CN112275424B - Highway is raw materials integration treatment facility for construction - Google Patents

Abstract

The invention relates to raw material processing equipment, in particular to raw material integration processing equipment for highway construction, which comprises a dust-free crushing mechanism, a rack mechanism, a mud-water separation mechanism and a cutting mechanism, wherein the equipment can clean raw materials and complete feeding at the same time, can stably crush the raw materials, can realize dust-free production, can separate mud and water, and can realize wet cutting.

Description

Highway is raw materials integration treatment facility for construction

Technical Field

The invention relates to raw material processing equipment, in particular to raw material integration processing equipment for highway construction.

Background

In the highway construction, the raw material integration treatment equipment for the highway construction is designed because the treatment of stone materials at the environmental protection level cannot meet the current environmental protection requirements and cannot really realize dustless treatment to cause environmental pollution.

Disclosure of Invention

The invention mainly solves the technical problem of providing the raw material integration treatment equipment for highway construction, the equipment can clean raw materials and complete feeding, the equipment can stably crush, the equipment can realize dust-free production, the equipment can separate mud and water, and the equipment can realize wet cutting.

In order to solve the technical problems, the invention relates to raw material processing equipment, in particular to raw material integration processing equipment for highway construction, which comprises a dust-free crushing mechanism, a rack mechanism, a mud-water separation mechanism and a cutting mechanism, wherein the equipment can clean raw materials and complete feeding at the same time, can stably crush, can realize dust-free production, can separate mud and water, and can realize wet cutting.

Dustless rubbing crusher construct with the rack-work and link to each other, the rack-work constructs with the mud-water separation mechanism and links to each other, mud-water separation mechanism links to each other with dustless rubbing crusher structure, cutting mechanism links to each other with the rack-work.

As a further optimization of the technical scheme, the dust-free crushing mechanism of the raw material integration treatment equipment for highway construction comprises a support, a discharge pipe, a connecting pipe, a conveying shell, a perforated plate, a belt shaft conveying screw, a coupling, a conveying motor, a conveying outlet pipe, a feed inlet, a crushing machine body, a transmission belt, a belt pulley, a hollow shaft, a built-in impeller, a discharge box, an inclined pipe, a belt pulley I, a wind box, a crushing motor, a crushing coupling, a crushing wheel, a crushing outlet, an air inlet, a baffle plate, a crushing outlet I and a belt shaft negative pressure wind wheel, wherein the support is connected with the conveying shell, the discharge pipe is connected and communicated with the connecting pipe, the discharge pipe is connected and communicated with the conveying shell, the conveying shell is connected with the perforated plate, the belt shaft conveying screw is rotatably connected with the perforated plate, the belt shaft conveying screw is connected with the conveying motor through the coupling, the conveying motor is connected with the conveying machine shell, the conveying machine shell is connected and communicated with the conveying outlet pipe, the conveying outlet pipe is connected and communicated with the feeding port, the feeding port is arranged on the pulverizer body, the transmission belt is in friction connection with the belt pulley, the belt pulley is connected with the hollow shaft, the hollow shaft is in rotation connection with the pulverizer body, the hollow shaft is internally provided with an impeller, the lower end of the pulverizer body is provided with a discharging box, the discharging box is connected and communicated with an inclined pipe, the inclined pipe is connected and communicated with an air box, the belt pulley I is in friction connection with the transmission belt, the air box is connected and communicated with a discharging pipe, the pulverizing motor is connected with the pulverizer body, the pulverizing motor is connected with the hollow shaft through a pulverizing coupling, the hollow shaft is connected with the pulverizing wheel, the pulverizing outlet is arranged on the discharging box, the air inlet is arranged on the discharging box, the baffle plate is arranged in the discharging box, the pulverizing outlet I is arranged on the discharging box, and the pulverizing outlet I is equal in size to the pulverizing outlet, the negative pressure wind wheel with the shaft is connected with the belt pulley I and is rotationally connected with the air box.

As a further optimization of the technical scheme, the rack mechanism of the raw material integration treatment equipment for highway construction comprises a base, a pulley seat, a supporting seat, a cam driving motor, a coupler I, a bearing seat, a cam with a shaft, a matching seat with a rod, a spring, a support I, a drawing box, a buffer box, a water inlet check valve, a water inlet pipe, a support II, a water outlet pipe, a water outlet check valve and a piston, wherein the base and the material outlet box are connected with the base, the base is connected with the pulley seat, the pulley seat is rotatably connected with the pulley, the base is connected with the supporting seat, the supporting seat is connected with the bearing seat, the bearing seat is connected with the cam driving motor, the cam driving motor is connected with the cam with the shaft through the coupler I, the cam with the bearing seat is rotatably connected, the cam with the matching seat with the rod is contacted with the matching seat with the cam with, On the pull case, take pole cooperation seat and pull case sliding connection, it links to each other with the pull case to support I, it links to each other with the conveyer casing to support I, the pull case links to each other and communicates with the baffle-box, the baffle-box links to each other and communicates with the inlet tube, be equipped with the check valve of intaking in the inlet tube, the baffle-box links to each other with support II, support II links to each other with the conveyer casing, the outlet pipe links to each other and communicates with the baffle-box, the check valve setting of play water is in the outlet pipe, the piston links to each other with area pole cooperation seat, piston and pull case sliding.

As a further optimization of the technical scheme, the mud-water separating mechanism of the raw material integration treatment equipment for highway construction comprises an auxiliary supporting seat, a gear, a transmission gear with a shaft, a bearing seat A, a driven gear, a motor A, an intermediate connecting box, a conveying pipe, a water outlet box, a connection inlet pipe with a support, a water outlet pipeline, a hydraulic cylinder, a water baffle with a rack, a steering gear support, a reversing gear with a shaft, a water baffle I with a rack, a reversing outlet pipe, a mud conveying spiral shaft, a mud outlet, a water throwing wheel and a water throwing hole, wherein the auxiliary supporting seat is connected with a base, the auxiliary supporting seat is connected with the bearing seat A, the gear is connected with the mud conveying spiral shaft, the mud conveying spiral shaft is rotatably connected with the bearing seat A, the gear is meshed with the transmission gear with the shaft, the transmission gear with the bearing seat A is rotatably connected, the transmission gear with the driven gear is meshed with the motor gear, the motor gear is connected with the motor A, the motor A is connected with the middle connecting box, the middle connecting box is connected with the bearing seat A, the middle connecting box is connected and communicated with the conveying pipe, the conveying pipe is connected and communicated with the water outlet box, the water outlet box is rotationally connected with the belt shaft transmission gear, the water outlet box is connected and communicated with the belt support connection inlet pipe, the belt support connection inlet pipe is connected and communicated with the discharge pipe, the water outlet box is provided with a water outlet pipeline, the water outlet pipeline is slidably connected with the water baffle plate with the rack, the water baffle plate with the rack is connected with the water outlet pipeline, the water baffle plate with the rack is meshed with the reversing gear with the belt shaft, the reversing gear with the shaft is rotationally connected with the steering gear support, the steering gear support is connected with the water outlet pipeline, the reversing gear with the belt shaft is meshed with the water baffle plate I with the rack, the water baffle plate I with the reversing outlet pipe is slidably connected with the water outlet pipeline, and the sludge outlet is arranged on the middle connecting box, the belt shaft transmission gear is connected with the water throwing wheel, the water throwing hole is arranged on the water outlet tank, and the belt support is connected with the inlet pipe and the base.

As a further optimization of the technical scheme, the cutting mechanism of the raw material integration treatment equipment for highway construction comprises a fixed seat, a sliding support with a stepped seat, a driving cam, a belt pulley with a shaft, a belt A, a cutting knife with a shaft, a belt pulley A, a shaft coupling II, a cutting motor, an inner limiting rod, a spring I and a stepped groove, wherein a base is connected with the fixed seat, the stepped groove is arranged on the fixed seat and is connected with the sliding support with the stepped seat in a sliding manner, the sliding support with the stepped seat is connected with the belt pulley in a rotating manner, the belt pulley with the shaft is connected with the driving cam, the driving cam is contacted with the pulley, the belt pulley with the shaft is connected with the belt A in a friction manner, the belt A is connected with the cutting knife with the belt shaft, the cutting knife with the stepped seat is connected with the sliding support with the stepped seat in a rotating manner, the belt shaft is connected with the cutting motor through the cutting knife II, the cutting motor is connected with the sliding support with the stepped seat, the fixing seat is connected with the inner limiting rod, the inner limiting rod is connected with the sliding support with the stepped seat in a sliding mode, the spring I is sleeved on the inner limiting rod, and the spring I supports against the sliding support with the stepped seat and the fixing seat.

As further optimization of the technical scheme, the material of the water throwing wheel of the raw material integration treatment equipment for highway construction is stainless steel.

The raw material integration treatment equipment for highway construction has the beneficial effects that:

according to the raw material integration treatment equipment for highway construction, raw materials can be cleaned and fed, the equipment can perform stable crushing, the equipment can perform dust-free production, mud and water can be separated by the equipment, and the equipment can perform wet cutting.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first schematic structural diagram of a raw material integration treatment device for highway construction.

FIG. 2 is a schematic structural diagram of a raw material integration processing device for highway construction according to the present invention.

Fig. 3 is a third schematic structural view of the raw material integration treatment equipment for highway construction of the present invention.

Fig. 4 is a schematic structural diagram of a raw material integration treatment device for highway construction, according to the present invention.

Fig. 5 is a first schematic structural diagram of a dust-free crushing mechanism 1 of the raw material integration treatment equipment for highway construction.

Fig. 6 is a second schematic structural diagram of the dust-free pulverizing mechanism 1 of the raw material integration processing equipment for highway construction.

Fig. 7 is a third schematic structural diagram of a dust-free crushing mechanism 1 of the raw material integration treatment equipment for highway construction.

Fig. 8 is a fourth schematic structural view of the dust-free pulverizing mechanism 1 of the raw material integration processing equipment for highway construction.

Fig. 9 is a first structural schematic diagram of a rack mechanism 2 of the raw material integrated processing equipment for road construction.

Fig. 10 is a second structural schematic diagram of the rack mechanism 2 of the raw material integrated processing equipment for road construction of the invention.

Fig. 11 is a first schematic structural diagram of a mud-water separating mechanism 3 of the raw material integration treatment equipment for highway construction.

Fig. 12 is a second schematic structural diagram of a mud-water separating mechanism 3 of the raw material integration treatment equipment for highway construction of the present invention.

Fig. 13 is a third schematic structural view of a mud-water separating mechanism 3 of the raw material integration treatment equipment for highway construction of the present invention.

Fig. 14 is a fourth schematic structural diagram of a mud-water separating mechanism 3 of the raw material integration treatment equipment for highway construction.

Fig. 15 is a first structural schematic diagram of the cutting mechanism 4 of the integrated processing equipment for raw materials for road construction of the invention.

Fig. 16 is a second schematic structural diagram of the cutting mechanism 4 of the integrated processing equipment for road construction raw materials of the present invention.

In the figure: a dust-free crushing mechanism 1; a support 1-1; a discharge pipe 1-2; connecting pipes 1-3; a conveyor housing 1-4; 1-5 parts of a perforated plate; conveying screws 1-6 with shafts; 1-7 of a coupler; 1-8 of a conveying motor; a delivery pipe 1-9; 1-10 parts of a feed inlet; crushing machine bodies 1-11; 1-12 of a transmission belt; 1-13 of belt pulleys; hollow shafts 1 to 14; 1-15 of built-in impeller; a discharge box 1-16; inclined pipes 1-17; pulley I1-18; 1-19 of an air box; 1-20 parts of a crushing motor; crushing the coupling 1-21; 1-22 parts of a crushing wheel; a crushing outlet 1-23; 1-24 air inlets; 1-25 parts of a material baffle plate; a crushing outlet I1-26; 1-27 of negative pressure wind wheel with shaft; a frame mechanism 2; a base 2-1; 2-2 of a pulley; 2-3 of a pulley seat; 2-4 parts of a supporting seat; 2-5 of a cam driving motor; a coupler I2-6; 2-7 of a bearing seat; 2-8 of cam with shaft; 2-9 of a matching seat with a rod; 2-10 parts of spring; support I2-11; 2-12 parts of a drawing box; 2-13 of a buffer tank; 2-14 of a water inlet one-way valve; 2-15 parts of a water inlet pipe; support II 2-16; 2-17 of a water outlet pipe; 2-18 of a water outlet one-way valve; 2-19 of a piston; a mud-water separation mechanism 3; 3-1 of an auxiliary supporting seat; gear 3-2; a belt shaft transmission gear 3-3; bearing seat A3-4; 3-5 parts of driven gear; 3-6 parts of a motor gear; motor A3-7; 3-8 parts of an intermediate connecting box; 3-9 parts of a conveying pipe; 3-10 parts of a water outlet tank; the belt support is connected with the inlet pipes 3-11; 3-12 parts of a water outlet pipeline; 3-13 of a hydraulic cylinder; 3-14 parts of a water baffle with a rack; 3-15 of a steering gear support; a belt shaft reversing gear 3-16; a water baffle I3-17 with a rack; a reversing outlet pipe 3-18; 3-19 of a mud feeding spiral shaft; 3-20 parts of a sludge outlet; 3-21 of a water throwing wheel; 3-22 water throwing holes; a cutting mechanism 4; a fixed seat 4-1; a sliding support 4-2 with a step seat; 4-3 of a driving cam; belt pulley 4-4 with shaft; belt A4-5; 4-6 of a cutter with a shaft; pulley A4-7; a coupler II 4-8; 4-9 parts of a cutting motor; 4-10 parts of an inner limiting rod; spring I4-11; 4-12 stepped grooves.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present invention relates to a raw material processing apparatus, and more specifically, to a raw material integrated processing apparatus for road construction, which includes a dust-free pulverizing mechanism 1, a frame mechanism 2, a sludge-water separating mechanism 3, and a cutting mechanism 4, and which can clean raw materials and complete feeding, can stably pulverize the apparatus, can produce dust-free, can separate sludge and water, and can perform wet cutting.

The dust-free crushing mechanism 1 is connected with the rack mechanism 2, the rack mechanism 2 is connected with the mud-water separating mechanism 3, the mud-water separating mechanism 3 is connected with the dust-free crushing mechanism 1, and the cutting mechanism 4 is connected with the rack mechanism 2.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the present embodiment further describes the present embodiment, wherein the dust-free pulverizing mechanism 1 includes a support 1-1, a discharge pipe 1-2, a connecting pipe 1-3, a conveyor casing 1-4, a perforated plate 1-5, a belt shaft conveying screw 1-6, a coupling 1-7, a conveyor motor 1-8, a conveyor discharge pipe 1-9, a feed inlet 1-10, a pulverizing machine body 1-11, a transmission belt 1-12, a pulley 1-13, a hollow shaft 1-14, an internal impeller 1-15, a discharge box 1-16, an inclined pipe 1-17, a pulley I1-18, a belt conveyor belt 1-11, a belt 1-12, a pulley 1-13, a hollow shaft 1-14, a built-15, a built-in impeller 1-15, a discharge box 1-16, a tilt pipe 1-17, a pulley I, 1-19 of an air box, 1-20 of a crushing motor, 1-21 of a crushing coupling, 1-22 of a crushing wheel, 1-23 of a crushing outlet, 1-24 of an air inlet, 1-25 of a material baffle, I1-26 of a crushing outlet and 1-27 of a negative pressure wind wheel with a shaft, 1-1 of a support is connected with 1-4 of a conveying machine shell, 1-2 of a discharge pipe is connected and communicated with 1-3 of a connecting pipe, 1-2 of the discharge pipe is connected and communicated with 1-4 of the conveying machine shell, 1-4 of the conveying machine shell is connected with 1-5 of a perforated plate, 1-6 of the conveying machine shell with the shaft is rotationally connected with 1-4 of the conveying machine shell, 1-6 of the conveying machine shell with the shaft is rotationally connected with 1-5 of the perforated plate, 1-6 of the conveying machine with the shaft is connected with 1-8 of the conveying machine shell through 1-7 of the coupling, a conveying motor 1-8 is connected with a conveying machine shell 1-4, the conveying machine shell 1-4 is connected with and communicated with a conveying outlet pipe 1-9, the conveying outlet pipe 1-9 is connected with and communicated with a feed inlet 1-10, the feed inlet 1-10 is arranged on a crushing machine body 1-11, a transmission belt 1-12 is in friction connection with a belt pulley 1-13, the belt pulley 1-13 is connected with a hollow shaft 1-14, the hollow shaft 1-14 is in rotation connection with the crushing machine body 1-11, a built-in impeller 1-15 is arranged in the hollow shaft 1-14, a discharge box 1-16 is arranged at the lower end of the crushing machine body 1-11, the discharge box 1-16 is connected with and communicated with an inclined pipe 1-17, the inclined pipe 1-17 is connected with and communicated with a wind box 1-19, and the belt pulley I1-18 is in friction connection with the transmission belt 1-12, the air box 1-19 is connected and communicated with the discharge pipe 1-2, the crushing motor 1-20 is connected with the crushing machine body 1-11, the crushing motor 1-20 is connected with the hollow shaft 1-14 through the crushing coupling 1-21, the hollow shaft 1-14 is connected with the crushing wheel 1-22, the crushing outlet 1-23 is arranged on the discharge box 1-16, the air inlet 1-24 is arranged on the discharge box 1-16, the baffle plate 1-25 is arranged in the discharge box 1-16, the crushing outlet I1-26 is arranged on the discharge box 1-16, the size of the crushing outlet I1-26 is equal to that of the crushing outlet 1-23, the negative pressure wind wheel with shaft 1-27 is connected with the belt pulley I1-18, the negative pressure wind wheel with shaft 1-27 is rotationally connected with the air box 1-19, the hollow shaft 1-14 can drive the belt pulley 1-13 to rotate in the rotation, the belt pulleys 1-13 can drive the belt pulleys I1-18 to rotate through the transmission belts 1-12, the belt pulleys I1-18 can drive the belt shaft negative pressure wind wheels 1-27 to rotate, the belt shaft negative pressure wind wheels 1-27 can rotate to form negative pressure, outside air is sucked from the air inlets 1-24, then dust generated in crushing is sucked into the air boxes 1-19 along the inclined pipes 1-17 and then is blown into the discharge pipes 1-2 along the connecting pipes 1-3 to be fused with flowing water, and therefore dust can be raised, and dust-free production is really achieved.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the rack mechanism 2 includes a base 2-1, a pulley 2-2, a pulley seat 2-3, a support seat 2-4, a cam driving motor 2-5, a coupling I2-6, a bearing seat 2-7, a cam with a shaft 2-8, a fitting seat with a rod 2-9, a spring 2-10, a support I2-11, a drawing box 2-12, a buffer box 2-13, a water inlet check valve 2-14, a water inlet pipe 2-15, a support II2-16, a water outlet pipe 2-17, a water outlet check valve 2-18, and a piston 2-19, the support 1-1 and the discharge box 1-16 are both connected with the base 2-1, the base 2-1 is connected with the pulley seat 2-3, the pulley seat 2-3 is rotationally connected with the pulley 2-2, the base 2-1 is connected with the support seat 2-4, the support seat 2-4 is connected with the bearing seat 2-7, the bearing seat 2-7 is connected with the cam driving motor 2-5, the cam driving motor 2-5 is connected with the cam with a shaft 2-8 through a coupling I2-6, the cam with a shaft 2-8 is rotationally connected with the bearing seat 2-7, the cam with a shaft 2-8 is contacted with the matching seat with a belt rod 2-9, the spring 2-10 is sleeved on the matching seat with a belt rod 2-9, the spring 2-10 is abutted on the matching seat with a belt rod 2-9 and the drawing box 2-12, the matching seat 2-9 with the rod is connected with the drawing box 2-12 in a sliding way, the support I2-11 is connected with the drawing box 2-12, the support I2-11 is connected with the conveyor shell 1-4, the drawing box 2-12 is connected and communicated with the buffer box 2-13, the buffer box 2-13 is connected and communicated with the water inlet pipe 2-15, the water inlet pipe 2-15 is internally provided with a water inlet one-way valve 2-14, the buffer box 2-13 is connected with the support II2-16, the support II2-16 is connected with the conveyor shell 1-4, the water outlet pipe 2-17 is connected and communicated with the buffer box 2-13, the water outlet one-way valve 2-18 is arranged in the water outlet pipe 2-17, the piston 2-19 is connected with the matching seat 2-9 with the rod, the piston 2-19 is connected with the drawing box 2-12 in a sliding way, before the device is used, a water inlet pipe capable of continuously feeding water is externally connected to a water inlet pipe 2-15, raw materials to be crushed are placed into a conveying machine shell 1-4, the placing position is obliquely above a perforated plate 1-5, conveying of a belt shaft conveying screw 1-6 is facilitated, then a conveying motor 1-8 and a cam driving motor 2-5 are synchronously operated, the conveying motor 1-8 is operated to drive the belt shaft conveying screw 1-6 to rotate through a coupler 1-7, the belt shaft conveying screw 1-6 drives materials to a conveying outlet pipe 1-9, the cam driving motor 2-5 is operated to drive a belt shaft cam 2-8 to rotate through a coupler I2-6, the belt shaft cam 2-8 drives a belt rod matching seat 2-9 to reciprocate through matching with a spring 2-10, the matching seat 2-9 with the rod can drive the piston 2-19 to do reciprocating linear motion, the piston 2-19 can cause the pressure difference in the pull box 2-12 to change, when the pressure in the pull box 2-12 increases, the water in the buffer box 2-13 can flush the water outlet one-way valve 2-18, the water can spray out the raw material which can wash the motion from the water outlet pipe 2-17, when the pressure in the pull box 2-12 decreases, the water of the external water pipe can flush the water inlet one-way valve 2-14 to supplement the water into the buffer box 2-13, thus the raw material can be flushed continuously, the flushed water can flow into the discharge pipe 1-2 along the conveyor shell 1-4, then flow into the water outlet box 3-10 along the inlet pipe 3-11 with the support connection, the cleaned material can flow into the conveyor shell 1-9, The feeding ports 1-10 enter the crushing machine body 1-11, the crushing motor 1-20 is operated to drive the crushing coupling 1-21 to rotate, the crushing coupling 1-21 can rotate through the hollow shaft 1-14, the hollow shaft 1-14 can drive the crushing wheels 1-22 to rotate, the crushing wheels 1-22 can crush materials, the crushed materials are finally discharged from the crushing outlet I1-26, the hollow shaft 1-14 rotates to drive the built-in impeller 1-15 to rotate, and the built-in impeller 1-15 pushes air, so that heat generated by rotation is taken away, and stable operation is realized.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the present embodiment, where the sludge-water separating mechanism 3 includes an auxiliary support base 3-1, a gear 3-2, a belt-axis transmission gear 3-3, a bearing base A3-4, a driven gear 3-5, a motor gear 3-6, a motor A3-7, an intermediate connecting box 3-8, a conveying pipe 3-9, a water outlet box 3-10, a belt-support connection inlet pipe 3-11, a water outlet pipe 3-12, a hydraulic cylinder 3-13, a water baffle with rack 3-14, a steering gear support 3-15, a reversing gear 3-16 with a belt axis, a water baffle with rack I3-17, a water baffle with rack I, A reversing outlet pipe 3-18, a mud feeding screw shaft 3-19, a mud outlet 3-20, a water throwing wheel 3-21, a water throwing hole 3-22, an auxiliary support seat 3-1 connected with a base 2-1, an auxiliary support seat 3-1 connected with a bearing seat A3-4, a gear 3-2 connected with the mud feeding screw shaft 3-19, a mud feeding screw shaft 3-19 connected with the bearing seat A3-4 in a rotating way, a gear 3-2 meshed with a belt shaft transmission gear 3-3, a belt shaft transmission gear 3-3 connected with the bearing seat A3-4 in a rotating way, a belt shaft transmission gear 3-3 connected with a driven gear 3-5, a driven gear 3-5 meshed with a motor gear 3-6, a motor gear 3-6 connected with a motor A3-7, a motor A3-7 connected with a middle connecting box 3-8, the middle connecting box 3-8 is connected with a bearing seat A3-4, the middle connecting box 3-8 is connected and communicated with a delivery pipe 3-9, the delivery pipe 3-9 is connected and communicated with a water outlet box 3-10, the water outlet box 3-10 is rotationally connected with a transmission gear 3-3 with a shaft, the water outlet box 3-10 is connected and communicated with an inlet pipe 3-11 with a support connection, the inlet pipe 3-11 with a support connection is connected and communicated with a discharge pipe 1-2, the water outlet box 3-10 is provided with a water outlet pipe 3-12, the water outlet pipe 3-12 is slidably connected with a water baffle 3-14 with a rack, the water baffle 3-14 with the rack is connected with the water outlet pipe 3-12, the water baffle 3-14 with the rack is engaged with a reversing gear 3-16 with the shaft, the reversing gear 3-16 with the shaft is rotationally connected with a steering gear support 3-15, a steering gear support 3-15 is connected with a water outlet pipeline 3-12, a reversing gear 3-16 with a shaft is engaged with a water baffle I3-17 with a rack, a water baffle I3-17 with a rack is connected with a reversing outlet pipe 3-18 in a sliding way, the reversing outlet pipe 3-18 is connected and communicated with the water outlet pipeline 3-12, a mud outlet 3-20 is arranged on an intermediate connecting box 3-8, a driving gear 3-3 with a shaft is connected with a water throwing wheel 3-21, a water throwing hole 3-22 is arranged on a water outlet box 3-10, a connecting inlet pipe 3-11 with a support is connected with a base 2-1, when water mixed with mud and smoke flows into the water outlet box 3-10, a motor A3-7 which is started in advance drives the motor gear 3-6 to rotate, the motor gear 3-6 drives the driving gear 3-3 with a shaft to rotate through a driven gear 3-5, the belt shaft transmission gear 3-3 drives the water throwing wheel 3-21 to rotate, the water throwing wheel 3-21 can accelerate the rotation of mud and water, so that the water is thrown out of the water throwing hole 3-22 and flows away along the reversing outlet pipe 3-18, the belt shaft transmission gear 3-3 drives the gear 3-2 to rotate, the gear 3-2 drives the mud conveying spiral shaft 3-19 to rotate, and the mud conveying spiral shaft 3-19 drives the mud to move and then is discharged from the mud outlet 3-20.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the present embodiment, where the cutting mechanism 4 includes a fixed seat 4-1, a sliding support with a stepped seat 4-2, a driving cam 4-3, a belt pulley with a shaft 4-4, a belt a4-5, a cutting knife with a shaft 4-6, a belt pulley a4-7, a coupling II4-8, a cutting motor 4-9, an inner limit rod 4-10, a spring I4-11, and a stepped groove 4-12, where the fixed seat 2-1 is connected with the fixed seat 4-1, the fixed seat 4-1 is provided with the stepped groove 4-12, the stepped groove 4-12 is connected with the sliding support with a stepped seat 4-2 in a sliding manner, a sliding support 4-2 with a stepped seat is rotatably connected with a belt pulley 4-4 with a shaft, the belt pulley 4-4 with the shaft is connected with a driving cam 4-3, the driving cam 4-3 is contacted with a pulley 2-2, the belt pulley 4-4 with the shaft is in frictional connection with a belt A4-5, the belt A4-5 is in frictional connection with a belt pulley A4-7, the belt pulley A4-7 is connected with a cutting knife 4-6 with the shaft, the cutting knife 4-6 with the shaft is rotatably connected with the sliding support 4-2 with the stepped seat, the cutting knife 4-6 with the shaft is connected with a cutting motor 4-9 through a coupling II4-8, the cutting motor 4-9 is connected with the sliding support 4-2 with the stepped seat, a fixed seat 4-1 is connected with an inner limit rod 4-10, the inner limit rod 4-10 is in sliding connection with the sliding support 4-2 with the stepped seat, the spring I4-11 is sleeved on the inner limiting rod 4-10, the spring I4-11 is supported on the sliding support 4-2 with the step seat and the fixed seat 4-1, when cutting is needed, the water baffle 3-14 with the rack can be pushed by the hydraulic cylinder 3-13, the water baffle 3-14 with the rack can drive the water baffle I3-17 with the rack to move through the reversing gear 3-16 with the shaft, so that the water baffle I3-17 with the rack can block the reversing outlet pipe 3-18, the water outlet pipeline 3-12 loses the limit opening of the water baffle 3-14 with the rack, water can flow out from the water outlet pipeline 3-12 and rush onto the cutting knife 4-6 with the shaft, the cutting motor 4-9 is operated to drive the coupler II4-8 to rotate, the cutter knife 4-8 of the coupler can drive the cutting knife 4-6 with the shaft to rotate, the belt shaft cutting knife 4-6 drives the driving cam 4-3 to rotate through the transmission of the belt pulley A4-7, the belt A4-5 and the belt shaft belt pulley 4-4, the driving cam 4-3 can drive the belt step seat sliding support 4-2 to move through the reaction force of the pulley 2-2 when rotating to compress the spring I4-11, then the spring I4-11 resets to drive the belt step seat sliding support 4-2 to reset, and the belt step seat sliding support 4-2 can drive the rotating belt shaft cutting knife 4-6 to reciprocate so as to finish wet feed cutting.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the first embodiment will be further described, in which the water slinger 3-21 is made of stainless steel.

The working principle of the device is as follows: the equipment can clean raw materials and complete feeding, a water pipe capable of continuously feeding water is externally connected to a water inlet pipe 2-15 before the equipment is used, the raw materials to be crushed are placed into a conveying machine shell 1-4, the placing position is obliquely above a perforated plate 1-5, conveying of a belt shaft conveying screw 1-6 is facilitated, then a conveying motor 1-8 and a cam driving motor 2-5 are synchronously operated, the conveying motor 1-8 is operated to drive the belt shaft conveying screw 1-6 to rotate through a coupler 1-7, the belt shaft conveying screw 1-6 drives the materials to a conveying outlet pipe 1-9, the cam driving motor 2-5 is operated to drive a belt shaft cam 2-8 to rotate through a coupler I2-6, the belt shaft cam 2-8 drives a belt rod matching seat 2-9 to reciprocate through matching with a spring 2-10, the matching seat 2-9 with the rod can drive the piston 2-19 to do reciprocating linear motion, the piston 2-19 can cause the pressure difference in the pull box 2-12 to change, when the pressure in the pull box 2-12 increases, the water in the buffer box 2-13 can flush the water outlet one-way valve 2-18, the water can spray out the raw material which can wash the motion from the water outlet pipe 2-17, when the pressure in the pull box 2-12 decreases, the water of the external water pipe can flush the water inlet one-way valve 2-14 to supplement the water into the buffer box 2-13, thus the raw material can be flushed continuously, the flushed water can flow into the discharge pipe 1-2 along the conveyor shell 1-4, then flow into the water outlet box 3-10 along the inlet pipe 3-11 with the support connection, the cleaned material can flow into the conveyor shell 1-9, The feed inlet 1-10 enters the crushing machine body 1-11; the equipment can stably crush, the crushing motor 1-20 is operated to drive the crushing coupler 1-21 to rotate, the crushing coupler 1-21 can rotate through the hollow shaft 1-14, the hollow shaft 1-14 can drive the crushing wheel 1-22 to rotate, the crushing wheel 1-22 can crush materials, the crushed materials are finally discharged from the crushing outlet I1-26, the hollow shaft 1-14 rotates to drive the built-in impeller 1-15 to rotate, and the built-in impeller 1-15 can push air, so that heat generated by rotation is taken away, and stable operation is realized; the equipment can be used for dust-free production, the hollow shafts 1-14 can drive the belt pulleys 1-13 to rotate in the rotation process, the belt pulleys 1-13 can drive the belt pulleys I1-18 to rotate through the transmission belts 1-12, the belt pulleys I1-18 can drive the belt shaft negative pressure wind wheels 1-27 to rotate, the belt shaft negative pressure wind wheels 1-27 can form negative pressure in the rotation process, outside air is sucked from the air inlets 1-24, dust generated in crushing is sucked into the air boxes 1-19 along the inclined pipes 1-17 and then is blown into the discharge pipes 1-2 along the connecting pipes 1-3 to be fused with flowing water, and therefore dust can be raised, and dust-free production is really achieved; the device can separate mud and water, when the water mixed with mud and smoke dust flows into the water outlet tank 3-10, the motor A3-7 started in advance drives the motor gear 3-6 to rotate, the motor gear 3-6 drives the belt shaft transmission gear 3-3 to rotate through the driven gear 3-5, the belt shaft transmission gear 3-3 drives the water throwing wheel 3-21 to rotate, the water throwing wheel 3-21 can rotate and accelerate mud and water, and therefore water is thrown out of the water throwing holes 3-22, then the mud flows away along a reversing outlet pipe 3-18, a transmission gear 3-3 with a shaft drives a gear 3-2 to rotate, the gear 3-2 drives a mud conveying spiral shaft 3-19 to rotate, and the mud conveying spiral shaft 3-19 drives mud to move and then is discharged from a mud outlet 3-20; the device can perform wet cutting, when cutting is needed, the water baffle with a rack 3-14 can be pushed by the hydraulic cylinder 3-13, the water baffle with the rack 3-14 can drive the water baffle with the rack I3-17 to move through the reversing gear with a shaft 3-16, so that the water baffle with the rack I3-17 can block a reversing outlet pipe 3-18, a water outlet pipeline 3-12 loses the limit opening of the water baffle with the rack 3-14, water can flow out of the water outlet pipeline 3-12 and flush the water on the cutting knife with the shaft 4-6, the cutting motor with the rack 4-9 is operated to drive the coupler II4-8 to rotate, the coupler II4-8 can drive the cutting knife with the shaft 4-6 to rotate, the cutting knife with the shaft 4-6 can drive the driving cam 4-3 to rotate through the transmission of the belt pulley A4-7, the belt A4-5 and the belt pulley with the shaft 4-4, the driving cam 4-3 rotates to push the belt step seat sliding support 4-2 to move through the counterforce of the pulley 2-2 to compress the spring I4-11, and then the spring I4-11 resets to drive the belt step seat sliding support 4-2 to reset, so that the belt step seat sliding support 4-2 drives the rotating belt shaft cutting knife 4-6 to reciprocate, and wet feed cutting is completed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a highway construction is with raw materials integration treatment facility, includes dustless rubbing crusher structure (1), frame mechanism (2), mud-water separation mechanism (3), cutting mechanism (4), its characterized in that: the dust-free crushing mechanism (1) is connected with the rack mechanism (2), the rack mechanism (2) is connected with the mud-water separating mechanism (3), the mud-water separating mechanism (3) is connected with the dust-free crushing mechanism (1), and the cutting mechanism (4) is connected with the rack mechanism (2);

the dust-free crushing mechanism (1) comprises a support (1-1), a discharge pipe (1-2), a connecting pipe (1-3), a conveying machine shell (1-4), a perforated plate (1-5), a belt shaft conveying screw (1-6), a coupler (1-7), a conveying motor (1-8), a conveying outlet pipe (1-9), a feeding port (1-10), a crushing machine body (1-11), a transmission belt (1-12), a belt pulley (1-13), a hollow shaft (1-14), a built-in impeller (1-15), a discharge box (1-16), an inclined pipe (1-17), a belt pulley I (1-18), an air box (1-19), a crushing motor (1-20), a crushing coupler (1-21), a crushing wheel (1-22), A crushing outlet (1-23), an air inlet (1-24), a material baffle plate (1-25), a crushing outlet I (1-26) and a negative pressure wind wheel (1-27) with a shaft, a support (1-1) is connected with a conveying machine shell (1-4), a discharge pipe (1-2) is connected and communicated with a connecting pipe (1-3), the discharge pipe (1-2) is connected and communicated with the conveying machine shell (1-4), the conveying machine shell (1-4) is connected with a hole plate (1-5), a conveying screw (1-6) with a shaft is rotationally connected with the conveying machine shell (1-4), a conveying screw (1-6) with a shaft is rotationally connected with the hole plate (1-5), the conveying screw (1-6) with a conveying motor (1-8) with a shaft coupling (1-7), a conveying motor (1-8) is connected with a conveying machine shell (1-4), the conveying machine shell (1-4) is connected and communicated with a conveying outlet pipe (1-9), the conveying outlet pipe (1-9) is connected and communicated with a feeding hole (1-10), the feeding hole (1-10) is arranged on a crushing machine body (1-11), a transmission belt (1-12) is in friction connection with a belt pulley (1-13), the belt pulley (1-13) is connected with a hollow shaft (1-14), the hollow shaft (1-14) is in rotary connection with the crushing machine body (1-11), a built-in impeller (1-15) is arranged in the hollow shaft (1-14), a discharging box (1-16) is arranged at the lower end of the crushing machine body (1-11), the discharging box (1-16) is connected and communicated with an inclined pipe (1-17), the inclined pipe (1-17) is connected and communicated with an air box (1-19), a belt pulley I (1-18) is in friction connection with a transmission belt (1-12), the air box (1-19) is connected and communicated with a discharge pipe (1-2), a crushing motor (1-20) is connected with a crushing machine body (1-11), the crushing motor (1-20) is connected with a hollow shaft (1-14) through a crushing coupling (1-21), the hollow shaft (1-14) is connected with a crushing wheel (1-22), a crushing outlet (1-23) is arranged on a discharge box (1-16), an air inlet (1-24) is arranged on the discharge box (1-16), a material baffle (1-25) is arranged in the discharge box (1-16), and a crushing outlet I (1-26) is arranged on the discharge box (1-16), the crushing outlets I (1-26) and the crushing outlets (1-23) have the same size, the negative pressure wind wheels (1-27) with shafts are connected with belt pulleys I (1-18), and the negative pressure wind wheels (1-27) with shafts are rotationally connected with air boxes (1-19);

the rack mechanism (2) comprises a base (2-1), pulleys (2-2), pulley seats (2-3), a supporting seat (2-4), a cam driving motor (2-5), a coupler I (2-6), a bearing seat (2-7), a cam with a shaft (2-8), a matching seat with a rod (2-9), a spring (2-10), a support I (2-11), a drawing box (2-12), a buffer box (2-13), a water inlet one-way valve (2-14), a water inlet pipe (2-15), a support II (2-16), a water outlet pipe (2-17), a water outlet one-way valve (2-18) and a piston (2-19), wherein the support (1-1) and the discharge box (1-16) are connected with the base (2-1), a base (2-1) is connected with a pulley seat (2-3), the pulley seat (2-3) is rotatably connected with a pulley (2-2), the base (2-1) is connected with a supporting seat (2-4), the supporting seat (2-4) is connected with a bearing seat (2-7), the bearing seat (2-7) is connected with a cam driving motor (2-5), the cam driving motor (2-5) is connected with a cam (2-8) with a shaft through a coupler I (2-6), the cam (2-8) with the shaft is rotatably connected with the bearing seat (2-7), the cam (2-8) with the shaft is contacted with a matching seat (2-9) with the rod, a spring (2-10) is sleeved on the matching seat (2-9) with the rod, and the spring (2-10) is abutted against the matching seat (2-9) with the rod, On a drawing box (2-12), a matching seat (2-9) with a rod is connected with the drawing box (2-12) in a sliding way, a support I (2-11) is connected with the drawing box (2-12), the support I (2-11) is connected with a conveyor shell (1-4), the drawing box (2-12) is connected and communicated with a buffer box (2-13), the buffer box (2-13) is connected and communicated with a water inlet pipe (2-15), a water inlet check valve (2-14) is arranged in the water inlet pipe (2-15), the buffer box (2-13) is connected with a support II (2-16), the support II (2-16) is connected with the conveyor shell (1-4), a water outlet pipe (2-17) is connected and communicated with the buffer box (2-13), a water outlet check valve (2-18) is arranged in the water outlet pipe (2-17), the piston (2-19) is connected with the matching seat (2-9) with the rod, and the piston (2-19) is connected with the drawing box (2-12) in a sliding way;

the mud-water separation mechanism (3) comprises an auxiliary support seat (3-1), a gear (3-2), a transmission gear (3-3) with a shaft, a bearing seat A (3-4), a driven gear (3-5), a motor gear (3-6), a motor A (3-7), an intermediate connecting box (3-8), a conveying pipe (3-9), a water outlet box (3-10), a connecting inlet pipe (3-11) with a support, a water outlet pipeline (3-12), a hydraulic cylinder (3-13), a water baffle with a rack (3-14), a steering gear support (3-15), a reversing gear (3-16) with a shaft, a water baffle I with a rack (3-17), a reversing outlet pipe (3-18), a mud conveying spiral shaft (3-19), a mud outlet (3-20), A water throwing wheel (3-21) and a water throwing hole (3-22), an auxiliary supporting seat (3-1) is connected with a base (2-1), the auxiliary supporting seat (3-1) is connected with a bearing seat A (3-4), a gear (3-2) is connected with a mud feeding spiral shaft (3-19), the mud feeding spiral shaft (3-19) is rotationally connected with the bearing seat A (3-4), the gear (3-2) is meshed with a transmission gear (3-3) with a shaft, the transmission gear (3-3) with the shaft is rotationally connected with the bearing seat A (3-4), the transmission gear (3-3) with the shaft is connected with a driven gear (3-5), the driven gear (3-5) is meshed with a motor gear (3-6), the motor gear (3-6) is connected with a motor A (3-7), the motor A (3-7) is connected with the middle connecting box (3-8), the middle connecting box (3-8) is connected with the bearing seat A (3-4), the middle connecting box (3-8) is connected and communicated with the conveying pipe (3-9), the conveying pipe (3-9) is connected and communicated with the water outlet box (3-10), the water outlet box (3-10) is rotationally connected with the transmission gear (3-3) with a shaft, the water outlet box (3-10) is connected and communicated with the inlet pipe (3-11) with a support connection, the inlet pipe (3-11) with a support connection is connected and communicated with the discharge pipe (1-2), the water outlet box (3-10) is provided with a water outlet pipeline (3-12), the water outlet pipeline (3-12) is connected with the water baffle (3-14) with a water baffle in a sliding way, the water baffle plate (3-14) with the rack is connected with the water outlet pipeline (3-12), the water baffle plate (3-14) with the rack is meshed with the reversing gear (3-16) with the shaft, the reversing gear (3-16) with the shaft is rotationally connected with the steering gear support (3-15), the steering gear support (3-15) is connected with the water outlet pipeline (3-12), the reversing gear (3-16) with the shaft is meshed with the water baffle plate I (3-17) with the rack, the water baffle plate I (3-17) with the rack is slidably connected with the reversing outlet pipe (3-18), the reversing outlet pipe (3-18) is connected and communicated with the water outlet pipeline (3-12), the mud outlet (3-20) is arranged on the middle connecting box (3-8), the transmission gear (3-3) with the shaft is connected with the water throwing wheel (3-21), the water throwing holes (3-22) are arranged on the water outlet tank (3-10) and are connected with the inlet pipe (3-11) with a support and the base (2-1);

the cutting mechanism (4) comprises a fixed seat (4-1), a sliding support with a stepped seat (4-2), a driving cam (4-3), a belt pulley with a shaft (4-4), a belt A (4-5), a cutting knife with a shaft (4-6), a belt pulley A (4-7), a shaft coupling II (4-8), a cutting motor (4-9), an inner limiting rod (4-10), a spring I (4-11) and a stepped groove (4-12), wherein the base (2-1) is connected with the fixed seat (4-1), the fixed seat (4-1) is provided with the stepped groove (4-12), the stepped groove (4-12) is connected with the sliding support with a stepped seat (4-2) in a sliding manner, the sliding support with a stepped seat (4-2) is rotationally connected with the belt pulley with a shaft (4-4), a belt shaft belt pulley (4-4) is connected with a driving cam (4-3), the driving cam (4-3) is contacted with a pulley (2-2), the belt shaft belt pulley (4-4) is in friction connection with a belt A (4-5), the belt A (4-5) is in friction connection with a belt pulley A (4-7), the belt pulley A (4-7) is connected with a belt shaft cutting knife (4-6), the belt shaft cutting knife (4-6) is in rotation connection with a stepped seat sliding support (4-2), the belt shaft cutting knife (4-6) is connected with a cutting motor (4-9) through a coupler II (4-8), the cutting motor (4-9) is connected with the stepped seat sliding support (4-2), a fixed seat (4-1) is connected with an inner limiting rod (4-10), the inner limiting rod (4-10) is connected with the sliding support (4-2) with the step seat in a sliding way, the spring I (4-11) is sleeved on the inner limiting rod (4-10), and the spring I (4-11) is propped against the sliding support (4-2) with the step seat and the fixed seat (4-1).

2. The integrated processing equipment for the raw materials for highway construction according to claim 1, wherein: the material of the water throwing wheel (3-21) is stainless steel.

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