulic pump, the heater element of thermorelay FR1, the normally opened contact of auxiliary reclay KM1 KM1-1 and circuit breaker Q F1 access three-phase alternating current after being sequentially connected in series；Described circuit breaker Q F2 respectively with fire Line is connected with zero line, as controlling power supply；The input of single-pole double-throw switch (SPDT) SW1 and the live wire controlling power supply It is connected, first outfan of single-pole double-throw switch (SPDT) SW1, shutdown switch SB1, activate switch SB2, relay The coil of the normally-closed contact K5-1 of device K5, the normally-closed contact K2-1 of relay K 2 and relay K 1 is successively The zero line of Access Control power supply after series connection；The normally opened contact of relay K 1 in parallel in described activate switch SB2 K1-1；Access Control electricity after second outfan of single-pole double-throw switch (SPDT) SW1 and the coils connected in series of relay K 2 The zero line in source；Second outfan of single-pole double-throw switch (SPDT) SW1, PLC, the coil of relay K 3 are gone here and there successively The zero line of Access Control power supply after connection；The normally opened contact K1-2 of relay K 1, the normally opened contact of relay K 6 The coil of K6-1 and auxiliary reclay KM1 be sequentially connected in series rear two ends be respectively connected to control power supply live wire and Zero line；The normally opened contact K3-1 of relay K 3 is in parallel with the normally opened contact K1-2 of relay K 1；Continue in centre After the normally opened contact KM1-2 of electrical equipment KM1 and the coils connected in series of relay K 4, two ends are respectively connected to control power supply Live wire and zero line；After the coils connected in series of moving together contact FR1-1 of thermorelay FR1 and relay K 5 two End is respectively connected to control live wire and the zero line of power supply；The break contact FR1-2 of thermorelay FR1 and relay After the coils connected in series of K6, two ends are respectively connected to control live wire and the zero line of power supply；The signal output part of described PLC And the difference normally opened contact K2-2 of relay K 2, the normally opened contact of relay K 4 in parallel between signal input part The normally opened contact K5-1 of K4-1 and relay K 5；Described fracture signal detection probe is connected with PLC.

Further, described shutdown switch SB1 is dynamic circuit breaker switch；Described activate switch SB2 is dynamic circuit connector switch.

Further, described control circuit also includes transformer, voltmeter PV, ammeter PA；Described open circuit Device QF3 is connected with live wire and zero line respectively, and as instrument power, instrument power is voltmeter PV and electric current Table PA；Described transformer is connected with ammeter PA, with wherein live wire mutual inductance, is examined by ammeter PA Survey the electric current on this live wire；The two ends of described voltmeter PV are connected with two other live wire respectively, are used for detecting Voltage between two live wires.

Further, described control circuit also includes run indicator HR1 and malfunction indicator lamp HR2；Described Run indicator HR1 and the coils from parallel connection of coils of auxiliary reclay KM1；Described malfunction indicator lamp HR2 and relay The coils from parallel connection of coils of device K5.

The invention has the beneficial effects as follows: Novel bacteria of the present invention slag charge bucket automatization hydraulic pressure blockage-clearing device, with existing Technology is compared, and effect is positive and obvious.The letter of the fracture on conveyer belt below the hopper being arranged on material machine When number detection probe detects generation fracture, start block clearing rake and pump cleaning bucket wall, directly make At feed blocking, reaching to dredge the purpose of hopper, effect is the most direct but also notable；Dreg hopper automatization Hydraulic pressure blockage-clearing device connects the compactest, uses device structure ripe, has preferable economy, for solving Certainly in domestic hopper, material whereabouts holds susceptible to plugging problem and there is good popularizing action.The present invention utilizes certainly Dynamicization measurement and control system reaches the effect of intelligence cleaning hopper blocking, and system structure is simple, cost of investment Low, the features such as employing device structure is ripe, simple to operate, reliable, there is preferable economy.

Accompanying drawing explanation

Fig. 1 is the front view that the present invention is arranged on a hopper；

Fig. 2 is the top view being arranged on a hopper of the present invention；

Fig. 3 is the control circuit figure of the present invention；

Fig. 4 is the front view of another embodiment of the present invention；

Fig. 5 is the top view of another embodiment of the present invention；

In figure, transmission tube 1, block clearing blade 2, hydraulic stem 3, hydraulic cylinder 4, retainer 5, hopper 6.

Detailed description of the invention

Below in conjunction with the accompanying drawings the present invention is further described.

As depicted in figs. 1 and 2, the present invention includes block clearing rake, hydraulic pump and control circuit；Described block clearing is harrowed It is arranged on the inclined-plane of hopper 6 of material machine；Described block clearing rake includes transmission tube 1, block clearing blade 2, hydraulic stem 3, hydraulic cylinder 4, retainer 5, fracture signal detection probe；On described transmission tube 1, parallel installation is some clearly Stifled blade 2；According to the size of hopper 7, design various sizes of block clearing blade 2；Described transmission tube 1 time Portion is set on the retainer 5 being connected fixing with hopper 6, makes transmission tube 1 move down along the inclined-plane of hopper 6 Dynamic；The upper end of described transmission tube 1 is connected with hydraulic stem 3, and described hydraulic cylinder 4 is arranged on hopper 6；Institute State hydraulic cylinder 4 to be connected with hydraulic pump；Described hydraulic pump is all connected with control circuit with fracture signal detection probe.

As it is shown on figure 3, described control circuit includes transformer, voltmeter PV, ammeter PA, hot relay Device FR1, circuit breaker Q F1-QF3, single-pole double-throw switch (SPDT) SW1, relay K 1-K6, auxiliary reclay KM1, Shutdown switch SB1, activate switch SB2, PLC, run indicator HR1, malfunction indicator lamp HR2；Institute State transformer to be connected with ammeter PA, with wherein live wire mutual inductance, detect this live wire by ammeter PA On electric current；The two ends of described voltmeter PV are connected with two other live wire respectively, for detection two live wires it Between voltage；Described hydraulic pump (M1), the heater element of thermorelay FR1, auxiliary reclay KM1 Normally opened contact KM1-1 and circuit breaker Q F1 access three-phase alternating current after being sequentially connected in series；Described circuit breaker Q F2 It is connected with live wire and zero line respectively, as controlling power supply (live wire L1, zero line N1)；Described circuit breaker Q F3 Being connected with live wire and zero line respectively, as instrument power (live wire L2, zero line N2), instrument power is system All instrument power supplies；The input of single-pole double-throw switch (SPDT) SW1 is connected with the live wire controlling power supply, and hilted broadsword is double First outfan of throw switch SW1, shutdown switch SB1, activate switch SB2, relay K 5 normally closed The coil of contact K5-1, the normally-closed contact K2-1 of relay K 2 and relay K 1 accesses control after being sequentially connected in series The zero line of power supply processed；The normally opened contact K1-1 of relay K 1 in parallel in described activate switch SB2；Hilted broadsword is double The zero line of Access Control power supply after second outfan of throw switch SW1 and the coils connected in series of relay K 2；Single Second outfan of double-pole double throw switch SW1, PLC, the coil of relay K 3 are sequentially connected in series rear Access Control The zero line of power supply；The normally opened contact K1-2 of relay K 1, the normally opened contact K6-1 of relay K 6 and in Between the coil of relay K M1 be sequentially connected in series rear two ends and be respectively connected to control live wire and the zero line of power supply；Relay The normally opened contact K3-1 of K3 is in parallel with the normally opened contact K1-2 of relay K 1；Run indicator HR1 with in Between the coils from parallel connection of coils of relay K M1；The normally opened contact KM1-2 of auxiliary reclay KM1 and relay K 4 Coils connected in series after two ends be respectively connected to control the live wire of power supply and zero line；The moving together contact of thermorelay FR1 After the coils connected in series of FR1-1 and relay K 5, two ends are respectively connected to control live wire and the zero line of power supply；Fault refers to Show the coils from parallel connection of coils of lamp HR2 and relay K 5；The break contact FR1-2 of thermorelay FR1 and relay After the coils connected in series of K6, two ends are respectively connected to control live wire and the zero line of power supply；

The normally opened contact of relay K 2 the most in parallel between signal output part and the signal input part of described PLC K2-2, the normally opened contact K4-1 of relay K 4 and the normally opened contact K5-1 of relay K 5；Described fracture is believed Number detection probe is connected with PLC, and it is defeated that described fracture signal detection probe is arranged on below the hopper 6 of material machine Send on band, be used for detecting whether conveyer belt occurs fracture.

Described shutdown switch SB1 is dynamic circuit breaker switch；Described activate switch SB2 is dynamic circuit connector switch.

The work process of the present invention is as follows:

Block clearing rake is arranged on hopper 6 inwall, close circuit breaker QF1, circuit breaker Q F2 and circuit breaker Q F3； The control mode of the present invention has two kinds, by single-pole double-throw switch (SPDT) SW1 can select use manual mode or Automated manner:

When using manual mode, the handle of a knife of single-pole double-throw switch (SPDT) SW1 and the first outfan are connected；Operator Member presses activate switch SB2, the coil electricity of relay K 1, thus the normally opened contact of attracting electric relay K1 K1-1 and normally opened contact K1-2；In the case of thermorelay FR1 failsafe, thermorelay FR1's Break contact FR1-2 is in closure state, thus the coil electricity of relay K 6, the coil of relay K 6 The normally opened contact K6-1 of attracting electric relay K6, now, the coil electricity of auxiliary reclay KM1, adhesive is normal Opening contact KM1-1 and normally opened contact KM1-2, hydraulic pump is initially powered up work；Hydraulic pump drives and hydraulic stem 3 transmission tubes 1 being connected move back and forth so that block clearing blade 2 moves back and forth along the inclined-plane of hopper 6, it is achieved clear Stifled effect.

When using automated manner, the handle of a knife of single-pole double-throw switch (SPDT) SW1 and the second outfan are connected；Relay The coil of K2 and PLC energising, when fracture signal detection probe detects conveyer belt generation fracture, PLC Make the coil electricity of relay K 3, normally opened contact K3-1 and normally opened contact K2-2 adhesive, normally-closed contact K2-1 Disconnect, now, the coil electricity of auxiliary reclay KM1, adhesive normally opened contact KM1-1 and normally opened contact KM1-2, hydraulic pump is initially powered up work；Hydraulic pump drives the transmission tube 1 being connected with hydraulic stem 3 back and forth to transport Dynamic so that block clearing blade 2 moves back and forth along the inclined-plane of hopper 6, it is achieved the effect of block clearing.By in centre Parallel running display lamp HR1 on the coil of relay K M1, on the coil of relay K 5, fault in parallel refers to Show lamp HR2, facilitate operator to identify the duty of hydraulic pump；It addition, the normally opened contact of relay K 2 K2-2 is in automatic control mode for feedback hydraulic pump；The normally opened contact K4-1 of relay K 4 is used for feeding back Hydraulic pump is kept in motion；The normally opened contact K5-1 of relay K 5 is in fault shape for feedback hydraulic pump State.

As shown in Figure 4 and Figure 5, for another embodiment of the invention, can install on multiple hoppers Multiple block clearings are harrowed, it is achieved the effect of rapid block-cleaning.

The present invention utilizes Aulomatizeted Detect and control system to reach the effect of intelligence cleaning hopper blocking, and system is tied The features such as structure is simple, and cost of investment is low, uses device structure ripe, simple to operate, reliable, have Preferably economy.

Claims (5)

1. a dreg hopper automatization hydraulic pressure blockage-clearing device, it is characterised in that include block clearing rake, hydraulic pressure Pump and control circuit etc.；Described block clearing rake include transmission tube (1), block clearing blade (2), hydraulic stem (3), Hydraulic cylinder (4), retainer (5), fracture signal detection are popped one's head in；Described transmission tube (1) is if going up parallel installation Dry block clearing blade (2)；The bottom of described transmission tube (1) is set on retainer (5), makes transmission tube (1) Inclined-plane along hopper (6) moves up and down；The upper end of described transmission tube (1) is connected with hydraulic stem (3)；Institute State hydraulic cylinder (4) to be connected with hydraulic pump；Described hydraulic pump and fracture signal detection probe all with control circuit phase Even.

Dreg the most according to claim 1 hopper automatization hydraulic pressure blockage-clearing device, it is characterised in that institute State control circuit and include thermorelay FR1, circuit breaker Q F1-QF2, single-pole double-throw switch (SPDT) SW1, relay K1-K6, auxiliary reclay KM1, shutdown switch SB1, activate switch SB2, PLC；Described hydraulic pump, The heater element of thermorelay FR1, the normally opened contact KM1-1 of auxiliary reclay KM1 and circuit breaker Q F1 Three-phase alternating current is accessed after being sequentially connected in series；Described circuit breaker Q F2 is connected with live wire and zero line respectively, as control Power supply processed；The input of single-pole double-throw switch (SPDT) SW1 is connected with the live wire controlling power supply, single-pole double-throw switch (SPDT) SW1 The first outfan, shutdown switch SB1, activate switch SB2, the normally-closed contact K5-1 of relay K 5, The normally-closed contact K2-1 of relay K 2 and the coil of relay K 1 are sequentially connected in series the zero of rear Access Control power supply Line；The normally opened contact K1-1 of relay K 1 in parallel in described activate switch SB2；Single-pole double-throw switch (SPDT) SW1 The second outfan and relay K 2 coils connected in series after the zero line of Access Control power supply；Single-pole double-throw switch (SPDT) Second outfan of SW1, PLC, the coil of relay K 3 are sequentially connected in series the zero line of rear Access Control power supply； The normally opened contact K1-2 of relay K 1, the normally opened contact K6-1 and auxiliary reclay KM1 of relay K 6 Coil be sequentially connected in series rear two ends and be respectively connected to control the live wire of power supply and zero line；The normally opened contact of relay K 3 K3-1 is in parallel with the normally opened contact K1-2 of relay K 1；The normally opened contact KM1-2 of auxiliary reclay KM1 It is respectively connected to control live wire and the zero line of power supply with two ends after the coils connected in series of relay K 4；Thermorelay FR1 Moving together contact FR1-1 and relay K 5 coils connected in series after two ends be respectively connected to control the live wire and zero of power supply Line；After the break contact FR1-2 of thermorelay FR1 and the coils connected in series of relay K 6, two ends are respectively connected to Control live wire and the zero line of power supply；Between signal output part and the signal input part of described PLC, parallel connection continues respectively The normally opened of the normally opened contact K2-2 of electrical equipment K2, the normally opened contact K4-1 of relay K 4 and relay K 5 touches Point K5-1；Described fracture signal detection probe is connected with PLC.

Dreg the most according to claim 1 hopper automatization hydraulic pressure blockage-clearing device, it is characterised in that institute Stating shutdown switch SB1 is dynamic circuit breaker switch；Described activate switch SB2 is dynamic circuit connector switch.

Dreg the most according to claim 2 hopper automatization hydraulic pressure blockage-clearing device, it is characterised in that institute State control circuit and also include transformer, voltmeter PV, ammeter PA；Described circuit breaker Q F3 respectively with fire Line is connected with zero line, and as instrument power, instrument power is voltmeter PV and ammeter PA；Described mutual inductance Device is connected with ammeter PA, with wherein live wire mutual inductance, detects the electricity on this live wire by ammeter PA Stream；The two ends of described voltmeter PV are connected with two other live wire respectively, the electricity between detection two live wires Pressure.

Dreg the most according to claim 2 hopper automatization hydraulic pressure blockage-clearing device, it is characterised in that institute State control circuit and also include run indicator HR1 and malfunction indicator lamp HR2；Described run indicator HR1 Coils from parallel connection of coils with auxiliary reclay KM1；Described malfunction indicator lamp HR2 and the coils from parallel connection of coils of relay K 5.