CN204354310U - The all-hydraulic concrete automatic charging of boom type stirs work feed material integrated system - Google Patents

Abstract

The utility model discloses the all-hydraulic concrete automatic charging of a kind of boom type and stirs work feed material integrated system, stirs and concrete conveyance mode construction quality is poor, costly design mainly for existing concrete.The all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system, comprise automobile chassis, the frame be arranged on described automobile chassis, feeding device, agitating device, pumping installations, boom device, cleaning device and the electric cabinet be separately positioned in described frame, wherein said feeding device feeding is to described agitating device, described agitating device feeding is to described pumping installations, described pumping installations feeding, to described boom device, carries out concrete distributing by described boom device.The functions such as automatic charging, continuously action of forced stirring, pumping, cloth are integrated by the utility model, and automaticity is high, and complete machine is contained on automobile chassis, mobile flexible, and reasonable in design, easy to maintenance, cost is low.

Description

The all-hydraulic concrete automatic charging of boom type stirs work feed material integrated system

Technical field

The utility model relates to the all-hydraulic concrete automatic charging of a kind of boom type and stirs work feed material integrated system.

Background technology

At present, in cities and towns, rural area and the occasion such as field work and water conservancy construction be when carrying out concrete-agitating and concrete conveyance, mainly contain following three kinds of forms of construction work: one is pass through artificial loading, utilize rotary mixer or forced stirrer ready-mixed concrete, recycling crane is by the concrete hoisting that the is stirred position to needs; Two is by artificial loading, utilizes rotary mixer or forced stirrer ready-mixed concrete, and recycling concrete pump is by the concrete conveyance that the is stirred position to needs; Three is commerical ready-mixed concrete trucd mixer is delivered to job site carry out concrete-agitating, and recycling arm support pump truck is by the concrete conveyance that the is stirred position to needs.

The shortcoming that above-mentioned three kinds of forms of construction work exist is: wherein the personnel of first kind of way needs are many, and floor space is large, and efficiency is low, and concrete construction quality is poor, and labour intensity is large, and costly, and need the place of electricity, equipment moving is inconvenient, and freight is high; The equipment that the second way needs is many, and energy consumption is large, and floor space is large, need artificial cloth pipeline, labour intensity is large, and expend time in length, efficiency is low, costly, inconvenient operation, maintenance is complicated, also the place of electricity is needed, equipment moving is very inconvenient, and freight is high, is not suitable for narrow space, field work and the place without electricity; The place that the inapplicable field work of the third mode, rural area are narrow and amount of concrete need few place, and expense is large, and cost is high.

Utility model content

For the problems referred to above, the utility model provides the all-hydraulic concrete automatic charging of a kind of boom type rational in infrastructure, that automaticity is high, construction quality is high to stir work feed material integrated system.

For achieving the above object, the all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system, comprise automobile chassis, described automobile chassis is provided with transfer case and frame, described frame is respectively arranged with fuel tank, electric cabinet, feeding device, agitating device, pumping installations, boom device and cleaning device, wherein

Described feeding device comprises the hoist engine that elevating hopper, elevating hopper slide rail and described elevating hopper are connected by steel wire rope, and described hoist engine drives with hoist engine motor and is connected; Described electric cabinet controls described hoist engine motor, and described hoist engine motor drives described hoist engine, and described hoist engine drives described elevating hopper to move on described elevating hopper slide rail by described steel wire rope, and described elevating hopper feeding is to described agitating device;

Described agitating device comprises Double-horizontal-shaft action of forced stirring cylinder, be arranged on Double-horizontal-shaft action of forced stirring mechanism in described Double-horizontal-shaft action of forced stirring cylinder and the mechanism that adds water, the bottom of wherein said Double-horizontal-shaft action of forced stirring cylinder is provided with Dump gate, described Dump gate is provided with Dump gate oil cylinder, described Dump gate oil cylinder is connected with described Dump gate by Dump gate oil cylinder bearing pin I, and described Dump gate oil cylinder is connected with described Double-horizontal-shaft action of forced stirring cylinder by Dump gate oil cylinder bearing pin II; Described Double-horizontal-shaft action of forced stirring mechanism comprises two action of forced stirring axles be arranged in parallel, described action of forced stirring axle is by reduction box and action of forced stirring motors, wherein each described action of forced stirring axle is arranged at intervals with some fixed hubs, described fixed hub is fixedly connected with action of forced stirring arm, described action of forced stirring arm is fixedly connected with action of forced stirring blade; The make-up water pump that the described mechanism that adds water comprises the sparge pipe being arranged on described Double-horizontal-shaft action of forced stirring cylinder opening part, described sparge pipe connects and the make-up water pump motor driving described make-up water pump; Described electric cabinet controls described action of forced stirring motor and described make-up water pump motor, described make-up water pump motor drives described make-up water pump to be added water in described Double-horizontal-shaft action of forced stirring cylinder by described sparge pipe, described action of forced stirring motor drives described action of forced stirring axle to carry out concrete and once stirs, and the Dump gate of described Double-horizontal-shaft action of forced stirring cylinder is by discharge port feeding extremely described pumping installations;

Described pumping installations comprises concrete pumping mechanism in pumping hopper described in pumping hopper and pumping, wherein said pumping hopper is connected by the Dump gate of described discharge port with described Double-horizontal-shaft action of forced stirring cylinder, be provided with hopper shaft in described pumping hopper, described hopper shaft is connected with hopper stirring motor; Described pumping mechanism comprises fishing box, is arranged on two concrete cylinders be arranged in parallel of described fishing box front end and is arranged on two master cylinders be arranged in parallel of described fishing box rear end, described master cylinder and described concrete cylinder one_to_one corresponding, wherein said concrete cylinder is connected with described pumping hopper, is provided with the piston matched with described concrete cylinder in described concrete cylinder; Also be provided with S shape valve in described pumping hopper, one end of described S shape valve is connected with described concrete cylinder, and the other end of described S shape valve is connected with the discharging opening of described pumping hopper; Described control cabinet controls described hopper stirring motor, and described hopper stirring motor drives described hopper shaft to carry out study of concrete secondary mixing, and the discharging opening of described pumping hopper is by pump line feeding extremely described boom device;

Described boom device comprises the revolving support mechanism be arranged in described frame and the beam mechanism be arranged in described revolving support mechanism, wherein said revolving support mechanism comprises pivoting support seat, arrange pivoting support on described pivoting support seat and rotary reducer motor, and described rotary reducer motor is connected with described pivoting support by gear; The first segment arm that described beam mechanism comprises the jib seat be arranged on described pivoting support, described jib seat connects successively, second section arm, Section of three arm and Section of four arm, described first segment arm, second section arm, Section of three arm and Section of four arm are provided with jib pipe, and described jib pipe is connected by the discharging opening of described pump line with described pumping hopper; Described electric cabinet controls described rotary reducer motor and carries out concrete distributing;

Described cleaning device comprises scavenging pump and described scavenging pump drives the scavenging pump motor connected, and described electric cabinet controls described scavenging pump motor, and described scavenging pump motor drives described scavenging pump to carry out cleaning systems.

Further, be connected by the first boom pin between described jib seat with described first segment arm, be connected by the second boom pin between described first segment arm with described second section arm, be connected by the 3rd boom pin between described second section arm with described Section of three arm, be connected by the 4th boom pin between described Section of three arm with described Section of four arm; Described beam mechanism also comprises first segment arm oil cylinder, second section arm oil cylinder, Section of three arm oil cylinder and Section of four arm oil cylinder, one end of wherein said first segment arm oil cylinder is connected with described jib seat by first segment arm oil cylinder bearing pin I, and the other end of described first segment arm oil cylinder is connected with described first segment arm by first segment arm oil cylinder bearing pin II; One end of described second section arm oil cylinder is connected with described first segment arm by second section arm oil cylinder bearing pin I, and the other end of described second section arm oil cylinder is connected with described second section arm by second section arm oil cylinder bearing pin II; One end of described Section of three arm oil cylinder is connected with described second section arm by Section of three arm oil cylinder bearing pin I, and the other end of described Section of three arm oil cylinder is connected with described Section of three arm by Section of three arm oil cylinder bearing pin II; One end of described Section of four arm oil cylinder is connected with described Section of three arm by Section of four arm oil cylinder bearing pin I, and the other end of described Section of four arm oil cylinder is connected with described Section of four arm by Section of four arm oil cylinder bearing pin II.

Further, also comprise four automobile chassis bracing or strutting arrangements for supporting described automobile chassis, described automobile chassis bracing or strutting arrangement comprises the fixing square tube be arranged in described frame, the telescopic square tube be arranged in described fixing square tube, be arranged on telescopic square tube oil cylinder in described telescopic square tube and support oil cylinder, one end of wherein said telescopic square tube oil cylinder is connected with described fixing square tube by telescopic square tube oil cylinder bearing pin I, and the other end of described telescopic square tube oil cylinder is connected with telescopic square tube by telescopic square tube oil cylinder bearing pin II; Described support oil cylinder is arranged on the end of the described telescopic square tube stretched out outside described fixing square tube.

Further, described automobile chassis is also provided with transfer case, described transfer case is connected with arm-pump with plunger displacement pump I, plunger displacement pump II, gear pump I, gear pump II, gear pump III, gear pump IV respectively, and wherein said plunger displacement pump I, plunger displacement pump II, gear pump I, gear pump II, gear pump III, gear pump IV are connected with fuel tank respectively by oil absorption filter with arm-pump.

Further, described plunger displacement pump I is connected with pumping electro-hydraulic reversing valve by pipeline I, and described pumping electro-hydraulic reversing valve is connected with pilot operated directional control valve B with pilot operated directional control valve A respectively; Described pilot operated directional control valve A is connected with tilt cylinder B with tilt cylinder A respectively, and described tilt cylinder A is connected with the right-hand member of pilot operated directional control valve B by the 4th oil circuit control, and described tilt cylinder B is connected with the left end of described pilot operated directional control valve B by the 3rd oil circuit control; Described pilot operated directional control valve B is connected with master cylinder B with master cylinder A respectively, described master cylinder A is provided with hydraulic control one-way valve A, described hydraulic control one-way valve A is connected with the left end of described pilot operated directional control valve A by the second oil circuit control, described master cylinder B is provided with hydraulic control one-way valve B, and described hydraulic control one-way valve B is connected with the right-hand member of described pilot operated directional control valve A by the first oil circuit control; Described pumping electro-hydraulic reversing valve is connected with cooler respectively with overflow valve I, and described cooler is connected with described fuel tank by return filter.

Further, described plunger displacement pump II is connected with action of forced stirring solenoid directional control valve by pipeline II, described action of forced stirring solenoid directional control valve and described action of forced stirring motors, described action of forced stirring solenoid directional control valve is connected with cooler respectively with overflow valve II, and described cooler is connected with described fuel tank by return filter.

Further, the all-hydraulic concrete automatic charging of described boom type stirs work feed material integrated system, it is characterized in that: described gear pump I is connected with material loading solenoid directional control valve by pipeline III, described material loading solenoid directional control valve and described hoist engine motors, described material loading solenoid directional control valve is connected with cooler respectively with overflow valve III, and described cooler is connected with described fuel tank by return filter; Described gear pump II is connected with Dump gate solenoid directional control valve by pipeline IV, described Dump gate solenoid directional control valve is connected with described Dump gate oil cylinder, described Dump gate solenoid directional control valve is connected with cooler respectively with overflow valve IV, and described cooler is connected with described fuel tank by return filter.

Further, described gear pump III is connected with make-up water pump solenoid directional control valve by pipeline V, described make-up water pump solenoid directional control valve and described make-up water pump motors, described make-up water pump solenoid directional control valve is connected with cooler respectively with overflow valve V, and described cooler is connected with described fuel tank by return filter.

Further, described gear pump IV is connected with Multi-way valve with support leg by pipeline VI, and described Multi-way valve with support leg is connected with support oil cylinder, and described support oil cylinder is connected with telescopic square tube oil cylinder; Described Multi-way valve with support leg passes through pipeline VIII respectively with hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve, hopper stirs solenoid directional control valve, scavenging pump solenoid directional control valve is connected, described hopper stirs solenoid directional control valve and is connected with described hopper stirring motor, described scavenging pump solenoid directional control valve and described scavenging pump motors, described Multi-way valve with support leg, described hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve, described hopper stirring magnetic valve reversal valve, described scavenging pump solenoid directional control valve, overflow valve VI are connected with described fuel tank respectively with overflow valve VII.

Further, described arm-pump is connected with negative responsive jib banked direction control valves by pipeline VII, described pipeline VII is provided with high pressure filter, described negative responsive jib banked direction control valves is connected with Section of four arm oil cylinder with rotary reducer motor, first segment arm oil cylinder, second section arm oil cylinder, Section of three arm oil cylinder respectively, and described negative responsive jib banked direction control valves is connected with described fuel tank.

The beneficial effect that the all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system is:

1, complete equipment is arranged on self-control chassis by the utility model, utilizes the motor driven on chassis, all-hydraulic transmission, without the need to external power supply.

2, sand, stone, cement etc. can prepare by the ratio of national standard requirement by the utility model, automatically the while of being sent to by the concrete drier mixed in Double-horizontal-shaft action of forced stirring cylinder by feeding device, automatic watering carries out quick action of forced stirring, and automatically the concrete be stirred is transported in pumping hopper by discharge port, pumping mechanism again by concrete conveyance in pump line, drive jib pipe concrete to be arranged in the position of specifying by rotation, ascending, descending by beam mechanism.

3, the functions such as automatic charging, continuously action of forced stirring, pumping, cloth are integrated by the utility model, and automaticity is high, and complete machine is contained on automobile chassis, mobile flexible, reasonable in design, easy to maintenance;

4, the utility model achieves automatic charging, continuously action of forced stirring, pumping, cloth package integral, and substantially increase concrete performance, construction quality is good, and efficiency is high, reduces labour intensity, improves production efficiency, reduces cost.

Accompanying drawing explanation

Fig. 1 is the original state structural representation that the all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system;

Fig. 2 is the top view that the all-hydraulic concrete automatic charging of the utility model boom type stirs Fig. 1 of work feed material integrated system;

Fig. 3 is that the all-hydraulic concrete automatic charging of the utility model boom type stirs the A-A of the first pumping work state of work feed material integrated system to schematic diagram;

Fig. 4 is that the all-hydraulic concrete automatic charging of the utility model boom type stirs the A-A of the second pumping work state of work feed material integrated system to schematic diagram;

Fig. 5 is that the all-hydraulic concrete automatic charging of the utility model boom type stirs the F-F of the pumping hopper of work feed material integrated system to schematic diagram;

Fig. 6 is that the all-hydraulic concrete automatic charging of the utility model boom type stirs the D-D of the automobile chassis bracing or strutting arrangement of work feed material integrated system to schematic diagram;

Fig. 7 is that the all-hydraulic concrete automatic charging of the utility model boom type stirs the C-C of the mixing drum of work feed material integrated system to schematic diagram;

Fig. 8 is that the all-hydraulic concrete automatic charging of the utility model boom type stirs the B-B of the mixing drum of work feed material integrated system to sectional view;

Fig. 9 is the boom device expansion schematic diagram that the all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system;

Figure 10 is the hydraulic schematic diagram that the all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system;

Figure 11 is the electrical schematic diagram that the all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system.

Detailed description of the invention

In the utility model accompanying drawing 1-11, each mark is as follows:

1 is frame, 2 is telescopic square tube (comprising 4), 3 is automobile chassis, 4 is fixing square tube (comprising 4), 5 is Section of four arm oil cylinder bearing pin I, 6 is Section of four arm, 7 is Section of four arm oil cylinder, 8 is Section of four arm oil cylinder pin shaft II, 9 is Section of three arm, 10 is the 4th boom pin, 11 is second section arm, 12 is the second boom pin, 13 is first segment arm, 14 is second section arm oil cylinder bearing pin II, 15 is second section arm oil cylinder, 16 is second section arm oil cylinder bearing pin I, 17 is fuel tank, 18 is Section of three arm oil cylinder bearing pin I, 19 is Section of three arm oil cylinder, 20 is pivoting support seat, 21 is the 3rd boom pin, 22 is Section of three arm oil cylinder pin shaft II, 23 is pivoting support, 24 is first segment arm oil cylinder bearing pin II, 25 is first segment arm oil cylinder, 26 is first segment arm oil cylinder bearing pin I, 27 is the first boom pin, 28 is jib seat, 29 is gear, 30 is rotary reducer motor, 31 is hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve, 32 is hopper stirring solenoid directional control valve, 33 is action of forced stirring motor, 34 is reduction box, 35 is scavenging pump solenoid directional control valve, 36 is make-up water pump motor, 37 is make-up water pump, 38 is sparge pipe, 39 is Double-horizontal-shaft action of forced stirring cylinder, 40 is pulley, 41 is hoist engine motor, 42 is hoist engine, 43 is steel wire rope, 44 is elevating hopper slide rail, 45 is elevating hopper, 46 is Dump gate, 47 is Dump gate oil cylinder bearing pin I, 48 is discharge port, 49 is Dump gate oil cylinder, 50 is Dump gate oil cylinder pin shaft II, 51 is pump line, 52 is discharging opening, 53 is hopper stirring motor, 54 is pumping hopper, 55 (comprise two tilt cylinder 55A for tilt cylinder, 55B), 56 (comprise two concrete cylinder 56A for concrete cylinder, 56B), 57 is support oil cylinder (comprising 4), 58 is fishing box, 59 (comprise two master cylinder 59A for master cylinder, 59B), 60 is make-up water pump solenoid directional control valve, 61 is Dump gate solenoid directional control valve, 62 is material loading solenoid directional control valve, 63 is action of forced stirring solenoid directional control valve, 64 is pumping electro-hydraulic reversing valve, 65 is supporting leg multiple directional control valve, 66 is gear IV, 67 is gear pump III, 68 is gear pump II, 69 is gear pump I, 70 is plunger displacement pump II, 71 is plunger displacement pump I, 72 is transfer case change-over switch, 73 is transfer case, 74 (comprise two pilot operated directional control valve 74A for pilot operated directional control valve, 74B), 75 is arm-pump, 76 is negative responsive jib banked direction control valves, 77 is jib pipe, 78 is electric cabinet, 79 is scavenging pump motor, 80 is scavenging pump, 81 is S shape valve, 82 (comprise two concrete cylinder piston 82A for concrete cylinder piston, 82B), 83 is action of forced stirring arm, 84 (comprise two action of forced stirring axle 84A for action of forced stirring axle, 84B), 85 is action of forced stirring blade, 86 is telescopic square tube oil cylinder bearing pin I, 87 is telescopic square tube oil cylinder (comprising 4), 88 is telescopic square tube oil cylinder pin shaft II, 89 is hopper shaft, 90 (comprise two hydraulic control one-way valve 90A for hydraulic control one-way valve, 90B), 91 is return filter, 92 is oil absorption filter, 93 is cooler, 94 is overflow valve I, 95 is overflow valve II, 96 is the valve III that overflows, 97 is overflow valve IV, 98 is overflow valve V, 99 is overflow valve VI, 100 is overflow valve VII, 101 is Pressure gauge I, 102 is Pressure gauge II, 103 is Pressure gauge III, 104 is Pressure gauge IV, 105 is Pressure gauge V, 106 is Pressure gauge VI, 107 is Pressure gauge VII, 108 is Pressure gauge VIII, 109 is Pressure gauge Ⅸ, 110 is pipeline I, 111 is pipeline II, 112 is pipeline III, 113 is pipeline IV, 114 is pipeline V, 115 is pipeline VI, 116 is pipeline VII, 117 is pipeline VIII, 118 is high pressure filter, 119 is travel switch, 120 is anti-pump button, 121 is pumping stop button, 122 is pumping button, 123 is action of forced stirring invert button, 124 is action of forced stirring stop button, 125 is action of forced stirring rotating forward button, 126 is material loading return push-button, 127 is material loading stop button, 128 is material loading button, 129 is Dump gate X button, 130 is Dump gate stop button, 131 release the button for Dump gate, 132 to add water button for make-up water pump, 133 is make-up water pump stop button, 134 rotate forward button for stock bucket stirs, 135 is the stirring of pumping hopper and scavenging pump stop button, 136 is scavenging pump position, 137 is pumping hopper stirring invert button, 138 is scavenging pump button, 139 is 24 overhead accumulators, X1, X2, X3, X4 is respectively the first oil circuit control, second oil circuit control, 3rd oil circuit control, 4th oil circuit control, KA1, KA2, KA3, KA4, KA5, KA6, KA7, KA8, KA9, KA10, KA11, KA12, KA13 is respectively coil, 1DT, 2DT, 3DT, 4DT, 5DT, 6DT, 7DT, 8DT, 9DT, 10DT, 11DT, 12DT, 13DT is respectively electromagnet, FU is fuse.

As shown in Figure 1-2, the all-hydraulic concrete automatic charging of the utility model boom type stirs work feed material integrated system, automobile chassis 3 is provided with frame 1 and transfer case 73, described frame 1 is respectively arranged with fuel tank 17, electric cabinet 78, scavenging pump 80, four fixing square tubes 4, pivoting support seat 20, fishing box 58, pumping hopper 54, Double-horizontal-shaft action of forced stirring cylinder 39, negative responsive jib banked direction control valves 76, pilot operated directional control valve 74A and 74B, pumping electro-hydraulic reversing valve 64, action of forced stirring solenoid directional control valve 63, material loading solenoid directional control valve 62, Dump gate solenoid directional control valve 61, make-up water pump solenoid directional control valve 60, hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve 31, hopper stirs solenoid directional control valve 32, scavenging pump solenoid directional control valve 35, supporting leg multiple directional control valve 65.Wherein transfer case 73 is connected with plunger displacement pump I71, plunger displacement pump II 70, gear pump I69, gear pump II 68, gear pump III 67, gear pump IV 66, arm-pump 75 successively, and transfer case 73 is also provided with transfer case change-over switch 72.

As shown in Figure 3-4, described fishing box 58 is provided with master cylinder 59 and concrete cylinder 56, on fishing box 58, front end is provided with two concrete cylinders 56A, 56B, the other end of concrete cylinder 56A, 56B is all connected with pumping hopper 54, on fishing box 58, rear end is provided with two master cylinders 59A, 59B, two master cylinder 59A, 59B front ends are provided with two concrete cylinder pistons 82A, 82B, and concrete cylinder piston 82A, 82B match with concrete cylinder 56A, 56B respectively.As shown in Figure 5, hopper shaft 89 is provided with in pumping hopper 54, one end of hopper shaft 89 is connected with hopper stirring motor 53, is provided with one end and is connected with the discharging opening 52 of pumping hopper 54 in pumping hopper 54, the S shape valve 81 that the other end is connected with concrete cylinder 56.S shape valve 81 is provided with one end and S shape valve 81 is hinged, the tilt cylinder 55 that the other end and pumping hopper 54 are hinged.The discharging opening 52 of described pumping hopper 54 is connected with pump line 51, and described pump line 51 is connected with jib pipe 77.

As shown in Figure 6, a telescopic square tube 2 is respectively provided with in described four fixing square tubes 4, the telescopic square tube oil cylinder 87 be connected by telescopic square tube oil cylinder pin shaft II 88 with described telescopic square tube 2 is provided with in telescopic square tube 2, the other end of telescopic square tube oil cylinder 87 is connected with fixing square tube 4 by telescopic square tube oil cylinder bearing pin I86, is provided with support oil cylinder 57 in one end of telescopic square tube 2.

As Figure 7-8, two action of forced stirring axles 84A, 84B are provided with in described Double-horizontal-shaft action of forced stirring cylinder 39, action of forced stirring axle 84A, 84B are respectively arranged with 7 action of forced stirring arms 83, each action of forced stirring arm 83 is provided with 1 action of forced stirring blade 85, one end of two action of forced stirring axles 84A, 84B is provided with reduction box 34, reduction box 34 is provided with action of forced stirring motor 33.The side of cylinder 39 is forced to be provided with elevating hopper slide rail 44 at Double-horizontal-shaft, elevating hopper slide rail 44 is provided with the elevating hopper 45 that can move up and down, one end of connecting steel wire ropes 43 bottom elevating hopper 45, the pulley 40 that the other end of steel wire rope 43 is arranged by elevating hopper slide rail 44 top is connected with the hoist engine 42 being arranged on Double-horizontal-shaft action of forced stirring cylinder 39 top, one end of hoist engine 42 is provided with hoist engine motor 41, opening part on Double-horizontal-shaft action of forced stirring cylinder 39 is provided with sparge pipe 38, sparge pipe 38 is connected with make-up water pump 37, make-up water pump 37 is connected with make-up water pump motor 36.Bottom Double-horizontal-shaft action of forced stirring cylinder 39, be provided with Dump gate 46, Dump gate 46 is connected with Dump gate oil cylinder 49 by Dump gate oil cylinder bearing pin I47, and the other end of Dump gate oil cylinder 49 is connected with Double-horizontal-shaft action of forced stirring cylinder 39 by Dump gate oil cylinder pin shaft II 50.

As shown in Figure 9, described pivoting support seat 20 is provided with pivoting support 23 and rotary reducer motor 30, rotary reducer motor 30 is provided with gear 29, rotary reducer motor 30 is connected with pivoting support 23 by gear 29, and pivoting support 23 is provided with jib seat 28.Jib seat 28 is connected with one end of first segment arm 13 by the first boom pin 27, the other end of first segment arm 13 is connected with one end of second section arm 11 by the second boom pin 12, the other end of second section arm 11 is connected by the 3rd boom pin 21 one end with Section of three arm 9, and the other end of Section of three arm 9 is connected by the 4th boom pin 10 one end with Section of four arm 6.Jib seat 28 is connected with one end of first segment arm oil cylinder 25 by first segment arm oil cylinder bearing pin I26, and the other end of first segment arm oil cylinder 25 is connected with first segment arm 13 by first segment arm oil cylinder bearing pin II24.First segment arm 13 is connected with one end of second section arm oil cylinder 15 by second section arm oil cylinder bearing pin I16, and the other end of second section arm oil cylinder 15 is connected with second section arm 11 by second section arm oil cylinder bearing pin II14.Second section arm 11 is connected with one end of Section of three arm oil cylinder 19 by Section of three arm oil cylinder bearing pin I18, and the other end of Section of three arm oil cylinder 19 is connected with Section of three arm 9 by Section of three arm oil cylinder pin shaft II 22.Section of three arm 9 is connected with Section of four arm oil cylinder 7 by Section of four arm oil cylinder bearing pin I5, and the other end of Section of four arm oil cylinder 7 is connected with Section of four arm 6 by Section of four arm oil cylinder pin shaft II 8.First segment arm 13, second section arm 11, Section of three arm 9, Section of four arm 6 side are provided with jib pipe 77, and described jib pipe 77 is connected with pump line 51.

As shown in Figure 10, described transfer case 73 is connected with plunger displacement pump I71, plunger displacement pump II 70, gear pump I69, gear pump II 68, gear pump III 67, gear pump IV 66, arm-pump 75 successively, and wherein plunger displacement pump I71, plunger displacement pump II 70, gear pump I69, gear pump II 68, gear pump III 67, gear pump IV 66 are connected with fuel tank 17 respectively by oil absorption filter 92 with arm-pump 75.

Described plunger displacement pump I71 is connected with pumping electro-hydraulic reversing valve 64, pilot operated directional control valve 74A, pilot operated directional control valve 74B by pipeline I110, pilot operated directional control valve 74A is connected with tilt cylinder 55A, 55B, tilt cylinder 55A is connected with the right-hand member of pilot operated directional control valve 74B by the 4th oil circuit control X4, and tilt cylinder 55B is connected with the left end of pilot operated directional control valve 74B by the 3rd oil circuit control X3.Pilot operated directional control valve 74B is connected with master cylinder 59A, 59B, master cylinder 59A be provided with hydraulic control unit valve 90A and be connected with the left end of pilot operated directional control valve 74A by the second oil circuit control X2, master cylinder 59B be provided with hydraulic control unit valve 90B and be connected with the right-hand member of pilot operated directional control valve 74A by the first oil circuit control X1.Wherein pumping electro-hydraulic reversing valve 64 is connected with fuel tank 17 by cooler 93, return filter 91 successively with the oil return of overflow valve I94.

Plunger displacement pump II 70 is connected with action of forced stirring solenoid directional control valve 63 by pipeline II 111, action of forced stirring solenoid directional control valve 63 is connected with action of forced stirring motor 33, and wherein action of forced stirring solenoid directional control valve 63 is connected with fuel tank 17 by cooler 93, return filter 91 successively with the oil return of overflow valve II 95.

Gear pump I69 is connected with material loading solenoid directional control valve 62 by pipeline III 112, material loading solenoid directional control valve 62 is connected with hoist engine motor 41, and wherein material loading solenoid directional control valve 62 is connected with fuel tank 17 by cooler 93, return filter 91 successively with the oil return of overflow valve III 96.

Gear pump II 68 is connected with Dump gate electromagnetic switch 61 by pipeline IV 113, Dump gate solenoid directional control valve 61 is connected with Dump gate oil cylinder 49, and wherein Dump gate solenoid directional control valve 61 is connected with fuel tank 17 by cooler 93, return filter 91 successively with the oil return of overflow valve IV 97.

Gear pump III 67 is connected with make-up water pump solenoid directional control valve 60 by pipeline V 114, make-up water pump solenoid directional control valve 60 is connected with make-up water pump motor 36, and wherein make-up water pump solenoid directional control valve 60 is connected with fuel tank 17 by cooler 93, return filter 91 successively with the oil return of overflow valve V 98.

Gear pump IV 66 is connected with Multi-way valve with support leg 65 by pipeline VI 115, Multi-way valve with support leg 65 and four support oil cylinders 57, four telescopic square tube oil cylinders 87 are connected respectively, Multi-way valve with support leg 65 passes through pipeline VIII 117 successively with hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve 31, hopper stirs solenoid directional control valve 32, scavenging pump solenoid directional control valve 35 is connected, hopper stirs solenoid directional control valve 32 and is connected with pumping hopper stirring motor 53, and scavenging pump solenoid directional control valve 35 is connected with scavenging pump motor 79.Wherein the oil return of Multi-way valve with support leg 65, hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve 31, hopper stirring magnetic valve reversal valve 32, scavenging pump solenoid directional control valve 35, overflow valve VI 99, overflow valve VII 100 is connected with fuel tank 17 respectively.

Arm-pump 75 is connected with high pressure filter 118, negative responsive jib banked direction control valves 76 successively by pipeline VII 116, negative responsive jib banked direction control valves 76 is connected with rotary reducer motor 30, first segment arm oil cylinder 25, second section arm oil cylinder Section of 15, three arm oil cylinder 19, Section of four arm oil cylinder 7 respectively, and wherein the oil return of negative responsive jib banked direction control valves 76 is connected with fuel tank 17.

Below with reference to the accompanying drawings the course of work of the present utility model is described further:

As shown in figs. 1-11, first start automobile engine, transfer case change-over switch 72 is pulled traveling-position, the utility model is reached the position of needs, again transfer case change-over switch 72 is pulled pumping work position, at this moment transfer case 73 actuation plunger pump I71 respectively, plunger displacement pump II 70, gear pump I69, gear pump II 68, gear pump III 67, gear pump IV 66, arm-pump 75 fuel feeding.Now operate supporting leg multiple directional control valve 65, the hydraulic oil of gear pump IV 66 confession is made to drive four telescopic square tube oil cylinders 87 overhanging with four telescopic square tube 2 levels by pipeline VI 115, and drive four support oil cylinders 57 to stretch out simultaneously, according to surface state by automobile chassis 3 jack-up, complete machine weight is born by four support oil cylinders 57.

The negative responsive jib banked direction control valves 76 of operation, make the hydraulic oil of arm-pump 75 confession drive rotary reducer motor 30, first segment arm oil cylinder 25, second section arm oil cylinder Section of 15, three arm oil cylinder 19 and Section of four arm oil cylinder 7 respectively by pipeline VII 116, high pressure filter 118, make jib seat 28, first segment arm 13, second section arm 11, Section of three arm 9, Section of four arm 6 drive that jib pipe 77 rotates, ascending, descending is to the position (as shown in Figure 9) needed.

Now pour concrete drier into elevating hopper 45, press material loading button 128, 6DT is energized, material loading solenoid directional control valve 62 is the next, the hydraulic oil of gear pump I69 confession is made to drive hoist engine motor 41 to rotate by III 112, hoist engine motor 41 drives hoist engine 42 to rotate, elevating hopper 45 is driven to rise along elevating hopper slide rail 44 by steel wire rope 43 through pulley 40, after contacting travel switch 119, material loading solenoid directional control valve 62 meta, elevating hopper 45 stops, automatically concrete drier is poured in dual horizontal action of forced stirring cylinder 39, by material loading return push-button 126, 5DT is energized, material loading solenoid directional control valve 62 is upper, hoist engine motor 41 is reversed, hoist engine 42 is driven to reverse, elevating hopper 45 is returned and again fills concrete drier.

Press action of forced stirring and rotate forward button 125,4DT is energized, action of forced stirring solenoid directional control valve 63 is the next, the hydraulic oil of plunger displacement pump II 70 confession is made to drive action of forced stirring motor 33 to rotate by pipeline II 111, action of forced stirring motor 33 drives two action of forced stirring axle 84A and 84B to reversely rotate by reduction box 34, by being fixed on action of forced stirring arm 83 on action of forced stirring axle 84A and 84B and action of forced stirring blade 85 pairs of concrete carry out action of forced stirring.Press make-up water pump to add water button 132 simultaneously, 9DT energising, make-up water pump solenoid directional control valve 60 bottom, make the hydraulic oil of gear pump III 67 confession drive make-up water pump motor 36 to rotate by pipeline V 114, make-up water pump motor 36 is driven make-up water pump 37 to rotate and is added water in Double-horizontal-shaft action of forced stirring cylinder 39 by sparge pipe 38.Because action of forced stirring blade 85 is on action of forced stirring axle 84A and 84B, arrange by certain angle, can to the abundant rapid stirring of concrete, after concrete-agitating is good, by Dump gate release the button 131,8DT energising, Dump gate solenoid directional control valve 61 is the next, make the hydraulic oil of gear pump II 68 confession drive Dump gate oil cylinder 49 by pipeline IV 113, Dump gate 46 opened, the concrete in Double-horizontal-shaft action of forced stirring cylinder 39 is fallen in pumping hopper 54 by discharge port 48.

Press stock bucket simultaneously and stir rotating forward button 134,10DT is energized, the left position of hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve 31, hopper stirs the right position of solenoid directional control valve 32, make the hydraulic oil of gear pump IV 66 confession by pipeline VI 115, Multi-way valve with support leg 65, pipeline VIII 117 driving pump feeding funnel stirring motor 53 rotate, and pumping hopper stirring motor 53 drives hopper shaft 89 to rotate, and carry out secondary agitation to falling into pumping hopper 54 inner concrete.

Press pumping button 122 simultaneously, 2DT is energized, pumping electro-hydraulic reversing valve 64 is the next, make the hydraulic oil of plunger displacement pump I71 confession by pipeline I110, pilot operated directional control valve 74B acts on master cylinder 59A, promote concrete cylinder piston 82A to advance, master cylinder 59B drives concrete cylinder piston 82B to retreat simultaneously, the hydraulic oil of plunger displacement pump I71 confession is simultaneously by pipeline I110, liquid controlled reversing 74A acts on tilt cylinder 55, S shape valve 81 is driven to communicate (see Fig. 3 first duty) with concrete cylinder 56A, concrete cylinder 56B communicates with pumping hopper 54, the retrogressing of such concrete piston 82B, just the concrete material in pumping hopper 54 is sucked concrete cylinder 56B, concrete piston 82A advances, concrete material in concrete cylinder 56A is sent into S shape valve 81, by discharging opening 52, pump line 51, jib pipe 77 pumps.

Then next circulation (see Fig. 4 second duty) is entered into, when concrete piston 82A proceeds to stroke terminal, respectively by the first oil circuit control X1, second oil circuit control X2, 3rd oil circuit control X3, 4th oil circuit control X4, pilot operated directional control valve 74A, pilot operated directional control valve 74B automatic reverse, two master cylinder 59A and master cylinder 59B commutate, tilt cylinder 55A and tilt cylinder 55B also commutates simultaneously, S shape valve 81 is communicated with concrete cylinder 56B, concrete cylinder 56A is communicated with pumping hopper 54, at this moment master cylinder 59A drives concrete cylinder piston 82A to retreat, concrete in pumping hopper 54 is sucked concrete 56A, master cylinder 59B promotes concrete cylinder piston 82B advance simultaneously, concrete in concrete cylinder 56B is sent into S shape valve 81, by discharging opening 52, pump line 51, jib pipe 77 pumps.Circulation like this, thus realize concrete drier automatic charging, action of forced stirring, automatic blanking, uninterrupted pumping, automatic distributing.

After end-of-job, by clarified water pump position button 136,11DT is energized, the hopper stirring motor cleaning right position of motor conversion of electromagnetic reversal valve 31, presses scavenging pump button 138,13DT and is energized, the left position of scavenging pump solenoid directional control valve 35, make the hydraulic oil of gear IV 66 confession drive scavenging pump motor 79 to rotate by pipeline VI 115, Multi-way valve with support leg 65, pipeline VIII 117, scavenging pump motor 79 drives scavenging pump 80 to rotate, and cleans car load.

Wherein: the pressure of pipeline I110 is regulated by overflow valve I94 and shown by Pressure gauge I101.

The pressure of pipeline II 111 is regulated by overflow valve II 95 and is shown by Pressure gauge II 102.

The pressure of pipeline III 112 is regulated by overflow valve III 96 and is shown by Pressure gauge III 103.

The pressure of pipeline IV 113 is regulated by overflow valve IV 97 and is shown by Pressure gauge IV 104.

The pressure of pipeline V 114 is regulated by overflow valve V 98 and is shown by Pressure gauge V 105.

The pressure of pipeline VI 115 is regulated by supporting leg multiple directional control valve 65 and is shown by Pressure gauge VI 106.

The pressure of pipeline IV 117 is regulated by overflow valve VI 99 and is shown by Pressure gauge VIII 108.

The pressure of scavenging pump 79 is regulated by overflow valve VII 100 and is shown by Pressure gauge Ⅸ 109.

The pressure of pipeline VII 116 regulates by bearing responsive jib banked direction control valves 76 and is shown by Pressure gauge VII 107.

Above-mentioned circulation goes on again and again, until all buttons are stopped, then the negative responsive jib banked direction control valves 76 of operation, make first segment arm 13, second section arm 11, Section of three arm 9, Section of four arm 6 return to origin-location (as shown in Figure 1), last operation supporting leg multiple directional control valve 65, four telescopic square tubes, 2, four support oil cylinders 87 are regained only, then transfer case change-over switch 72 is pulled traveling-position, drive and reach next operating position.

Above; be only preferred embodiment of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, the protection domain that protection domain of the present utility model should define with claim is as the criterion.

Claims (10)

1. the all-hydraulic concrete automatic charging of boom type stirs work feed material integrated system, it is characterized in that: comprise automobile chassis, the frame be arranged on described automobile chassis, feeding device, agitating device, pumping installations, boom device, cleaning device and the electric cabinet be separately positioned in described frame, wherein

Described feeding device comprises the hoist engine that elevating hopper, elevating hopper slide rail and described elevating hopper are connected by steel wire rope, and described hoist engine drives with hoist engine motor and is connected; Described electric cabinet controls described hoist engine motor, and described hoist engine motor drives described hoist engine, and described hoist engine drives described elevating hopper to move on described elevating hopper slide rail by described steel wire rope, and described elevating hopper feeding is to described agitating device;

Described agitating device comprises Double-horizontal-shaft action of forced stirring cylinder, be arranged on Double-horizontal-shaft action of forced stirring mechanism in described Double-horizontal-shaft action of forced stirring cylinder and the mechanism that adds water, the bottom of wherein said Double-horizontal-shaft action of forced stirring cylinder is provided with Dump gate, described Dump gate is provided with Dump gate oil cylinder, described Dump gate oil cylinder is connected with described Dump gate by Dump gate oil cylinder bearing pin I, and described Dump gate oil cylinder is connected with described Double-horizontal-shaft action of forced stirring cylinder by Dump gate oil cylinder bearing pin II; Described Double-horizontal-shaft action of forced stirring mechanism comprises two action of forced stirring axles be arranged in parallel, described action of forced stirring axle is by reduction box and action of forced stirring motors, wherein each described action of forced stirring axle is arranged at intervals with some fixed hubs, described fixed hub is fixedly connected with action of forced stirring arm, described action of forced stirring arm is fixedly connected with action of forced stirring blade; The make-up water pump that the described mechanism that adds water comprises the sparge pipe being arranged on described Double-horizontal-shaft action of forced stirring cylinder opening part, described sparge pipe connects and the make-up water pump motor driving described make-up water pump; Described electric cabinet controls described action of forced stirring motor and described make-up water pump motor, described make-up water pump motor drives described make-up water pump to be added water in described Double-horizontal-shaft action of forced stirring cylinder by described sparge pipe, described action of forced stirring motor drives described action of forced stirring axle to carry out concrete and once stirs, and the Dump gate of described Double-horizontal-shaft action of forced stirring cylinder is by discharge port feeding extremely described pumping installations;

Described pumping installations comprises concrete pumping mechanism in pumping hopper described in pumping hopper and pumping, wherein said pumping hopper is connected by the Dump gate of described discharge port with described Double-horizontal-shaft action of forced stirring cylinder, be provided with hopper shaft in described pumping hopper, described hopper shaft is connected with hopper stirring motor; Described pumping mechanism comprises fishing box, is arranged on two concrete cylinders be arranged in parallel of described fishing box front end and is arranged on two master cylinders be arranged in parallel of described fishing box rear end, described master cylinder and described concrete cylinder one_to_one corresponding, wherein said concrete cylinder is connected with described pumping hopper, is provided with the piston matched with described concrete cylinder in described concrete cylinder; Also be provided with S shape valve in described pumping hopper, one end of described S shape valve is connected with described concrete cylinder, and the other end of described S shape valve is connected with the discharging opening of described pumping hopper; Described control cabinet controls described hopper stirring motor, and described hopper stirring motor drives described hopper shaft to carry out study of concrete secondary mixing, and the discharging opening of described pumping hopper is by pump line feeding extremely described boom device;

Described boom device comprises the revolving support mechanism be arranged in described frame and the beam mechanism be arranged in described revolving support mechanism, wherein said revolving support mechanism comprises pivoting support seat, arrange pivoting support on described pivoting support seat and rotary reducer motor, and described rotary reducer motor is connected with described pivoting support by gear; The first segment arm that described beam mechanism comprises the jib seat be arranged on described pivoting support, described jib seat connects successively, second section arm, Section of three arm and Section of four arm, described first segment arm, second section arm, Section of three arm and Section of four arm are provided with jib pipe, and described jib pipe is connected by the discharging opening of described pump line with described pumping hopper; Described electric cabinet controls described rotary reducer motor and carries out concrete distributing;

Described cleaning device comprises scavenging pump and described scavenging pump drives the scavenging pump motor connected, and described electric cabinet controls described scavenging pump motor, and described scavenging pump motor drives described scavenging pump to carry out cleaning systems.

2. the all-hydraulic concrete automatic charging of boom type according to claim 1 stirs work feed material integrated system, it is characterized in that: be connected by the first boom pin between described jib seat with described first segment arm, be connected by the second boom pin between described first segment arm with described second section arm, be connected by the 3rd boom pin between described second section arm with described Section of three arm, be connected by the 4th boom pin between described Section of three arm with described Section of four arm; Described beam mechanism also comprises first segment arm oil cylinder, second section arm oil cylinder, Section of three arm oil cylinder and Section of four arm oil cylinder, one end of wherein said first segment arm oil cylinder is connected with described jib seat by first segment arm oil cylinder bearing pin I, and the other end of described first segment arm oil cylinder is connected with described first segment arm by first segment arm oil cylinder bearing pin II; One end of described second section arm oil cylinder is connected with described first segment arm by second section arm oil cylinder bearing pin I, and the other end of described second section arm oil cylinder is connected with described second section arm by second section arm oil cylinder bearing pin II; One end of described Section of three arm oil cylinder is connected with described second section arm by Section of three arm oil cylinder bearing pin I, and the other end of described Section of three arm oil cylinder is connected with described Section of three arm by Section of three arm oil cylinder bearing pin II; One end of described Section of four arm oil cylinder is connected with described Section of three arm by Section of four arm oil cylinder bearing pin I, and the other end of described Section of four arm oil cylinder is connected with described Section of four arm by Section of four arm oil cylinder bearing pin II.

3. the all-hydraulic concrete automatic charging of boom type according to claim 1 stirs work feed material integrated system, it is characterized in that: also comprise four automobile chassis bracing or strutting arrangements for supporting described automobile chassis, described automobile chassis bracing or strutting arrangement comprises the fixing square tube be arranged in described frame, be arranged on the telescopic square tube in described fixing square tube, be arranged on the telescopic square tube oil cylinder in described telescopic square tube and support oil cylinder, one end of wherein said telescopic square tube oil cylinder is connected with described fixing square tube by telescopic square tube oil cylinder bearing pin I, the other end of described telescopic square tube oil cylinder is connected with telescopic square tube by telescopic square tube oil cylinder bearing pin II, described support oil cylinder is arranged on the end of the described telescopic square tube stretched out outside described fixing square tube.

4. the all-hydraulic concrete automatic charging of boom type according to claim 1 stirs work feed material integrated system, it is characterized in that: described automobile chassis is also provided with transfer case, described transfer case is connected with arm-pump with plunger displacement pump I, plunger displacement pump II, gear pump I, gear pump II, gear pump III, gear pump IV respectively, and wherein said plunger displacement pump I, plunger displacement pump II, gear pump I, gear pump II, gear pump III, gear pump IV are connected with fuel tank respectively by oil absorption filter with arm-pump.

5. the all-hydraulic concrete automatic charging of boom type according to claim 4 stirs work feed material integrated system, it is characterized in that: described plunger displacement pump I is connected with pumping electro-hydraulic reversing valve by pipeline I, and described pumping electro-hydraulic reversing valve is connected with pilot operated directional control valve B with pilot operated directional control valve A respectively; Described pilot operated directional control valve A is connected with tilt cylinder B with tilt cylinder A respectively, and described tilt cylinder A is connected with the right-hand member of pilot operated directional control valve B by the 4th oil circuit control, and described tilt cylinder B is connected with the left end of described pilot operated directional control valve B by the 3rd oil circuit control; Described pilot operated directional control valve B is connected with master cylinder B with master cylinder A respectively, described master cylinder A is provided with hydraulic control one-way valve A, described hydraulic control one-way valve A is connected with the left end of described pilot operated directional control valve A by the second oil circuit control, described master cylinder B is provided with hydraulic control one-way valve B, and described hydraulic control one-way valve B is connected with the right-hand member of described pilot operated directional control valve A by the first oil circuit control; Described pumping electro-hydraulic reversing valve is connected with cooler respectively with overflow valve I, and described cooler is connected with described fuel tank by return filter.

6. the all-hydraulic concrete automatic charging of boom type according to claim 4 stirs work feed material integrated system, it is characterized in that: described plunger displacement pump II is connected with action of forced stirring solenoid directional control valve by pipeline II, described action of forced stirring solenoid directional control valve and described action of forced stirring motors, described action of forced stirring solenoid directional control valve is connected with cooler respectively with overflow valve II, and described cooler is connected with described fuel tank by return filter.

7. the all-hydraulic concrete automatic charging of boom type according to claim 4 stirs work feed material integrated system, it is characterized in that: described gear pump I is connected with material loading solenoid directional control valve by pipeline III, described material loading solenoid directional control valve and described hoist engine motors, described material loading solenoid directional control valve is connected with cooler respectively with overflow valve III, and described cooler is connected with described fuel tank by return filter; Described gear pump II is connected with Dump gate solenoid directional control valve by pipeline IV, described Dump gate solenoid directional control valve is connected with described Dump gate oil cylinder, described Dump gate solenoid directional control valve is connected with cooler respectively with overflow valve IV, and described cooler is connected with described fuel tank by return filter.

8. the all-hydraulic concrete automatic charging of boom type according to claim 4 stirs work feed material integrated system, it is characterized in that: described gear pump III is connected with make-up water pump solenoid directional control valve by pipeline V, described make-up water pump solenoid directional control valve and described make-up water pump motors, described make-up water pump solenoid directional control valve is connected with cooler respectively with overflow valve V, and described cooler is connected with described fuel tank by return filter.

9. the all-hydraulic concrete automatic charging of boom type according to claim 4 stirs work feed material integrated system, it is characterized in that: described gear pump IV is connected with Multi-way valve with support leg by pipeline VI, described Multi-way valve with support leg is connected with support oil cylinder, and described support oil cylinder is connected with telescopic square tube oil cylinder; Described Multi-way valve with support leg passes through pipeline VIII respectively with hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve, hopper stirs solenoid directional control valve, scavenging pump solenoid directional control valve is connected, described hopper stirs solenoid directional control valve and is connected with described hopper stirring motor, described scavenging pump solenoid directional control valve and described scavenging pump motors, described Multi-way valve with support leg, described hopper stirring motor scavenging pump motor conversion of electromagnetic reversal valve, described hopper stirring magnetic valve reversal valve, described scavenging pump solenoid directional control valve, overflow valve VI are connected with described fuel tank respectively with overflow valve VII.

10. the all-hydraulic concrete automatic charging of boom type according to claim 4 stirs work feed material integrated system, it is characterized in that: described arm-pump is connected with negative responsive jib banked direction control valves by pipeline VII, described pipeline VII is provided with high pressure filter, described negative responsive jib banked direction control valves is connected with Section of four arm oil cylinder with rotary reducer motor, first segment arm oil cylinder, second section arm oil cylinder, Section of three arm oil cylinder respectively, and described negative responsive jib banked direction control valves is connected with described fuel tank.