CN115806196B - Dust-free material receiving device for producing metal potassium - Google Patents

Abstract

The invention relates to the technical field of receiving equipment, in particular to a dust-free receiver for producing metallic potassium. The invention provides a dust-free material receiving device for producing metal potassium, which comprises a material receiving frame, a fixed rack, a movable gear, a material carrying frame, a locking mechanism and the like, wherein the movable gear is symmetrically connected to the material receiving frame, and can be meshed with the fixed rack when moving upwards, so that the material receiving frame can rotate when moving upwards, the material carrying frame is placed on a bearing frame, and the locking mechanism is used for fixing the material carrying frame on the material receiving frame, so that the cooled sodium chloride and potassium chloride can be poured into the material carrying frame when the material receiving frame rotates. The clamping block can clamp the connecting frame by rotation, so that the material carrying frame can be fixed on the material receiving frame, then the material receiving frame can be driven to rotate 180 degrees under the cooperation of the movable gear and the fixed rack, and the cooled sodium chloride and potassium chloride are poured into the material carrying frame, so that the cooled sodium chloride and potassium chloride can be taken out at one time, the working efficiency is improved, and dust flying can be prevented.

Description

Dust-free material receiving device for producing metal potassium

Technical Field

The invention relates to the technical field of receiving equipment, in particular to a dust-free receiver for producing metallic potassium.

Background

At present, when people produce metal potassium, the metal sodium and the potassium chloride are generally weighed in proportion by manpower, then a part of the potassium chloride is put into a reaction kettle, then the metal sodium is put into the reaction kettle, and finally the rest of the potassium chloride is put into the reaction kettle, so that the metal sodium and the potassium chloride react in the reaction kettle to generate the metal potassium.

After the reaction is finished, the molten residues (sodium chloride and potassium chloride) in the reaction kettle are pressed out of the reaction kettle by nitrogen gas, so that the residues are cooled and solidified in the slag tank, then the sodium chloride and the potassium chloride in the slag tank are dug out manually and sold outwards, however, the existing slag tank is simple in structure, a groove is dug out on the ground, the residues in the reaction kettle can be directly discharged into the groove for cooling, and the residues in the groove can be dug out manually only by using a little tool, so that the operation consumes labor, the working efficiency is low, and smoke dust and dust are easy to generate in the process of dug sodium chloride and potassium chloride, so that people can inhale the smoke dust and the dust easily to the body, and the harm is caused.

Disclosure of Invention

The invention aims to overcome the defects that the working efficiency is low and smoke dust and dust are easy to generate when sodium chloride and potassium chloride in a groove are dug out manually.

The invention is realized by the following technical approaches:

the utility model provides a dust-free receiver for potassium metal production, including the bearing frame, flexible unloading pipe, the sliding block, connect the material frame, fixed rack, remove the gear, carry the material frame, the linking frame, laminating mechanism, elevating system and locking mechanical system, be connected with flexible unloading pipe on the bearing frame, two sliding blocks all with bearing frame sliding connection and can slide from top to bottom, connect the material frame to rotate and connect between two sliding blocks, connect the material frame to be located flexible unloading pipe under, so that sodium chloride and potassium chloride under the molten state can fall in connecing the material frame through flexible unloading pipe, and connect the material frame and can slide from top to bottom along with the sliding block, fixed rack is connected with the bearing frame, symmetrical connection has the removal gear on the material frame, it can mesh with fixed rack to move upwards to make and can take place rotatablely when connecing the material frame to upwards, it carries the material frame to have placed on the bearing frame, be connected with the linking frame on the laminating mechanism is used for leading into the material frame with sodium chloride and potassium chloride under the molten state, elevating system is used for driving the material frame to slide from top to bottom, make the material frame fixed under the molten state and the material frame can be cooled down when connecing the material frame.

Further described, the laminating mechanism is including first motor, first wire reel, discharging pipe and first stay cord, is connected with first motor on the bearing frame, and first wire reel passes through the output shaft of shaft coupling and first motor to drive first wire reel rotation, the round joint has first stay cord on the first wire reel, and discharging pipe and flexible unloading pipe sliding connection and can slide from top to bottom, and first stay cord lower extreme is connected with the discharging pipe, and first wire reel rotates and can carry out the rolling or loosen to first stay cord, in order to drive discharging pipe and slide from top to bottom.

Further stated, the lifting mechanism comprises a second motor, a second wire spool and a second pull rope, the second motor is symmetrically connected to the bearing frame, the second wire spool is connected with an output shaft of the second motor through a coupler so as to drive the second wire spool to rotate, the second wire spool is wound with the second pull rope, the lower end of the second pull rope is connected with the sliding block, and the second wire spool can be wound or unwound to drive the sliding block to lift.

Further described, the locking mechanism comprises a guide block, a connecting block, a clamping block, a push rod and a reset torsion spring, wherein the guide block is connected with the material receiving frame so as to guide the material carrying frame, a plurality of groups of connecting blocks are connected to the material receiving frame, the clamping block is rotationally connected with the connecting block and can swing back and forth, the push rod is in sliding connection with the material receiving frame and can slide left and right, the push rod slides right to extrude the clamping block to swing and clamp the material carrying frame, and the reset torsion spring is connected with the clamping block and the connecting block so as to enable the clamping block to reversely reset.

The dustproof mechanism comprises a receiving plate, a reset spring, a fixing frame, a folding air bag, a sealing plate, an air pipe, an air release valve, a unidirectional air inlet valve and an elastic rope, wherein the receiving plate is connected with the receiving frame in a sliding mode and can slide up and down, the reset spring is connected with the receiving frame and the receiving plate, the receiving plate elastically resets upwards, the fixing frame is communicated with the fixing frame, the folding air bag is connected with the fixing frame in an inner mode, the folding air bag can expand and contract, the folding air bag is connected with the sealing plate, the folding air bag expands to drive the sealing plate to move backwards to contact with the inner wall of the receiving frame so as to block the upper portion of the receiving frame, the air in the receiving frame can be transmitted into the folding air bag through the air pipe when the receiving plate moves downwards, the air release valve and the unidirectional air inlet valve are arranged on the air pipe, and the elastic rope is connected with the sealing plate and the fixing frame, and the sealing plate elastically resets forwards.

Further, the buffer mechanism for buffering the material receiving frame is further arranged, the buffer mechanism comprises a guide rod, a buffer block and a compression spring, the guide rod is connected with the bearing frame, the buffer block is connected with the guide rod in a sliding mode and can slide up and down, the buffer block is in contact with the sliding block, the compression spring is connected with the buffer block and the bearing frame, so that the buffer block is elastically reset upwards, and the compression spring is sleeved outside the guide rod.

The guide seat is connected with the bearing frame, the rotating blocks are symmetrically connected to the material receiving frame, the rotating blocks slide in the guide seat, and the rubber strips are symmetrically connected to the guide seat.

Further stated, the portion of the push rod near the clamping block is an inclined surface.

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

1. the clamping block can clamp the connecting frame by rotation, so that the material carrying frame can be fixed on the material receiving frame, then the material receiving frame can be driven to rotate 180 degrees under the cooperation of the movable gear and the fixed rack, and the cooled sodium chloride and potassium chloride are poured into the material carrying frame, so that the cooled sodium chloride and potassium chloride can be taken out at one time, the working efficiency is improved, and dust flying can be prevented.

2. When the material carrying frame is connected with the cooled sodium chloride and potassium chloride, the material receiving plate moves downwards, so that the folding air bag expands and stretches, and the folding air bag can block the upper parts of the sodium chloride and the potassium chloride in the material carrying frame to prevent dust from flying.

3. According to the invention, under the action of the compression spring, the sliding block and the material receiving frame can be buffered when the sliding block moves downwards to reset.

4. The guide seat can guide and limit the rotating block, so that the material receiving frame can be prevented from rotating at the moment of upward movement of the material receiving frame.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a laminating mechanism according to the present invention.

Fig. 3 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 4 is a schematic perspective view of the locking mechanism of the present invention.

Fig. 5 is a schematic perspective view of the connecting block, the clamping block, the push rod and the reset torsion spring.

Fig. 6 is a schematic perspective view of the locking mechanism of the present invention in operation.

Fig. 7 is a schematic perspective view of a dust-proof mechanism of the present invention.

Fig. 8 is a schematic perspective view of the structure of the fixing frame, the folding air bag, the sealing plate, the air pipe, the air release valve, the unidirectional air inlet valve and the elastic rope.

Fig. 9 is a schematic perspective view of a buffer mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a receiving frame, a guide seat, a rotating block and a rubber strip according to the present invention.

The reference symbols in the drawings: 1: bearing frame, 2: telescoping blanking pipe, 3: sliding block, 4: receiving frame, 5: fixed rack, 6: moving gear, 7: carrying frame, 71: connection frame, 8: laminating mechanism, 81: first motor, 82: first wire spool, 83: discharge tube, 84: first stay cord, 9: lifting mechanism, 91: second motor, 92: second wire spool, 93: second stay cord, 10: locking mechanism, 101: guide block, 102: connecting block, 103: fixture block, 104: push rod, 105: reset torsion spring, 12: dustproof mechanism, 121: receiving plate, 122: return spring, 123: fixing frame, 124: folding the airbag, 125: sealing plate, 126: trachea, 127: air release valve, 128: unidirectional air intake valve, 129: elastic cord, 13: buffer mechanism, 131: guide bar, 132: buffer block, 133: compression spring, 141: guide holder, 142: rotating block, 143: rubber strips.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation, such as up, down, left, right, front, back, interior, exterior, etc., used herein, or immediately before, are used merely as references to the drawings of the present invention, and are not intended to limit the present invention to the specific form or form of the present invention, and the components themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. And the application is said to be as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

Example 1

The utility model provides a metal potassium production is with dustless receiver, as shown in fig. 1-6, including bearing frame 1, flexible unloading pipe 2, sliding block 3, connect material frame 4, fixed rack 5, movable gear 6, carry material frame 7, connecting frame 71, laminating mechanism 8, elevating system 9 and locking mechanical system 10, be connected with flexible unloading pipe 2 in the middle of bearing frame 1 upper portion, bearing frame 1 lower part bilateral symmetry sliding type is connected with sliding block 3, be connected with connect material frame 4 in the rotation between two sliding blocks 3, connect material frame 4 to be located flexible unloading pipe 2 under, molten potassium chloride and sodium chloride accessible flexible unloading pipe 2 drop to connect material frame 4 in the cooling, bearing frame 1 lower part bilateral symmetry welding has fixed rack 5, fixed rack 5 is located sliding block 3 top, it has carrier frame 7 to be connected with movable gear 6 to connect material frame 4 left and right sides, movable gear 6 upward moves and can mesh with fixed rack 5, it has carrier frame 7 to place on carrier frame 1, carrier frame 7 can be fixed on connect material frame 4, then be equipped with rotary mechanism on fixed carrier frame 5 and movable carrier frame 7 in fixed carrier frame 5 and movable carrier frame 7, be equipped with the mechanism 7 and the locking mechanical system is equipped with carrier frame 7, the rotatory carrier frame 7 is equipped with 5, the manual work and the mechanism is equipped with carrier frame 7 and the cooling mechanism is equipped with 7 in the lifting mechanism, the mechanism is equipped with the manual work and the mechanism is equipped with the cooling mechanism.

As shown in fig. 1 and 2, the attaching mechanism 8 includes a first motor 81, a first wire spool 82, a discharging pipe 83 and a first pull rope 84, the top of the bearing frame 1 is bolted with the first motor 81, the output shaft of the first motor 81 is connected with the first wire spool 82 through a coupling, the first wire spool 82 is wound with the first pull rope 84, the lower part of the telescopic discharging pipe 2 is slidably connected with the discharging pipe 83, and the lower end of the first pull rope 84 is connected with the discharging pipe 83.

As shown in fig. 1 and 3, the lifting mechanism 9 includes a second motor 91, a second wire spool 92 and a second pull rope 93, where the second motor 91 is bolted to the left-right symmetry of the lower part of the bearing frame 1, the second motor 91 is located above the fixed rack 5, the output shaft of the second motor 91 is connected with the second wire spool 92 through a coupling, the second wire spool 92 is wound with the second pull rope 93, the lower end of the second pull rope 93 is connected with the sliding block 3, and when the second wire spool 92 rotates to wind the second pull rope 93, the sliding block 3 can be driven to move upwards.

As shown in fig. 1, fig. 4, fig. 5 and fig. 6, the locking mechanism 10 comprises a guide block 101, a connecting block 102, clamping blocks 103, a pushing rod 104 and a reset torsion spring 105, the upper parts of the left side and the right side of the material receiving frame 4 are respectively connected with the guide block 101, the upper parts of the front side and the rear side of the material receiving frame 4 are respectively welded with two groups of connecting blocks 102, the number of each group of connecting blocks 102 is two, each group of connecting blocks 102 is respectively and rotatably connected with the clamping block 103, the upper part of the material receiving frame 4 is slidably connected with the pushing rod 104, the clamping blocks 103 are respectively contacted with the pushing rod 104, the part, close to the clamping blocks 103, on the pushing rod 104 is an inclined surface, the pushing rod 104 moves rightwards and can extrude the clamping blocks 103 to rotate, so that the clamping blocks 103 clamp the connecting frame 71, and the material carrying frame 7 can be fixed on the material receiving frame 4, and reset torsion springs 105 are respectively connected between the clamping blocks 103 and adjacent connecting blocks 102.

At the beginning, the lower end of the discharging pipe 83 contacts with the inner bottom of the receiving frame 4, the upper end of the telescopic discharging pipe 2 is firstly butted with the discharging hole of the reaction kettle, then molten sodium chloride and potassium chloride in the reaction kettle can be led out through the telescopic discharging pipe 2, the molten sodium chloride and potassium chloride can be transmitted to the inner bottom of the receiving frame 4 through the discharging pipe 83, meanwhile, the first wire reel 82 can be driven by the first motor 81 to slowly rotate, the first pull rope 84 is wound, so that the discharging pipe 83 is driven to slowly ascend, thus, the molten sodium chloride and potassium chloride can be completely transmitted into the receiving frame 4, the molten sodium chloride and potassium chloride can be prevented from splashing due to falling from the height, after the molten sodium chloride and potassium chloride completely enter the receiving frame 4, the discharging pipe 83 continues to move upwards, the lower end of the telescopic discharging pipe 2 is driven to move upwards, shortening the telescopic blanking pipe 2 away from the material receiving frame 4, waiting for cooling sodium chloride and potassium chloride in the material receiving frame 4, after cooling, manually placing the material receiving frame 7 right above the material receiving frame 4, guiding the material receiving frame 7 by a guide block 101, guiding and limiting the material receiving frame 7, pushing a pushing rod 104 to the right, enabling the pushing rod 104 to extrude a clamping block 103 to rotate, enabling a reset torsion spring 105 to deform, enabling the clamping block 103 to clamp a connecting frame 71, fixing the material receiving frame 7 on the material receiving frame 4, driving a second wire spool 92 to rotate through a second motor 91, winding a second pull rope 93, driving a sliding block 3 to move upwards, driving the material receiving frame 4, a moving gear 6 and the material receiving frame 7 to move upwards, driving the moving gear 6 to rotate 180 degrees by the fixed gear 5 when the moving gear 6 is meshed with the fixed gear 5, driving the material receiving frame 4 and the material receiving frame 7 to rotate 180 degrees, make connect material frame 4 can pour the sodium chloride after the cooling, potassium chloride into and carry material frame 7 in, promote a small handcart to carrying material frame 7 below by the manual work again, then pull push rod 104 left, make push rod 104 loosen fixture block 103, reset torsional spring 105 resumes the original form, drive fixture block 103 reversal and loosen connection frame 71, then can utilize the small handcart to carry material frame 7 away, so can once only take out the sodium chloride after the cooling, potassium chloride, improve work efficiency, and can prevent the dust from flying upward.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7 and 8, the dustproof mechanism 12 further comprises a dustproof mechanism 12, the dustproof mechanism 12 comprises a material receiving plate 121, a return spring 122, a fixing frame 123, a folding air bag 124, a sealing plate 125, an air pipe 126, an air release valve 127, a one-way air inlet valve 128 and an elastic rope 129, the material receiving plate 121 is connected in the material carrying frame 7 in a sliding mode, four return springs 122 are connected between the bottom of the material receiving plate 121 and the inner bottom of the material carrying frame 7, the fixing frame 123 is communicated with the upper part of the front side of the material carrying frame 7, the folding air bag 124 is connected with the sealing plate 125 in the inner side of the fixing frame 123, sodium chloride and potassium chloride in the material carrying frame 7 can be blocked after the folding air bag 124 is expanded and stretched, dust is prevented from flying upwards, the sealing plate 125 moves backwards to be contacted with the inner wall of the material carrying frame 7, the air pipe 126 is communicated between the folding air bag 124 and the lower part of the material carrying frame 7, the air pipe 126 is provided with the air release valve 127, the one-way air inlet valve 128 is arranged at the lower part of the air pipe 126, and the elastic rope 129 is symmetrically connected left and right between the sealing plate 125 and the fixing frame 123.

After the cooled sodium chloride and potassium chloride are poured into the material carrying frame 7, the material receiving plate 121 is extruded to move downwards, the return spring 122 is compressed, the material receiving plate 121 can extrude air at the lower part of the material carrying frame 7, the air enters the folded air bag 124 through the air pipe 126, the folded air bag 124 is expanded and stretched to drive the sealing plate 125 to move backwards to be in contact with the inner wall of the material carrying frame 7, the elastic rope 129 stretches, so that the sodium chloride and the potassium chloride in the material carrying frame 7 can be blocked by the folded air bag 124 to prevent dust from flying, after the material carrying frame 7 is transported to a proper position by utilizing the trolley, the folded air bag 124 can be deflated through the air release valve 127, the elastic rope 129 is restored to the original state, the sealing plate 125 is driven to move forwards to reset, the sodium chloride and the potassium chloride in the material carrying frame 7 can be taken out after the folded air bag 124 is contracted to not block the sodium chloride and the potassium chloride in the material carrying frame 7, the return spring 122 is driven to move upwards to reset, and the outside air can enter the lower part of the material carrying frame 7 through the air pipe 126 under the action of the unidirectional air inlet valve 128.

As shown in fig. 1 and 9, the buffer mechanism 13 is further included, the buffer mechanism 13 includes a guide rod 131, a buffer block 132 and a compression spring 133, the guide rod 131 is welded on the lower part of the bearing frame 1 in bilateral symmetry, the buffer block 132 is connected to the guide rod 131 in a sliding manner, the top of the buffer block 132 is contacted with the bottom of the sliding block 3, the compression spring 133 is connected between the bottom of the buffer block 132 and the bearing frame 1, the compression spring 133 is sleeved outside the guide rod 131, initially, the sliding block 3 presses the buffer block 132, the compression spring 133 is in a compression state, when the sliding block 3 moves upwards, the compression spring 133 is separated from the buffer block 132, the compression spring 133 returns to the original state, the buffer block 132 is driven to move upwards, when the sliding block 3 moves downwards to be in contact with the buffer block 132, the buffer block 132 is extruded to move downwards, and the compression spring 133 is compressed, so that the sliding block 3 and the material receiving frame 4 can be buffered.

As shown in fig. 1 and 10, the device further comprises a guide seat 141, a rotating block 142 and a rubber strip 143, wherein the guide seat 141 is symmetrically welded at the left and right sides of the lower part of the bearing frame 1, the rotating block 142 is connected with the rotating block 142 at the left and right sides of the material receiving frame 4, the rotating block 142 slides in the guide seat 141, the rubber strip 143 is symmetrically connected with the top of the guide seat 141 back and forth, when the sliding block 3 moves upwards, the material receiving frame 4 and the rotating block 142 are driven to move upwards, the guide seat 141 can guide and limit the rotating block 142, so that the material receiving frame 4 can be prevented from rotating at the moment of the upward movement of the material receiving frame 4, the rotating block 142 continues to move upwards, the rubber strip 143 can guide the rotating block 142, and when the rotating block 142 is separated from the rubber strip 143, the material receiving frame 4 and the rotating block 142 can rotate, so that the rotation of the material receiving frame 4 cannot be influenced.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (8)

1. The utility model provides a dust-free receiver for metal potassium production, a serial communication port, including bearing frame (1), flexible unloading pipe (2), sliding block (3), connect material frame (4), fixed rack (5), remove gear (6), carry material frame (7), connecting frame (71), laminating mechanism (8), elevating system (9) and locking mechanical system (10), be connected with flexible unloading pipe (2) on bearing frame (1), two sliding block (3) all with bearing frame (1) sliding connection and can slide from top to bottom, connect material frame (4) swivelling joint between two sliding block (3), connect material frame (4) to sodium chloride and potassium chloride accessible flexible unloading pipe (2) under the messenger's molten state drop in connect material frame (4), and connect material frame (4) can slide from top to bottom along with sliding block (3), fixed rack (5) are connected with frame (1), symmetrical on connect material frame (4) have removal gear (6), move up-and fixed rack (5) and can take place to rotate carrier frame (7) in the time of connecting frame (7) in order to make the molten state move up carrier (7), laminating mechanism (8) are used for leading into in receiving frame (4) sodium chloride and potassium chloride under the molten state, and elevating system (9) are used for driving receiving frame (4) and slide from top to bottom, and locking mechanical system (10) are used for fixing carrying frame (7) on receiving frame (4) to make receiving frame (4) when rotatory, can pour sodium chloride and potassium chloride after the cooling into carrying frame (7).

2. The dust-free material receiving device for metal potassium production according to claim 1, wherein the attaching mechanism (8) comprises a first motor (81), a first wire spool (82), a discharging pipe (83) and a first pull rope (84), the first motor (81) is connected to the bearing frame (1), the first wire spool (82) is connected with an output shaft of the first motor (81) through a coupler so as to drive the first wire spool (82) to rotate, the first pull rope (84) is wound on the first wire spool (82), the discharging pipe (83) is connected with the telescopic blanking pipe (2) in a sliding mode and can slide up and down, the lower end of the first pull rope (84) is connected with the discharging pipe (83), and the first wire spool (82) can roll or loosen the first pull rope (84) so as to drive the discharging pipe (83) to slide up and down.

3. The dust-free material receiver for producing metal potassium according to claim 2, wherein the lifting mechanism (9) comprises a second motor (91), a second wire spool (92) and a second pull rope (93), the second motor (91) is symmetrically connected to the bearing frame (1), the second wire spool (92) is connected with an output shaft of the second motor (91) through a coupler so as to drive the second wire spool (92) to rotate, the second pull rope (93) is wound on the second wire spool (92), the lower end of the second pull rope (93) is connected with the sliding block (3), and the second pull rope (93) can be wound or unwound by rotating the second wire spool (92) so as to drive the sliding block (3) to lift.

4. The dust-free material receiver for producing metal potassium according to claim 3, wherein the locking mechanism (10) comprises a guide block (101), a connecting block (102), a clamping block (103), a pushing rod (104) and a reset torsion spring (105), the guide block (101) is connected with the material receiving frame (4) so as to guide the material receiving frame (7), a plurality of groups of connecting blocks (102) are connected to the material receiving frame (4), the clamping block (103) is rotationally connected with the connecting block (102) and can swing back and forth, the pushing rod (104) is slidably connected with the material receiving frame (4) and can slide left and right, the pushing rod (104) can press the clamping block (103) to swing and clamp the material receiving frame (7), and the reset torsion spring (105) is connected with the clamping block (103) and the connecting block (102) so as to enable the clamping block (103) to reversely reset.

5. The dust-free material receiver for producing potassium metal according to claim 4, further comprising a dust-proof mechanism (12) for blocking the upper part of the material carrying frame (7), wherein the dust-proof mechanism (12) comprises a material receiving plate (121), a return spring (122), a fixed frame (123), a folding air bag (124), a sealing plate (125), an air pipe (126), an air release valve (127), a one-way air inlet valve (128) and an elastic rope (129), the material receiving plate (121) is slidably connected with the material carrying frame (7) and can slide up and down, the return spring (122) is connected with the material carrying frame (7) and the material receiving plate (121) so that the material receiving plate (121) is elastically reset upwards, the fixed frame (123) is communicated with the folding air bag (124), the folding air bag (124) can expand and contract, the folding air bag (124) is connected with the sealing plate (125), the folding air bag (124) can drive the sealing plate (125) to move backwards to contact the inner wall of the material carrying frame (7) so as to block the upper part of the material carrying frame (7), the air bag (124) can be communicated with the air pipe (126) through the air pipe (126) when the air bag (126) is connected with the material carrying frame (7), the folding air bag (124) is inflated, the air pipe (126) is provided with an air release valve (127) and a one-way air inlet valve (128), and the elastic rope (129) is connected with the sealing plate (125) and the fixed frame (123) so as to elastically reset the sealing plate (125) forwards.

6. The dust-free receiver for producing potassium metal according to claim 5, further comprising a buffer mechanism (13) for buffering the receiving frame (4), wherein the buffer mechanism (13) comprises a guide rod (131), a buffer block (132) and a compression spring (133), the guide rod (131) is connected with the bearing frame (1), the buffer block (132) is slidably connected with the guide rod (131) and can slide up and down, the buffer block (132) is in contact with the sliding block (3), the compression spring (133) is connected with the buffer block (132) and the bearing frame (1) so as to enable the buffer block (132) to elastically reset upwards, and the compression spring (133) is sleeved outside the guide rod (131).

7. The dust-free receiver for producing potassium metal of claim 6, further comprising a guide seat (141), a rotating block (142) and a rubber strip (143), wherein the guide seat (141) is connected with the bearing frame (1), the rotating block (142) is symmetrically connected to the receiving frame (4), the rotating block (142) slides in the guide seat (141), and the rubber strip (143) is symmetrically connected to the guide seat (141).

8. The dust-free receiver for potassium metal production of claim 7, wherein a portion of the push rod (104) near the block (103) is a slope.

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