CN114056774B - High-efficiency transportation equipment for nonmetallic mine - Google Patents

Abstract

The invention provides a high-efficiency transportation equipment for non-metallic ore. The high-efficiency transportation equipment for non-metallic minerals includes a transport box, a mounting box is fixedly installed above one end of the transport box, a placement slot for placing precious non-metallic minerals is opened in the transport box, and the transport box is located at the upper end of the placement slot. A double-opening door for closing the placing slot is rotatably connected at the place, a handle is installed on the double-opening door, and a protective component that can release granular protective objects to protect precious non-metallic minerals is also installed in the transport box; A partition assembly, used to separate the precious non-metallic ores put into the placement tank to prevent mutual collision and damage, is installed inside the placement tank. The high-efficiency transportation equipment for non-metallic ore provided by the invention has the advantages of convenient loading and unloading operation of precious non-metallic ore by filling plastic particles between precious non-metallic ore, high working efficiency, good buffer effect and high transportation safety.

Description

A kind of high-efficiency transportation equipment for non-metallic ore

technical field

The invention relates to the field of non-metallic ore transportation, in particular to a high-efficiency transportation device for non-metallic ore.

Background technique

Non-metallic minerals are relative to metal minerals, mainly diamond, graphite, crystal, corundum, asbestos, mica, gypsum, fluorite, gemstone, jade, agate, limestone, dolomite, quartzite, ceramic clay, refractory clay , marble, granite, salt mine, phosphate rock, etc. In the process of mining non-metallic ores, non-metallic ores are generally transported by transportation vehicles. The collision of non-metallic ores with each other during transportation will damage the minerals and cause great losses, especially the more precious gemstones and minerals. Jade minerals, etc., in order to protect the transportation safety of non-metallic ores and avoid the collision between non-metallic ores during transportation, the non-metallic ores are usually fixed with a pull rope, or a buffer is placed between them to protect the non-metallic ores. Safety of non-metallic mines.

It is more troublesome to fix the non-metallic ore by using the pull rope. In the process of protecting the non-metallic ore by placing buffers between the non-metallic ores, some buffers will be squeezed, making it difficult to take out, increasing the This increases the difficulty of cutting non-metallic ores, thereby affecting their work efficiency.

Therefore, it is necessary to provide a new high-efficiency transportation equipment for non-metallic ores to solve the above-mentioned technical problems.

SUMMARY OF THE INVENTION

In order to solve the above-mentioned technical problems, the present invention provides a high-efficiency transportation equipment for non-metallic ore, which is convenient for the loading and unloading operation of precious non-metallic ore, has high working efficiency, good buffering effect and high transportation safety.

The high-efficiency transportation equipment for non-metallic minerals provided by the present invention includes: a transport box, a mounting box is fixedly installed above one end of the transport box, a placing slot for placing precious non-metallic ores is opened in the transport box, and the transport box is located at the opening of the upper end of the placing slot A double-opening door for closing the storage slot is rotatably connected, a handle is installed on the double-opening door, and a protective component that can release granular protective materials to protect precious non-metallic minerals is also installed in the transport box, and the protective component includes a storage cavity , plastic granules, connecting pipe, pump body, suction pipe, feeding pipe and nozzle, the storage cavity for storing plastic granules is opened inside the transport box and is located under the placing slot, and the plastic granules are used for the placement of precious non-metallic minerals. Fill the gap after the tank, the connecting pipe used to connect the placing tank and the storage cavity is installed inside the transport box and far away from the installation box, and an electric control valve is installed on the connecting pipe. The material pipe is communicated with the storage cavity, and the pump body is also connected with a spray head through the material conveying pipe. The connecting pipes are all arranged on the same side, and the end of the suction pipe away from the pump body is located at the lower end of the bottom of the storage cavity; the separation component is used to separate the precious non-metallic minerals placed in the placing tank to prevent mutual collision and damage. The partition assembly is installed inside the placing slot. The separating assembly includes a storage board, a through slot, a metal baffle, a slot, a partition and a buffer cotton. The storage board is located inside the placing slot and is placed horizontally through the limit component. There are evenly distributed through grooves, and metal baffles for plastic particles to pass through are fixedly installed in the through grooves. There are slots on the storage board, and a plurality of removable partitions are inserted into the slots. , a plurality of partitions are arranged in cooperation with a plurality of through grooves, and buffer cottons are fixedly installed on both sides of the partitions.

Preferably, a suction cylinder is fixedly installed on the inner wall of the lower end of the bottom of the storage cavity, both ends of the suction cylinder are open, and the end of the suction pipe away from the pump body communicates with the middle of the suction cylinder.

Preferably, a storage slot is provided on one side wall of the installation box close to the storage slot, and both the feeding pipe and the nozzle are located in the storage slot, and a revolving door is rotatably connected to the opening of the storage slot.

Preferably, the number of limit assemblies is two sets, and the two sets of limit assemblies are respectively disposed close to both sides of the placement slot, and each set of limit assemblies includes two fixed cylinders, two slide plates, two buffer springs, two The connecting block and a horizontal plate, two fixed cylinders are symmetrically and fixedly installed at the bottom of the placing slot, and the two sliding plates are respectively slidably connected to the inside of the two fixed cylinders and are respectively elastically connected to the inner bottom of the fixed cylinder through a buffer spring. The connecting blocks are respectively fixed and installed on the upper ends of the two sliding plates and extend to the top of the corresponding fixing cylinders to be fixedly connected with the horizontal plates, and the two sets of horizontal plates are located on the same horizontal plane.

Preferably, the double-opening box door includes two box doors, and the ends of the two box doors that are far away from each other are respectively rotatably connected to the side walls on both sides of the upper end of the transport box, and a connecting assembly is installed on the double-opening box door. A fixed tube, a second fixed tube, a limit rod, a collar, a limit ring and a return spring, the first fixed tube and the second fixed tube are respectively fixed and installed on the two box doors of the double-opening box door, and the limit rod The second fixing tube is inserted through the second fixing tube and the end is inserted into the first fixing tube, the collar is fixedly sleeved on the limiting rod, and the limiting ring is fixedly installed inside the second fixing tube and is elastically connected with the collar through the return spring, The collar is located between the first fixing tube and the limiting ring.

Preferably, two sets of buckle grooves are formed on the storage board, and the two sets of buckle grooves are arranged vertically through the storage board, and the two sets of buckle grooves and the two sets of limit components are arranged staggered.

Compared with the related art, the high-efficiency transportation equipment for non-metallic ore provided by the present invention has the following beneficial effects:

1. By laying a layer of plastic particles at the bottom of the placing tank and filling the gaps between a plurality of precious non-metallic ores, the present invention does not require the precious non-metallic ores to be fixed by the rope, which simplifies the loading of the precious non-metallic ores. At the same time, during the transportation process, the plastic particles will protect the precious non-metallic ores, have a certain buffering effect on the precious non-metallic ores, and at the same time prevent the precious non-metallic ores from colliding with each other and damage, and protect the transportation safety of the precious non-metallic ores , When the precious non-metallic ore is unloaded, the fluidity of the plastic particles will flow into the storage cavity through the connecting pipe, so that the precious non-metallic ore will leak out, which is convenient for the unloading operation of the precious non-metallic ore, and the work efficiency is high;

2. The plastic particles used to protect the precious non-metallic ores in the present invention have low cost, have a certain elasticity, can buffer the impact force to a certain extent, and the tightly packed plastic particles can limit the precious metal ores to a certain extent. bit effect;

3. The partition assembly in the present invention is placed in the placing tank and kept in a horizontal state, the precious non-metallic ore is placed on the shelf, separated by a partition, and the buffer cotton protects the precious non-metallic ore to prevent impact damage, and further The transportation safety of precious non-metallic ores can be improved. According to the size of precious non-metallic ores, the position of the partitions inserted into the slots can be changed and the number of partitions can be reduced to achieve the placement and protection of precious non-metallic ores of different sizes. Improve the scope of application of the device;

4. In the present invention, a limit component is set, and the partition component is placed inside the placement tank, and its bottom is in contact with the horizontal plate. When the transport box shakes, the partition component and the precious non-metallic ore squeeze the horizontal plate, and the impact force passes through the connecting block. It is transmitted to the sliding plate to squeeze the buffer spring, and the impact force is slowed down by the elastic restoring force of the buffer spring, so that the device has a certain buffer effect, thereby improving the transportation safety of precious non-metallic ore.

Description of drawings

1 is a schematic structural diagram of a preferred embodiment of the high-efficiency transportation equipment for non-metallic minerals provided by the present invention;

Fig. 2 is the structural representation inside the transport box in the present invention;

Fig. 3 is the half-section structure schematic diagram of the transport box in the present invention;

4 is a schematic structural diagram of a storage board in the present invention;

Fig. 5 is the structural representation of the separator in the present invention;

6 is a schematic structural diagram of a connection assembly in the present invention;

7 is a schematic structural diagram of a protection assembly in the present invention;

FIG. 8 is a schematic structural diagram of the limiting assembly in the present invention.

Labels in the figure: 1, transport box; 2, installation box; 3, placement slot; 4, double-opening door; 5, handle; 6, protection component; 61, storage cavity; 62, plastic particles; 63, connecting pipe; 64, pump body; 65, suction pipe; 66, conveying pipe; 67, nozzle; 68, suction cylinder; 69, storage slot; 69a, revolving door; 7, partition assembly; 71, storage board; 72, through groove ;73, metal mesh; 74, slot; 75, clapboard; 76, buffer cotton; 8, limit component; 81, fixed cylinder; 82, slide plate; 83, buffer spring; 84, connecting block; 85, horizontal plate; 9, connecting assembly; 91, first fixing tube; 92, second fixing tube; 93, limit rod; 94, collar; 95, limit ring; 96, return spring.

Detailed ways

The present invention will be further described below with reference to the accompanying drawings and embodiments.

Please refer to FIG. 1-FIG. 8, wherein, FIG. 1 is a schematic structural diagram of a preferred embodiment of the high-efficiency transport equipment for non-metallic minerals provided by the present invention; FIG. 2 is a schematic structural diagram of the interior of the transport box in the present invention; FIG. 3 is a schematic diagram of the half-section structure of the transport box in the present invention; FIG. 4 is a schematic diagram of the structure of the storage board in the present invention; FIG. 5 is a schematic diagram of the structure of the partition plate in the present invention; FIG. 6 is a schematic structural diagram of the connecting assembly in the present invention; FIG. 7 is a schematic structural diagram of a protection assembly in the present invention; and FIG. 8 is a structural schematic diagram of a limiting assembly in the present invention. It includes: a transport box 1, an installation box 2, a placement slot 3, a double-opening box door 4, a handle 5, a protection component 6, a partition component 7, a limit component 8 and a connection component 9.

In the specific implementation process, as shown in Figure 1, Figure 2, Figure 3 and Figure 7, a transport box 1, a mounting box 2 is fixedly installed above one end of the transport box 1, and a place for placing precious non-metallic minerals is opened in the transport box 1 Slot 3, and the transport box 1 is located at the opening of the upper end of the placement slot 3 and is rotatably connected with a double-opening door 4 for closing the placement slot 3, a handle 5 is installed on the double-opening door 4, and releasable particles are also installed in the transport box 1 A protective component 6 for protecting precious non-metallic minerals by a protective object in the form of a protective material. The protective component 6 includes a storage cavity 61, plastic particles 62, a communication pipe 63, a pump body 64, a suction pipe 65, a feeding pipe 66 and a spray head 67. The storage cavity 61 for storing the plastic particles 62 is opened inside the transport box 1 and is located under the placing slot 3. The plastic particles 62 are used for filling the gap of the precious non-metallic ore into the placing slot 3, and are used to connect the placing slot 3 and the storage slot 3. The communication pipe 63 of the cavity 61 is installed inside the transport box 1 and is far away from the installation box 2, and an electric control valve is installed on the communication pipe 63. The pump body 64 is installed in the transport box 1 and communicates with the storage cavity 61 through the suction pipe 65. , the pump body 64 is also connected with a nozzle 67 through the feeding pipe 66;

It should be noted that: during the use of the device, the double-opening door 4 is opened through the handle 5, the partition assembly 7 is located inside the placing slot 3, the electric control valve controls the communication pipe 63 to close, so that it is in a closed state, and the pump body 64 passes through The suction pipe 65 sucks the plastic particles 62 inside the storage cavity 61, and the plastic particles 62 are transported through the feeding pipe 66. The staff holds the spray head 67 and aligns it with the bottom of the placing slot 3 to spray the plastic particles 62. 3. Fill the bottom with a layer of plastic particles 62, put the precious non-metallic ore into the partition assembly 7, and then fill the gap between the precious non-metallic ores with plastic particles 62. After filling, close the double-opening door When the slot 3 is closed, the transport box 1 can be transported by the transport equipment. When the transport box 1 encounters an uneven ground during transportation, the transport box 1 will vibrate and be filled between multiple precious non-metallic minerals. The plastic particles 62 at the gap will protect the precious non-metallic ores. When the precious non-metallic ores slide, the plastic particles 62 will be squeezed. At the same time, the precious non-metallic ores collide with each other and are prevented from being damaged. When the precious non-metallic ores in the placing tank 3 need to be unloaded, the communication pipe 63 is opened through the electric control valve, and the plastic particles 62 in the placing tank 3 will be removed. Flow into the storage cavity 61 through the communication pipe 63, so that the precious non-metallic ore on the partition assembly 7 leaks out, and the precious non-metallic ore can be unloaded;

Among them, the plastic particles 62 have low cost and certain elasticity, which can buffer the impact force to a certain extent, and the tightly packed plastic particles 62 can limit the precious metal ore to a certain extent;

By laying a layer of plastic particles 62 at the bottom of the placing tank 3 and filling the gaps between a plurality of precious non-metallic ores, the present invention does not require the precious non-metallic ores to be fixed by ropes, which simplifies the loading of precious non-metallic ores At the same time, during the transportation process, the plastic particles 62 will protect the precious non-metallic ores, have a certain buffering effect on the precious non-metallic ores, and at the same time prevent the precious non-metallic ores from being damaged by collision with each other, thus protecting the transportation of the precious non-metallic ores Safety, when the precious non-metallic ores are unloaded, the fluidity of the plastic particles 62 will flow into the storage cavity 61 through the communication pipe 63, so that the precious non-metallic ores will leak out, which is convenient for the unloading operation of the precious non-metallic ores. high working efficiency.

Wherein, the inner bottoms of the placing tank 3 and the storage cavity 61 are inclined, and the lower end of the inner bottom of the placing tank 3, the higher end of the inner bottom of the storage cavity 61 and the communication pipe 63 are all located on the same side, and the suction pipe is arranged on the same side. The end of 65 away from the pump body 64 is located at the lower end of the inner bottom of the storage cavity 61;

It should be noted that: when the precious non-metallic ore is unloaded, the electronically controlled valve opens the communication pipe 63, and the plastic particles 62 will slide to the lower part of the placing tank 3 through their own certain fluidity, and then from the storage cavity 61. The higher part falls to its lower part, so that the plastic particles 62 can easily enter the interior of the storage cavity 61 .

Referring to FIG. 7 , a suction cylinder 68 is fixedly installed on the inner wall of the lower end of the inner bottom of the storage cavity 61 , and both ends of the suction cylinder 68 are open, and the suction pipe 65 is away from one end of the pump body 64 and the middle of the suction cylinder 68 . connected;

It should be noted that: by installing the suction cylinder 68 with double openings at the end of the suction pipe 65, it can be avoided that when the suction pipe 65 only sucks the plastic particles 62 from one end, a part of the plastic particles 62 cannot be absorbed.

Referring to FIGS. 1 and 2 , a side wall of the installation box 2 close to the placement slot 3 is provided with a storage slot 69, and the conveying pipe 66 and the spray head 67 are both located in the storage slot 69, and the opening of the storage slot 69 is rotatably connected. There is a revolving door 69a;

It should be noted that: the feeding pipe 66 and the spray head 67 are placed in the storage slot 69 on the installation box 2 for easy access, and are protected by the revolving door 69a to facilitate their use.

Referring to Figures 2, 4 and 5, a partition assembly 7 used to separate the precious non-metallic minerals placed inside the placement tank 3 to prevent mutual collision and damage is installed inside the placement tank 3, and the partition assembly 7 includes a storage board 71. , through slot 72, metal blocking net 73, slot 74, baffle 75 and buffer cotton 76, the storage board 71 is located inside the storage slot 3 and is placed horizontally through the limit component 8, and a plurality of evenly distributed A through-slot 72, and a plurality of through-slots 72 are fixedly installed with metal blocking nets 73 through which the plastic particles 62 can pass. A slot 74 is opened on the storage board 71, and a plurality of removable and pluggable multiple slots are inserted in the slot 74. a plurality of separators 75, the plurality of separators 75 are arranged in cooperation with the plurality of through grooves 72, and buffer cottons 76 are fixedly installed on both sides of the separators 75;

It should be noted that: the partition assembly 7 is placed in the placing slot 3 and kept in a horizontal state, the precious non-metallic ore is placed on the placing plate 71 and separated by the partition plate 75, and the metal screen 73 in the through slot 72 is used for plastic The passage of the particles 62, the buffer cotton 76 on the partition plate 75 protects the precious non-metallic ore from impact damage, which further improves the transportation safety of the precious non-metallic ore. The partition plate 75 can be changed according to the size of the precious non-metallic ore. The position inserted into the slot 74 and the number of partitions 75 are reduced, so as to achieve the placement and protection of precious non-metallic minerals of different sizes, and improve the applicable scope of the device.

Referring to FIGS. 3 and 8 , there are two sets of limit assemblies 8 , and the two sets of limit assemblies 8 are respectively disposed close to both sides of the placement slot 3 , and each set of limit assemblies 8 includes two fixed cylinders 81 , two Two sliding plates 82 , two buffer springs 83 , two connecting blocks 84 and one horizontal plate 85 , two fixed cylinders 81 are symmetrically and fixedly installed on the bottom of the placing slot 3 , and two sliding plates 82 are respectively slidably connected to the two fixed cylinders 81 The interior is elastically connected to the inner bottom of the fixed cylinder 81 through a buffer spring 83 respectively, and the two connecting blocks 84 are fixedly installed on the upper ends of the two slide plates 82 and extend to the top of the corresponding fixed cylinder 81 to be fixedly connected to the horizontal plate 85. The horizontal plate 85 is located on the same horizontal plane;

It should be noted that: the partition assembly 7 is placed inside the placement tank 3, and its bottom is in contact with the horizontal plate 85. When the transport box 1 shakes, the partition assembly 7 and the precious non-metallic ore squeeze the horizontal plate 85, and the impact force is connected through the connection. The block 84 is transmitted to the sliding plate 82 to squeeze the buffer spring 83, and the impact force is slowed down by the elastic restoring force of the buffer spring 83, so that the device has a certain buffer effect, thereby improving the transportation safety of precious non-metallic minerals;

The two sets of horizontal plates 85 are located on the same horizontal plane, so that the partition assembly 7 is positioned horizontally inside the placement tank 3 to maintain the flatness of the partition assembly 7, and the partition assembly 7 is placed inclined to make the precious non-metallic ore slant and slide.

Referring to FIGS. 1 and 6 , the double-opening box door 4 includes two box doors, and the ends of the two box doors that are far away from each other are respectively rotatably connected to the side walls on both sides of the upper end of the transport box 1. The double-opening box door 4 is installed with a The connecting assembly 9 includes a first fixing tube 91, a second fixing tube 92, a limit rod 93, a collar 94, a limit ring 95 and a return spring 96. The first fixing tube 91 and the second fixing tube 92 are respectively It is fixedly installed on the two box doors of the double-opening box door 4, and the limit rod 93 passes through the second fixed pipe 92 and the end is inserted into the first fixed pipe 91, and the collar 94 is fixedly sleeved on the limit rod 93. , and the limiting ring 95 is fixedly installed inside the second fixing tube 92 and is elastically connected with the collar 94 through the return spring 96, and the collar 94 is located between the first fixing tube 91 and the limiting ring 95;

It should be noted that: when closing the double-opening box door 4, it is necessary to first close the box door on which the first fixing pipe 91 is installed, and then close the other box door, pull the end of the limit rod 93 to retract the other end into the second fixing tube 92, at this time, the collar 94 will squeeze the return spring 96, the box door is closed, and the limit rod 93 is released, under the elastic force of the return spring 96, the end of the limit rod 93 The opening portion will be inserted into the first fixing pipe 91, thereby restricting the double-opening door 4 so that it cannot be opened, and the operation is convenient.

Wherein, the storage board 71 is provided with two sets of buckle grooves, and the two sets of buckle grooves are arranged vertically through the storage board 71, and the two sets of buckle grooves and the two sets of limit components 8 are arranged alternately;

It should be noted that: by setting the buckle grooves staggered with the limiting component 8, it is convenient for the staff to take out the partition component 7 from the inside of the placement groove 3 by holding the buckle grooves by hand.

The working principle provided by the present invention is as follows: during the use of the device, the staff pulls the end of the limit rod 93 with one hand to retract the other end into the second fixing tube 92, and opens the double-opening door with the other hand through the handle 5 4. The electric control valve controls the communication pipe 63 to be closed, so that it is in a closed state. The pump body 64 sucks the plastic particles 62 inside the storage cavity 61 through the suction pipe 65, and transports the plastic particles 62 through the feeding pipe 66. The person holds the spray head 67 and aligns it with the bottom of the placement tank 3 to spray plastic particles 62 , fills the bottom of the placement tank 3 with a layer of plastic particles 62 , and places the precious non-metallic ore on the storage board 71 , which is separated by a partition 75 , the metal screen 73 in the through groove 72 is used for the passage of the plastic particles 62, the buffer cotton 76 on the partition plate 75 protects the precious non-metallic ores, and then the gaps between the precious non-metallic minerals are filled with the plastic particles 62, After filling, close the double-opening box door 4. When closing the double-opening box door 4, it is necessary to first close the box door on which the first fixed pipe 91 is installed. After closing the other box door, pull the end of the limit rod 93, The other end is retracted to the inside of the second fixing tube 92. At this time, the collar 94 will squeeze the return spring 96, the box door will be closed, and the limit rod 93 will be released. Under the elastic force of the return spring 96, The end of the limiting rod 93 will be inserted into the first fixing pipe 91, so as to limit the double-opening door 4 and close the placement slot 3, so that the transport box 1 can be transported by the transport equipment. When encountering uneven ground during the process, the transport box 1 will vibrate, and the plastic particles 62 filled in the gaps between multiple precious non-metallic ores will protect the precious non-metallic ores. It will squeeze the plastic particles 62. The plastic particles 62 that are squeezed each other have a certain buffering effect, and have a certain buffering effect on the precious non-metallic ores. When feeding, the electronically controlled valve opens the communication pipe 63, the plastic particles 62 will slide to the lower part of the placing tank 3 through their own certain fluidity, and then fall from the higher part of the storage cavity 61 to the lower part, so that the separation components The precious non-metallic ore on 7 leaks out, and the precious non-metallic ore can be unloaded.

The circuits and controls involved in the present invention are all in the prior art, and are not repeated here.

The above descriptions are only the embodiments of the present invention, and are not intended to limit the scope of the present invention. Any equivalent structure or equivalent process transformation made by using the contents of the description and drawings of the present invention, or directly or indirectly applied to other related technologies Fields are similarly included in the scope of patent protection of the present invention.

Claims (6)

1. A non-metallic ore high efficiency transportation apparatus, comprising:

the transportation box comprises a transportation box (1), wherein an installation box (2) is fixedly installed above one end of the transportation box (1), a placing groove (3) for placing precious non-metal ores is formed in the transportation box (1), the transportation box (1) is located at an opening at the upper end of the placing groove (3) and is rotatably connected with a double-opening box door (4) for sealing the placing groove (3), a handle (5) is installed on the double-opening box door (4), a protection assembly (6) capable of releasing granular protection materials to protect the precious non-metal ores is further installed in the transportation box (1), the protection assembly (6) comprises a storage cavity (61), plastic particles (62), a communication pipe (63), a pump body (64), a suction pipe (65), a conveying pipe (66) and a spray head (67), the storage cavity (61) is used for storing the plastic particles (62) and is arranged inside the transportation box (1) and is located below the placing groove (3), the plastic particles (62) are used for filling gaps of the precious non-metal ores after the precious non-metal ores are placed in the placing groove (3), the communicating pipe (63) for communicating the placing groove (3) and the storage chamber (61) is arranged inside the transport case (1) and far away from the installation case (2), an electric control valve is arranged on the communicating pipe (63), the pump body (64) is arranged in the transport box (1) and is communicated with the storage cavity (61) through a material sucking pipe (65), the pump body (64) is also connected with a spray head (67) through a material conveying pipe (66), the placing groove (3) and the inner bottom of the storage cavity (61) are both obliquely arranged, and the lower end of the inner bottom of the placing groove (3), the higher end of the inner bottom of the storage cavity (61) and the communicating pipe (63) are arranged on the same side, one end of the material suction pipe (65) far away from the pump body (64) is positioned at the lower end of the bottom in the storage cavity (61);

the partition assembly (7) is used for separately placing precious non-metal ores placed in the placing groove (3) to prevent mutual collision and damage, the partition assembly (7) is installed inside the placing groove (3), the partition assembly (7) comprises an object placing plate (71), through grooves (72), metal blocking nets (73), inserting grooves (74), partition plates (75) and buffer cotton (76), the object placing plate (71) is located inside the placing groove (3) and horizontally placed through a limiting assembly (8), a plurality of uniformly distributed through grooves (72) are formed in the object placing plate (71), the metal blocking nets (73) allowing plastic particles (62) to pass through are fixedly installed in the through grooves (72), the inserting grooves (74) are formed in the object placing plate (71), the partition plates (75) capable of being pulled and inserted are inserted in the inserting grooves (74), and the partition plates (75) are matched with the through grooves (72), buffer cotton (76) is fixedly arranged on both sides of the partition plate (75).

2. The high-efficiency transportation equipment for the nonmetallic mine according to claim 1, wherein a suction tube (68) is fixedly installed on the inner wall of the lower end of the bottom in the storage cavity (61), both ends of the suction tube (68) are opened, and one end of the suction tube (65) far away from the pump body (64) is communicated with the middle of the suction tube (68).

3. The high-efficiency transportation equipment for the nonmetallic mine according to claim 1, wherein a storage groove (69) is formed in one side wall of the installation box (2) close to the placement groove (3), the material conveying pipe (66) and the spray head (67) are both positioned in the storage groove (69), and a revolving door (69 a) is rotatably connected to an opening of the storage groove (69).

4. The high-efficiency transportation equipment for nonmetallic ore according to claim 1, wherein the number of the limiting assemblies (8) is two, and the two limiting assemblies (8) are respectively arranged near both sides of the placement groove (3), each limiting assembly (8) comprises two fixed cylinders (81), two sliding plates (82), two buffer springs (83), two connecting blocks (84) and a horizontal plate (85), the two fixed cylinders (81) are symmetrically and fixedly arranged at the bottom of the placement groove (3), the two sliding plates (82) are respectively connected inside the two fixed cylinders (81) in a sliding manner and are respectively connected with the inner bottom of the fixed cylinders (81) through one buffer spring (83) in an elastic manner, the two connecting blocks (84) are respectively fixedly arranged at the upper ends of the two sliding plates (82) and extend to the upper side of the corresponding fixed cylinder (81) and are fixedly connected with the horizontal plate (85), the two groups of horizontal plates (85) are positioned on the same horizontal plane.

5. The high-efficiency transportation equipment for nonmetallic ore according to claim 1, wherein the double-open box door (4) comprises two box doors, one ends of the two box doors, which are far away from each other, are rotatably connected with the side walls on two sides of the upper end of the transportation box (1) respectively, the double-open box door (4) is provided with the connecting assembly (9), the connecting assembly (9) comprises a first fixed pipe (91), a second fixed pipe (92), a limiting rod (93), a sleeve ring (94), a limiting ring (95) and a return spring (96), the first fixed pipe (91) and the second fixed pipe (92) are respectively and fixedly installed on the two box doors of the double-open box door (4), the limiting rod (93) penetrates through the second fixed pipe (92) and the end part is inserted in the first fixed pipe (91), the sleeve ring (94) is fixedly sleeved on the limiting rod (93), and the limiting ring (95) is fixedly installed inside the second fixed pipe (92) and passes through the return spring (96) and the sleeve ring (94) The elastic connection is realized, and the lantern ring (94) is positioned between the first fixing pipe (91) and the limiting ring (95).

6. The high-efficiency transportation equipment for the nonmetallic mine according to claim 4, wherein two groups of catching grooves are formed in the object placing plate (71), and both the two groups of catching grooves vertically penetrate through the object placing plate (71), and the two groups of catching grooves are staggered with the two groups of limiting assemblies (8).

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