CN117401307A - Storage tank discharging device for zinc alloy slag purification - Google Patents

Abstract

The invention discloses a storage tank discharging device for purifying zinc alloy slag, and belongs to the technical field of industrial equipment. The utility model provides a storage tank discharging device of zinc alloy sediment purification, includes the jar body, feed inlet and discharge gate have been seted up in the outside of the jar body, the feed inlet is located the top position of the external side of jar, the discharge gate is located the bottom position of the external side of jar, the top of the jar body is connected with the mounting box, the inner chamber of mounting box is provided with stirring subassembly, stirring subassembly runs through the mounting box and extends to the inner chamber of the jar body. This storage tank discharging device of zinc alloy sediment purification through setting up stirring subassembly for the device can drive main puddler and vice puddler simultaneously and rotate, thereby makes the device can stir the zinc alloy sediment after the zinc alloy sediment is handled through the purification, thereby reduces the viscosity of zinc alloy sediment, avoids because the viscosity is too high, makes the zinc alloy sediment take place to condense and leads to blockking up, has improved the ejection of compact efficiency of the device.

Description

Storage tank discharging device for zinc alloy slag purification

Technical Field

The invention relates to the technical field of industrial equipment, in particular to a storage tank discharging device for purifying zinc alloy slag.

Background

The invention designs a storage tank discharging device for purifying zinc alloy slag to solve the problems.

Disclosure of Invention

The invention aims to provide a storage tank discharging device for purifying zinc alloy slag, which aims to solve the problems in the background technology.

The utility model provides a storage tank discharging device of zinc alloy sediment purification, includes the jar body, feed inlet and discharge gate have been seted up in the outside of the jar body, the feed inlet is located the top position of the external side of jar, the discharge gate is located the bottom position of the external side of jar, the top of the jar body is connected with the mounting box, the inner chamber of mounting box is provided with stirring subassembly, stirring subassembly runs through the mounting box and extends to the inner chamber of the jar body, the bottom of the inner chamber of the jar body is connected with the deflector, the bottom of deflector corresponds with the height of discharge gate, and the top of deflector is provided with the shake subassembly, the shake subassembly runs through the jar body and is connected with stirring subassembly, the outside that the jar body is located the discharge gate is provided with the discharge subassembly, the discharge subassembly is connected with the shake subassembly.

Preferably, the stirring assembly comprises a connecting ring which is rotationally connected to the lower part of the installation box, the top of the connecting ring penetrates through the installation box and is connected with a driving assembly, the bottom of the connecting ring is connected with a driving gear, one side of the driving gear, far away from the connecting ring, is connected with a main stirring rod, the outer side of the driving gear is meshed with a driven gear, one side of the driven gear is connected with a secondary stirring rod, the other side of the driven gear is connected with an installation shaft, and the installation shaft is connected with the installation box.

Preferably, the drive assembly is including setting up in the mounting panel of mounting box top, the motor is installed in the outside of mounting panel, the output of motor runs through the mounting box and is connected with the connecting rod, the one end that the motor was kept away from to the connecting rod is connected with the incomplete gear, the outside meshing of incomplete gear has the ring gear, the inner chamber meshing of ring gear has the circular gear, the outside of circular gear is connected with the dead lever, the dead lever is connected with the mounting box, the below of ring gear is connected with the connection pad, the connection pad is connected with the go-between, and the outside rotation of connection pad is connected with the mount, the mount is connected with the mounting box.

Preferably, the shake subassembly is including setting up the fixed plate on jar internal wall, the top of fixed plate is connected with fixed sleeve, fixed sleeve's inner chamber is provided with the spring, the one end of spring is connected with fixed sleeve's inner wall, and the other end of spring is connected with the limiting plate, one side that the spring was kept away from to the limiting plate is connected with the movable rod, the one end that the limiting plate was kept away from to the movable rod runs through fixed sleeve and is connected with the installing frame, the inner chamber of installing frame is provided with the filter screen, and the below of installing frame is provided with control assembly, control assembly is connected with the motor.

Preferably, the control assembly comprises a cross rod connected to the inner wall of the tank body in a rotating mode, a cam is connected to the outer side of the cross rod, the cam is in butt joint with the mounting frame, one end of the cross rod penetrates through the tank body and is connected with a driven cone pulley, a driving cone pulley is meshed to the outer side of the driven cone pulley, a vertical rod is connected to the outer side of the driving cone pulley, a mounting seat is connected to the outer side of the vertical rod, one end, far away from the driving cone pulley, of the vertical rod is connected with a driven wheel I, a belt I is sleeved on the outer side of the driven wheel I, the driven wheel I is connected with a driving wheel I through the belt I, and the driving wheel I is connected with an output shaft of the cross rod.

Preferably, the discharging component comprises two fixing seats arranged on the outer side of the tank body, a guide rod is connected between the two fixing seats, a guide seat is connected on the outer side of the guide rod, a valve plate is connected on the outer side of the guide seat, a threaded seat is connected on one side of the valve plate, which is close to the guide seat, an inner cavity of the threaded seat is connected with a bidirectional screw in a penetrating manner, two ends of the bidirectional screw are respectively and rotatably connected with a bearing seat, a transmission component is connected on the outer side of one bearing seat, and the transmission component is connected with a vertical rod.

Preferably, the transmission assembly comprises a bearing frame arranged on the outer side of the tank body, the outer side of the bearing frame is rotationally connected with a driving shaft, one end of the driving shaft, far away from the bearing frame, is connected with a driven wheel II, a belt II is sleeved on the outer side of the driven wheel II, the driven wheel II is connected with a driving wheel II through the belt II, the driving wheel II is connected with a vertical rod, the outer side of the driving shaft is connected with a driving wheel III, the outer side of the driving wheel III is sleeved with a belt III, the driving wheel III is connected with a driven wheel III through the belt III, the outer side of the driven wheel III is connected with a rotating shaft, and the rotating shaft penetrates through the bearing seat and is connected with a bidirectional screw.

Compared with the prior art, the invention has the advantages that:

1) According to the invention, the stirring assembly is arranged, so that the device can drive the main stirring rod and the auxiliary stirring rod to rotate simultaneously, and the zinc alloy slag can be stirred after being purified, so that the viscosity of the zinc alloy slag is reduced, the blockage caused by the coagulation of the zinc alloy slag due to the excessively high viscosity is avoided, and the discharging efficiency of the device is improved.

2) According to the invention, the shaking component is arranged, so that the device can automatically control the mounting frame to move up and down when the zinc alloy slag in the inner cavity of the tank body is stirred, the zinc alloy slag above the device is shaken by the filter screen, the stirring component can sufficiently stir the zinc alloy slag, and the stirring effect of the stirring component on the zinc alloy slag is improved.

3) According to the invention, by arranging the discharging component, the device can automatically control the bidirectional screw to rotate when the zinc alloy slag above the filter screen shakes, so that the valve plate and the discharging port are staggered and coincide, the zinc alloy slag can be discharged from the discharging port in batches under the guiding action of the guide plate, and the phenomenon that the zinc alloy slag is accumulated at the discharging port to cause blockage due to the fact that excessive zinc alloy slag is introduced once is avoided.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1A according to the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1B in accordance with the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 1 at C in accordance with the present invention;

FIG. 5 is a schematic view of a stirring assembly according to the present invention;

FIG. 6 is a cross-sectional view of the mounting box structure of the present invention;

FIG. 7 is a partial cross-sectional view of a tank structure of the present invention;

fig. 8 is a cross-sectional view of the fixing sleeve structure of the present invention.

The reference numerals in the figures illustrate: 1. a tank body; 2. a feed inlet; 3. a discharge port; 4. a guide plate; 5. a dithering assembly; 51. a fixing plate; 52. a fixed sleeve; 53. a spring; 54. a limiting plate; 55. a movable rod; 56. a mounting frame; 57. a filter screen; 58. a cross bar; 59. a cam; 510. driven cone pulley; 511. a driving cone pulley; 512. a vertical rod; 513. a mounting base; 514. a driven wheel I; 515. a first belt; 516. a first driving wheel; 6. a mounting box; 7. a stirring assembly; 71. a connecting ring; 72. a drive gear; 73. a main stirring rod; 74. a driven gear; 75. a mounting shaft; 76. an auxiliary stirring rod; 77. a mounting plate; 78. a motor; 79. a connecting rod; 710. a stub gear; 711. a toothed ring; 712. a connecting disc; 713. a fixing frame; 714. a circular gear; 715. a fixed rod; 8. a discharge assembly; 81. a valve plate; 82. a screw seat; 83. a bidirectional screw; 84. a bearing seat; 85. a guide seat; 86. a guide rod; 87. a fixing seat; 88. a bearing bracket; 89. a drive shaft; 810. a driven wheel II; 811. a second belt; 812. a driving wheel II; 813. a driving wheel III; 814. a third belt; 815. a driven wheel III; 816. and (3) rotating the shaft.

Detailed Description

Examples: referring to fig. 1-8, a discharging device of a storage tank for purifying zinc alloy slag comprises a tank body 1, wherein a feeding hole 2 and a discharging hole 3 are formed in the outer side of the tank body 1, the feeding hole 2 is located at the top position of the outer side of the tank body 1, the discharging hole 3 is located at the bottom end position of the outer side of the tank body 1, an installation box 6 is connected to the upper side of the tank body 1, a stirring assembly 7 is arranged in an inner cavity of the installation box 6, the stirring assembly 7 penetrates through the installation box 6 and extends to the inner cavity of the tank body 1, a guide plate 4 is connected to the bottom of the inner cavity of the tank body 1, the bottom end of the guide plate 4 corresponds to the height of the discharging hole 3, a shaking assembly 5 is arranged above the guide plate 4, the shaking assembly 5 penetrates through the tank body 1 and is connected with the stirring assembly 7, a discharging assembly 8 is arranged on the outer side of the discharging hole 3, and the discharging assembly 8 is connected with the shaking assembly 5.

The stirring assembly 7 comprises a connecting ring 71 which is rotationally connected below the mounting box 6, the top of the connecting ring 71 penetrates through the mounting box 6 and is connected with a driving assembly, the bottom of the connecting ring 71 is connected with a driving gear 72, one side of the driving gear 72, which is far away from the connecting ring 71, is connected with a main stirring rod 73, the outer side of the driving gear 72 is meshed with a driven gear 74, one side of the driven gear 74 is connected with a secondary stirring rod 76, the other side of the driven gear 74 is connected with a mounting shaft 75, the mounting shaft 75 is connected with the mounting box 6, the driving assembly comprises a mounting plate 77 which is arranged above the mounting box 6, a motor 78 is mounted on the outer side of the mounting plate 77, the output end of the motor 78 penetrates through the mounting box 6 and is connected with a connecting rod 79, one end of the connecting rod 79, which is far away from the motor 78, is connected with a stub gear 710, the outer side of the stub gear 710 is meshed with a toothed ring 711, an inner cavity of the toothed ring 711 is meshed with a circular gear 714, the outer side of the circular gear 714 is connected with a fixing rod 715, the fixing frame 712, 712 is connected with the outer side of the connecting ring 712 is connected with the connecting ring 71, and the outer side of the connecting disc 713 is rotationally connected with the mounting box 713 with the mounting box 6.

Specifically, firstly, the zinc alloy slag is put into the tank body 1 through the feed inlet 2, after the zinc alloy slag is purified in the tank body 1, the motor 78 is controlled to work, the motor 78 drives the connecting rod 79 fixedly connected with the output shaft of the motor to rotate, the connecting rod 79 drives the residual gear 710 fixedly connected with the connecting rod to rotate when rotating, when the gear teeth on the outer side of the residual gear 710 are meshed with the tooth grooves on the inner side of the toothed ring 711, the residual gear 710 drives the toothed ring 711 to rotate positively, when the residual gear 710 is disengaged from the toothed ring 711, the residual gear 710 is meshed with the circular gear 714, the circular gear 714 drives the toothed ring 711 meshed with the circular gear 714 to rotate reversely, the toothed ring 711 continuously rotates back and forth, the connecting disc 712 fixedly connected with the toothed ring 711 is driven to rotate when rotating, the connecting ring 71 drives the connecting ring 71 fixedly connected with the connecting ring 71 to rotate, the connecting ring 71 drives the main stirring rod 73 fixedly connected with the connecting ring 71 to rotate, and the connecting ring 71 also drives the driven gear 74 to rotate when rotating, the driven gear 74 is meshed with the driven gear 74, and the stirring rod 76 is prevented from being blocked by the stirring rod, and the stirring rod is prevented from rotating tightly, and the stirring rod is prevented from being blocked by the stirring rod 76.

Through setting up stirring subassembly 7 for the device can drive main puddler 73 and vice puddler 76 simultaneously and rotate, thereby make the device can stir zinc alloy sediment after the purification treatment to zinc alloy sediment, thereby reduce zinc alloy sediment's viscosity, avoid because the viscosity is too high, make zinc alloy sediment take place to condense and lead to blockking up, improved the ejection of compact efficiency of the device.

The shaking component 5 comprises a fixed plate 51 arranged on the inner wall of the tank body 1, a fixed sleeve 52 is connected above the fixed plate 51, a spring 53 is arranged in an inner cavity of the fixed sleeve 52, one end of the spring 53 is connected with the inner wall of the fixed sleeve 52, the other end of the spring 53 is connected with a limiting plate 54, one side, far away from the spring 53, of the limiting plate 54 is connected with a movable rod 55, one end, far away from the limiting plate 54, of the movable rod 55 penetrates through the fixed sleeve 52 and is connected with a mounting frame 56, a filter screen 57 is arranged in the inner cavity of the mounting frame 56, a control component is arranged below the mounting frame 56 and is connected with a motor 78, the control component comprises a cross rod 58 rotatably connected to the inner wall of the tank body 1, the outer side of the cross rod 58 is connected with a cam 59, the cam 59 is abutted against the mounting frame 56, one end of the cross rod 58 penetrates through the tank body 1 and is connected with a driven bevel wheel 510, the outer side of the driven bevel wheel 510 is meshed with a driving bevel wheel 511, the outer side of the driving bevel wheel 511 is connected with a mounting seat 513, one end, the end, far away from the driving bevel wheel 512 is connected with a driving bevel wheel 512, one end is connected with a driven bevel wheel 514 is connected with a driven bevel wheel 516, one end is connected with a driven bevel wheel 516 through a belt 516, and one output shaft 516 is connected with one end of the driven bevel wheel 515 through one end is connected with one output shaft 516.

Specifically, the motor 78 will drive the driving wheel one 516 fixedly connected with its output shaft to rotate during operation, thereby make the driving wheel one 516 drive driven wheel one 514 through belt one 515, driven wheel one 514 will drive the montant 512 fixedly connected with it to rotate during rotation, thereby make montant 512 drive the driving cone 511 fixedly connected with it to rotate, the driving cone 511 will drive the driven cone 510 meshed with it to rotate during rotation, thereby make driven cone 510 drive the horizontal pole 58 fixedly connected with it to rotate, the horizontal pole 58 will drive the cam 59 fixedly connected with it to rotate during rotation, when the protruding end of cam 59 contacts with the installation frame 56, cam 59 will push the installation frame 56 upwards, thereby make installation frame 56 drive the movable rod 55 fixedly connected with it to move upwards, the installation frame 56 will drive the limiting plate 54 fixedly connected with it to move upwards during upward movement, thereby make the limiting plate 54 stretch the spring 53 fixedly connected with it, when the protruding end of cam 59 breaks away from the installation frame 56, the limiting plate 54 will move downwards due to elasticity that the spring 53 produces, thereby make installation frame 56 drive the filter screen 57 to move upwards and downwards, thereby make the filter screen 57 move upwards and mix the zinc alloy fully, and mix the zinc alloy can stir the zinc alloy in the filter screen 7.

Through setting up shake subassembly 5 for the device is when stirring the zinc alloy sediment of jar body 1 inner chamber, can the automatic control installing frame 56 reciprocate, thereby makes to cross filter screen 57 and shake the zinc alloy sediment of its top, and then makes stirring subassembly 7 can fully stir the zinc alloy sediment, has improved the stirring effect of stirring subassembly 7 to the zinc alloy sediment.

The discharging assembly 8 comprises two fixing seats 87 arranged on the outer side of the tank body 1, a guide rod 86 is connected between the two fixing seats 87, a guide seat 85 is connected on the outer side of the guide rod 86, a valve plate 81 is connected on the outer side of the guide seat 85, a thread seat 82 is connected on one side of the valve plate 81 close to the guide seat 85, a bidirectional screw 83 is connected in a penetrating manner in an inner cavity of the thread seat 82, bearing seats 84 are connected at two ends of the bidirectional screw 83 in a rotating manner, a transmission assembly is connected on the outer side of one bearing seat 84, the transmission assembly is connected with a vertical rod 512, the transmission assembly comprises a bearing frame 88 arranged on the outer side of the tank body 1, a driving shaft 89 is connected on the outer side of the bearing frame 88 in a rotating manner, one end, far away from the bearing frame 88, of the driving shaft 89 is connected with a driven wheel 810, a belt two 811 is sleeved on the outer side of the driven wheel 810, a driving wheel 812 is connected with a vertical rod 512, a driving wheel three 813 is sleeved on the outer side of the driving wheel 89, a belt three 813 is sleeved on the outer side of the driving wheel 813, the driving wheel three 813 is connected with a driven wheel 815 through the belt three 814, the driving wheel 815 is connected with the driving wheel three through the belt three 814, the outer side of the driving wheel three 813 is connected with the driving wheel 816, the driving wheel 816 is connected with the driving wheel 84 through the driving wheel 816, and the driving wheel is connected with the driving wheel 83 through the driving wheel body 83.

Specifically, the vertical rod 512 will drive the driving wheel two 812 fixedly connected with the driving wheel two 812 to rotate when rotating, thereby the driving wheel two 812 drives the driving wheel two 810 to rotate through the belt two 811, the driving wheel two 810 will drive the driving shaft 89 fixedly connected with the driving wheel two 810 to rotate when rotating, thereby the driving shaft 89 drives the driving wheel three 813 fixedly connected with the driving wheel three 813 to rotate, the driving wheel three 813 will drive the driven wheel three 815 to rotate through the belt three 814 when rotating, thereby the driven wheel three 815 drives the rotating shaft 816 fixedly connected with the driven wheel three 815 to rotate, the rotating shaft 816 will drive the bidirectional screw 83 fixedly connected with the driven wheel three 816 to rotate when rotating, thereby the bidirectional screw 83 drives the screw seat 82 in threaded connection with the bidirectional screw to move, the screw seat 82 will drive the valve plate 81 fixedly connected with the bidirectional screw seat 81 to move synchronously when moving, thereby the valve plate 81 moves up and down along the axis of the bidirectional screw 83 under the action of the guide seat 85 and the guide rod 86, the valve plate 81 will coincide with the discharge port 3 when moving up and down, thereby the zinc alloy slag falling below the filter screen 57 after stirring can be driven by the driving wheel three 815 to rotate the rotating shaft 816, the screw 83 under the guide action of the guide plate 4, thereby the zinc alloy slag can be prevented from being led from the discharge port 3 in batches, and the situation that the zinc alloy slag is excessively accumulated at the discharge port is prevented.

Through setting up ejection of compact subassembly 8 for the device is shaking the zinc alloy sediment of filter screen 57 top, can the rotation of automatic control bi-directional screw 83, thereby makes valve plate 81 and discharge gate 3 dislocation coincide again, and then makes zinc alloy sediment can follow the discharge gate 3 ejection of compact in batches under the direction effect of deflector 4, avoids leading-in too much zinc alloy sediment owing to once only, makes zinc alloy sediment gathering lead to the jam in discharge gate 3 department.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a storage tank discharging device of zinc alloy sediment purification, includes a jar body (1), its characterized in that: feed inlet (2) and discharge gate (3) have been seted up in the outside of jar body (1), top position in jar body (1) outside is located to feed inlet (2), discharge gate (3) are located the bottom position in jar body (1) outside, the top of jar body (1) is connected with mounting box (6), the inner chamber of mounting box (6) is provided with stirring subassembly (7), stirring subassembly (7) run through mounting box (6) and extend to the inner chamber of jar body (1), the bottom of jar body (1) inner chamber is connected with deflector (4), the bottom of deflector (4) highly corresponds with discharge gate (3), and the top of deflector (4) is provided with shake subassembly (5), shake subassembly (5) run through jar body (1) and are connected with stirring subassembly (7), the outside that jar body (1) is located discharge gate (3) is provided with ejection of compact subassembly (8), ejection of compact subassembly (8) are connected with shake subassembly (5).

2. The storage tank discharging device for purifying zinc alloy slag according to claim 1, wherein: stirring subassembly (7) are including rotating go-between (71) of being connected in install bin (6) below, the top of go-between (71) runs through install bin (6) and is connected with drive assembly, and the bottom of go-between (71) is connected with driving gear (72), one side that driving gear (72) kept away from go-between (71) is connected with main puddler (73), and the outside meshing of driving gear (72) has driven gear (74), one side of driven gear (74) is connected with vice puddler (76), and the opposite side of driven gear (74) is connected with installation axle (75), installation axle (75) are connected with install bin (6).

3. The storage tank discharging device for purifying zinc alloy slag according to claim 2, wherein: the driving assembly comprises a mounting plate (77) arranged above a mounting box (6), a motor (78) is arranged on the outer side of the mounting plate (77), an output end of the motor (78) penetrates through the mounting box (6) and is connected with a connecting rod (79), one end of the connecting rod (79), far away from the motor (78), is connected with a residual gear (710), a toothed ring (711) is meshed on the outer side of the residual gear (710), a circular gear (714) is meshed with an inner cavity of the toothed ring (711), a fixing rod (715) is connected on the outer side of the circular gear (714), the fixing rod (715) is connected with the mounting box (6), a connecting disc (712) is connected with the connecting ring (71), and a fixing frame (713) is rotatably connected on the outer side of the connecting disc (712), and the fixing frame (713) is connected with the mounting box (6).

4. The storage tank discharging device for purifying zinc alloy slag according to claim 1, wherein: the utility model provides a shake subassembly (5) including setting up fixed plate (51) on jar body (1) inner wall, the top of fixed plate (51) is connected with fixed sleeve (52), the inner chamber of fixed sleeve (52) is provided with spring (53), the one end of spring (53) is connected with the inner wall of fixed sleeve (52), and the other end of spring (53) is connected with limiting plate (54), one side that spring (53) was kept away from to limiting plate (54) is connected with movable rod (55), the one end that limiting plate (54) was kept away from to movable rod (55) runs through fixed sleeve (52) and is connected with installing frame (56), the inner chamber of installing frame (56) is provided with filter screen (57), and the below of installing frame (56) is provided with control assembly, control assembly is connected with motor (78).

5. The storage tank discharging device for purifying zinc alloy slag according to claim 4, wherein: the control assembly comprises a cross rod (58) connected onto the inner wall of the tank body (1) in a rotating mode, a cam (59) is connected to the outer side of the cross rod (58), the cam (59) is abutted to a mounting frame (56), one end of the cross rod (58) penetrates through the tank body (1) and is connected with a driven cone (510), a driving cone (511) is meshed with the outer side of the driven cone (510), a vertical rod (512) is connected to the outer side of the driving cone (511), a mounting seat (513) is connected to the outer side of the vertical rod (512), one end, far away from the driving cone (511), of the vertical rod (512) is connected with a driven wheel (514), a belt (515) is sleeved on the outer side of the driven wheel (514), the driven wheel (514) is connected with a driving wheel (516) through a belt (515), and the driving wheel (516) is connected with an output shaft of the cross rod (58).

6. The storage tank discharging device for purifying zinc alloy slag according to claim 1, wherein: the discharging assembly (8) comprises two fixing seats (87) arranged on the outer side of the tank body (1), guide rods (86) are connected between the fixing seats (87), guide seats (85) are connected to the outer sides of the guide rods (86), valve plates (81) are connected to the outer sides of the guide seats (85), threaded seats (82) are connected to one sides of the valve plates (81) close to the guide seats (85), two-way screws (83) are connected to inner cavities of the threaded seats (82) in a penetrating mode, bearing seats (84) are connected to two ends of each two-way screw (83) in a rotating mode, transmission assemblies are connected to the outer sides of one of the bearing seats (84), and the transmission assemblies are connected to vertical rods (512).

7. The storage tank discharging device for purifying zinc alloy slag according to claim 6, wherein: the transmission assembly comprises a bearing frame (88) arranged on the outer side of the tank body (1), a driving shaft (89) is rotatably connected to the outer side of the bearing frame (88), one end, far away from the bearing frame (88), of the driving shaft (89) is connected with a driven wheel II (810), a belt II (811) is sleeved on the outer side of the driven wheel II (810), the driven wheel II (810) is connected with a driving wheel II (812) through the belt II (811), the driving wheel II (812) is connected with a vertical rod (512), a driving wheel III (813) is connected to the outer side of the driving shaft (89), a belt III (814) is sleeved on the outer side of the driving wheel III (813), the driving wheel III (813) is connected with a driven wheel III (815) through the belt III (814), the outer side of the driven wheel III (815) is connected with a rotating shaft (816), and the rotating shaft (816) penetrates through a bearing seat (84) and is connected with a bidirectional screw rod (83).