CN113369284A - Environment-friendly intelligent organic matter aerobic fermentation tank - Google Patents

Abstract

The invention discloses an environment-friendly intelligent organic matter aerobic fermentation tank, which comprises: the tank body is arranged vertically; the feed inlet is arranged at the top end of the tank body, and the discharge outlet is arranged at the position, close to the bottom end, of the side end of the tank body; the stirring unit is arranged in the tank body and is used for stirring organic matters in the tank body; the high-temperature air inlet unit is arranged at the bottom end of the tank body; and the oxygen content detector is arranged on the tank body. The invention discloses an environment-friendly intelligent organic matter aerobic fermentation tank, wherein organic fermentation products are fed into a tank body from a feeding hole for fermentation, a stirring unit stirs the organic fermentation products in the tank body, an oxygen content detector is used for monitoring the oxygen content in a pipe body, if the oxygen content is insufficient, a high-temperature air inlet unit sends oxygen-enriched high-temperature air into the tank body, and the organic fermentation products are fully contacted with the oxygen-enriched high-temperature air under the stirring of the stirring unit, so that the fermentation efficiency of the organic fermentation products is improved.

Description

Environment-friendly intelligent organic matter aerobic fermentation tank

Technical Field

The invention relates to the technical field of fermentation tanks, in particular to an environment-friendly intelligent organic matter aerobic fermentation tank.

Background

Need carry out aerobic fermentation to organic fermentation thing in the course of working of organic matter, make things convenient for the better fermentation of organic matter ability, satisfy the demand of using, but current fermentation cylinder sealed setting, oxygen content and temperature regulation nature are poor in the fermentation cylinder, the unable abundant demand that satisfies organic fermentation thing aerobic fermentation.

Disclosure of Invention

In order to achieve the purpose, the invention discloses an environment-friendly intelligent organic matter aerobic fermentation tank, which comprises:

the tank body is arranged vertically;

the feed inlet is arranged at the top end of the tank body, and the discharge outlet is arranged at the position, close to the bottom end, of the side end of the tank body;

the stirring unit is arranged in the tank body and is used for stirring organic matters in the tank body;

the high-temperature air inlet unit is arranged at the bottom end of the tank body;

and the oxygen content detector is arranged on the tank body.

Preferably, the outer surface of the tank body is wrapped with a heat insulation layer.

Preferably, a shielding shed is installed at the top end of the tank body.

Preferably, the method further comprises the following steps:

the ladder of ascending a height, the ladder of ascending a height is installed in jar body side.

Preferably, the stirring unit includes:

the main shaft is vertically arranged at the central position in the tank body;

the stirring rods are circumferentially arranged on the main shaft;

the stirring motor is arranged at the top end of the tank body;

the spline groove is formed in the top end of the main shaft;

the spline shaft is arranged at the output end of the stirring motor and extends into the spline groove;

the reset spring is installed in the spline groove, one end of the reset spring is connected with the bottom end of the spline groove, and the other end of the reset spring is connected with the spline shaft.

Preferably, the high temperature air inlet unit includes:

the air inlet seat is embedded at the bottom end of the tank body;

the air inlet chamber is arranged in the air inlet seat;

the air inlet is formed in the side end of the air inlet seat and communicated with the air inlet chamber, and a blower is connected to the air inlet;

the telescopic electric cylinder is arranged at the position, far away from the air inlet, of the side end of the air inlet seat;

the transmission rack is transversely arranged in the air inlet chamber and is arranged at the output end of the telescopic electric cylinder;

the blocking block is arranged at the end, far away from the telescopic cylinder, of the transmission rack and is matched with the air inlet;

the rope winding disc installation chamber is arranged in the air inlet seat and is positioned above the air inlet chamber;

the rope winding disc is arranged in the rope winding disc installation chamber;

the rotating gear is arranged in the air inlet chamber and is meshed with the transmission rack;

one end of the rotating shaft is connected with the rotating gear, and the other end of the rotating shaft extends into the rope winding disc mounting chamber and is connected with the rope winding disc;

the fixing groove is formed in the center of the top end of the air inlet seat and is positioned in the tank body, and the inner wall of the fixing groove is arranged in an inward inclined mode from top to bottom;

the lifting block is arranged in the fixing groove;

the first spring is arranged in the fixed groove, one end of the first spring is connected with the bottom end of the fixed groove, and the other end of the first spring is connected with the lifting block;

one end of the rope body is connected with the bottom end of the lifting block, and the other end of the rope body penetrates through the first spring and extends into the rope winding disc installation chamber to be wound on the rope winding disc;

the annular connecting chamber is circumferentially arranged in the air inlet seat by taking the fixed groove as a center and is positioned above the rope winding disc mounting chamber;

the two air supply channels are symmetrically arranged in the air inlet seat by taking the fixed groove as a center, one end of the air inlet channel is communicated with the annular connecting chamber, and the other end of the air inlet channel is communicated with the air inlet chamber;

the material blocking shell is arranged at the top end of the air inlet seat and is in a circular truncated cone-shaped structure;

the two strip-shaped grooves are symmetrically formed in the top end of the air inlet seat by taking the fixed groove as a center, and the bottom ends of the strip-shaped grooves are communicated with the annular connecting chamber;

the stop block is arranged in the annular connecting chamber;

the bottom end of the vertical rod is connected with the stop block, and the top end of the vertical rod extends into the material blocking shell from the strip-shaped groove;

the second spring is positioned in the annular connecting chamber and sleeved on the vertical rod;

one end of the connecting rod is hinged with the inner end of the upright rod, and the other end of the connecting rod is hinged with the lifting block;

the inserting block is connected to the top end of the upright rod;

the supporting disc is positioned in the material blocking shell;

the two slots are oppositely arranged at the side end of the supporting plate, and the insertion block extends into the slots;

the side end of the connecting column is circumferentially provided with a wave groove, the bottom end of the connecting column is connected with the top end of the supporting disc, and the top end of the connecting column penetrates through the top end of the material blocking shell;

the support column, the support column is established to round platform column structure, the support column bottom with the spliced pole top is connected, the support column top is close to the main shaft bottom sets up.

Preferably, the method further comprises the following steps:

the turntable mounting chamber is arranged in the supporting disc;

the rotary table is arranged in the rotary table mounting chamber, and transmission teeth are circumferentially arranged at the side end of the rotary table;

one end of the connecting shaft is connected with the turntable, and the other end of the connecting shaft extends out of the turntable mounting chamber and is connected with the bottom end of the connecting column;

and one end of the transverse rack is connected with the inner end of the insert block, and the other end of the transverse rack extends into the turntable installation chamber and is connected with the turntable.

Drawings

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

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

FIG. 2 is a schematic structural view of a stirring unit according to the present invention;

FIG. 3 is a schematic structural diagram of a high temperature air intake unit according to the present invention;

fig. 4 is an enlarged view of reference character a in fig. 3.

In the figure: 1. a tank body; 2. a stirring unit; 4. a high-temperature air inlet unit; 11. a feed inlet; 12. a discharge port; 21. a main shaft; 22. a spline groove; 23. a stirring motor; 24. a stirring rod; 25. a spline shaft; 26. a return spring; 41. an air inlet seat; 42. an air inlet chamber; 43. an air inlet; 44. a telescopic electric cylinder; 45. a drive rack; 46. blocking; 47. a rope reel installation chamber; 48. rope coiling disc; 49. a rotating gear; 40. a rotating shaft; 51. fixing grooves; 52. a lifting block; 53. a first spring; 54. a rope body; 55. an annular connecting chamber; 56. an air supply channel; 57. a material blocking shell; 58. a strip-shaped groove; 59. a stopper; 50. erecting a rod; 61. a second spring; 62. a connecting rod; 63. inserting a block; 64. a support disc; 65. a slot; 66. connecting columns; 67. a support pillar; 68. a turntable installation chamber; 69. a turntable; 60. a connecting shaft; 71. a transverse rack.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

The invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, the present embodiment provides an environment-friendly intelligent organic matter aerobic fermentation tank, which includes:

the tank body 1 is vertically arranged;

the feeding port 11 is arranged at the top end of the tank body 1, and the discharging port 12 is arranged at the position, close to the bottom end, of the side end of the tank body 1;

the stirring unit 2 is arranged in the tank body 1, and is used for stirring the organic matters in the tank body 1;

the high-temperature air inlet unit 4 is arranged at the bottom end of the tank body 1;

the oxygen content detector is arranged on the tank body 1.

The working principle and the beneficial effects of the technical scheme are as follows:

the invention discloses an environment-friendly intelligent organic matter aerobic fermentation tank, wherein organic fermentation products are fed into a tank body 1 from a feeding hole 11 for fermentation, a stirring unit 2 is used for stirring the organic fermentation products in the tank body 1, an oxygen content detector is used for monitoring the oxygen content in a pipe body 1, when the oxygen content is insufficient, a high-temperature air inlet unit 4 is used for feeding oxygen-enriched high-temperature air into the tank body 1, and the organic fermentation products are fully contacted with the oxygen-enriched high-temperature air under the stirring of the stirring unit 2, so that the fermentation efficiency of the organic fermentation products is improved.

In one embodiment, the outer surface of the tank body 1 is wrapped with a thermal insulation layer.

The beneficial effects of the above technical scheme are:

plays a role in preserving heat of the organic fermentation product in the tank body 1.

In one embodiment, a shielding shed is arranged at the top end of the tank body 1.

In one embodiment, further comprising:

the ladder of ascending a height, the ladder of ascending a height is installed in 1 side of jar body.

As shown in fig. 2, in one embodiment, the stirring unit 2 includes:

the main shaft 21 is vertically arranged at the central position in the tank body 1;

a plurality of stirring rods 24, wherein the stirring rods 24 are circumferentially arranged on the main shaft 21;

the stirring motor 23 is arranged at the top end of the tank body 1;

the spline groove 22 is formed in the top end of the main shaft 21;

the spline shaft 25 is mounted at the output end of the stirring motor 23, and the spline shaft 25 extends into the spline groove 22;

and the return spring 26 is installed in the spline groove 22, one end of the return spring 26 is connected with the bottom end of the spline groove 22, and the other end of the return spring 26 is connected with the spline shaft 25.

The working principle and the beneficial effects of the technical scheme are as follows:

the stirring motor 23 works to drive the spline shaft 25 arranged at the output end of the stirring motor to rotate, and the spline shaft 25 extends into the spline groove 22, so that the main shaft 21 and the stirring rod 24 arranged on the main shaft 21 are driven to stir the organic fermentation product in the tank body 1.

As shown in fig. 3, in one embodiment, the high temperature air intake unit 4 includes:

the air inlet seat 41 is embedded at the bottom end of the tank body 1;

the air inlet chamber 42, the air inlet chamber 42 is arranged in the air inlet seat 41;

the air inlet 43 is formed in the side end of the air inlet seat 41, the air inlet 43 is communicated with the air inlet chamber 42, and the air inlet 43 is connected with a blower;

the telescopic electric cylinder 44 is installed at the position, far away from the air inlet 43, of the side end of the air inlet seat 41;

the transmission rack 45 is transversely arranged in the air inlet chamber 42, and the transmission rack 45 is arranged at the output end of the telescopic electric cylinder 44;

the block 46, the block 46 is installed at the end, far away from the telescopic cylinder 44, of the transmission rack 45, and the block 46 is matched with the air inlet 43;

the rope coiling disc installation chamber 47 is arranged in the air inlet seat 41, and the rope coiling disc installation chamber 47 is positioned above the air inlet chamber 42;

a rope reel 48, wherein the rope reel 48 is arranged in the rope reel installation chamber 47;

the rotating gear 49 is installed in the air inlet chamber 42, and the rotating gear 49 is meshed with the transmission rack 45;

one end of the rotating shaft 40 is connected with a rotating gear 49, and the other end of the rotating shaft 40 extends into the rope winding disc installation chamber 47 and is connected with the rope winding disc 48;

the fixing groove 51 is formed in the center of the top end of the air inlet seat 41, the fixing groove 51 is located in the tank body 1, and the inner wall of the fixing groove 51 is arranged in an inward inclined mode from top to bottom;

the lifting block 52 is arranged in the fixing groove 51;

the first spring 53 is arranged in the fixed groove 51, one end of the first spring 53 is connected with the bottom end of the fixed groove 51, and the other end of the first spring 53 is connected with the lifting block 52;

a rope body 54, one end of the rope body 54 is connected with the bottom end of the lifting block 52, the other end of the rope body 54 penetrates through the first spring 53 and extends into the rope winding disc installation chamber 47 to wind on the rope winding disc 48;

an annular connection chamber 55, wherein the annular connection chamber 55 is circumferentially arranged in the air inlet seat 41 by taking the fixing groove 51 as a center, and the annular connection chamber 55 is positioned above the rope reel installation chamber 47;

the two air supply channels 56 are symmetrically arranged in the air inlet seat 41 by taking the fixed groove 51 as a center, one end of the air inlet channel 56 is communicated with the annular connecting chamber 55, and the other end of the air inlet channel 56 is communicated with the air inlet chamber 42;

the material blocking shell 57 is mounted at the top end of the air inlet seat 41, and the material blocking shell 57 is in a circular truncated cone-shaped structure;

the two strip-shaped grooves 58 are symmetrically arranged at the top end of the air inlet seat 41 by taking the fixed groove 51 as a center, and the bottom ends of the strip-shaped grooves 58 are communicated with the annular connecting chamber 55;

a stopper 59, the stopper 59 being provided in the annular connection chamber 55;

the bottom end of the vertical rod 50 is connected with a stop block 59, and the top end of the vertical rod 50 extends into the material blocking shell 57 from the strip-shaped groove 58;

the second spring 61, the second spring 61 is located in the annular connecting chamber 55, and the second spring 61 is sleeved on the vertical rod 50;

one end of the connecting rod 62 is hinged with the inner end of the upright rod 50, and the other end of the connecting rod 62 is hinged with the lifting block 52;

the inserting block 63 is connected to the top end of the upright rod 50;

the supporting disc 64 is positioned in the material blocking shell 57;

the two slots 65 are oppositely arranged at the side end of the supporting plate 64, and the inserting block 63 extends into the slots 65;

a connecting column 66, a wave groove is circumferentially formed at the side end of the connecting column 66, the bottom end of the connecting column 66 is connected with the top end of the supporting disk 64, and the top end of the connecting column 66 penetrates through the top end of the material blocking shell 57;

the support column 67, the support column 67 is established to round platform column structure, the support column 67 bottom with the spliced pole 66 top is connected, the support column 67 top is close to the setting of main shaft 21 bottom.

The working principle and the beneficial effects of the technical scheme are as follows:

the blower sends high-temperature hot gas into the air inlet chamber 42 from the air inlet 43, at this time, the telescopic electric cylinder 44 works, and then the transmission rack 45 arranged at the output end of the telescopic electric cylinder 44 is pulled to move in the air inlet chamber 42 in the direction far away from the air inlet 43, the blocking block 46 connected with the end, far away from the telescopic electric cylinder 44, of the transmission rack 45 leaves the air inlet 43, hot air is sent into the air inlet chamber 42, at this time, the transmission rack 45 drives the rotating gear 49 meshed with the transmission rack to rotate in the air inlet chamber 42, so as to drive the rope winding disc 48 connected with the rotating gear 49 through the rotating shaft 40 to rotate in the rope winding disc installation chamber 47, and further, the rope body 54 is pulled to wind on the rope winding disc 48, so as to drive the lifting block 52 connected with the other end of the rope body 54 to descend in the fixed groove 51, the first spring 53 is stressed to contract, the lifting block 52 drives the two connecting rods 62 hinged with the lifting block 52 to turn towards each other direction, and the connecting rods 62 gradually attach to the inner wall of the fixed groove 51, thereby two pole settings 50 that the end is connected far away from elevator block 52 with connecting rod 62 are close to each other direction motion along the fluting direction of bar groove 58 while, pole setting 50 rises, dog 59 breaks away from air supply passageway 56, the shrink of second spring 61 atress, high temperature steam is sent into in the annular linkage chamber 55 from air supply passageway 56, and send into in keeping off the material shell 57 from bar groove 58, along with the rising of pole setting 50, pole setting 50 passes through inserted block 63, the cooperation of slot 65 drives supporting disk 64, install spliced pole 66 on supporting disk 64, install the upward movement of support column 67 on spliced pole 66, support column 67 supports main shaft 21 upward movement, reset spring 26 atress shrink, main shaft 21 is taken stirring rod 24 wholly to rise, high temperature steam is sent into in jar body 1 from the wave groove, thereby provide high temperature oxygen-enriched air.

As shown in fig. 4, in one embodiment, the method further includes:

a turntable mounting chamber 68, said turntable mounting chamber 68 being disposed within said support plate 64;

the turntable 69 is arranged in the turntable mounting chamber 68, and transmission teeth are circumferentially arranged at the side end of the turntable 69;

one end of the connecting shaft 60 is connected with the turntable 69, and the other end of the connecting shaft 60 extends out of the turntable mounting chamber 68 to be connected with the bottom end of the connecting column 66;

one end of the transverse rack 71 is connected with the inner end of the insert block 63, and the other end of the transverse rack 71 extends into the turntable mounting chamber 68 and is connected with the turntable 69.

The working principle and the beneficial effects of the technical scheme are as follows:

when the insert block 63 moves towards the bottom end of the slot 65 in the slot 65, the transverse rack 71 moves transversely to drive the turntable 69 to rotate in the turntable mounting chamber 68, the turntable 69 drives the connecting column 66 to rotate through the connecting shaft 60, the connecting column 66 drives the round platform-shaped supporting column 67 to rotate, so that organic fermentation materials on the surfaces of the supporting column 67 and the connecting column 66 are thrown away, and high-temperature hot gas is conveniently sent into the tank body 1 from the wave groove.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (7)

1. The utility model provides an environment-friendly intelligent organic matter aerobic fermentation jar which characterized in that includes:

the tank body (1), the tank body (1) is arranged vertically;

the feed inlet (11) is installed at the top end of the tank body (1), and the discharge outlet (12) is installed at the position, close to the bottom end, of the side end of the tank body (1);

the stirring unit (2) is arranged in the tank body (1) and is used for stirring the organic matters in the tank body (1);

the high-temperature air inlet unit (4), the high-temperature air inlet unit (4) is installed at the bottom end of the tank body (1);

the oxygen content detector is arranged on the tank body (1).

2. The environment-friendly intelligent organic matter aerobic fermentation tank as claimed in claim 1, wherein the outer surface of the tank body (1) is wrapped with a heat insulation layer.

3. A stacked organic aerobic fermentation tank according to the claim 1, wherein the top of the tank body (1) is provided with a shelter.

4. An overlapped organic aerobic fermentation tank according to claim 1, which is characterized by further comprising:

the ladder of ascending a height, the ladder of ascending a height is installed in jar body (1) side.

5. The environment-friendly intelligent organic matter aerobic fermentation tank according to claim 1, wherein the stirring unit (2) comprises:

the main shaft (21), the main shaft (21) is vertically arranged at the central position in the tank body (1);

the stirring rods (24), a plurality of stirring rods (24) are circumferentially arranged on the main shaft (21);

the stirring motor (23), the stirring motor (23) is arranged at the top end of the tank body (1);

the spline groove (22), the said spline groove (22) is opened in the top of the said main axis (21);

the spline shaft (25) is mounted at the output end of the stirring motor (23), and the spline shaft (25) extends into the spline groove (22);

the reset spring (26) is installed in the spline groove (22), one end of the reset spring (26) is connected with the bottom end of the spline groove (22) groove, and the other end of the reset spring (26) is connected with the spline shaft (25).

6. The aerobic fermentation tank for environmental protection type intelligent organic matters in accordance with claim 1, wherein the high temperature air intake unit (4) comprises:

the air inlet seat (41), the air inlet seat (41) is embedded at the bottom end of the tank body (1);

the air inlet chamber (42), the air inlet chamber (42) is arranged in the air inlet seat (41);

the air inlet (43) is formed in the side end of the air inlet seat (41), the air inlet (43) is communicated with the air inlet chamber (42), and the air inlet (43) is connected with a blower;

the telescopic electric cylinder (44) is mounted at the position, far away from the air inlet (43), of the side end of the air inlet seat (41);

the transmission rack (45) is transversely arranged in the air inlet chamber (42), and the transmission rack (45) is arranged at the output end of the telescopic electric cylinder (44);

the blocking block (46), the blocking block (46) is installed at the end, far away from the telescopic cylinder (44), of the transmission rack (45), and the blocking block (46) is matched with the air inlet (43) in arrangement;

the rope coiling disc mounting chamber (47), the rope coiling disc mounting chamber (47) is arranged in the air inlet seat (41), and the rope coiling disc mounting chamber (47) is positioned above the air inlet chamber (42);

a rope winding disc (48), wherein the rope winding disc (48) is arranged in the rope winding disc installation chamber (47);

the rotating gear (49), the said rotating gear (49) is mounted into air intake chamber (42), the said rotating gear (49) is engaged with driving rack (45);

one end of the rotating shaft (40) is connected with the rotating gear (49), and the other end of the rotating shaft (40) extends into the rope winding disc mounting chamber (47) and is connected with the rope winding disc (48);

the fixing groove (51) is formed in the center of the top end of the air inlet seat (41), the fixing groove (51) is located in the tank body (1), and the inner wall of the fixing groove (51) is arranged in an inward inclined mode from top to bottom;

the lifting block (52), the said lifting block (52) locates in fixed slot (51);

the first spring (53) is arranged in a fixed groove (51), one end of the first spring (53) is connected with the bottom end of the fixed groove (51), and the other end of the first spring (53) is connected with the lifting block (52);

one end of the rope body (54) is connected with the bottom end of the lifting block (52), and the other end of the rope body (54) penetrates through the first spring (53) and extends into the rope winding disc installation chamber (47) to be wound on the rope winding disc (48);

an annular connection chamber (55), wherein the annular connection chamber (55) is circumferentially arranged in the air inlet seat (41) by taking a fixed groove (51) as a center, and the annular connection chamber (55) is positioned above the rope coiling disc installation chamber (47);

the two air supply channels (56) are symmetrically arranged in the air inlet seat (41) by taking the fixed groove (51) as the center, one end of the air inlet channel (56) is communicated with the annular connecting chamber (55), and the other end of the air inlet channel (56) is communicated with the air inlet chamber (42);

the material blocking shell (57) is mounted at the top end of the air inlet seat (41), and the material blocking shell (57) is of a circular truncated cone-shaped structure;

the two strip-shaped grooves (58) are symmetrically arranged at the top end of the air inlet seat (41) by taking the fixed groove (51) as a center, and the bottom ends of the strip-shaped grooves (58) are communicated with the annular connecting chamber (55);

a stop block (59), wherein the stop block (59) is arranged in the annular connecting chamber (55);

the bottom end of the vertical rod (50) is connected with the stop block (59), and the top end of the vertical rod (50) extends into the material blocking shell (57) from the strip-shaped groove (58);

the second spring (61), the second spring (61) is located in the annular connecting chamber (55), and the second spring (61) is sleeved on the vertical rod (50);

one end of the connecting rod (62) is hinged with the inner end of the vertical rod (50), and the other end of the connecting rod (62) is hinged with the lifting block (52);

the inserting block (63), the inserting block (63) is connected to the top end of the vertical rod (50);

the supporting disc (64), the said supporting disc (64) locates in the dam shell (57);

the two slots (65) are oppositely arranged at the side end of the supporting plate (64), and the inserting block (63) extends into the slots (65);

the connecting column (66), a wave groove is circumferentially arranged at the side end of the connecting column (66), the bottom end of the connecting column (66) is connected with the top end of the supporting disk (64), and the top end of the connecting column (66) penetrates through the top end of the material blocking shell (57);

support column (67), establish into round platform column structure support column (67), support column (67) bottom with spliced pole (66) top is connected, support column (67) top is close to main shaft (21) bottom sets up.

7. The environment-friendly intelligent organic matter aerobic fermentation tank of claim 6, further comprising:

a carousel mounting chamber (68), the carousel mounting chamber (68) being disposed within the support tray (64);

the rotary table (69) is arranged in the rotary table mounting chamber (68), and transmission teeth are circumferentially arranged at the side end of the rotary table (69);

one end of the connecting shaft (60) is connected with the turntable (69), and the other end of the connecting shaft (60) extends out of the turntable mounting chamber (68) to be connected with the bottom end of the connecting column (66);

one end of the transverse rack (71) is connected with the inner end of the insert block (63), and the other end of the transverse rack (71) extends into the turntable installation chamber (68) and is connected with the turntable (69).

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