CN219400483U - Layout platform for three-dimensional crushing and shaping system - Google Patents

Abstract

The utility model relates to a grit crushing apparatus technical field specifically discloses a three-dimensional broken plastic overall arrangement platform for system, including the pond, the pond bottom is equipped with the absorbing mounting platform, and the pond top has crushing apparatus through fixing at mounting platform upper bracket connection, is equipped with sand washing transportation equipment in the pond and is located the one end that equipment was kept away from in the pond, and sand washing transportation equipment can be dismantled with the stand and be connected. The purpose of this patent is to solve current system sand production line and take up an area of big, leads to production transportation process many, problem that the production line power consumption is high.

Description

Layout platform for three-dimensional crushing and shaping system

Technical Field

The utility model relates to the technical field of sand and stone crushing equipment, in particular to a layout platform for a three-dimensional crushing and shaping system.

Background

With the development of the building industry, the demand of the market for machine-made sand is increasing, and the existing sand production line generally comprises crushing equipment, conveying equipment, screening equipment, sand-making shaping equipment and the like at present, wherein the layout modes of the equipment mainly comprise planar distributed type and three-dimensional stacked type; the platform type layout occupies a large area, the middle conveying equipment is more, the useless power consumption is more, so that the investment is large, the energy consumption is more, for example, the crushing and sorting assembly line and the sand production assembly line of most of crude ores at present, the main equipment occupies several mu to tens mu, and the factory building is huge. Meanwhile, as the vibration amplitude is large when the crushing equipment is used, in order to keep the equipment stable in use, a cement platform needs to be constructed to install the equipment, and the equipment is kept stable.

The existing three-dimensional stacked installation equipment reduces the area, but is generally processed by a dry method, the dust removal equipment is complex, and the product crushing ratio is small; for example, the common feeding of the prior art sand making building requires the grain diameter to be less than 5cm, the front end of the sand making building also needs to be added with a first-stage crushing device, a second-stage crushing device and a sorting device, a plurality of stock yards and a heavy belt conveyor, and the crushed ore of the sand making building has poor grain shape. The floor area of the existing production line for preparing 150 tons of sand by a dry method is over 1000 square; therefore, the occupied area is large and the production efficiency is low from the whole equipment.

Therefore, layout improvement is needed to be carried out on the existing sand production line, so that the problems of large occupied area, multiple production and transportation processes and high energy consumption of the production line in the existing sand production line are solved.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a layout platform for a three-dimensional crushing and shaping system, and solves the problems of large occupied area, more production and transportation processes and high energy consumption of the production line of the existing sand production line.

In order to solve the problems, the technical scheme adopted by the utility model is that the layout platform for the three-dimensional crushing and shaping system comprises a water tank, wherein the bottom of the water tank is provided with a damping installation platform, crushing equipment is connected above the water tank through a bracket fixed on the installation platform, the installation platform comprises horizontal steel plates arranged along the horizontal direction, and a frame structure which is arranged vertically and horizontally on the same horizontal plane is welded on the horizontal steel plates; the water tank is formed by encircling the horizontal steel plate and a vertical steel plate arranged along the vertical direction; the bracket comprises an upright post arranged along the vertical direction and a cross beam arranged along the horizontal direction, and a keel frame for installing equipment is arranged at the top of the bracket; the sand washing transportation equipment is arranged in the water tank and is positioned at one end of the water tank far away from the equipment, and the sand washing transportation equipment is detachably connected with the upright post.

The beneficial effect that this scheme produced is: the water tank is provided with the mounting platform, and the equipment is mounted on the water tank, so that the three-dimensional mounting of the water tank and the equipment is realized, the occupied area of equipment of a 500-ton sand production line is only 400-level, 88% of the occupied area is saved compared with that of the equipment of a dry sand production line, the space is effectively saved, and the comprehensive utilization rate of the site is high; the sand and stone after being crushed by the crushing equipment can directly fall into a water tank for cleaning, no additional transfer equipment is needed, the number of the equipment is further reduced, the occupied area of the whole production line is saved, and meanwhile, the purchase cost of the equipment is reduced; the occupied area of the production line is reduced, the transfer distance between different crushing devices can be reduced, and the energy consumption of sand and stone transfer is saved; when the sand washing device is used, the sand washing water is filled in the water tank, so that the dead weight of the platform can be increased, meanwhile, the water in the water tank can absorb vibration energy, and the amplitude of the platform is reduced, so that the platform is stabilized.

A three-dimensional folding mechanism is formed by combining the vertical steel plate and the horizontal steel plate, and the mechanism is similar to a paper folding supporting principle, so that the supporting point of the whole platform is improved, and the stability of the platform is improved.

Further, stones are paved at the bottom of the installation platform, the particle size of the stones is 2-5cm, and the paving thickness of the stones is 6-10cm. Energy consumption and shock absorption are realized through gaps and displacement among stones, so that the force is discharged to the bottom platform, the effect of stabilizing the platform is achieved, and noise generated by vibration of the platform when the equipment is used can be reduced through transmitting force among stones. The broken stone with the grain size of 2-5cm is more convenient to lay relative to the broken stone with the large grain size, the thickness of the broken stone is 6-10cm, preferably 7cm, and the stone layer with a certain thickness has better damping and stabilizing effects.

Further, the stress points of the upright posts are fixed with reinforcing ribs, and the reinforcing ribs are crisscrossed. The force is released to the acting points of the stand column through the cross reinforcing ribs, so that the service life of the stand column is ensured.

Further, the water tank also comprises a second-stage sand washing tank, a screening sand washing tank, a third-stage sand washing tank and a clean water tank; the clean water tank overflows to the three-stage sand washing tank, the three-stage sand washing tank overflows to the screening tank, and the screening tank overflows to the second-stage sand washing tank.

Step-by-step cleaning is carried out by a second-stage sand washing pool and a third-stage sand washing pool in the sand production process, and the sewage concentration is gradually decreased; the secondary crushing is further cleaned by a vibrating screen and a tertiary sand washing tank, so that the clarity requirement of cleaning water for the secondary crushing is low; the water of the three-stage sand washing pool is fully utilized in multiple stages by overflowing the three-stage sand washing pool, the screening sand washing pool and the second-stage sand washing Chi Tiji, and meanwhile, the screening pool can be used for collecting and cleaning the screened sand; the screening sand washing pool, the secondary sand washing pool and the tertiary sand washing pool can be arranged between the tertiary sand washing pool and the secondary crushing sand washing pool according to the requirements, and a more platform layout combination mode is provided for a layout platform for a three-dimensional crushing and shaping system.

Further, the secondary sand washing pool and the tertiary sand washing pool are transversely arranged, and the screening pool is transversely arranged; the screening sand washing pool, the secondary sand washing pool and the tertiary sand washing pool form a square structure. The combination mode is an optimal layout mode of a layout platform for the three-dimensional crushing and shaping system, and the vertical layout of the secondary sand washing pool and the screening sand washing pool is convenient for the secondary sand washing machine to directly feed the vibrating screen; the secondary pool and the tertiary pool are arranged in parallel, so that the secondary pool and the tertiary pool are conveniently combined into a square structure, and the occupied area is reduced; the occupied area of the production line can be effectively saved.

Further, a third-level sewage pool is arranged close to the third-level sand washing pool, the third-level sand washing pool can overflow to the third-level sewage pool, a second-level sewage pool is arranged close to the second-level sand washing pool, and the second-level sand washing pool can overflow to the second-level sewage pool; the clean water tank comprises a second clean water tank and a third clean water tank, and the second clean water tank and the third clean water tank are respectively arranged close to the second sand washing tank and the third sand washing tank; the three-stage sand washing pool, the three-stage sewage pool, the three-stage clean water pool and the mounting platform form a three-stage crushing platform, and the two-stage sand washing pool, the two-stage sewage pool, the two-stage clean water pool and the mounting platform form a two-stage crushing platform;

after the secondary crushing platform and the tertiary crushing platform are combined, the tertiary sewage tank and the secondary sewage tank can not be contacted with each other, and the secondary sewage tank and the tertiary sewage tank are connected through a pipeline; and after the secondary crushing platform and the tertiary crushing platform are combined, the tertiary clean water tank and the secondary clean water tank can not be contacted with each other, and then the secondary clean water tank and the tertiary clean water tank are connected through a pipeline.

The connection modes between the secondary sewage pool and the tertiary sewage pool and the connection mode between the secondary clean water pool and the tertiary clean water pool are adjusted according to different combination conditions, so that the installation steps of the secondary sewage pool and the tertiary sewage pool and the installation steps of the secondary clean water pool and the tertiary clean water pool are saved, and the method can be changed into various use modes.

Further, the mounting platform is further provided with an anti-shake stabilizing system along the vertical direction, the anti-shake stabilizing system comprises a damping counterweight load and an anti-shake frame for mounting a damping configuration load, the damping counterweight load is suspended at the center of the anti-shake frame through a rigging, and the damping configuration load is partially immersed into a pool. The vibration-proof frame transmits vibration to the damping balance weight load through the rigging, the damping balance weight load and the blocking effect of water enable the vibration of the vibration-proof frame to be different from the vibration frequency and direction of the crushing shaping system, and the vibration-proof energy dissipation is achieved through the reaction force of the vibration-proof frame and the crushing shaping system in different frequencies and different directions, so that partial vibration and vibration of the crushing shaping system are counteracted, equipment stability is provided, equipment failure rate is reduced, and the purpose of prolonging the service life of equipment is achieved.

Drawings

FIG. 1 is a cross-sectional view of a platform according to example 1 of the present utility model.

Fig. 2 is a top view of embodiment 1 of the present utility model.

Fig. 3 is a top plan view of the platform according to embodiment 2 of the present utility model.

Figure 4 is an elevational cross-sectional view of a secondary deck in combination with a screening deck.

FIG. 5 is a schematic diagram of an anti-shake stabilization system according to embodiment 4.

FIG. 6 is a top view of the assembly.

FIG. 7 is a top view of the combination.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the device comprises a mounting platform 1, upright posts 11, a cross beam 12, a keel frame 13, a frame structure 14, a water tank 15, a secondary crushing platform 2, a secondary sewage tank 21, a secondary sand washing tank 22, a secondary clean water tank 23, a secondary crusher 24, a secondary bucket elevator 25, a tertiary crushing platform 3, a tertiary sewage tank 31, a tertiary sand washing tank 32, a tertiary clean water tank 33, a tertiary crusher 34, a tertiary bucket elevator 35, a screening bucket elevator 41, a vibrating screen 42, an anti-shake stabilizing system 5, an anti-shake frame 51, a damping counterweight load 52, a rigging 53, a transfer feeder 6, a transfer feeder 7, a finished product conveyor belt 8, a transfer bin 9, clean water 10, a sewage tank 101, a cyclone 102, a sedimentation tank 103 and a filter press 104.

Example 1 this is shown in fig. 1 and 2: the utility model provides a three-dimensional broken plastic layout platform for system, includes mounting platform 1 and sand stone abluent pond 15, mounting platform 1 includes the horizontal steel sheet that the horizontal direction set up, the frame construction 14 that is formed by welding of the square steel that arranges vertically and horizontally in same horizontal plane and the support that comprises stand and crossbeam, and frame construction 14 welds on the horizontal steel sheet, and pond 15 is surrounded by the vertical steel sheet that sets up along vertical direction, and vertical steel sheet welds with the horizontal steel sheet; the installation platform 1 comprises a vertical column 11 and a cross beam 12, wherein the vertical column 11 and the cross beam 12 are arranged along the vertical direction, a bracket is formed by the vertical column 11 and the cross beam 12, the bracket is welded on a frame structure, the vertical column 11 and the cross beam 12 are welded, the vertical column 11 and the cross beam 12 are provided with a plurality of square steel, the top end of the bracket is welded with a keel frame 13 along the horizontal direction, and the keel frame 13 is used for installing equipment; the keel frame 13 is welded on the cross beam 12, and the keel frame 13 is positioned at the upper right of the pool 15; the water tank 15 is internally provided with a sand washing elevator, the sand washing elevator is positioned at the left end of the water tank 15, is a chain bucket elevator and is used for fishing out sand and stones in the water tank 15, and the sand washing elevator is fixed on the upright post 11 of the mounting platform 1 through bolts.

The water tank 15 comprises a secondary sand washing tank 22 and a tertiary sand washing tank 32; the third-stage sand washing tank 32 is communicated with the second-stage sand washing tank 22 through an overflow channel, and the second-stage tank is connected with a sewage tank. Pool water in the three-stage sand washing pool 32 flows to the two-stage sand washing pool 22 through an overflow channel, so that the sewage is recycled in a cascade mode.

The keel frame 13 on the second-stage sand washing pool 22 is provided with a second-stage crushing device and a second-stage feeding machine from bottom to top, and the keel frame 13 above the third-stage sand washing pool is provided with a third-stage crushing device and a third-stage feeding machine from bottom to top; the secondary crushing equipment and the tertiary crushing equipment are fixedly connected with the upright posts 11 through bolts respectively; the sand washing elevator in the third-stage sand washing pool 32 is named as a third-stage chain bucket elevator 35, and the sand washing elevator in the second-stage sand washing pool 22 is named as a second-stage chain bucket elevator 25; the feed end of the secondary feeder is connected with a secondary conveyer belt, the discharge end of the secondary bucket elevator 25 is positioned at the upper end of the feed inlet of the tertiary feeder, and the discharge end of the tertiary bucket elevator 35 is provided with a finished product conveyer belt 8.

The walking platform is paved on the cross beam along the horizontal direction and is formed by welding steel plates, and the walking platform is paved around crushing equipment and is used for connecting the keel frame 13 of the secondary sand washing pool and the keel frame 13 of the tertiary sand washing pool.

During the use, the conveyer belt will be through the building stones after one broken transport to second grade breaker and carry out the breakage, and the building stones after the breakage falls into in the second grade sand washing pond, and the grit in the second grade sand washing pond is transported to tertiary feeding machine through the chain bucket elevator in the second grade sand washing pond, and tertiary feeding machine is with the building stones after two broken transport to tertiary breaker 34 in, and the building stones after the breakage in the tertiary breaker 34 promotes to finished product conveyer belt 8 through chain bucket elevator, carries to the finished product windrow district through finished product conveyer belt 8.

Example 2 this is shown in fig. 3, and is different from example 1 in that the sand washing tank further comprises a screening sand washing tank, a vibrating screen 42 is installed on the keel frame 13 above the screening tank, and a screening chain bucket elevator 41 is installed in the screening sand washing tank; the discharge end of the second-stage chain bucket elevator 25 is located above the feed inlet of the vibrating screen 42, the discharge end of the screening chain bucket elevator 41 is located above the finished product conveying belt 8, the discharge outlet of the vibrating screen 42 is provided with a transfer feeder 6, the transfer feeder 6 is connected with a transfer bin 9, and the feed inlet of the third-stage feeder is connected with a transfer feeder 7.

As shown in fig. 2, the secondary sand washing tank 22 and the tertiary sand washing tank 32 are transversely juxtaposed, the screening sand washing tank is longitudinally arranged close to the secondary sand washing tank 22 and the tertiary sand washing tank 32, sand in the secondary sand washing tank 22 is conveniently transported to the vibrating screen 42 through a chain bucket elevator in the secondary sand washing tank 22, the sewage tank 101 is arranged in the middle of the screening sand washing tank, the secondary sand washing tank 22 and the tertiary sand washing tank 32, the secondary sand washing tank 22, the screening sand washing tank and the sewage tank 101 are encircled to form a square, and the clean water 10 tank 15 is arranged around the periphery of the square. The sewage tank 101 is connected with a cyclone 102, an overflow pipe of the cyclone 102 is connected with a sedimentation tank 103, and a bottom flow port of the cyclone 102 is connected with the three-stage sand washing tank 32 or the two-stage sand washing tank 22; fine sand in the sludge collected by the cyclone 102 flows back to the three-stage sand washing pool 32 and is fished out by a chain bucket elevator and the like in the three-stage sand washing pool 32; the sedimentation tank 103 is connected with a filter press 104, a clean water 10 pipe of the filter press 104 is connected with a clean water 10 tank 15, and the clean water 10 is pumped into the vibrating screen 42 and the three-stage crusher 34 by a plurality of water pumps in the clean water 10 tank 15.

The third-stage sand washing pool 32 is communicated with the screening sand washing pool through an overflow channel, the screening sand washing pool is communicated with the second-stage sand washing pool 22 through an overflow channel, the second-stage sand washing pool 22 is connected with a sewage pool, the sewage pool is connected with a filter press, a clear water pipe of the filter press is connected with a clear water pool, and the clear water pool pumps water into the crushing equipment through a water pump; after the pond water in the three-stage sand washing pond 32 flows to the screening sand washing pond through the overflow channel to wash sand, the pond water overflows to the second-stage sand washing pond 22 to wash sand, so that sewage three-stage recycling is formed.

When the stone screening machine is used, the stone is conveyed to the secondary crushing equipment by the secondary conveying belt to be crushed, the crushed stone falls into the secondary sand washing pool, sand in the secondary sand washing pool is conveyed into the vibrating screen 42 through the secondary chain bucket elevator 25, the vibrating screen 42 falls into the screening sand washing pool through the screen mesh at the bottommost layer of the vibrating screen, and the stone is conveyed to the finished product conveying belt 8 through the screening chain bucket elevator 41; the vibrating screen 42 conveys the screened semi-finished stone materials to the transfer bin 9 through the transfer feeder 6, the transfer feeder 7 conveys the semi-finished stone materials from the transfer bin 9 to the three-stage crusher 34, and the stone materials crushed in the three-stage crusher 34 are lifted to the finished product conveyor belt 8 through the three-stage bucket elevator 35 and conveyed to the finished product stacking area through the finished product conveyor belt 8.

Example 3 as shown in fig. 1, is different from example 2 in that a stone layer with a particle size of 3cm is laid at the bottom of a steel plate of the installation platform 1, and the thickness of the stone layer is 7cm; the cross-shaped reinforcing ribs are welded at the points of force of the upright posts 11 and the cross beams 12, the points of force of the upright posts 11 comprise the connection parts with the keel frame 13 and the connection parts of the upright posts 11 and the steel plates, and the points of force of the cross beams 12 comprise the connection parts of the cross beams 12 and the keel frame 13, the connection parts of the cross beams 12 and the upright posts 11, and the like. The mounting platform buries underground with in the foundation ditch, and the stand passes through the girder steel in the foundation ditch and is connected with the lateral wall of foundation ditch.

The upright post 11 and the cross beam 12 can discharge the received pressure or the vibration deformation force to the square steel at the bottom through the reinforcing ribs, the square steel discharges the force to the steel plate, the steel plate discharges the pressure to the laid stone layers, the stone layers discharge the pressure to the ground, the stones are laid together in a crisscross manner, the supporting points are more, and when the strong pressure is faced, the stronger stability can be ensured; the vibration generated during the operation of the production line equipment can be given and dispersed by stones, so that the platform is kept stable and is not easy to sink.

The three-dimensional crushing and shaping system is buried in the foundation pit by using a layout platform, the foundation pit is filled with broken stone around the layout platform as backfill, and the buried depth of the layout platform for the three-dimensional crushing and shaping system after backfilling is 50% -95% of the total height of the platform.

A layout platform for a three-dimensional crushing and shaping system is built in a mine, wherein the total height of the layout platform for the three-dimensional crushing and shaping system is 3 meters, 2.5 meters are buried below the elevation + -0.00, the elevation + -0.00 is higher than 0.5 meters, and the buried depth is 2.5 meters and accounts for 83.3 percent of the total height of the platform; for example, a layout platform for a three-dimensional crushing and shaping system is built in a mine, wherein the total height of the layout platform for the three-dimensional crushing and shaping system is 3 meters, 2.8 meters are buried below the elevation + -0.00, the elevation + -0.00 is higher than 0.2 meters, and the buried depth is 2.5 meters and accounts for 93.3 percent of the total height of the platform; the larger the burying proportion of the layout platform for the three-dimensional crushing and shaping system is, the smaller the shaking of equipment is, so that the optimal burying depth is more than 50% of the total height of the platform and less than 95% of the total height of the platform;

embodiment 4, as shown in fig. 4-5, is different in that the anti-shake system 5 is further included, the anti-shake system 5 includes an anti-shake frame 51 and a damping counterweight load 52, the damping counterweight load 52 is suspended from the center of the anti-shake frame 51 by a rigging, and the damping configuration load part extends into the pool 15 through the keel frame 13; the highest position of the anti-shake frame 51 is higher than all the equipment installed in the crushing and shaping system, the top or side of the anti-shake frame 51 is connected with the highest point of all the equipment in the crushing and shaping system, the connection mode can be direct connection or indirect connection, the damping counterweight load 52 can be solid load or hollow load, and when the hollow load is reused, fillers are added into the hollow load, wherein common fillers are water, sand, gravel, metal, plain concrete and the like; the anti-shake stabilizing system 5 is arranged at the middle position of the layout platform for the whole three-dimensional crushing and shaping system.

Because the equipment is arranged on the layout platform for the three-dimensional crushing and shaping system, the equipment on the platform is arranged in a three-dimensional way, the top end height of the highest equipment is more than 10 meters, and a plurality of two-stage crushers 24, three-stage crushers 34 and vibrating screens 42 are started simultaneously, the whole unavoidable crushing and shaping system can generate vibration and shake to a certain extent, the vibration and shake can aggravate loosening of equipment fasteners and fatigue of parts, and the service lives of the equipment and the platform are reduced; the anti-shake stabilization system 5 is connected to the highest point of each device by providing a damping weight load 52, so that each device can be kept balanced by the damping weight load 52.

When the sand production line runs, the whole system can generate certain vibration and shake, when the highest point of the equipment transmits shake swing to the shake frame 51 of the shake swing stabilization system, the shake swing is transmitted to the damping counterweight load 52 by the shake frame 51 through the rigging 53, the damping counterweight load 52 has the blocking effect of rehydration so that the shake swing of the whole system is different from the shake swing frequency and direction of the crushing shaping system, and the reaction force with the different frequency and direction of the crushing shaping system is used for damping and dissipating energy to offset part of vibration and shake swing of the crushing shaping system, thereby providing equipment stability, reducing equipment failure rate and achieving the purpose of prolonging the service life of the equipment.

Embodiment 5 is shown in fig. 5, and is different from embodiments 1-4 in that a third-stage sand washing pool is arranged close to a third-stage sewage pool, a second-stage sand washing pool is arranged close to a second-stage sewage pool, a clean water pool comprises a second-stage clean water pool and a third-stage clean water pool, and the second-stage clean water pool and the third-stage clean water pool are respectively arranged close to the second-stage sand washing pool and the third-stage sand washing pool; the three-stage sand washing pool, the three-stage sewage pool, the three-stage clean water pool and the mounting platform form a three-stage crushing platform, and the two-stage sand washing pool, the two-stage sewage pool, the two-stage clean water pool and the mounting platform form a two-stage crushing platform; the screening sand washing pool and the installation platform are combined into a screening platform,

an overflow channel is arranged between the three-stage sand washing tank 32 and the three-stage sewage tank 31, sewage in the three-stage sand washing tank 32 can overflow to the three-stage sewage tank 31 through the overflow channel, an overflow channel is arranged between the two-stage sand washing tank 22 and the two-stage sewage tank 21, sewage in the two-stage sand washing tank 22 can overflow to the two-stage sewage tank 21 through the overflow channel, sewage pumps are arranged in the three-stage sewage tank 31 and the two-stage sewage tank 21, the sewage pumps are connected with a cyclone 102, an overflow pipe of the cyclone 102 is connected with a sedimentation tank 103, and a bottom flow port of the cyclone 102 is connected with the three-stage sand washing tank 32 or the two-stage sand washing tank 22; fine sand in the sludge collected by the cyclone 102 flows back to the three-stage sand washing pool 32 or the two-stage sand washing pool 22, and a lifter in the sand washing pool is fished out; the sedimentation tank 103 is connected with a filter press 104, and clean water treated by the filter press returns to the second-stage clean water tank 23 and the third-stage clean water tank 33; the second-stage clean water tank 23 and the third-stage clean water tank 33 are internally provided with clean water pumps which are used for lifting clean water to a water inlet of the device.

Any one of four side surfaces of the three-stage crushing platform 3 is connected and combined with any one of four side surfaces of the two-stage crushing platform 2 to form a layout platform for the three-dimensional crushing and shaping system; any one of the four side surfaces of the three-stage crushing platform 3 is connected and combined with any one of the four side surfaces of the two-stage crushing equipment installation platform, and the three-stage crushing platform further comprises a combined horizontal mirror image and a combined vertical mirror image; if the third lagoon 31 and the second lagoon 21 are connected to each other after the connection combination, the separation between the third lagoon 31 and the second lagoon 21 is canceled; if the third sewage tank 31 and the second sewage tank 21 cannot be connected to each other after the connection combination, the connection is made through a pipe; if the three-stage clean water tank 33 and the two-stage clean water tank 23 are connected with each other after the connection and combination, the separation between the three-stage clean water tank 33 and the two-stage clean water tank 23 is canceled; if the three-stage clean water tank 33 and the two-stage clean water tank 23 after the connection combination cannot be connected with each other, the connection is performed through a pipeline.

Three module platforms of the secondary crushing platform 2, the tertiary crushing platform 3 and the screening platform are used for constructing the layout platform for the three-dimensional crushing and shaping system, as four sides of the three module platforms can be connected with each other at will, the available combination modes are 4x4x4 = 64 combination modes, and the following two combination modes are listed for explanation:

combination form one: referring to fig. 6, a schematic diagram of the installation position of the anti-shake and anti-swing stabilization system of the platform after the first side of the installation platform of the three-stage crushing equipment and the fourth side of the installation platform of the three-stage crushing and shaping system are combined;

the three-stage clean water tank 33 and the two-stage clean water tank 23 after combination cannot be connected with each other, so that the three-stage clean water tank 33 and the two-stage clean water tank 23 are communicated by utilizing a pipeline; the three-stage sewage tank 31 and the two-stage sewage tank 21 are connected with each other after combination, and the separation between the three-stage clean water tank 33 and the two-stage clean water tank 23 is canceled except for the necessary reinforcement and connection in the equipment; the anti-shake frame 51 of the anti-shake swing stabilization system is installed at the center position of the combined installation platform close to the three-dimensional crushing and shaping system, particularly at the position between the three-stage crushing equipment installation platform and the two-stage crushing equipment installation platform, equipment installation is facilitated as much as possible, and the problems of cross and mutual interference among all conveyors are avoided according to the positions and feeding and discharging directions of the three-stage crusher 34, the three-stage chain bucket type sand washing elevator, the two-stage crusher 24 and the two-stage chain bucket type sand washing elevator, the ore classifying screen and the two-stage second chain bucket type sand washing elevator, and the bin is built at the periphery of the equipment by utilizing the difference in height among the equipment.

And a second combination form: referring to fig. 7, a schematic diagram of the installation position of the anti-shake stabilization system 5 and the second side of the installation platform of the three-stage crushing apparatus of the three-dimensional crushing and shaping system according to the present utility model are combined with the fourth side of the installation platform of the two-stage crushing apparatus; the three-stage clean water tank 33 and the two-stage clean water tank 23 after combination cannot be connected with each other, so that the three-stage clean water tank 33 and the two-stage clean water tank 23 are communicated by utilizing a pipeline; the three-stage sewage tank 31 and the two-stage sewage tank 21 are connected with each other after combination, and the separation between the three-stage clean water tank 33 and the two-stage clean water tank 23 is canceled except for the necessary reinforcement and connection in the equipment; the anti-shake frame 51 of the anti-shake swing stabilization system is installed at the center position of the combined installation platform close to the three-dimensional crushing and shaping system, particularly at the position between the three-stage crushing equipment installation platform and the two-stage crushing equipment installation platform, equipment installation is facilitated as much as possible, and the problems of cross and mutual interference among all conveyors are avoided according to the positions and feeding and discharging directions of the three-stage crusher 34, the three-stage chain bucket type sand washing elevator, the two-stage crusher 24, the two-stage chain bucket type sand washing elevator, the ore classifying screen and the two-stage second chain bucket type sand washing elevator, and the height difference among equipment is utilized at the periphery of the equipment.

The foregoing is merely exemplary embodiments of the present utility model, and specific structures and features that are well known in the art are not described in detail herein. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present utility model, and these should also be considered as the scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the utility of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (8)

1. A three-dimensional broken plastic overall arrangement platform for system, its characterized in that: the device comprises a water tank, wherein a damping mounting platform is arranged at the bottom of the water tank, crushing equipment is connected above the water tank through a bracket fixed on the mounting platform, the mounting platform comprises horizontal steel plates arranged along the horizontal direction, and a frame structure which is arranged vertically and horizontally on the same horizontal plane is welded on the horizontal steel plates; the water tank is formed by encircling the horizontal steel plate and a vertical steel plate arranged along the vertical direction; the bracket comprises an upright post arranged along the vertical direction and a cross beam arranged along the horizontal direction, and a keel frame for installing equipment is arranged at the top of the bracket; the sand washing transportation equipment is arranged in the water tank and is positioned at one end of the water tank far away from the equipment, and the sand washing transportation equipment is detachably connected with the upright post.

2. The layout platform for a stereoscopic crushing and shaping system according to claim 1, wherein: the stone is paved at the bottom of the installation platform, the particle size of the stone is 2-5cm, and the stone paving thickness is 6-10cm.

3. The layout platform for a stereoscopic crushing and shaping system according to claim 2, wherein: reinforcing ribs are fixed at stress points of the upright posts, and the reinforcing ribs are crisscrossed.

4. The layout platform for a stereoscopic crushing and shaping system according to claim 1, wherein: the water tank also comprises a secondary sand washing tank, a screening sand washing tank and a tertiary sand washing tank which wash sand step by step according to a production line, and the crushing equipment is communicated with a clean water tank through a pipeline; the third-stage sand washing pool overflows to the screening pool, and the screening pool overflows to the second-stage sand washing pool.

5. The layout platform for a three-dimensional crushing and shaping system according to claim 4, wherein: the secondary sand washing pool and the tertiary sand washing pool are vertically arranged, and the screening sand washing pool is transversely arranged; the screening sand washing pool, the secondary sand washing pool and the tertiary sand washing pool form a square structure.

6. The layout platform for a three-dimensional crushing and shaping system according to claim 4, wherein: install the shale shaker on the screening pond, the discharge end of sand washing transportation equipment is located the feed inlet top of shale shaker in the second grade sand washing pond, and the discharge end of sand washing transportation equipment in the screening pond is connected with the finished product conveyer belt, and the transfer feeder is connected with the transfer feed bin to the discharge gate of shale shaker, and crushing equipment on the tertiary sand washing pond is connected with the transfer feeder, and the discharge end of sand washing transportation equipment in the tertiary screening pond is located the finished product conveyer belt top.

7. The layout platform for a three-dimensional crushing and shaping system according to claim 4, wherein: the third-stage sand washing pool is close to the third-stage sewage pool, the second-stage sand washing pool is close to the second-stage sewage pool, the clean water pool comprises a second-stage clean water pool and a third-stage clean water pool, and the second-stage clean water pool and the third-stage clean water pool are respectively close to the second-stage sand washing pool and the third-stage sand washing pool; the three-stage sand washing pool, the three-stage sewage pool, the three-stage clean water pool and the mounting platform form a three-stage crushing platform, and the two-stage sand washing pool, the two-stage sewage pool, the two-stage clean water pool and the mounting platform form a two-stage crushing platform;

after the secondary crushing platform and the tertiary crushing platform are combined, the tertiary sewage tank and the secondary sewage tank can not be contacted with each other, and the secondary sewage tank and the tertiary sewage tank are connected through a pipeline; and after the secondary crushing platform and the tertiary crushing platform are combined, the tertiary clean water tank and the secondary clean water tank can not be contacted with each other, and then the secondary clean water tank and the tertiary clean water tank are connected through a pipeline.

8. The layout platform for a stereoscopic crushing and shaping system according to claim 2, wherein: the mounting platform is further provided with an anti-shake stabilizing system along the vertical direction, the anti-shake stabilizing system comprises a damping counterweight load and an anti-shake frame for mounting a damping configuration load, the damping counterweight load is suspended at the center of the anti-shake frame through a rigging, and the damping configuration load is partially immersed into a water pool.