CN210635735U - Spiral bucket for salt mining machine - Google Patents

Abstract

The utility model discloses a spiral bucket for salt mining machine, the structure of which comprises a driving motor, a connecting bracket, a connecting turntable, a screening rotary bucket, a bucket separating frame, a salt storage box, a lifting lug, a water flowing box, a motor base and a driving belt, the spiral bucket device drives a belt pulley to rotate through a first transmission belt, at the moment, a transmission gear rotates through the transmission action of a second transmission belt, a transmission toothed plate meshed with the transmission gear moves, when the transmission gear rotates the right end of the transmission toothed plate, a sliding connecting plate slides on a moving frame through the action of a sliding rod, the moving frame is driven to push left, at the moment, a moving push rod moves left, the upper end of the swinging rod moves left, the lower end of the swinging rod moves right, a stirring hook is driven to stir water flow, and the water flow is accelerated to enter the inside of the water flowing box from a water inlet, quickening the water flow to enter the interior of the flow box, thereby improving the efficiency of salt mining.

Description

Spiral bucket for salt mining machine

Technical Field

The utility model relates to a salt miner technical field, concretely relates to spiral bucket for salt miner.

Background

The method for mining salt in salt mine and salt lake in China comprises the steps of manually digging salt, digging salt by a digging machine, blasting explosive, and then pumping smoke by a water pump, wherein a spiral digging bucket for a salt mining machine is a device which is frequently used for mining salt, and the existing spiral digging bucket device enters a water tank by means of the flowing power of water flow during the process of mining salt and is positioned on the relatively calm salt lake, the water flow is relatively static, the fluidity is not high, and the salt mining efficiency can be seriously reduced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the prior art not enough, the spiral bucket for the salt mining machine is provided, and the problem that the efficiency of salt mining can be seriously reduced because water flow is static and the mobility is not high when the existing spiral bucket device is in a relatively calm salt lake in the process of salt mining by singly relying on the power of water flow flowing into a water tank.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a spiral bucket for salt harvester, including driving motor, linking bridge, connection carousel, screening rotary bucket, branch fill frame, salt storage tank, reciprocal acceleration mechanism, lug, flow water box, motor cabinet, driving belt, spiral auger, first pivot, second pivot and first transmission belt, driving motor output inlays inside the connection carousel and synchronous rotation, reciprocal acceleration mechanism fixed mounting is at the left lower extreme of flow water box, reciprocal acceleration mechanism rotates with first transmission belt and is connected, reciprocal acceleration mechanism includes shell, belt pulley, wheel fixed plate, second transmission belt, transmission gear, transmission, limit baffle, sliding connection board, slide bar, moving frame, removal push rod and stirring mechanism with higher speed, the shell is fixed mutually with flow water box left lower extreme surface through the electric welding, the belt pulley is fixed in the inside top of shell through the wheel fixed plate, the utility model discloses a quick-witted belt wheel, including belt pulley, transmission gear, limit baffle, sliding connection plate, slide bar, electric welding, shift lever, slide bar, slide connection plate, shift frame left end and shift lever, the belt pulley surface rotates with first transmission belt to be connected, second transmission belt rotates with the belt pulley middle part to be connected, second transmission belt rotates with the transmission gear middle part to be connected, transmission gear meshes with the transmission gear mutually, transmission gear both ends are equipped with limit baffle, limit baffle is fixed in the sliding connection plate front surface, the transmission gear is laminated with the sliding connection plate front surface mutually, the slide bar runs through inside the sliding connection plate both ends, the slide bar is fixed mutually with shift frame through electric welding, slide connection.

Furthermore, the surface of the connecting rotary disc is fixed with the bottom end of the connecting support through electric welding, the top end of the connecting support is fixed with the surface of the inner ring of the screening rotary bucket, a bucket separating frame is arranged inside the screening rotary bucket, the lower end of the screening rotary bucket is positioned inside the flowing water box, the salt storage box is positioned at the left lower end of the screening rotary bucket, the lifting lug is fixed with the upper surface of the flowing water box through electric welding, the salt storage box is fixedly arranged at the left upper end of the flowing water box, the motor base is fixed with the surface of the upper end of the flowing water box through electric welding, a driving motor is arranged on the motor base, the driving belt synchronously rotates along with the output end of the driving motor, the first rotary shaft is rotatably connected with the driving belt, the spiral auger penetrates through the inside of the first rotary shaft, the second rotary shaft is concentrically arranged with the spiral auger, the second rotary shaft is rotatably connected with the first transmission belt, and, the control panel is installed outside the flow water tank and is electrically connected with the power line.

Further, toggle mechanism with higher speed includes articulated slab, swinging arms, fixed rotation axis, stirring hook and water inlet, the swinging arms top is articulated mutually with the removal push rod left end through the articulated slab, the swinging arms middle part is equipped with fixed rotation axis, fixed rotation axis fixed mounting is inside the shell, the swinging arms bottom with stir hook fixed connection, stir the hook and be located the water inlet left end, the water inlet is established at the shell right side lower extreme, the water inlet link up with the flowing water tank mutually.

Furthermore, the limit baffle is provided with two and is of a semicircular structure.

Furthermore, the slide bar is provided with two and is the cylinder structure altogether, runs through both ends about sliding connection board respectively.

Further, the length of the swinging rod is 10 cm.

Furthermore, the poking hook is of a barb type structure and is of a hollow structure.

Further, the driving motor is an AKM series, and the specific model is designed or customized according to the actual use condition.

Furthermore, the poking hook is made of 45-grade steel, so that the hardness is high, and the corrosion resistance is strong.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

in order to solve the problems that the existing spiral bucket device only depends on the power of the flowing of water flow to enter the water tank and is positioned on a calmer salt lake, the water flow is static and has low fluidity and the salt mining efficiency is seriously reduced, a reciprocating acceleration mechanism is arranged through the water tank, a belt pulley is driven to rotate through a first transmission belt, a transmission gear rotates through the transmission action of a second transmission belt, a transmission toothed plate meshed with the transmission gear moves, when the transmission gear rotates the right end of the transmission toothed plate, a sliding connecting plate slides on a moving frame through the action of a sliding rod to drive the moving frame to push left, a moving push rod moves left to move the upper end of the swinging rod, the lower end of the swinging rod moves right to drive a shifting hook to shift water flow, inside quickening rivers and entering the flow box from the water inlet, quickening rivers and entering the flow box inside to the efficiency of adopting salt has been improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a partial cross-sectional structure of the spiral bucket apparatus of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the spiral auger of the present invention;

fig. 4 is a schematic sectional structural view of the reciprocating acceleration mechanism of the present invention;

fig. 5 is a schematic view of a partial three-dimensional structure of the reciprocating acceleration mechanism of the present invention.

In the figure: a driving motor-1, a connecting bracket-2, a connecting turntable-3, a screening rotary hopper-4, a hopper separating frame-5, a salt storage tank-6, a reciprocating acceleration mechanism-7, a lifting lug-8, a water tank-9, a motor base-10, a driving belt-11, a spiral auger-12, a first rotating shaft-13, a second rotating shaft-14, a first transmission belt-15, a power line-16, a button-17, a control panel-18, a shell-71, a belt pulley-72, a wheel fixing plate-73, a second transmission belt-74, a transmission gear-75, a transmission toothed plate-76, a limit baffle-77, a sliding connecting plate-78, a sliding rod-79, a moving frame-710, a moving push rod-711, an acceleration stirring mechanism-712, a, A hinged plate-7121, a swinging rod-7122, a fixed rotating shaft-7123, a toggle hook-7124 and a water inlet-7125.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, 2, 3, 4 and 5, the present invention provides a spiral bucket for a salt mining machine: comprises a driving motor 1, a connecting bracket 2, a connecting turntable 3, a screening rotary hopper 4, a hopper separating frame 5, a salt storage tank 6, a reciprocating acceleration mechanism 7, a lifting lug 8, a flowing water tank 9, a motor base 10, a driving belt 11, a spiral auger 12, a first rotating shaft 13, a second rotating shaft 14 and a first transmission belt 15, wherein the output end of the driving motor 1 is embedded inside the connecting turntable 3 and synchronously rotates, the reciprocating acceleration mechanism 7 is fixedly arranged at the left lower end of the flowing water tank 9, the reciprocating acceleration mechanism 7 is rotationally connected with the first transmission belt 15, the reciprocating acceleration mechanism 7 comprises a shell 71, a belt pulley 72, a wheel fixing plate 73, a second transmission belt 74, a transmission gear 75, a transmission toothed plate 76, a limit baffle 77, a sliding connecting plate 78, a sliding rod 79, a moving frame 710, a moving push rod 711 and an accelerating toggle mechanism 712, the shell 71 is fixed with the surface of the left lower end of the flowing, the belt pulley 72 is fixed at the top end inside the housing 71 through the wheel fixing plate 73, the outer surface of the belt pulley 72 is rotationally connected with the first transmission belt 15, the second transmission belt 74 is rotationally connected with the middle of the belt pulley 72, the second transmission belt 74 is rotationally connected with the middle of the transmission gear 75, the transmission gear 75 is meshed with the transmission toothed plate 76, two ends of the transmission toothed plate 76 are provided with limit baffles 77, the limit baffles 77 are fixed on the front surface of the sliding connection plate 78, the transmission toothed plate 76 is attached to the front surface of the sliding connection plate 78, the sliding rod 79 penetrates through the two ends of the sliding connection plate 78, the sliding rod 79 is fixed with the moving frame 710 through electric welding, the sliding connection plate 78 is installed inside the moving frame 710 and is movably connected, the left end of the moving frame 710 is provided with a moving push rod 711, and the.

Wherein the surface of the connecting rotary disc 3 is fixed with the bottom end of the connecting support 2 through electric welding, the top end of the connecting support 2 is fixed with the inner ring surface of the screening rotary bucket 4, a bucket separating frame 5 is arranged inside the screening rotary bucket 4, the lower end of the screening rotary bucket 4 is positioned inside the flowing water box 9, the salt storage box 6 is positioned at the left lower end of the screening rotary bucket 4, the lifting lug 8 is fixed with the upper surface of the flowing water box 9 through electric welding, the salt storage box 6 is fixedly arranged at the left upper end of the flowing water box 9, the motor base 10 is fixed with the upper surface of the flowing water box 9 through electric welding, the motor base 10 is provided with the driving motor 1, the driving belt 11 rotates synchronously along with the output end of the driving motor 1, the first rotary shaft 13 is connected with the driving belt 11 in a rotating way, the spiral auger 12 penetrates through the inside the first rotary shaft 13, the second rotary shaft 14 is concentrically, the second rotating shaft 14 is rotatably connected with the first transmission belt 15, the driving motor 1 and the button 17 are both electrically connected with a control panel 18, the control panel 18 is installed outside the flowing water tank 9, and the control panel 18 is electrically connected with a power line 16.

The acceleration toggle mechanism 712 comprises a hinge plate 7121, a swing rod 7122, a fixed rotating shaft 7123, a toggle hook 7124 and a water inlet 7125, wherein the top end of the swing rod 7122 is hinged with the left end of the movable push rod 711 through the hinge plate 7121, the fixed rotating shaft 7123 is arranged in the middle of the swing rod 7122, the fixed rotating shaft 7123 is fixedly installed inside the shell 71, the bottom end of the swing rod 7122 is fixedly connected with the toggle hook 7124, the toggle hook 7124 is positioned at the left end of the water inlet 7125, the water inlet 7125 is arranged at the right lower end of the shell 71, and the water inlet 7125 is communicated with the running water tank 9.

Wherein, limit baffle 77 is equipped with two altogether and is half annular structure, does benefit to and plays the effect of carrying out the screens to transmission gear 75.

The sliding rods 79 are provided with two cylindrical structures, and penetrate through the left end and the right end of the sliding connecting plate 78 respectively, so that the sliding connecting plate 78 can slide vertically inside the moving frame 710.

The length of the swing rod 7122 is 10cm, so that the swing rod is beneficial to better driving the poking hook 7124 to poke.

Wherein, dial hook 7124 and be barb type structure and for hollow structure, do benefit to and play and stir the surface of water of stewing, the effect of mobility with higher speed.

The driving motor 1 is an AKM series, and the specific model is designed or customized according to the actual use condition.

The stirring hook 7124 is made of No. 45 steel, and is high in hardness and strong in corrosion resistance.

According to the table, the toggle hook 7124 is made of No. 45 steel, so that the strength, the wear resistance and the corrosion resistance of the toggle hook are greatly enhanced, and the service life of the toggle hook is prolonged.

The spiral auger 12 is commonly known as a spiral conveyor and is used for horizontal conveying, inclined conveying, vertical conveying and other forms of granular or powdery materials.

The working principle is as follows: before use, the spiral bucket device is stably placed on the water surface of the salt lake, and the bottom part of the flow box 9 is immersed into water; when in use, in the first step, an external power supply is connected through a power line 16 to provide power for the device; secondly, pressing a button 17 at the upper end of a control panel 18 to start the device; the driving motor 1 is electrified to work, the rotor arranged at the front end drives the connecting turntable 3 to rotate, at the moment, the screening rotary hopper 4 starts to rotate under the connecting action of the connecting bracket 2, the saline water in the flow water tank 9 is collected, the spiral auger 12 rotates under the action of the driving belt 11, and the flow water tank 9 is effectively collected onto the screening rotary hopper 4; meanwhile, the belt pulley 72 is driven to rotate under the action of the first transmission belt 15, at this time, the transmission gear 75 is driven to rotate under the transmission action of the second transmission belt 74, the transmission toothed plate 76 meshed with the transmission gear 75 moves, under the action of the limit baffle 77, when the transmission gear 75 rotates the right end of the transmission toothed plate 76, the sliding connecting plate 78 slides on the moving frame 710 under the action of the sliding rod 79 at this time, the moving frame 710 is driven to push left, the moving push rod 711 moves left at this time, under the action of the hinge plate 7121, the upper end of the oscillating rod 7122 moves left, under the fixing action of the fixed rotating shaft 7123, the lower end of the oscillating rod 7122 moves right, the toggle hook 7124 is driven to toggle water flow, and the water flow is accelerated to enter the water flow tank 9 from the water inlet 7125; the collected salt is guided into the salt storage box 6 through the hopper separating frame 5 on the screening rotary hopper 4; after the salt extraction work is finished, the button 17 is pressed down, so that the driving motor 1 stops working.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A spiral bucket for a salt mining machine comprises a driving motor (1), a connecting support (2), a connecting rotary table (3), a screening rotary bucket (4), a sub-bucket frame (5), a salt storage box (6), a lifting lug (8), a flow box (9), a motor base (10), a driving belt (11), a spiral auger (12), a first rotating shaft (13), a second rotating shaft (14), a first transmission belt (15), a power line (16), a button (17) and a control panel (18), wherein the output end of the driving motor (1) is embedded in the connecting rotary table (3) and synchronously rotates;

the device is characterized by further comprising a reciprocating acceleration mechanism (7), wherein the reciprocating acceleration mechanism (7) is fixedly installed at the left lower end of the flow water tank (9), the reciprocating acceleration mechanism (7) is rotatably connected with the first transmission belt (15), the reciprocating acceleration mechanism (7) comprises a shell (71), a belt pulley (72), a wheel fixing plate (73), a second transmission belt (74), a transmission gear (75), a transmission toothed plate (76), a limit baffle (77), a sliding connection plate (78), a sliding rod (79), a moving frame (710), a moving push rod (711) and an acceleration toggle mechanism (712), the shell (71) is fixed with the surface of the left lower end of the flow water tank (9) through electric welding, the belt pulley (72) is fixed at the inner top end of the shell (71) through the wheel fixing plate (73), and the outer surface of the belt pulley (72) is rotatably connected with the first transmission belt (15), the second transmission belt (74) is rotationally connected with the middle part of the belt pulley (72), the second transmission belt (74) is rotationally connected with the middle part of the transmission gear (75), the transmission gear (75) is meshed with the transmission toothed plate (76), two ends of the transmission toothed plate (76) are provided with limit baffles (77), the limit baffle (77) is fixed on the front surface of the sliding connecting plate (78), the transmission toothed plate (76) is attached to the front surface of the sliding connecting plate (78), the sliding rods (79) penetrate through the inner parts of two ends of the sliding connecting plate (78), the sliding rods (79) are fixed with the movable frame (710) through electric welding, the sliding connection plate (78) is arranged inside the moving frame (710) and is movably connected, the left end of the moving frame (710) is provided with a moving push rod (711), and the left end of the moving push rod (711) is hinged with the top end of the acceleration toggle mechanism (712).

2. The spiral bucket for the salt harvester according to claim 1, wherein: the surface of the connecting turntable (3) is fixed with the bottom end of the connecting support (2) through electric welding, the top end of the connecting support (2) is fixed with the inner ring surface of the screening rotary hopper (4), a hopper separating frame (5) is arranged inside the screening rotary hopper (4), the lower end of the screening rotary hopper (4) is positioned inside the flowing water tank (9), the salt storage tank (6) is positioned at the left lower end of the screening rotary hopper (4), the lifting lug (8) is fixed with the upper surface of the flowing water tank (9) through electric welding, the salt storage tank (6) is fixedly arranged at the left upper end of the flowing water tank (9), the motor base (10) is fixed with the upper surface of the flowing water tank (9) through electric welding, the driving motor (1) is arranged on the motor base (10), the driving belt (11) synchronously rotates along with the output end of the driving motor (1), the first rotating shaft (13) is rotatably connected with the driving belt (11), spiral auger (12) run through inside first pivot (13), second pivot (14) and the concentric installation of spiral auger (12), second pivot (14) rotate with first transmission belt (15) and are connected, driving motor (1) and button (17) all are connected with control panel (18) electricity, control panel (18) are installed and are being connected in flow water tank (9) outsidely, control panel (18) are connected with power cord (16) electricity.

3. The spiral bucket for the salt harvester according to claim 1, wherein: toggle mechanism (712) including articulated slab (7121), swinging arms (7122), fixed rotation axis (7123), toggle hook (7124) and water inlet (7125), swinging arms (7122) top is passed through articulated slab (7121) and is articulated mutually with removal push rod (711) left end, swinging arms (7122) middle part is equipped with fixed rotation axis (7123), fixed rotation axis (7123) fixed mounting is inside shell (71), swinging arms (7122) bottom and toggle hook (7124) fixed connection, toggle hook (7124) are located water inlet (7125) left end, water inlet (7125) are established at shell (71) right side lower extreme, water inlet (7125) link up with flowing water box (9) mutually.

4. The spiral bucket for the salt harvester according to claim 1, wherein: the limiting baffle plates (77) are provided with two semicircular structures.

5. The spiral bucket for the salt harvester according to claim 1, wherein: the sliding rods (79) are provided with two cylindrical structures and penetrate through the left end and the right end of the sliding connecting plate (78) respectively.

6. The spiral bucket for the salt harvester according to claim 3, wherein: the length of the oscillating rod (7122) is 10 cm.

7. The spiral bucket for the salt harvester according to claim 3, wherein: the poking hook (7124) is of a barb type structure and is of a hollow structure.

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