CN112659370A - Mixed material preparation facilities for ecological restoration of rock - Google Patents

Abstract

For solving above-mentioned technical problem, a mixed material preparation facilities for rock ecological remediation, including installation stop device, control mixing arrangement, feeder, through the emission of installing other device of stop device installation and restriction material, control mixing arrangement detects the mixture and discharges to discharging the inside material of control mixing arrangement, and feeder feeds to control mixing arrangement and mixes required material from its characterized in that of function: the control mixing device is fixedly arranged on the mounting limiting device, and the feeding device is fixedly arranged on the control mixing device.

Description

Mixed material preparation facilities for ecological restoration of rock

Technical Field

The invention relates to a mixed material preparation device, in particular to a mixed material preparation device for rock ecological restoration.

Background

Because the rapid development leads the natural environment of people to be damaged in different degrees in the development process, in order to meet the requirement of a building, the rock is exposed in the process of taking ores, the landslide of a mountain is easily caused under the condition that the ores are not planted to be protected, and the exposed rock is required to be repaired ecologically in time, so that the device for preparing the mixed material for ecological rock repairing is invented.

Disclosure of Invention

The invention relates to a mixed material preparation device for rock ecological restoration, in particular to a mixed material preparation device for rock ecological restoration.

For solving above-mentioned technical problem, a mixed material preparation facilities for rock ecological remediation, including installation stop device, control mixing arrangement, feeder, through the emission of installing other device of stop device installation and restriction material, control mixing arrangement detects the mixture and discharges to discharging the inside material of control mixing arrangement, and feeder feeds to control mixing arrangement and mixes required material from its characterized in that of function: the control mixing device is fixedly arranged on the mounting limiting device, and the feeding device is fixedly arranged on the control mixing device.

As further optimization of the technical scheme, the mixed material preparation device for rock ecological restoration comprises an installation limiting device, a discharge hole, an installation rod, a fixing rod, a fixed sliding square plate, a spring, an inclined sliding rack, an installation plate, a transmission shaft and a ratchet wheel. The relief hole sets up on the mounting panel, and the installation pole is installed and is fixed on the mounting panel, and the dead lever installation is fixed on the installation pole, and the installation of fixed slip square slab is fixed on the dead lever, and the spring mounting is fixed on fixed slip square slab, and inclined plane slip rack slidable mounting is on fixed slip square slab, and the mounting panel installation is fixed on the mounting panel, and the transmission shaft rotates to be installed on the mounting panel, and the ratchet installation is fixed on the transmission shaft, promotes the gear installation and fixes on the mounting panel, promotes gear and inclined plane slip rack toothing.

As a further optimization of the technical scheme, the invention relates to a mixed material preparation device for rock ecological restoration, which comprises a stirring and mixing cylinder, a solid feeding hole, an adhesive feeding hole, supporting legs, a sleeve, a connecting bolt, a second spring, a movable partition plate, a stirring and discharging control cylinder, a limiting ring, a stirring toothed ring, a driving shaft, a stirring gear, a discharging gear, a connecting shaft, a connecting gear, a reset control rod, a third spring, a connecting cylinder, a connecting rod, a pushing plate, a connecting toothed plate frame, a partition control plate, a sliding groove, a sliding block, a transmission stirring ring, a stirring plate, a discharging inlet, a baffle ring, a discharging spiral plate, a discharging pipe inlet, an adhesive control feeding plate and a control liquid discharge hole, wherein the stirring and mixing cylinder is fixedly arranged on the supporting legs, the solid feeding hole is arranged on the stirring and mixing cylinder, the adhesive feeding hole is arranged, the support leg is installed and fixed on the installation plate, the sleeve is installed and fixed inside the stirring and mixing cylinder, the connecting bolt is installed and fixed on the movable partition plate, the spring is installed on the sleeve in a sleeving manner, the movable partition plate is installed inside the stirring and mixing cylinder in a sliding manner, the stirring and discharging control cylinder is installed and fixed on the movable partition plate and the discharging pipe in a rotating manner, the limiting ring is installed and fixed on the stirring and discharging control cylinder, the stirring toothed ring is installed and fixed on the stirring and discharging control cylinder, the driving shaft is installed and fixed on the stirring and mixing cylinder in a rotating manner, the stirring gear is installed and fixed on the driving shaft, the discharging gear is installed and fixed on the stirring and mixing cylinder in a rotating manner, the connecting gear is installed and fixed on the connecting shaft, the connecting gear is meshed with the stirring gear, the reset control, three springs are sleeved on the connecting cylinder, the connecting cylinder is installed and fixed on the movable partition plate, the connecting rod is installed inside the connecting cylinder in a sliding manner, the connecting rod is installed and fixed on the partition control plate, the push plate is installed and fixed on the connecting reset control rod, the push plate is installed and fixed on the stirring mixing cylinder in a sliding manner, the connecting rack frame is installed and fixed on the push plate, the partition control plate is installed and fixed inside the stirring mixing cylinder and on the stirring discharge control cylinder in a sliding manner, the sliding groove is arranged on the stirring discharge control cylinder, the sliding block is installed and fixed inside the sliding groove in a sliding manner, the transmission stirring ring is installed and fixed on the sliding block, the stirring plate is installed and fixed on the transmission stirring ring, the discharge inlet is arranged on the stirring discharge control cylinder, the baffle ring is installed and fixed on the stirring discharge control cylinder, the discharge pipe is installed and fixed, the adhesive control feeding plate is fixedly arranged on the separation control plate, the adhesive control feeding plate is slidably arranged on the stirring mixing cylinder, and the control liquid discharge hole is formed in the adhesive control feeding plate.

As a further optimization of the technical scheme, the invention relates to a mixed material preparation device for rock ecological restoration, the feeding device comprises an adhesive inlet pipe, a transmission turbine, a first mounting plate, a second transmission shaft, a receiving gear, an output belt wheel, a mounting and fixing box, a solid discharging shaft, a rotating column, an adjusting spring, an adjusting sliding plate, an adjusting connecting rod, a mounting seat, an adjusting combination wheel, an adjusting opposite lead screw, a moving thread block, a mounting and fixing column, a regulating tension wheel, a transmission belt, an adjusting gear, a rotating adjusting rod, an inner ring fluted disc, a limiting fixing groove, a mounting and fixing frame, a limiting fixing plate, a connecting square column, a limiting spring, a solid discharging roller and a connecting and discharging nozzle, the adhesive inlet pipe is mounted and fixed on a stirring and mixing cylinder, the transmission turbine is rotatably mounted in the adhesive inlet pipe, the first mounting plate is mounted and fixed, a transmission shaft II is rotatably arranged on the mounting plate I, a receiving gear is fixedly arranged on the transmission shaft II, an output belt wheel is fixedly arranged on the transmission shaft II, a mounting and fixing box is fixedly arranged on the adhesive inlet pipe, a solid discharging shaft is rotatably arranged on the mounting and fixing box, a rotating column is fixedly arranged on the solid discharging shaft, an adjusting spring is slidably arranged inside the rotating column, an adjusting sliding plate is slidably arranged inside the rotating column, an adjusting connecting rod is fixedly arranged on the adjusting sliding plate, a mounting seat is fixedly arranged on the adjusting connecting rod, an adjusting combination wheel is adaptively arranged on the mounting seat, an adjusting opposite lead screw is rotatably arranged on the mounting and fixing box, a moving thread block is slidably arranged on the adjusting opposite lead screw, a mounting and fixing column is fixedly arranged on the moving thread block, a regulating agent tension wheel is rotatably arranged on the mounting and fixing column, adjusting gear installation is fixed on adjusting subtend lead screw, it rotates and installs on the fixed case of installation to rotate the regulation pole, interior ring fluted disc installation is fixed on rotating the regulation pole, spacing fixed slot sets up on the ring fluted disc, the installation mount installation is fixed on the fixed case of installation, spacing fixed plate installation is fixed on connecting the square column, connect square column slidable mounting on the installation mount, spacing spring suit is on connecting the square column, solid discharge roller installation is fixed on solid discharging shaft, solid discharge roller rotates to be installed inside connecting the row of material mouth, it fixes on the stirring mixing drum to connect row of material mouth installation.

As the further optimization of the technical scheme, the device for preparing the mixed material for rock ecological restoration is provided, the number of the support legs of the control mixing device is three, the number of the sleeves, the number of the connecting bolts and the number of the springs are three, the driving shaft is provided with the matched motor, the number of the sliding blocks is two, and the number of the stirring plates is three.

As a further optimization of the technical scheme, the mixed material preparation device for rock ecological restoration is characterized in that an adhesive feeding device is arranged on an adhesive inlet pipe of the feeding device, twelve adjusting sliding plates, twelve adjusting connecting rods, twelve mounting seats and twelve adjusting combined wheels are arranged, two adjusting opposite screw rods are arranged, four moving thread blocks are arranged, two mounting fixing columns and two adjusting tension wheels are arranged, and a solid material feeding device is arranged on a connecting and discharging nozzle.

The mixed material preparation device for rock ecological restoration has the beneficial effects that:

the invention relates to a mixed material preparation device for rock ecological restoration, in particular to a mixed material preparation device for rock ecological restoration, which realizes the functions of installing other devices and limiting the discharge of materials by installing a limiting device, detecting, mixing and discharging the materials discharged into a control mixing device by the control mixing device, feeding the materials required for mixing to the control mixing device by a feeding device, and the like.

Drawings

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

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first schematic structural diagram of the installation limiting device of the present invention.

Fig. 5 is a second schematic structural view of the installation limiting device of the present invention.

FIG. 6 is a first structural diagram of a mixing control device according to the present invention.

FIG. 7 is a schematic structural diagram of a mixing control device according to the present invention.

Fig. 8 is a third schematic structural diagram of the mixing control device of the present invention.

Fig. 9 is a first structural schematic diagram of the feeding device of the present invention.

Fig. 10 is a structural schematic diagram of a feeding device of the present invention.

Fig. 11 is a third structural schematic diagram of the feeding device of the present invention.

Fig. 12 is a fourth schematic structural view of the feeding device of the present invention.

Fig. 13 is a fifth structural schematic diagram of the feeding device of the present invention.

Fig. 14 is a sixth structural schematic diagram of the feeding device of the present invention.

In the figure: installing a limiting device 1; a mounting plate 1-1; 1-2 parts of discharge hole; mounting rods 1-3; fixing rods 1-4; fixing a sliding square plate 1-5; 1-6 of a spring; a bevel sliding rack 1-7; mounting plates 1-8; 1-9 parts of a transmission shaft; 1-10 parts of ratchet wheel; pushing gears 1-11; controlling the mixing device 2; 2-1 of a stirring and mixing cylinder; a solid feed port 2-2; 2-3 adhesive feed inlets; supporting legs 2-4; 2-5 of a sleeve; 2-6 of a connecting bolt; 2-7 parts of a second spring; moving the partition plates 2-8; 2-9 parts of a stirring and discharging control cylinder; 2-10 parts of a limiting ring; 2-11 parts of a stirring toothed ring; 2-12 parts of a driving shaft; 2-13 parts of stirring gear; 2-14 parts of a discharging gear; connecting shafts 2-15; connecting gears 2-16; resetting the control rod 2-17; 2-18 parts of spring; 2-19 of a connecting cylinder; 2-20 parts of connecting rod; 2-21 of a push plate; connecting the rack frames 2-22; separating the control plates 2-23; 2-24 of sliding groove; 2-25 of a sliding block; 2-26 parts of a transmission stirring ring; 2-27 parts of a stirring plate; a discharge inlet 2-28; 2-29 parts of baffle ring; 2-30 parts of discharge spiral plate; 2-31 parts of a discharge pipe; the inlet of the discharge pipe is 2-32 percent; binder control feed shoes 2-33; controlling the liquid discharge holes 2-34; a feeding device 3; adhesive inlet tube 3-1; a transmission turbine 3-2; mounting plate one 3-3; 3-4 parts of a second transmission shaft; receiving gears 3-5; an output belt wheel 3-6; installing a fixed box 3-7; 3-8 parts of a solid discharge shaft; rotating the column 3-9; 3-10 parts of an adjusting spring; adjusting the sliding plate 3-11; adjusting the connecting rods 3-12; 3-13 of a mounting seat; adjusting the combination wheels 3-14; adjusting the opposite screw rods 3-15; moving the thread blocks 3-16; mounting and fixing columns 3-17; 3-18 parts of a regulating tensioning wheel; 3-19 parts of a transmission belt; 3-20 parts of an adjusting gear; rotating the adjusting rod 3-21; 3-22 parts of an inner ring fluted disc; 3-23 parts of a limiting fixing groove; mounting a fixed frame 3-24; 3-25 of a limiting fixing plate; connecting square columns 3-26; 3-27 parts of a limiting spring; 3-28 parts of solid discharging roller; is connected with the discharging nozzles 3-29.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, a mixed material preparation device for rock ecological restoration includes an installation limiting device 1, a control mixing device 2, and a feeding device 3, wherein other devices are installed and the discharge of materials is limited by the installation limiting device, the control mixing device performs detection mixing and discharge on the materials discharged into the control mixing device, and the feeding device feeds the materials required for mixing to the control mixing device, and the like, and is characterized in that: the control mixing device 2 is fixedly arranged on the mounting limiting device 1, and the feeding device 3 is fixedly arranged on the control mixing device 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the embodiment further describes the embodiment, where the installation limiting device 1 includes an installation plate 1-1, a discharge hole 1-2, an installation rod 1-3, a fixing rod 1-4, a fixed sliding square plate 1-5, a spring 1-6, an inclined sliding rack 1-7, an installation plate 1-8, a transmission shaft 1-9, a ratchet 1-10, a pushing gear 1-11, the ratchet 1-10 drives the pushing gear 1-11 to rotate through the transmission shaft 1-9, the pushing gear 1-11 drives the inclined sliding rack 1-7 to move and compresses the spring 1-6 to separate the inclined sliding rack 1-7 from the limiting ring 2-10, then a second spring 2-7 quickly resets the movable separation plate 2-8, then the process is continuously repeated, the discharge hole 1-2 is arranged on the mounting plate 1-1, the mounting rod 1-3 is fixedly arranged on the mounting plate 1-1, the fixed rod 1-4 is fixedly arranged on the mounting rod 1-3, the fixed sliding square plate 1-5 is fixedly arranged on the fixed rod 1-4, the spring 1-6 is fixedly arranged on the fixed sliding square plate 1-5, the inclined sliding rack 1-7 is slidably arranged on the fixed sliding square plate 1-5, the mounting plate 1-8 is fixedly arranged on the mounting plate 1-1, the transmission shaft 1-9 is rotatably arranged on the mounting plate 1-8, the ratchet 1-10 is fixedly arranged on the transmission shaft 1-9, and the push gear 1-11 is fixedly arranged on the mounting plate 1-8, the push gear 1-11 is meshed with the inclined plane sliding rack 1-7.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14. the embodiment further describes the embodiment, and the controlled mixing device 2 comprises a stirring mixing cylinder 2-1, a solid feed inlet 2-2, an adhesive feed inlet 2-3, a support leg 2-4, a sleeve 2-5, a connecting bolt 2-6, a spring II 2-7, a movable partition plate 2-8, a stirring discharge control cylinder 2-9, a limit ring 2-10, a stirring toothed ring 2-11, a driving shaft 2-12, a stirring gear 2-13, a discharge gear 2-14, a connecting shaft 2-15, a connecting gear 2-16, a reset control rod 2-17, a spring III 2-18 and a connecting cylinder 2-19, Connecting rods 2-20, pushing plates 2-21, connecting rack racks 2-22, separation control plates 2-23, sliding grooves 2-24, sliding blocks 2-25, transmission stirring rings 2-26, stirring plates 2-27, discharge inlet ports 2-28, baffle rings 2-29, discharge spiral plates 2-30, discharge pipes 2-31, discharge pipe inlet ports 2-32, adhesive control feed plates 2-33 and discharge control holes 2-34, so that the mixing ratio between the adhesive and the solid is changed, the adhesive and the solid material fall on the separation control plates 2-23, the separation control plates 2-23 move the compression springs three 2-18 downwards while the separation control plates 2-8 move downwards and then compress the springs two 2-7, the movable partition board 2-8 drives the stirring and discharging control cylinder 2-9 to move, the stirring and discharging control cylinder 2-9 drives the limiting ring 2-10 and the stirring gear ring 2-11 to move, the stirring gear ring 2-11 is meshed with the connecting gear 2-16 of the stirring gear 2-13, the connecting shaft 2-15 rotates under the rotation of a matched motor, the connecting shaft 2-15 drives the stirring gear 2-13 and the discharging gear 2-14 to rotate, the stirring gear 2-13 drives the connecting gear 2-16 to rotate, the connecting gear 2-16 drives the stirring gear ring 2-11 to rotate, the stirring gear ring 2-11 drives the stirring and discharging control cylinder 2-9 to rotate, the stirring and discharging control cylinder 2-9 drives the transmission stirring ring 2-26 to rotate through the sliding block 2-25 in the sliding groove 2-24, the stirring ring 2-26 is driven to drive the stirring plate 2-27 to stir the mixture, the stirring and discharging control cylinder 2-9 drives the discharging spiral plate 2-30 to rotate in the direction that downward pushing cannot achieve the discharging effect, the separation plate 2-8 and the separation control plate 2-23 continue to move downward with the increase of the mixture, but cannot move after the time of moving one end due to the limitation of the compression amount of the spring three 2-18, then the separation plate 2-8 is moved to drive the stirring and discharging control cylinder 2-9 to move, when the stirring and discharging control cylinder 2-9 drives the stirring toothed ring 2-11 to move to be meshed with the discharging gear 2-14, the limiting ring 2-10 also moves to the lower end of the inclined sliding rack 1-7 provided with the limiting device 1, and meanwhile, the separation control plate 2-23 pulls the adhesive to control the feeding plate 2-33 to move so that the adhesive is controlled to be fed to the lower end of The control liquid discharge holes 2-34 on the flitch 2-33 are separated from the adhesive inlet pipe 3-1, then the materials can not be discharged into the stirring and mixing cylinder 2-1, and the connecting rack 2-22 is contacted with the ratchet 1-10, but the connecting rack 2-22 moving downwards can not drive the ratchet 1-10 to rotate, only the connecting rack 2-22 moving upwards can drive the ratchet 1-10 to rotate, then the driving shaft 2-12 drives the stirring ring gear 2-11 to rotate through the discharge gear 2-14, the stirring ring gear 2-11 drives the stirring and discharging control cylinder 2-9 to rotate, the stirring and discharging control cylinder 2-9 drives the discharging spiral plate 2-30 to rotate upwards to push the stirred materials into the stirring and controlling cylinder 2-9 through the discharging inlet port 2-28, then the materials enter the discharging inlet port 2-32 and then enter the discharging pipe from the discharging inlet port 2-32 2-31, the separation plate 2-8 and the stirring and discharging control cylinder 2-9 can not move under the action of the spring 2-7 to keep the current discharging state all the time in the process that the stirred materials are discharged outwards firstly due to the limitation of the limiting ring 2-10 and the inclined sliding rack 1-7, when the materials are discharged completely, because the materials which are not mixed act on the separation control plate 2-23, the spring three 2-18 can push the separation control plate 2-23 to move upwards, the separation control plate 2-23 drives the adhesive control feeding plate 2-33 to move upwards, the control liquid discharge hole 2-34 slightly coincides with the adhesive inlet pipe 3-1 at one point, but the discharged materials are not enough to be compared with the discharge amount, so the separation control plate 2-23 keeps the rising state, the separation control plate 2-23 drives the connecting rack plate frame 2-22 to move upwards through the reset control rod 2-17 to pull the ratchet wheel 1-10 to rotate, the stirring mixing cylinder 2-1 is fixedly arranged on a supporting leg 2-4, the solid feeding hole 2-2 is arranged on the stirring mixing cylinder 2-1, the adhesive feeding hole 2-3 is arranged on the stirring mixing cylinder 2-1, the supporting leg 2-4 is fixedly arranged on the mounting plate 1-1, the sleeve 2-5 is fixedly arranged in the stirring mixing cylinder 2-1, the connecting bolt 2-6 is fixedly arranged on the movable partition plate 2-8, the spring II 2-7 is sleeved on the sleeve 2-5, the movable partition plate 2-8 is slidably arranged in the stirring mixing cylinder 2-1, the stirring discharge control cylinder 2-9 is rotatably arranged on the movable partition plate 2-8 and the discharge pipe 2-31, the limiting ring 2-10 is fixed on the stirring and discharging control cylinder 2-9, the stirring gear ring 2-11 is fixed on the stirring and discharging control cylinder 2-9, the driving shaft 2-12 is rotationally mounted on the stirring and mixing cylinder 2-1, the stirring gear 2-13 is fixed on the driving shaft 2-12, the discharging gear 2-14 is fixed on the driving shaft 2-12, the connecting shaft 2-15 is rotationally mounted on the stirring and mixing cylinder 2-1, the connecting gear 2-16 is fixed on the connecting shaft 2-15, the connecting gear 2-16 is meshed with the stirring gear 2-13, the reset control lever 2-17 is fixed on the separation control plate 2-23, the reset control lever 2-17 is slidably mounted on the movable separation plate 2-8, the spring three 2-18 is sleeved on the reset control lever 2-17, springs III 2-18 are sleeved on the connecting cylinders 2-19, the connecting cylinders 2-19 are fixedly arranged on movable partition plates 2-8, connecting rods 2-20 are slidably arranged in the connecting cylinders 2-19, the connecting rods 2-20 are fixedly arranged on partition control plates 2-23, pushing plates 2-21 are fixedly arranged on connecting reset control rods 2-17, the pushing plates 2-21 are slidably arranged on a stirring mixing cylinder 2-1, connecting tooth plate frames 2-22 are fixedly arranged on the pushing plates 2-21, the partition control plates 2-23 are slidably arranged in the stirring mixing cylinder 2-1 and on a stirring discharging control cylinder 2-9, sliding grooves 2-24 are arranged on the stirring discharging control cylinder 2-9, sliding blocks 2-25 are slidably arranged in the sliding grooves 2-24, the device comprises transmission stirring rings 2-26, stirring plates 2-27, a material discharging inlet 2-28, a material discharging spiral plate 2-30, a material discharging pipe 2-31, a material discharging pipe inlet 2-32, a material discharging pipe 2-31, an adhesive control feeding plate 2-33, a separation control plate 2-23, an adhesive control feeding plate 2-33, a sliding block 2-1 and a control liquid discharging hole 2-34, wherein the transmission stirring rings 2-26 are fixedly arranged on sliding blocks 2-25, the stirring plates 2-26 are fixedly arranged on the transmission stirring rings 2-26, the material discharging inlet 2-28 is arranged on a stirring material discharging control cylinder 2-9, the baffle rings 2-29 are fixedly arranged on the stirring material discharging control cylinder 2-9, the material discharging pipe 2-31 is fixedly arranged in the stirring mixing cylinder 2-1, the adhesive control feeding plate 2-33 is fixedly arranged.

The fourth concrete implementation mode:

the first embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14. the first embodiment is further described, wherein the feeding device 3 comprises an adhesive inlet pipe 3-1, a transmission turbine 3-2, a mounting plate one 3-3, a transmission shaft two 3-4, a receiving gear 3-5, an output pulley 3-6, a mounting and fixing box 3-7, a solid discharging shaft 3-8, a rotating column 3-9, an adjusting spring 3-10, an adjusting sliding plate 3-11, an adjusting connecting rod 3-12, a mounting seat 3-13, an adjusting combination wheel 3-14, an adjusting counter screw rod 3-15, a moving screw block 3-16, a mounting and fixing column 3-17, an adjusting tension wheel 3-18, 3-19 parts of a transmission belt, 3-20 parts of an adjusting gear, 3-21 parts of a rotary adjusting rod, 3-22 parts of an inner ring fluted disc, 3-23 parts of a limiting fixed groove, 3-24 parts of a mounting fixed frame, 3-25 parts of a limiting fixed plate, 3-26 parts of a connecting square column, 3-27 parts of a limiting spring, 3-28 parts of a solid discharging roller and 3-29 parts of a connecting discharging nozzle, firstly, an adhesive is added into a stirring and mixing cylinder 2-1 by an adhesive inlet pipe 3-1 of a feeding device 3 by the adhesive feeding device, a transmission turbine 3-2 is driven to rotate in the adding process, the transmission turbine 3-2 drives a receiving gear 3-5 to rotate, the receiving gear 3-5 drives an output belt wheel 3-6 to rotate by a transmission shaft two 3-4, the output belt wheel 3-6 drives a regulating spring 3-10 parts, The adjusting device comprises adjusting sliding plates 3-11, adjusting connecting rods 3-12, mounting seats 3-13 and rotating columns 3-9 of adjusting combination wheels 3-14, the rotating columns 3-9 drive solid discharging shafts 3-8 to rotate, the solid discharging shafts 3-8 drive solid discharging rollers 3-28 to rotate, the rotating solid discharging rollers 3-28 add solid materials into a stirring mixing cylinder 2-1 through connecting discharging nozzles 3-29, then the rotating adjusting rods 3-21 drive inner annular fluted discs 3-22 to rotate, the inner annular fluted discs 3-22 drive adjusting gears 3-20 to rotate, the adjusting gears 3-20 drive adjusting counter lead screws 3-15 to rotate, the rotating adjusting lead screws counter 3-15 change the positions of moving threaded blocks 3-16, and the moving threaded blocks 3-16 change the positions of adjusting tensioning wheels 3-18, so that the adjusting combination wheels 3-15 are changed The position of the-14 changes the diameter of the combined belt wheel of the combined wheels 3-14 and then changes the output proportion, after the proportion is adjusted, the connecting square column 3-26 on the mounting fixing frame 3-24 can limit the position of the adjusting gear 3-20 to prevent rotation by the action of a limiting spring 3-27, a limiting fixing plate 3-25 is matched with a limiting fixing groove 3-23 on the inner annular fluted disc 3-22 to limit the position of the adjusting gear 3-20, an adhesive inlet pipe 3-1 is fixedly arranged on the stirring mixing cylinder 2-1, a transmission turbine 3-2 is rotatably arranged in the adhesive inlet pipe 3-1, a mounting plate one 3-3 is fixedly arranged on the adhesive inlet pipe 3-1, a transmission shaft two 3-4 is rotatably arranged on the mounting plate one 3-3, and a receiving gear 3-5 is fixedly arranged on the transmission shaft two 3-4, an output belt wheel 3-6 is fixedly arranged on a transmission shaft II 3-4, a mounting and fixing box 3-7 is fixedly arranged on an adhesive inlet pipe 3-1, a solid discharging shaft 3-8 is rotatably arranged on the mounting and fixing box 3-7, a rotating column 3-9 is fixedly arranged on the solid discharging shaft 3-8, an adjusting spring 3-10 is slidably arranged inside the rotating column 3-9, an adjusting sliding plate 3-11 is slidably arranged inside the rotating column 3-9, an adjusting connecting rod 3-12 is fixedly arranged on an adjusting sliding plate 3-11, a mounting seat 3-13 is fixedly arranged on an adjusting connecting rod 3-12, an adjusting combined wheel 3-14 is adaptively arranged on a mounting seat 3-13, an adjusting opposite lead screw 3-15 is rotatably arranged on the mounting and fixing box 3-7, the movable threaded blocks 3-16 are slidably arranged on the adjusting opposite lead screws 3-15, the mounting fixed columns 3-17 are fixedly arranged on the movable threaded blocks 3-16, the adjusting tensioning wheels 3-18 are rotatably arranged on the mounting fixed columns 3-17, the transmission belts 3-19 are arranged on the output belt wheels 3-6, the adjusting combination wheels 3-14 and the tensioning wheels 3-18, the adjusting gears 3-20 are fixedly arranged on the adjusting opposite lead screws 3-15, the rotating adjusting rods 3-21 are rotatably arranged on the mounting fixed boxes 3-7, the inner annular fluted disc 3-22 is fixedly arranged on the rotating adjusting rods 3-21, the limiting fixed grooves 3-23 are arranged on the inner annular fluted disc 3-22, the mounting fixed frames 3-24 are fixedly arranged on the mounting fixed boxes 3-7, and the limiting fixed plates 3-25 are fixedly arranged on the connecting square columns 3-26, connecting square columns 3-26 are slidably mounted on mounting and fixing frames 3-24, limiting springs 3-27 are sleeved on the connecting square columns 3-26, solid discharging rollers 3-28 are mounted and fixed on solid discharging shafts 3-8, the solid discharging rollers 3-28 are rotatably mounted inside connecting and discharging nozzles 3-29, and the connecting and discharging nozzles 3-29 are mounted and fixed on a stirring and mixing cylinder 2-1.

The fifth concrete implementation mode:

the following describes the embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and the embodiment further describes the second embodiment, wherein the number of the support legs 2-4 of the mixing control device 2 is three, the number of the sleeves 2-5, the number of the connecting bolts 2-6 and the number of the springs 2-7 are three, the number of the driving shafts 2-12 is provided with the matching motor, the number of the sliding blocks 2-25 is two, and the number of the stirring plates 2-27 is three.

The sixth specific implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, wherein an adhesive feeding device is provided on the adhesive inlet pipe 3-1 of the feeding device 3, twelve adjusting sliding plates 3-11, two adjusting connecting rods 3-12, two mounting seats 3-13, and four adjusting combination wheels 3-14 are provided, four adjusting opposing lead screws 3-15 are provided, two mounting and fixing columns 3-17 and two adjusting and tensioning wheels 3-18 are provided, and a solid material feeding device is provided on the connecting and discharging nozzle 3-29.

The working principle of the invention is as follows:

a mixed material preparation device for rock ecological restoration has the working principle that whether the connection condition between devices meets requirements is checked before the device is used, firstly, an adhesive feeding device adds the adhesive into a stirring mixing cylinder 2-1 through an adhesive inlet pipe 3-1 of a feeding device 3, a transmission turbine 3-2 is driven to rotate in the adding process, the transmission turbine 3-2 drives a receiving gear 3-5 to rotate, the receiving gear 3-5 drives an output belt wheel 3-6 to rotate through a transmission shaft II 3-4, the output belt wheel 3-6 drives a rotating column 3-9 which is provided with an adjusting spring 3-10, an adjusting sliding plate 3-11, an adjusting connecting rod 3-12, a mounting seat 3-13 and an adjusting combination wheel 3-14 through a transmission belt 3-19, the rotating column 3-9 drives a solid discharge shaft 3-8 to rotate, the solid discharging shaft 3-8 drives the solid discharging roller 3-28 to rotate, the rotating solid discharging roller 3-28 adds solid materials into the stirring and mixing cylinder 2-1 through the connecting and discharging nozzle 3-29, then the rotating adjusting rod 3-21 can drive the inner annular fluted disc 3-22 to rotate, the inner annular fluted disc 3-22 drives the adjusting gear 3-20 to rotate, the adjusting gear 3-20 drives the adjusting opposite lead screw 3-15 to rotate, the rotating adjusting opposite lead screw 3-15 changes the position of the moving threaded block 3-16, the moving threaded block 3-16 changes the position of the adjusting tension wheel 3-18, thereby changing the position of the adjusting combination wheel 3-14 and further changing the diameter of the belt wheel combined by the adjusting combination wheel 3-14 and further changing the output proportion, after the proportion is adjusted, the connecting square columns 3-26 on the fixed frames 3-24 are arranged, under the action of the limiting springs 3-27, the limiting fixed plates 3-25 are matched with the limiting fixed grooves 3-23 on the inner ring fluted disc 3-22 to limit the positions of the adjusting gears 3-20 to prevent rotation, so that the proportion of mixing between the adhesive and the solid is changed, the adhesive and the solid material fall on the separation control plates 2-23, the separation control plates 2-23 move the compression springs three 2-18 downwards, the movable separation plates 2-8 move downwards and then compress the springs two 2-7, the movable separation plates 2-8 drive the stirring and discharging control cylinders 2-9 to move, the stirring and discharging control cylinders 2-9 drive the limiting rings 2-10 and the stirring toothed rings 2-11 to move, the stirring toothed ring 2-11 is meshed with a connecting gear 2-16 of a stirring gear 2-13, a connecting shaft 2-15 rotates under the rotation of a matched motor, the connecting shaft 2-15 drives the stirring gear 2-13 and a discharging gear 2-14 to rotate, the stirring gear 2-13 drives a connecting gear 2-16 to rotate, the connecting gear 2-16 drives a stirring toothed ring 2-11 to rotate, the stirring toothed ring 2-11 drives a stirring and discharging control cylinder 2-9 to rotate, the stirring and discharging control cylinder 2-9 drives a transmission stirring ring 2-26 to rotate through a sliding block 2-25 in a sliding groove 2-24, the transmission stirring ring 2-26 drives a stirring plate 2-27 to stir a mixture, and the direction of the stirring and discharging control cylinder 2-9 driving a discharging spiral plate 2-30 to rotate is that the material is pushed downwards and the material cannot be discharged, the movable partition plate 2-8 and the partition control plate 2-23 continue to move downwards along with the increase of the mixture, but the movable partition plate 2-8 and the partition control plate 2-23 cannot move after the time of moving one end due to the limitation of the compression amount of the spring three 2-18, then the movable partition plate 2-8 drives the stirring and discharging control cylinder 2-9 to move, when the stirring and discharging control cylinder 2-9 drives the stirring gear ring 2-11 to move to be meshed with the discharging gear 2-14, the limiting ring 2-10 also moves to the lower end of the inclined sliding rack 1-7 of the installation limiting device 1, and simultaneously the partition control plate 2-23 pulls the adhesive control feeding plate 2-33 to move, so that the control liquid discharge holes 2-34 on the adhesive control feeding plate 2-33 are separated from the adhesive inlet pipe 3-1 and then the material cannot be discharged into the stirring and mixing cylinder, and the connecting rack 2-22 is contacted with the ratchet 1-10, but the connecting rack 2-22 moving downwards can not drive the ratchet 1-10 to rotate, only the connecting rack 2-22 moving upwards can drive the ratchet 1-10 to rotate, then the driving shaft 2-12 drives the stirring rack ring 2-11 to rotate through the discharging gear 2-14, the stirring rack ring 2-11 drives the stirring discharging control cylinder 2-9 to rotate, the stirring discharging control cylinder 2-9 drives the discharging spiral plate 2-30 to rotate upwards, the stirred material is pushed into the stirring discharging control cylinder 2-9 through the discharging inlet 2-28 and then is discharged from the discharging pipe 2-31 when entering the discharging pipe inlet 2-32, and the stirred material is discharged outwards firstly due to the limitation of the limiting ring 2-10 and the inclined sliding rack 1-7 8, the stirring and discharging control cylinder 2-9 can not move under the action of the second spring 2-7 to always keep the current discharging state, when the materials are discharged completely, as the unmixed materials act on the separation control plate 2-23, the third spring 2-18 can push the separation control plate 2-23 to move upwards, the separation control plate 2-23 drives the adhesive control feeding plate 2-33 to move upwards, so that the control liquid discharge hole 2-34 slightly coincides with the adhesive inlet pipe 3-1, but the discharged materials are not enough compared with the discharge amount, so that the separation control plate 2-23 keeps a rising state, the separation control plate 2-23 drives the connecting tooth plate frame 2-22 to move upwards through the reset control rod 2-17 to pull the ratchet wheel 1-10 to rotate, and the ratchet wheel 1-10 drives the pushing gear 1-11 to rotate through the transmission shaft 1-9, the push gear 1-11 drives the inclined plane sliding rack 1-7 to move and compresses the spring 1-6 to separate the inclined plane sliding rack 1-7 from the limit ring 2-10, then the spring 2-7 rapidly resets the movable partition plate 2-8, and then the process is continuously repeated.

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 (6)

1. The utility model provides a rock is combined material preparation facilities for ecological restoration, is including installation stop device (1), control mixing arrangement (2), feeder (3), its characterized in that: the control mixing device (2) is fixedly arranged on the mounting limiting device (1), and the feeding device (3) is fixedly arranged on the control mixing device (2).

2. The device for preparing the mixed material for rock ecological restoration according to the claim 1, wherein: the installation limiting device (1) comprises an installation plate (1-1), a discharge hole (1-2), an installation rod (1-3), a fixed rod (1-4), a fixed sliding square plate (1-5), a spring (1-6), an inclined sliding rack (1-7), an installation plate (1-8), a transmission shaft (1-9), a ratchet wheel (1-10) and a push gear (1-11), the discharge hole (1-2) is arranged on the installation plate (1-1), the installation rod (1-3) is installed and fixed on the installation plate (1-1), the fixed rod (1-4) is installed and fixed on the installation rod (1-3), the fixed sliding square plate (1-5) is installed and fixed on the fixed rod (1-4), and the spring (1-6) is installed and fixed on the fixed sliding square plate (1-5), the inclined plane sliding rack (1-7) is slidably arranged on the fixed sliding square plate (1-5), the mounting plate (1-8) is fixedly arranged on the mounting plate (1-1), the transmission shaft (1-9) is rotatably arranged on the mounting plate (1-8), the ratchet wheel (1-10) is fixedly arranged on the transmission shaft (1-9), the pushing gear (1-11) is fixedly arranged on the mounting plate (1-8), and the pushing gear (1-11) is meshed with the inclined plane sliding rack (1-7).

3. The device for preparing the mixed material for rock ecological restoration according to the claim 1, wherein: the control mixing device (2) comprises a stirring mixing cylinder (2-1), a solid feeding hole (2-2), an adhesive feeding hole (2-3), supporting legs (2-4), a sleeve (2-5), a connecting bolt (2-6), a spring II (2-7), a movable partition plate (2-8), a stirring and discharging control cylinder (2-9), a limiting ring (2-10), a stirring gear ring (2-11), a driving shaft (2-12), a stirring gear (2-13), a discharging gear (2-14), a connecting shaft (2-15), a connecting gear (2-16), a reset control rod (2-17), a spring III (2-18), a connecting cylinder (2-19), a connecting rod (2-20), a pushing plate (2-21), The device comprises a connecting rack frame (2-22), a separation control plate (2-23), a sliding groove (2-24), a sliding block (2-25), a transmission stirring ring (2-26), a stirring plate (2-27), a discharge inlet (2-28), a baffle ring (2-29), a discharge spiral plate (2-30), a discharge pipe (2-31), a discharge pipe inlet (2-32), an adhesive control feeding plate (2-33) and a control liquid discharge hole (2-34), wherein a stirring mixing cylinder (2-1) is fixedly arranged on a supporting leg (2-4), a solid feed inlet (2-2) is arranged on the stirring mixing cylinder (2-1), an adhesive feed inlet (2-3) is arranged on the stirring mixing cylinder (2-1), and the supporting leg (2-4) is fixedly arranged on a mounting plate (1-1), the sleeve (2-5) is fixedly arranged in the stirring mixing cylinder (2-1), the connecting bolt (2-6) is fixedly arranged on the movable partition plate (2-8), the spring II (2-7) is sleeved on the sleeve (2-5), the movable partition plate (2-8) is slidably arranged in the stirring mixing cylinder (2-1), the stirring discharge control cylinder (2-9) is rotatably arranged on the movable partition plate (2-8) and the discharge pipe (2-31), the limiting ring (2-10) is fixedly arranged on the stirring discharge control cylinder (2-9), the stirring gear ring (2-11) is fixedly arranged on the stirring discharge control cylinder (2-9), the driving shaft (2-12) is rotatably arranged on the stirring mixing cylinder (2-1), and the stirring gear (2-13) is fixedly arranged on the driving shaft (2-12), the discharging gears (2-14) are fixedly arranged on the driving shafts (2-12), the connecting shafts (2-15) are rotatably arranged on the stirring mixing barrel (2-1), the connecting gears (2-16) are fixedly arranged on the connecting shafts (2-15), the connecting gears (2-16) are meshed with the stirring gears (2-13), the resetting control rods (2-17) are fixedly arranged on the separation control plates (2-23), the resetting control rods (2-17) are slidably arranged on the movable separation plates (2-8), the springs (2-18) are sleeved on the connecting resetting control rods (2-17), the springs (2-18) are sleeved on the connecting barrels (2-19), the connecting barrels (2-19) are fixedly arranged on the movable separation plates (2-8), the connecting rods (2-20) are slidably arranged in the connecting barrels (2-19), connecting rods (2-20) are fixedly arranged on separation control plates (2-23), pushing plates (2-21) are fixedly arranged on a connection reset control rod (2-17), the pushing plates (2-21) are slidably arranged on a stirring mixing cylinder (2-1), connecting tooth plate frames (2-22) are fixedly arranged on the pushing plates (2-21), the separation control plates (2-23) are slidably arranged in the stirring mixing cylinder (2-1) and on a stirring discharge control cylinder (2-9), sliding grooves (2-24) are arranged on the stirring discharge control cylinder (2-9), sliding blocks (2-25) are slidably arranged in the sliding grooves (2-24), transmission stirring rings (2-26) are fixedly arranged on the sliding blocks (2-25), stirring plates (2-27) are fixedly arranged on the transmission stirring rings (2-26), the material discharging inlet (2-28) is arranged on the stirring material discharging control cylinder (2-9), the baffle ring (2-29) is fixedly arranged on the stirring material discharging control cylinder (2-9), the material discharging spiral plate (2-30) is fixedly arranged on the stirring material discharging control cylinder (2-9), the material discharging pipe (2-31) is fixedly arranged inside the stirring mixing cylinder (2-1), the material discharging pipe inlet (2-32) is arranged on the material discharging pipe (2-31), the adhesive control feeding plate (2-33) is fixedly arranged on the separation control plate (2-23), the adhesive control feeding plate (2-33) is slidably arranged on the stirring mixing cylinder (2-1), and the control liquid discharging hole (2-34) is arranged on the adhesive control feeding plate (2-33).

4. The device for preparing the mixed material for rock ecological restoration according to the claim 1, wherein: the feeding device (3) comprises an adhesive inlet pipe (3-1), a transmission turbine (3-2), a first mounting plate (3-3), a second transmission shaft (3-4), a receiving gear (3-5), an output belt wheel (3-6), a fixed mounting box (3-7), a solid discharging shaft (3-8), a rotating column (3-9), an adjusting spring (3-10), an adjusting sliding plate (3-11), an adjusting connecting rod (3-12), a mounting seat (3-13), an adjusting combination wheel (3-14), an adjusting opposite lead screw (3-15), a moving thread block (3-16), a fixed mounting column (3-17), an adjusting tension wheel (3-18), a transmission belt (3-19), an adjusting gear (3-20), A rotary adjusting rod (3-21), an inner ring fluted disc (3-22), a limiting fixed groove (3-23), a mounting fixed frame (3-24), a limiting fixed plate (3-25), a connecting square column (3-26), a limiting spring (3-27), a solid discharging roller (3-28) and a connecting discharging nozzle (3-29), an adhesive inlet pipe (3-1) is mounted and fixed on a stirring and mixing cylinder (2-1), a transmission turbine (3-2) is rotatably mounted inside the adhesive inlet pipe (3-1), a mounting plate I (3-3) is mounted and fixed on the adhesive inlet pipe (3-1), a transmission shaft II (3-4) is rotatably mounted on the mounting plate I (3-3), a receiving gear (3-5) is mounted and fixed on the transmission shaft II (3-4), an output belt wheel (3-6) is fixedly arranged on a second transmission shaft (3-4), a fixed mounting box (3-7) is fixedly arranged on an adhesive inlet pipe (3-1), a solid discharging shaft (3-8) is rotatably arranged on the fixed mounting box (3-7), a rotating column (3-9) is fixedly arranged on the solid discharging shaft (3-8), an adjusting spring (3-10) is slidably arranged in the rotating column (3-9), an adjusting sliding plate (3-11) is slidably arranged in the rotating column (3-9), an adjusting connecting rod (3-12) is fixedly arranged on the adjusting sliding plate (3-11), a mounting seat (3-13) is fixedly arranged on the adjusting connecting rod (3-12), and an adjusting combined wheel (3-14) is adaptively arranged on the mounting seat (3-13), an adjusting opposite lead screw (3-15) is rotatably arranged on a mounting and fixing box (3-7), a moving thread block (3-16) is slidably arranged on the adjusting opposite lead screw (3-15), a mounting and fixing column (3-17) is fixedly arranged on the moving thread block (3-16), a regulating tension wheel (3-18) is rotatably arranged on the mounting and fixing column (3-17), a transmission belt (3-19) is arranged on an output belt wheel (3-6), an adjusting combination wheel (3-14) and a tension wheel (3-18), an adjusting gear (3-20) is fixedly arranged on the adjusting opposite lead screw (3-15), a rotating adjusting rod (3-21) is rotatably arranged on the mounting and fixing box (3-7), an inner ring fluted disc (3-22) is fixedly arranged on the rotating adjusting rod (3-21), the limiting fixing grooves (3-23) are arranged on the inner ring fluted disc (3-22), the mounting fixing frames (3-24) are mounted and fixed on the mounting fixing box (3-7), the limiting fixing plates (3-25) are mounted and fixed on the connecting square columns (3-26), the connecting square columns (3-26) are slidably mounted on the mounting fixing frames (3-24), the limiting springs (3-27) are sleeved on the connecting square columns (3-26), the solid discharging rollers (3-28) are mounted and fixed on the solid discharging shafts (3-8), the solid discharging rollers (3-28) are rotatably mounted inside the connecting discharging nozzles (3-29), and the connecting discharging nozzles (3-29) are mounted and fixed on the stirring mixing cylinder (2-1).

5. The device for preparing the mixed material for rock ecological restoration according to the claim 3, wherein: the number of the supporting legs (2-4) of the control mixing device (2) is three, the number of the sleeves (2-5), the number of the connecting bolts (2-6) and the number of the springs (2-7) are three, the driving shafts (2-12) are provided with matched motors, the number of the sliding blocks (2-25) is two, and the number of the stirring plates (2-27) is three.

6. The device for preparing the mixed material for rock ecological restoration according to the claim 4, wherein: the adhesive feeding device is arranged on an adhesive inlet pipe (3-1) of the feeding device (3), twelve adjusting sliding plates (3-11), adjusting connecting rods (3-12), twelve mounting seats (3-13) and twelve adjusting combined wheels (3-14), two adjusting opposite screw rods (3-15), four moving thread blocks (3-16), two mounting fixing columns (3-17) and two adjusting tension wheels (3-18), and the connecting discharge nozzle (3-29) is provided with a solid material feeding device.

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