CN111627587A

CN111627587A - A automatic recovery plant of protecting against radiation for uranium ore

Info

Publication number: CN111627587A
Application number: CN202010524267.6A
Authority: CN
Inventors: 王彪
Original assignee: Fuzhou Gemoto Electronic Technology Co ltd
Current assignee: Nanjing Lishui Hi Tech Industry Equity Investment Co Ltd
Priority date: 2020-06-10
Filing date: 2020-06-10
Publication date: 2020-09-04
Anticipated expiration: 2040-06-10
Also published as: CN111627587B

Abstract

The invention discloses radiation-proof automatic recovery equipment for uranium ores, which comprises a machine body, wherein a cavity is arranged in a side wall body on the machine body; the lifting device is arranged, so that the collecting box can move upwards to be in contact with the mining opening on the upper side of the tunnel, and excessive contact of uranium ores with air is reduced; the uranium mining machine is provided with the switching device, and collected uranium ores can be recovered and sealed through the sealing door; the uranium ore injection device is provided with the injection device and the radiation-proof storage device, the damage of radiation to human bodies can be greatly reduced by mixing the uranium ore particles with the special liquid, and the uranium ore injection device is convenient to store and transport.

Description

A automatic recovery plant of protecting against radiation for uranium ore

Technical Field

The invention relates to the technical field of radiation-proof equipment, in particular to radiation-proof automatic recovery equipment for uranium ores.

Background

The uranium ore is one of rare ores with radiation, machine remote control is needed in the whole process of mining, and general uranium ores are recovered after mining, so that the air contains a large amount of uranium ore powder, and the method is very unfavorable for human bodies; and after the uranium ore is returned again, the uranium ore can be stored and transported after being subjected to multi-layer treatment by other equipment, a large amount of time, material and financial resources are generally consumed, and therefore the radiation-proof automatic recovery equipment for the uranium ore needs to be designed.

Disclosure of Invention

The invention aims to provide radiation-proof automatic recovery equipment for uranium ores, which is used for overcoming the defects in the prior art.

The radiation-proof automatic recovery equipment for the uranium ores comprises a machine body, a cavity is arranged in a wall body on the upper side of the machine body, a lifting plate is arranged in the cavity in a sliding mode, a collecting box used for collecting the uranium ores is arranged on a rotating shaft on the upper side of the lifting plate, the collecting box comprises first spring cavities symmetrically arranged in left and right side wall bodies of the cavity, an L-shaped push rod is arranged in the first spring cavity in a sliding mode, a first extension spring is arranged between the bottom wall of the first spring cavity and the L-shaped push rod, a first through hole penetrates through the left and right sides of the L-shaped push rod, second through holes which are communicated with the spring cavities are symmetrically arranged on the left and right sides of the collecting box, a first gear cavity is arranged between the outer side of the collecting box and the side wall body of the cavity, an outer gear capable of rotating is fixedly arranged on the outer side wall body of the collecting box in the first gear cavities on the left and two carry out the fixed connection piece of intercommunication, be equipped with the check valve who is used for the one-way circulation of liquid in the fixed connection piece, the collecting box downside is equipped with the lift chamber, the lift intracavity is equipped with and is used for the collecting box carries out the elevating gear who goes up and down, the internal being equipped with of lateral wall is used for behind the cavity the collecting box carries out sealed switching device, the cavity left side is equipped with gear chamber two, gear chamber two left sides are equipped with first synchronous pulley chamber, first synchronous pulley chamber downside is equipped with and is used for sealedly the collecting box pours into the injection device of special liquid into, gear chamber two downside is equipped with second synchronous pulley chamber, second synchronous pulley chamber right side is equipped with the radiation protection saving device that is used for containing the mixed liquid of uranium ore to extract.

On the basis of the technical scheme, the lifting device comprises a fixed plate fixedly installed on the bottom side of the lifting cavity, a fixed support used for fixing is fixedly arranged on the wall body on the upper side of the fixed plate, a sliding groove is formed in the right side of the fixed plate, an oil tank is fixedly arranged on the wall body on the right side of the sliding groove, a hydraulic cylinder is fixedly arranged on the left side of the oil tank, a driving rod is slidably arranged in the hydraulic cylinder, a sliding block on the left side of the sliding groove is fixedly arranged on the left side of the driving rod, a hinge rod connected with each other through hinges is rotatably arranged on the fixed support and the sliding block, and a fixing frame fixedly installed on the.

On the basis of the technical scheme, the switching device comprises a first rotating shaft which is arranged between a first synchronous pulley cavity and a second gear cavity in a rotating mode, a forward and reverse rotating motor is fixedly arranged in the left side wall body of the first synchronous pulley cavity, a power output shaft on the forward and reverse rotating motor is fixedly installed with the first rotating shaft, a rotating cavity is arranged between the first synchronous pulley cavity and the second gear cavity, a rotating box is rotatably arranged on the first rotating shaft in the rotating cavity, a fixed block is fixedly arranged on the inner side wall body of the rotating box and is abutted to a rotating plate in splined connection with the first rotating shaft, a spline bevel gear which is in splined connection with the first rotating shaft and extends into the second gear cavity is fixedly arranged on the right side of the rotating plate, a moving sliding plate cavity is arranged on the upper side of the rotating box, and a moving sliding plate with a lower side wall body in meshed connection with the outer side wall body of the rotating box is slidably arranged in the moving sliding, and the right side wall body of the movable sliding plate is fixedly installed with a closed door arranged in the cavity rear side wall body in a sliding manner.

On the basis of the technical scheme, the injection device comprises a special liquid tank arranged on the lower side of the first synchronous pulley cavity in the machine body, a compression cavity is arranged on the right side of the first synchronous pulley cavity, a spring cavity II is arranged on the right side of the compression cavity, a transmission shaft is rotatably arranged between the first synchronous pulley cavity and the spring cavity II, the transmission shaft capable of sliding left and right is rotatably arranged between the first synchronous pulley cavity and the spring cavity II, a first synchronous pulley is fixedly arranged on the rotating shaft I in the first synchronous pulley cavity, a spline gear is arranged on the transmission shaft in the first synchronous pulley cavity, a second synchronous pulley internally provided with a spline gear is rotatably arranged on the transmission shaft, a first synchronous pulley is arranged between the first synchronous pulley and the second synchronous pulley, a first electromagnet capable of being electrified to slide left and right is rotatably arranged in the right side wall body of the transmission shaft in the spring cavity II, an electromagnet II is fixedly arranged on the wall body on the right side of the spring cavity II, a telescopic spring II is arranged between the electromagnet I and the electromagnet II, an auxiliary block is fixedly arranged on the transmission shaft in the compression cavity, a spring cavity III is arranged on the auxiliary block by taking the transmission shaft as a central annular array, an air pressure slide block is slidably arranged in the spring cavity III, a telescopic spring III is fixedly arranged between the air pressure slide block and the bottom of the spring cavity III, the air pressure slide block is always contacted with the inner wall of the compression cavity through the telescopic spring III, a pipeline I communicated with the special liquid tank is arranged on the lower side of the compression cavity, a sliding pressure cavity is arranged in the wall body on the left side of the first synchronous pulley cavity, an oil pipe is arranged in the wall body on the left side of the sliding pressure cavity, a sliding rod is slidably arranged on the right side of the oil pipe on the left side of the sliding pressure cavity, and a telescopic, the rotating shaft I on the left side of the rotating plate in the rotating box is rotatably provided with a moving ring connected with the oil pipe, and the left side of the fixed connecting block on the left side of the cavity is provided with a pipeline II communicated with the through hole II.

On the basis of the technical scheme, the radiation-proof storage device comprises a storage box arranged on the lower side of a second synchronous pulley cavity, a gear pump cavity is arranged on the right side of the lifting cavity, a rotating shaft two is rotatably arranged between the gear cavity two and the second synchronous pulley cavity, a rotating shaft three is rotatably arranged between the gear pump cavity and the second synchronous pulley cavity, a first conical gear is fixedly arranged on the rotating shaft two in the gear cavity two, a first gear meshed with the outer side gear is fixedly arranged on the rotating shaft two on the lower side of the first conical gear, a third synchronous pulley capable of only performing single rotation is rotatably arranged on the rotating shaft two in the second synchronous pulley cavity, a fourth synchronous pulley is fixedly arranged on the rotating shaft three in the second synchronous pulley cavity, a second synchronous pulley is arranged between the third synchronous pulley and the fourth synchronous pulley, and a second conical gear is fixedly arranged on the rotating shaft three in the second synchronous pulley cavity, two rear side meshing of conical gear are connected with conical gear three, three rear sides of conical gear have set firmly gear two, two right side meshing of gear are connected with useful gear three, gear pump chamber downside be connected with bin right side wall body connected's pipeline three is located the cavity right side fixed connection piece right side is connected with pipeline four, pipeline four with gear pump chamber is connected, through in the gear pump chamber gear two with gear three rotates, and is right mixed liquid in the collecting box passes through five extractions of pipeline are arrived the bin seals and stores.

The invention has the beneficial effects that: the collecting box is used for collecting and temporarily storing the uranium ores after mining, and the through holes II can be communicated and opened through the L-shaped push rods when the uranium ores return to the initial position after collection;

the lifting device is arranged, so that the collecting box can move upwards to be in contact with the mining opening on the upper side of the tunnel, and excessive contact of uranium ores with air is reduced; the uranium mining machine is provided with the switching device, and collected uranium ores can be recovered and sealed through the sealing door; the uranium ore injection device is provided with the injection device and the radiation-proof storage device, the damage of radiation to human bodies can be greatly reduced by mixing the uranium ore particles with the special liquid, and the uranium ore injection device is convenient to store and transport.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of an automatic radiation-proof recovery apparatus for uranium ores;

FIG. 2 is a cross-sectional view taken at "A-A" of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of a portion of the invention at B in FIG. 1;

FIG. 4 is an enlarged view of a portion of the invention at C in FIG. 1;

FIG. 5 is an enlarged view of a portion of the invention at D in FIG. 1;

fig. 6 is a partial enlarged view at E in fig. 1 of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 6, the automatic radiation-proof recovery equipment for uranium ores according to the embodiment of the invention comprises a machine body 10, a cavity 37 is arranged in an upper side wall body of the machine body 10, a lifting plate 80 is slidably arranged in the cavity 37, a collecting box 81 for collecting uranium ores is arranged on a rotating shaft on the upper side of the lifting plate 80, the collecting box 81 comprises spring cavities 46 symmetrically arranged in left and right side wall bodies of the cavity 37, an L-shaped push rod 48 is slidably arranged in the spring cavities 46, a telescopic spring 47 is arranged between the bottom wall of the spring cavity 46 and the L-shaped push rod 48, through holes 49 are arranged in left and right sides of the L-shaped push rod 48 in a penetrating manner, through holes 50 communicated with the spring cavities 46 in a left and right penetrating manner are symmetrically arranged in the left and right side of the collecting box 81, a gear cavity 51 is arranged between the outer side of the collecting box 81 and the side wall body of the cavity 37, and an outer side gear 52 capable of rotating On the lateral wall body about cavity 37 on the gear chamber 51 internal stability of symmetry can with on the collecting box 81 through-hole two 50 carry out the fixed connection piece 53 that communicates, be equipped with the check valve 54 that is used for the one-way circulation of liquid in the fixed connection piece 53, the collecting box 81 downside is equipped with lift chamber 78, be equipped with in the lift chamber 78 and be used for the collecting box 81 carries out the elevating gear 902 that goes up and down, the internal being equipped with of lateral wall is used for behind the cavity 37 collecting box 81 carries out sealed switching device 903, cavity 37 left side is equipped with gear chamber two 16, gear chamber two 16 left sides is equipped with first synchronous pulley chamber 11, first synchronous pulley chamber 11 downside is equipped with and is used for sealedly the collecting box 81 pours into the injection device 904 of special liquid into, gear chamber two 16 downside is equipped with second synchronous pulley chamber 24, second synchronous pulley chamber 24 right side is equipped with the mixed liquid that is used for containing the uranium ore and carries out the radiation protection deposit device .

In addition, in one embodiment, the lifting device 902 includes a fixed plate 84 fixedly installed at the bottom side of the lifting cavity 78, a fixed bracket 56 for fixing is fixedly installed on the upper side wall body of the fixed plate 84, a sliding groove 57 is installed on the right side of the fixed plate 84, an oil tank 61 is fixedly installed on the right side of the sliding groove 57, a hydraulic cylinder 60 is fixedly installed on the left side of the oil tank 61, a driving rod 59 is slidably installed in the hydraulic cylinder 60, a sliding block 58 slidably installed on the left side of the sliding groove 57 is fixedly installed on the left side of the driving rod 59, hinge rods 20 mutually hinged to the fixed bracket 56 and the sliding block 58 are rotatably installed on the right side of the sliding groove 57, a fixed frame 19 fixedly installed at the bottom side of the lifting plate 80 is rotatably installed on the upper side of the hinge rods 20, when uranium mining is performed, the oil tank, the driving rod 59 moves to the left side to drive the sliding block 58 to slide to the left side along the sliding groove 57, so that the hinge rod 20 is driven to move upwards, the lifting plate 80 is driven to drive the collecting box 81 to move upwards, and the uranium ores mined in the side wall body on the tunnel are recovered.

In addition, in one embodiment, the switch device 903 includes a first rotating shaft 43 rotatably disposed between the first synchronous pulley cavity 11 and the second gear cavity 16, a forward/reverse motor 21 is fixedly disposed in a left side wall of the first synchronous pulley cavity 11, a power output shaft of the forward/reverse motor 21 is fixedly mounted on the first rotating shaft 43, a rotating cavity 45 is disposed between the first synchronous pulley cavity 11 and the second gear cavity 16, a rotating box 38 is rotatably disposed on the first rotating shaft 43 in the rotating cavity 45, a fixed block 41 is fixedly disposed on an inner side wall of the rotating box 38, the fixed block 41 abuts against the rotating plate 42 in spline connection with the first rotating shaft 43, a spline bevel gear 44 connected with the first rotating shaft 43 and extending into the second gear cavity 16 is fixedly disposed on a right side of the rotating plate 42, a moving slide plate cavity 13 is disposed on an upper side of the rotating box 38, remove slide board chamber 13 in slide be equipped with the downside wall body with the removal slide 14 that the meshing of the wall body outside of rotating case 38 is connected, on the wall body on removal slide 14 right side with cavity 37 back side wall internal slip is equipped with closed door 15 fixed mounting, drives a pivot 43 when just reversing motor 21 starts and rotates, and pivot 43 rotates and drives and rotate case 38 and rotate, rotates case 38 and rotates and drive removal slide 14 and slide to the front side to drive closed door 15 and seal the collecting box 81 of having retrieved the uranium ore, thereby make the uranium ore mix with special liquid, thereby make improvement uranium ore transportation and storage efficiency.

In addition, in one embodiment, the injection device 904 includes a dedicated liquid tank 23 disposed in the machine body 10 below the first synchronous pulley cavity 11, a compression cavity 76 is disposed at the right side of the first synchronous pulley cavity 11, a spring cavity two 70 is disposed at the right side of the compression cavity 76, a transmission shaft 68 is rotatably disposed between the first synchronous pulley cavity 11 and the spring cavity two 70, a transmission shaft 68 capable of sliding left and right is rotatably disposed between the first synchronous pulley cavity 11 and the spring cavity two 70, a first synchronous pulley 12 is fixedly disposed on the first rotation shaft 43 in the first synchronous pulley cavity 11, a spline gear 66 is disposed on the transmission shaft 68 in the first synchronous pulley cavity 11, a second synchronous pulley 67 having a spline therein is rotatably disposed on the transmission shaft 68, a synchronous belt 22 is disposed between the first synchronous pulley 12 and the second synchronous pulley 67, a first electromagnet 72 capable of being electrified to slide left and right is rotatably arranged in the right side wall body of the transmission shaft 68 in the second spring cavity 70, a second electromagnet 69 is fixedly arranged on the right side wall body of the second spring cavity 70, a second expansion spring 71 is arranged between the first electromagnet 72 and the second electromagnet 69, an auxiliary block 77 is fixedly arranged on the transmission shaft 68 in the compression cavity 76, a third spring cavity 74 is annularly and arrayed on the auxiliary block 77 by taking the transmission shaft 68 as a center, an air pressure slide block 73 is slidably arranged in the third spring cavity 74, a third expansion spring 75 is fixedly arranged between the air pressure slide block 73 and the bottom of the third spring cavity 74, the air pressure slide block 73 is always contacted with the inner wall of the compression cavity 76 through the third expansion spring 75, a first pipeline 82 communicated with the special liquid tank 23 is arranged on the lower side of the compression cavity 76, and a sliding pressure cavity 65 is arranged in the left side wall body of the first synchronous pulley cavity 11, an oil pipe 40 is arranged in the wall body at the left side of the sliding pressure cavity 65, a sliding rod 64 is arranged in the right side of the oil pipe 40 at the left side of the sliding pressure cavity 65 in a sliding manner, a telescopic spring four 63 for resetting is arranged between the bottom wall at the left side of the sliding pressure cavity 65 and the sliding pressure cavity 65, a moving ring 39 connected with the oil pipe 40 is arranged on the rotating shaft one 43 at the left side of the rotating plate 42 in the rotating box 38 in a rotating manner, a pipeline two 83 communicated with the through hole two 50 is arranged at the left side of the fixed connecting block 53 at the left side of the cavity 37, when the electromagnet two 69 and the electromagnet one 72 are electrified to enable the electromagnet two 69 and the electromagnet one 72 to generate opposite poles, the electromagnet one 72 slides towards the right side to drive the transmission shaft 68 to move towards the right side, so that the spline gear 66 is meshed with the second synchronous belt pulley 67, and the rotating plate 42 is separated, and then the forward and reverse rotating motor 21 is started, the forward and reverse rotating motor 21 rotates to drive the first rotating shaft 43 to rotate, the first rotating shaft 43 rotates to drive the first synchronous belt wheel 12 to rotate, the first synchronous belt wheel 12 rotates to drive the first synchronous belt 22 to rotate, the first synchronous belt 22 rotates to drive the transmission shaft 68 meshed with the first synchronous belt 22 to rotate, so that the auxiliary block 77 is driven to rotate, the air pressure sliding block 73 is driven to rotate by the rotation of the auxiliary block 77, and therefore the special liquid in the special liquid tank 23 is pumped into the collecting tank 81 through the first pipeline 82 to be mixed.

In addition, in one embodiment, the radiation-proof storage device 905 includes a storage box 27 disposed on the lower side of the second synchronous pulley cavity 24, a gear pump cavity 30 is disposed on the right side of the lifting cavity 78, a second rotating shaft 18 is rotatably disposed between the second gear cavity 16 and the second synchronous pulley cavity 24, a third rotating shaft 35 is rotatably disposed between the gear pump cavity 30 and the second synchronous pulley cavity 24, a first conical gear 17 is fixedly disposed on the second rotating shaft 18 in the second gear cavity 16, a first gear 79 engaged with the outer gear 52 is fixedly disposed on the second rotating shaft 18 on the lower side of the first conical gear 17, a third synchronous pulley 25 capable of only performing single rotation is rotatably disposed on the second rotating shaft 18 in the second synchronous pulley cavity 24, a fourth synchronous pulley 28 is fixedly disposed on the third rotating shaft 35 in the second synchronous pulley cavity 24, and a second synchronous pulley 26 is disposed between the third synchronous pulley 25 and the fourth synchronous pulley 28, a second conical gear 34 is fixedly arranged on a third rotating shaft 35 in the gear pump chamber 30, a third conical gear 33 is connected to the rear side of the second conical gear 34 in a meshed manner, a second gear 32 is fixedly arranged on the rear side of the third conical gear 33, a third gear 31 is connected to the right side of the second gear 32 in a meshed manner, a third pipeline 36 connected with the right side wall body of the storage tank 27 is connected to the lower side of the gear pump chamber 30, a fourth pipeline 55 is connected to the right side of the fixed connecting block 53 positioned on the right side of the cavity 37, the fourth pipeline 55 is connected with the gear pump chamber 30, and when the second gear 32 and the third gear 31 in the gear pump chamber 30 rotate, the mixed liquid in the collecting tank 81 is extracted to the storage tank 27 through a fifth pipeline 29 for sealed storage, and when the second electromagnet 69 and the first electromagnet 72 are electrified, so that the second electromagnet 69 and the first electromagnet 72 generate, the electromagnet I72 moves leftwards to drive the transmission shaft 68 to move leftwards, so as to drive the sliding rod 64 to move leftwards, so that hydraulic oil in the oil pipe 40 is compressed and flows to drive the moving ring 39 to move rightwards, the rotating plate 42 moves rightwards to enable the rotating plate 42 to be separated from the abutting joint with the fixed block 41, so as to drive the spline bevel gear 44 to move rightwards to be meshed with the bevel gear I17, then the forward and reverse motor 21 is started, the rotating shaft I43 is driven to rotate when the forward and reverse motor 21 rotates clockwise, the rotating shaft I43 rotates to drive the bevel gear I17 to rotate, the rotating shaft I17 rotates to drive the gear I79 to rotate, the gear I79 rotates to drive the outer side gear 52 to rotate, so as to drive the collecting box 81 to rotate centrifugally, so as to uniformly mix the special liquid with the uranium ore powder, and when the forward and reverse motor 21 rotates anticlockwise to drive the spline bevel, the first conical gear 17 rotates to drive the second rotating shaft 18 to rotate, the second rotating shaft 18 rotates to drive the third synchronous belt pulley 25 to rotate, the third synchronous belt pulley 25 rotates to drive the second synchronous belt 26 to rotate, the second synchronous belt 26 rotates to drive the fourth synchronous belt pulley 28 to rotate, the fourth synchronous belt pulley 28 rotates to drive the third rotating shaft 35 to rotate, the third rotating shaft 35 rotates to drive the second conical gear 34 to rotate, the second conical gear 34 rotates to drive the third conical gear 33 to rotate, the second gear 32 and the third gear 31 are driven to rotate, and the mixed liquid in the collecting box 81 is extracted and stored in the storage box 27 in a sealing mode through the gear pump cavity 30.

In the initial state, the fixed block 41 abuts against the rotating plate 42, the spline gear 66 is not meshed with the second synchronous pulley 67, the spline bevel gear 44 is not meshed with the first bevel gear 17, and the slide block 58 is located on the right side of the slide groove 57.

When the mined uranium ores are collected and packaged, the oil tank 61 is started firstly, the oil tank 61 rotates to drive the hydraulic cylinder 60 to drive the driving rod 59 to move leftwards, the driving rod 59 moves leftwards to drive the sliding block 58 to slide leftwards along the sliding groove 57, so that the hinge rod 20 is driven to move upwards, the lifting plate 80 is driven to drive the collecting box 81 to move upwards, and the uranium ores mined in the side wall body on the tunnel are recovered; and then the forward and reverse motor 21 is started, the forward and reverse motor 21 drives the first rotating shaft 43 to rotate when being started, the first rotating shaft 43 drives the rotating box 38 to rotate, the rotating box 38 rotates to drive the movable sliding plate 14 to slide towards the front side, and therefore the closing door 15 is driven to close the collecting box 81 for recycling the uranium ores, the uranium ores are mixed with special liquid, and therefore the uranium ore transportation and storage efficiency is improved.

When the collected uranium ores are subjected to liquid mixing, firstly, the electromagnet II 69 and the electromagnet I72 are electrified to enable the electromagnet II 69 and the electromagnet I72 to generate opposite electrodes, the electromagnet I72 slides towards the right side to drive the transmission shaft 68 to move towards the right side, thereby the spline gear 66 is engaged with the second synchronous belt wheel 67, when the moving ring 39 drives the rotating plate 42 to move left, the rotating plate 42 is separated from the fixed block 41, then the forward and reverse motor 21 is started, the forward and reverse motor 21 rotates to drive the first rotating shaft 43 to rotate, the first rotating shaft 43 rotates to drive the first synchronous belt wheel 12 to rotate, the first synchronous belt wheel 12 rotates to drive the first synchronous belt 22 to rotate, the first synchronous belt wheel 22 rotates to drive the transmission shaft 68 engaged with the first synchronous belt wheel 22 to rotate, thereby driving the auxiliary block 77 to rotate, the auxiliary block 77 rotates to drive the air pressure slide block 73 to rotate, so that the special liquid in the special liquid tank 23 is pumped into the collection tank 81 through the first pipeline 82 for mixing.

When the mixed uranium ore liquid is stirred and stored, firstly, the electromagnet II 69 and the electromagnet I72 are electrified to enable the electromagnet II 69 and the electromagnet I72 to generate the same electrode, the electromagnet I72 slides leftwards to drive the transmission shaft 68 to move leftwards so as to drive the sliding rod 64 to move leftwards, so that hydraulic oil in the oil pipe 40 is compressed and flows to drive the moving ring 39 to move rightwards the rotating plate 42, the rotating plate 42 moves rightwards to enable the rotating plate 42 to be separated from the fixed block 41, so as to drive the spline bevel gear 44 to move rightwards to be meshed and connected with the bevel gear I17, then the forward and reverse motor 21 is started, when the forward and reverse motor 21 rotates clockwise, the rotating shaft I43 is driven to rotate, the rotating shaft I43 drives the bevel gear I17 to rotate, the rotating shaft I17 drives the rotating gear I79 to rotate, the rotating gear I79 rotates to drive the rotating outer side gear 52 to rotate, so as, thereby make special liquid and uranium ore powder carry out the homogeneous mixing, when the motor 21 that just reverses carries out anticlockwise rotation, drive spline bevel gear 44 and rotate and drive conical gear 17 and rotate, conical gear 17 rotates and drives pivot two 18 and rotate, pivot two 18 rotate and drive third synchronous pulley 25 and rotate, third synchronous pulley 25 rotates and drives hold-in range two 26 and rotate, hold-in range two 26 rotates and drives fourth synchronous pulley 28 and rotate, fourth synchronous pulley 28 rotates and drives pivot three 35 and rotate, pivot three 35 rotates and drives conical gear two 34 and rotate, conical gear two 34 rotates and drives conical gear three 33 and rotate, thereby drive gear two 32 and gear three 31 and rotate, thereby make gear pump chamber 30 carry out the sealed storage to the mixed liquid extraction bin 27 in the collecting box 81.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides an automatic recovery plant of protecting against radiation for uranium ore, includes the fuselage, characterized in that: the uranium mine collector is characterized in that a cavity is arranged in a wall body on the upper side of the machine body, a lifting plate is arranged in the cavity in a sliding manner, a collecting box used for collecting uranium ores is arranged on a rotating shaft on the upper side of the lifting plate, the collecting box comprises a first spring cavity which is symmetrically arranged in a left side wall body and a right side wall body of the cavity, an L-shaped push rod is arranged in the first spring cavity in a sliding manner, a first extension spring is arranged between the bottom wall of the first spring cavity and the L-shaped push rod, a first through hole is arranged on the left side and the right side of the L-shaped push rod in a penetrating manner, a second through hole which is communicated with the spring cavity is symmetrically arranged on the left side and the right side of the collecting box, a first gear cavity is arranged between the outer side wall body of the collecting box and the wall body of the cavity, an outer gear capable of rotating is, be equipped with the check valve who is used for the one-way circulation of liquid in the fixed connection piece, the collecting box downside is equipped with the lift chamber, the lift intracavity is equipped with and is used for the collecting box carries out the elevating gear who goes up and down, the internal being equipped with of lateral wall is used for behind the cavity the collecting box carries out sealed switching device, the cavity left side is equipped with gear chamber two, gear chamber two left sides are equipped with first synchronous pulley chamber, first synchronous pulley chamber downside is equipped with and is used for sealing the collecting box pours into the injection device of special liquid into, gear chamber two downside is equipped with second synchronous pulley chamber, second synchronous pulley chamber right side is equipped with the mixed liquid that is used for containing the uranium ore and extracts the radiation protection save set of vanning.

2. The automatic recovery plant of protecting against radiation for uranium ore according to claim 1, characterized in that: the lifting device comprises a fixed plate fixedly installed on the bottom side of the lifting cavity, a fixed support used for fixing is fixedly arranged on the wall body on the upper side of the fixed plate, a sliding groove is formed in the right side of the fixed plate, an oil tank is fixedly arranged on the wall body of the lifting cavity, a hydraulic cylinder is fixedly arranged on the left side of the oil tank, a driving rod is slidably arranged in the hydraulic cylinder, a sliding block arranged on the left side of the sliding groove is fixedly arranged on the left side of the driving rod, a hinge rod connected with each other through a hinge is rotatably arranged on the fixed support and the sliding block, and a fixed frame fixedly installed on the bottom side of.

3. The automatic recovery plant of protecting against radiation for uranium ore according to claim 1, characterized in that: the switching device comprises a first rotating shaft which is arranged between a first synchronous belt wheel cavity and a second gear cavity in a rotating mode, a forward and reverse rotating motor is fixedly arranged in a left side wall body of the first synchronous belt wheel cavity, a power output shaft on the forward and reverse rotating motor is fixedly installed on the first rotating shaft, a rotating cavity is arranged between the first synchronous belt wheel cavity and the second gear cavity, a rotating box is rotatably arranged on the first rotating shaft in the rotating cavity, a fixed block is fixedly arranged on an inner side wall body of the rotating box and is abutted to a rotating plate in splined connection with the first rotating shaft, a spline bevel gear which is connected with the first rotating shaft through splines and extends into the second gear cavity is fixedly arranged on the right side of the rotating plate, a moving sliding plate cavity is arranged on the upper side of the rotating box, and a moving sliding plate is arranged in the moving sliding plate cavity and is provided with a lower side wall body in meshed connection with an outer side, and the right side wall body of the movable sliding plate is fixedly installed with a closed door arranged in the cavity rear side wall body in a sliding manner.

4. The automatic recovery plant of protecting against radiation for uranium ore according to claim 1, characterized in that: the injection device comprises a special liquid tank arranged on the lower side of the first synchronous belt wheel cavity in the machine body, a compression cavity is arranged on the right side of the first synchronous belt wheel cavity, a spring cavity II is arranged on the right side of the compression cavity, a transmission shaft is rotatably arranged between the first synchronous belt wheel cavity and the spring cavity II, the transmission shaft capable of sliding left and right is rotatably arranged between the first synchronous belt wheel cavity and the spring cavity II, a first synchronous belt wheel is fixedly arranged on a rotating shaft I in the first synchronous belt wheel cavity, a spline gear is arranged on the transmission shaft in the first synchronous belt wheel cavity, a second synchronous belt wheel internally provided with a spline gear is rotatably arranged on the transmission shaft, a first synchronous belt is arranged between the first synchronous belt wheel and the second synchronous belt wheel, and a first electromagnet capable of being electrified to slide left and right is rotatably arranged in the right side wall body of the transmission shaft in the spring cavity II, an electromagnet II is fixedly arranged on the wall body on the right side of the spring cavity II, a telescopic spring II is arranged between the electromagnet I and the electromagnet II, an auxiliary block is fixedly arranged on the transmission shaft in the compression cavity, a spring cavity III is arranged on the auxiliary block by taking the transmission shaft as a central annular array, an air pressure slide block is slidably arranged in the spring cavity III, a telescopic spring III is fixedly arranged between the air pressure slide block and the bottom of the spring cavity III, the air pressure slide block is always contacted with the inner wall of the compression cavity through the telescopic spring III, a pipeline I communicated with the special liquid tank is arranged on the lower side of the compression cavity, a sliding pressure cavity is arranged in the wall body on the left side of the first synchronous pulley cavity, an oil pipe is arranged in the wall body on the left side of the sliding pressure cavity, a sliding rod is slidably arranged on the right side of the oil pipe on the left side of the sliding pressure cavity, and a telescopic, the rotating shaft I on the left side of the rotating plate in the rotating box is rotatably provided with a moving ring connected with the oil pipe, and the left side of the fixed connecting block on the left side of the cavity is provided with a pipeline II communicated with the through hole II.

5. The automatic recovery plant of protecting against radiation for uranium ore according to claim 1, characterized in that: the radiation-proof storage device comprises a storage box arranged on the lower side of the second synchronous pulley cavity, a gear pump cavity is arranged on the right side of the lifting cavity, a rotating shaft II is arranged between the gear cavity II and the second synchronous pulley cavity in a rotating manner, a rotating shaft III is arranged between the gear pump cavity and the second synchronous pulley cavity in a rotating manner, a first conical gear is fixedly arranged on the rotating shaft II in the gear cavity II, a first gear meshed with the outer side gear is fixedly arranged on the rotating shaft II on the lower side of the first conical gear, a third synchronous pulley capable of only performing single rotation is rotatably arranged on the rotating shaft II in the second synchronous pulley cavity, a fourth synchronous pulley is fixedly arranged on the rotating shaft III in the second synchronous pulley cavity, a second synchronous pulley is arranged between the third synchronous pulley and the fourth synchronous pulley, and a second conical gear is fixedly arranged on the rotating shaft III in the gear pump cavity, two rear side meshing of conical gear are connected with conical gear three, three rear sides of conical gear have set firmly gear two, two right side meshing of gear are connected with useful gear three, gear pump chamber downside be connected with bin right side wall body connected's pipeline three is located the cavity right side fixed connection piece right side is connected with pipeline four, pipeline four with gear pump chamber is connected, through in the gear pump chamber gear two with gear three rotates, and is right mixed liquid in the collecting box passes through five extractions of pipeline are arrived the bin seals and stores.