CN116876596B - Multifunctional integrated deep foundation pit excavating device - Google Patents

Abstract

The utility model discloses a multifunctional integrated deep foundation pit excavating device, which belongs to the technical field of deep foundation pit excavation and comprises a climbing device placed on the ground, wherein the climbing device comprises side plates, the climbing device is used for walking of an integral device, a dumping device is arranged on the climbing device and comprises a bottom plate, the bottom plate and the side plates are fixedly installed, the dumping device is used for guiding concrete into a deep foundation pit, a transmission device is arranged on the dumping device and comprises a transmission motor, the transmission motor is fixedly installed with the bottom plate, and the transmission device is used for driving the climbing device. The climbing device provided by the utility model can walk on a slope surface and a soft uneven ground, and is generally used in places where tires are difficult to walk around a deep foundation pit, and the device can reach the vicinity of the deep foundation pit without difficulty in a climbing mode of the climbing device structure.

Description

Multifunctional integrated deep foundation pit excavating device

Technical Field

The utility model relates to the technical field of deep foundation pit excavation, in particular to a multifunctional integrated deep foundation pit excavation device.

Background

In the existing bridge foundation construction or in underground engineering construction, the deep foundation pit is usually excavated, water accumulation at the bottom of the foundation pit is prevented, in order to enable dry operation construction to be formed in the deep foundation pit, concrete is usually poured in the foundation pit to seal the bottom in the excavation process of the deep foundation pit, for example, chinese patent publication No. CN210315566U discloses a multifunctional deep foundation pit construction device. However, in the prior art, the pipeline is difficult to clean by adopting pipeline slurry feeding, more wastes are generated, the deep foundation pit is excavated and filled with slurry, grouting is required by utilizing a mixer truck, wheels can sink and slip on soft clay in the process, and the working requirement is difficult to be satisfied, so that the multifunctional integrated deep foundation pit excavating device is urgently needed.

Disclosure of Invention

Aiming at the technical problems, the utility model adopts the following technical scheme: the utility model provides a multi-functional integrated deep basal pit excavating gear, includes the climbing device of placing on ground, the climbing device include the curb plate, the climbing device be used for the walking of whole device, the climbing device on be provided with and empty the device, empty the device and include bottom plate, bottom plate and curb plate fixed mounting, empty the device and be used for leading-in deep basal pit with concrete, empty the device on be provided with transmission, transmission include driving motor, driving motor and bottom plate fixed mounting, transmission be used for driving the climbing device.

The excavation process of deep basal pit needs to constantly carry out concrete reinforcement around the basal pit, is the slope form and upwards digs afterwards, when needs carry out concrete reinforcement, and transmission drive climbing device makes the device remove near the deep basal pit, pours the concrete into the basal pit through using dumping device, constantly excavates and consolidates, and finally the shaping of deep basal pit.

Further, climbing device include fixed mounting on the curb plate grudging post, fixed mounting has the rail on the grudging post, slidable mounting has the movable frame on the rail, slidable mounting has the upstand on the movable frame, the curb plate side is provided with oval mechanism, the upstand bottom is provided with supporting mechanism.

Further, the elliptical mechanism comprises an elliptical rail fixedly arranged on the side face of the side plate, a fixed column is rotatably arranged on the side plate, a bevel gear is fixedly arranged on the fixed column, a rotating frame is fixedly arranged on the fixed column, a sliding column is fixedly arranged on the rotating frame, a sliding frame is slidably arranged on the sliding column, a spring is arranged between the sliding frame and the rotating frame, a rotating seat is fixedly arranged on the sliding frame, a fixed column block is rotatably arranged on the rotating seat, a roller is fixedly arranged on the fixed column block and the vertical column, and the roller is rotatably arranged on the sliding frame and is rotatably arranged on the elliptical rail.

Further, the supporting mechanism comprises a bottom frame fixedly arranged at the bottom of the vertical column, a shaking frame is slidably arranged in the bottom frame, a side spring is arranged between the shaking frame and the bottom frame, and a bottom plate is fixedly arranged at the bottom of the shaking frame.

The bevel gear and the fixed column are driven to rotate through the transmission device, the rotating frame is driven to rotate, the sliding frame is driven to rotate by the rotating frame, the roller is always kept in contact with the elliptical rail by the spring, the vertical column is lifted and lowered while sliding on the transverse rail by the aid of the moving frame, namely, the chassis and the chassis are driven to move along the outline track of the elliptical rail, the chassis is enabled to continuously advance or retreat, walking of the device is achieved, and meanwhile, the chassis can move on an uneven slope by the aid of the side springs between the shaking frame and the chassis.

Further, dumping device include fixed mounting on the bottom plate outer stand, slidable mounting has the top frame on the outer stand, fixed mounting has the bottom swivel mount on the bottom plate, fixed mounting has the pole setting on the bottom swivel mount, rotates in the pole setting and installs the storage bucket, rotates on the storage bucket and installs the sliding block, rotates on the sliding block and installs the opening plate, fixed mounting has the pinion rack on the opening plate, sliding block and top frame slidable mounting, fixed mounting has the upright rack on the bottom plate, upright rack and pinion rack meshing, top frame bottom fixed mounting has the center post, center post and bottom plate slidable mounting are provided with elevating system on the bottom plate.

Further, elevating system include fixed mounting outer slide rail and interior slide rail on the bottom plate, outer slide rail sliding mounting has outer slider, sliding mounting has interior slider in the interior slider, rotate on the outer slider and install outer slide bar, rotate on the interior slider and install well bull stick, go up frame bottom fixed mounting and rotate the seat, rotate the seat on fixed mounting have the crossbearer, outer slide bar and rotate seat rotation installation, transfer pole and rotate seat rotation installation, bottom plate bottom fixed mounting has the end to stretch out the frame, bottom motor fixed mounting has bottom motor on the end to stretch out the frame, motor bevel gear is fixed mounting on the output shaft of bottom motor, large bevel gear and motor bevel gear meshing rotate on the end to stretch out the frame, fixed mounting has the vortex wheel on the large bevel gear, vortex wheel and interior slider slidable mounting.

Further, the vortex-shaped wheel is provided with a vortex-shaped linear groove, and the width of the groove is the same as the diameter of the cylinder at the bottom of the inner slide block.

The bottom motor rotates and drives the motor bevel gear to rotate to drive big bevel gear and vortex form wheel to rotate, vortex form wheel rotates and drives the inner slider and slide in the slide rail, thereby drive the transfer pole and rotate, thereby drive and rotate seat and upper frame and descend along outer stand, outer slide bar rotates this moment, drive simultaneously outer slider and begin to slide in outer slide rail, along with the upper frame descends, deposit the bucket and begin to rotate for the pole setting, deposit the bucket and descend and drive the pinion rack this moment, the pinion rack begins clockwise rotation under the drive of standing the rack this moment, thereby the pinion rack drives the opening plate and rotates clockwise, thereby make the opening plate no longer stop depositing the bucket, deposit the concrete in the bucket and begin to flow after the slope of bucket, flow out to the foundation ditch that the excavator dug.

Further, the transmission device comprises a transmission gear fixedly arranged on an output shaft of the transmission motor, an inner shaft is rotatably arranged on the bottom plate, an inner gear and an outer gear are fixedly arranged on the inner shaft, a vertical shaft is rotatably arranged on the bottom plate, a face gear and a bottom gear are fixedly arranged on the vertical shaft, the transmission gear is meshed with the inner gear, the outer gear is meshed with the face gear, a long shaft is rotatably arranged at the bottom of the bottom plate, a transmission gear and a butt joint gear are fixedly arranged on the long shaft, the bottom gear is meshed with the transmission gear, and the butt joint gear is meshed with the bevel gear.

The transmission motor rotates to drive the transmission gear to rotate, so as to drive the inner gear and the outer gear to rotate, so as to drive the face gear and the bottom gear to rotate, so as to drive all the butt gears to rotate, so as to drive the bevel gears to rotate, so as to drive the elliptical mechanisms and the supporting mechanisms to move, so that elliptical motions of the elliptical mechanisms are realized, and walking of the device is realized.

Compared with the prior art, the utility model has the beneficial effects that: (1) The climbing device provided by the utility model can walk on a slope surface and a soft uneven ground, and is generally used in places where common tires are difficult to walk around a deep foundation pit, and the device can reach the vicinity of the deep foundation pit without difficulty in a climbing mode of the climbing device structure; (2) According to the dumping device, the concrete placed in the storage hopper can be dumped in the deep foundation pit in a short distance, and the pipeline blockage problem in the traditional concrete conveying method can be avoided because the dumping device can be very close to the deep foundation pit for dumping; (3) The utility model realizes the rapid movement of the device without limit to terrains by being provided with a plurality of elliptical mechanisms and supporting mechanisms in a cooperative mode.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model (normal state).

Fig. 2 is a schematic view of the whole structure (toppled state) of the present utility model.

Fig. 3 is a schematic structural diagram of the climbing device of the present utility model.

FIG. 4 is a schematic view of an elliptical mechanism according to the present utility model.

Fig. 5 is a partially enlarged schematic view of fig. 3 at a.

Fig. 6 is a schematic view of a pouring device according to the present utility model.

Fig. 7 is a schematic diagram of a pouring device according to a second embodiment of the present utility model.

Fig. 8 is a schematic diagram of a pouring device according to the third embodiment of the present utility model.

Fig. 9 is a schematic diagram of a pouring device according to the present utility model.

FIG. 10 is a schematic view of the large bevel gear and worm gear of the present utility model.

FIG. 11 is a schematic view of the engagement of the scroll wheel with the inner slide of the present utility model.

FIG. 12 is a schematic view of a turbine structure according to the present utility model.

FIG. 13 is a schematic view of a turbine structure according to the second embodiment of the present utility model.

Fig. 14 is a schematic diagram of a transmission device according to the present utility model.

Fig. 15 is a schematic diagram of a transmission device according to the second embodiment of the present utility model.

Reference numerals: 101-side plates; 102-a vertical frame; 103-transverse rails; 104-moving a rack; 105-upstand; 106-elliptical tracks; 107-rotating frame; 108-a slide column; 109-a spring; 110-a carriage; 111-a rotating seat; 112-fixing column blocks; 113-a chassis; 114-shaking the rack; 115-side springs; 116-chassis; 117-bevel gear; 118-fixing the column; 119-rolling wheels; 201-a bottom plate; 202-upper frame; 203-an outer slide rail; 204-an outer slide; 205-outer slide bar; 206-inner slide rail; 207-inner slide; 208-outer columns; 209-a bottom swivel mount; 210-vertical rods; 211-a storage bucket; 212-sliding blocks; 213-opening plate; 214-tooth plate; 215-standing tooth rack; 216-a middle rotating rod; 217-center column; 218-a bottom motor; 219-motor bevel gear; 220-large bevel gear; 221-a bottom extension rack; 222-a cross frame; 223-rotating the upper seat; 224-scroll wheel; 301-a transmission motor; 302-a transmission gear; 303-an internal gear; 304-an inner shaft; 305-external gear; 306-face gear; 307-vertical shaft; 308-bottom gear; 309-transfer gear; 310-long axis; 311-interfacing gears.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

Examples: referring to fig. 1-15, a multifunctional integrated deep foundation pit excavating device comprises a climbing device placed on the ground, wherein the climbing device comprises a side plate 101, the climbing device is used for walking of an integral device, a dumping device is arranged on the climbing device and comprises a bottom plate 201, the bottom plate 201 is fixedly mounted with the side plate 101, the dumping device is used for guiding concrete into a deep foundation pit, a transmission device is arranged on the dumping device and comprises a transmission motor 301, the transmission motor 301 is fixedly mounted with the bottom plate 201, and the transmission device is used for driving the climbing device.

The excavation process of deep basal pit needs to constantly carry out concrete reinforcement around the basal pit, is the slope form and upwards digs afterwards, when needs carry out concrete reinforcement, and transmission drive climbing device makes the device remove near the deep basal pit, pours the concrete into the basal pit through using dumping device, constantly excavates and consolidates, and finally the shaping of deep basal pit.

As shown in fig. 3, 4 and 5, the climbing device comprises a vertical frame 102 fixedly installed on a side plate 101, a transverse rail 103 is fixedly installed on the vertical frame 102, a movable frame 104 is slidably installed on the transverse rail 103, a vertical column 105 is slidably installed in the movable frame 104, an elliptical mechanism is arranged on the side surface of the side plate 101, and a supporting mechanism is arranged at the bottom of the vertical column 105.

As shown in fig. 4, the elliptical mechanism comprises an elliptical rail 106 fixedly installed on the side surface of the side plate 101, a fixed column 118 is rotatably installed on the side plate 101, a bevel gear 117 is fixedly installed on the fixed column 118, a rotating frame 107 is fixedly installed on the fixed column 118, a sliding column 108 is fixedly installed on the rotating frame 107, a sliding frame 110 is slidably installed on the sliding column 108, a sliding frame 110 is slidably installed on the sliding frame 110 and the rotating frame 107, a spring 109 is arranged between the rotating frame 107 and the sliding frame 110, a rotating seat 111 is fixedly installed on the sliding frame 110, a fixed column block 112 is rotatably installed on the rotating seat 111, a fixed column block 112 is fixedly installed on the vertical column 105, a roller 119 is rotatably installed on the sliding frame 110, and the roller 119 is rotatably installed on the elliptical rail 106.

As shown in fig. 5, the supporting mechanism comprises a bottom frame 113 fixedly installed at the bottom of the vertical column 105, a shaking frame 114 is slidably installed in the bottom frame 113, a side spring 115 is arranged between the shaking frame 114 and the bottom frame 113, and a chassis 116 is fixedly installed at the bottom of the shaking frame 114.

The bevel gear 117 and the fixed column 118 are driven to rotate through the transmission device, thereby the rotating frame 107 is driven to rotate, the rotating frame 107 rotates to drive the sliding frame 110 to rotate, the spring 109 enables the roller 119 to always keep in contact with the elliptical rail 106, the vertical column 105 is lifted and lowered, the moving frame 104 is driven to slide on the transverse rail 103, namely, the vertical column 105 is lifted and lowered while sliding left and right is realized, namely, the chassis 113 and the chassis 116 are driven to move along the outline track of the elliptical rail 106, the chassis 116 is enabled to continuously advance or retreat, the walking of the device is realized, and meanwhile, the side spring 115 between the shaking frame 114 and the chassis 113 enables the chassis 116 to move on an uneven slope.

As shown in fig. 6 to 13, the dumping device comprises an outer column 208 fixedly mounted on a bottom plate 201, an upper frame 202 is slidably mounted on the outer column 208, a bottom rotary seat 209 is fixedly mounted on the bottom plate 201, a vertical rod 210 is fixedly mounted on the bottom rotary seat 209, a storage bucket 211 is rotatably mounted on the vertical rod 210, a sliding block 212 is rotatably mounted on the storage bucket 211, an opening plate 213 is rotatably mounted on the sliding block 212, a toothed plate 214 is fixedly mounted on the opening plate 213, the sliding block 212 is slidably mounted on the upper frame 202, a vertical rack 215 is fixedly mounted on the bottom plate 201, the vertical rack 215 is meshed with the toothed plate 214, a center column 217 is fixedly mounted at the bottom of the upper frame 202, the center column 217 is slidably mounted on the bottom plate 201, and a lifting mechanism is arranged on the bottom plate 201.

As shown in fig. 6 to 13, the lifting mechanism comprises an outer slide rail 203 and an inner slide rail 206 which are fixedly mounted on a bottom plate 201, wherein an outer slide block 204 is mounted in the outer slide rail 203 in a sliding manner, an inner slide block 207 is mounted in the inner slide rail 206 in a sliding manner, an outer slide bar 205 is rotatably mounted on the outer slide block 204, a middle rotating rod 216 is rotatably mounted on the inner slide block 207, a rotating upper seat 223 is fixedly mounted at the bottom of the upper frame 202, a transverse frame 222 is fixedly mounted on the rotating upper seat 223, the outer slide bar 205 is rotatably mounted with the rotating upper seat 223, the middle rotating rod 216 is rotatably mounted with the rotating upper seat 223, a bottom extension frame 221 is fixedly mounted at the bottom of the bottom plate 201, a bottom motor 218 is fixedly mounted on an output shaft of the bottom motor 218, a large bevel gear 220 is rotatably mounted on the bottom extension frame 221, the large bevel gear 220 is meshed with the motor bevel gear 219, a vortex wheel 224 is fixedly mounted on the large bevel gear 220, and the vortex wheel 224 is slidably mounted with the inner slide block 207.

As shown in fig. 11, 12 and 13, the scroll wheel 224 is provided with a scroll groove having the same width as the diameter of the bottom cylinder of the inner slide 207.

The bottom motor 218 rotates to drive the motor bevel gear 219 to rotate, thereby driving the large bevel gear 220 and the vortex wheel 224 to rotate, the vortex wheel 224 rotates to drive the inner slide block 207 to slide in the inner slide rail 206, thereby driving the middle rotary rod 216 to rotate, thereby driving the rotating upper seat 223 and the upper frame 202 to descend along the outer upright post 208, at the moment, the outer slide rod 205 rotates, simultaneously, the outer slide block 204 is driven to start sliding in the outer slide rail 203, along with the descent of the upper frame 202, the storage bucket 211 starts rotating relative to the upright post 210, at the moment, the storage bucket 211 descends to drive the toothed plate 214 to descend, at the moment, the toothed plate 214 starts rotating clockwise under the drive of the upright rack 215, and the toothed plate 214 drives the opening plate 213 to rotate clockwise, thereby enabling the opening plate 213 to stop the storage bucket 211, and concrete in the storage bucket 211 starts flowing out after being inclined to the foundation pit dug by the excavator.

As shown in fig. 14 and 15, the transmission device includes a transmission gear 302 fixedly mounted on an output shaft of a transmission motor 301, an inner shaft 304 rotatably mounted on a base plate 201, an inner gear 303 and an outer gear 305 fixedly mounted on the inner shaft 304, a vertical shaft 307 rotatably mounted on the base plate 201, a face gear 306 and a bottom gear 308 fixedly mounted on the vertical shaft 307, the transmission gear 302 meshed with the inner gear 303, the outer gear 305 meshed with the face gear 306, a long shaft 310 rotatably mounted at the bottom of the base plate 201, a transmission gear 309 and a mating gear 311 fixedly mounted on the long shaft 310, the bottom gear 308 meshed with the transmission gear 309, and the mating gear 311 meshed with the bevel gear 117.

The transmission motor 301 rotates to drive the transmission gear 302 to rotate, thereby driving the inner gear 303 and the outer gear 305 to rotate, thereby driving the face gear 306 and the bottom gear 308 to rotate, thereby driving all the butt gears 311 to rotate, thereby driving the bevel gears 117 to rotate, thereby driving the elliptical mechanisms and the supporting mechanisms to move, thereby realizing elliptical motion of the supporting mechanisms, and further realizing walking of the device.

The utility model discloses a multifunctional integrated deep foundation pit excavating device, which has the working principle that: in the process of excavating a deep foundation pit, concrete reinforcement is required to be continuously carried out around the foundation pit, then the foundation pit is upwards excavated in a slope shape, when the concrete reinforcement is required to be carried out, the transmission motor 301 rotates to drive the transmission gear 302 to rotate, thereby drive the inner gear 303 and the outer gear 305 to rotate, thereby drive the face gear 306 and the bottom gear 308 to rotate, thereby drive all the butt gears 311 to rotate, thereby drive the bevel gears 117 and the fixed posts 118 to rotate, thereby drive the revolving frame 107 to rotate, drive the sliding frame 110 to rotate, the springs 109 enable the rollers 119 to be always in contact with the elliptical tracks 106, the vertical posts 105 are lifted up and down, the moving frame 104 is driven to slide on the transverse tracks 103, namely, the lifting is realized while the vertical posts 105 slide left and right, namely, the chassis 116 is driven to move along the outline track of the elliptical tracks 106, so that the chassis 116 is continuously moved forward or backward, the walking of the device is realized, and meanwhile, the side springs 115 between the rocking frame 114 and the chassis 113 enable the chassis 116 to move on uneven slopes. The device moves to the vicinity of the deep foundation pit, the bottom motor 218 rotates to drive the motor bevel gear 219 to rotate, so as to drive the large bevel gear 220 and the vortex wheel 224 to rotate, the vortex wheel 224 rotates to drive the inner slide block 207 to slide in the inner slide rail 206, so as to drive the middle rotating rod 216 to rotate, so as to drive the rotating upper seat 223 and the upper frame 202 to descend along the outer upright post 208, at the moment, the outer slide rod 205 rotates, and simultaneously drives the outer slide block 204 to start sliding in the outer slide rail 203, along with the descent of the upper frame 202, the storage bucket 211 starts rotating relative to the upright post 210, at the moment, the storage bucket 211 descends to drive the toothed plate 214 to descend, at the moment, the toothed plate 214 starts rotating clockwise under the drive of the upright rack 215, so that the toothed plate 214 drives the opening plate 213 to rotate clockwise, so that the opening plate 213 no longer stops the storage bucket 211, and concrete in the storage bucket 211 starts flowing out along with the inclination of the storage bucket 211 and flows out into the foundation pit dug by the excavator.

Claims (1)

1. The utility model provides a multi-functional integrated deep basal pit excavating gear, is including placing the climbing device on ground, its characterized in that: the climbing device comprises a side plate (101), the climbing device is used for walking of the whole device, a dumping device is arranged on the climbing device, the dumping device comprises a bottom plate (201), the bottom plate (201) is fixedly arranged with the side plate (101), the dumping device is used for guiding concrete into a deep foundation pit, a transmission device is arranged on the dumping device, the transmission device comprises a transmission motor (301), the transmission motor (301) is fixedly arranged with the bottom plate (201), and the transmission device is used for driving the climbing device;

the climbing device comprises a vertical frame (102) fixedly arranged on a side plate (101), a transverse rail (103) is fixedly arranged on the vertical frame (102), a movable frame (104) is slidably arranged on the transverse rail (103), a vertical column (105) is slidably arranged in the movable frame (104), an elliptical mechanism is arranged on the side surface of the side plate (101), and a supporting mechanism is arranged at the bottom of the vertical column (105);

the elliptical mechanism comprises an elliptical rail (106) fixedly arranged on the side surface of a side plate (101), a fixed column (118) is rotatably arranged on the side plate (101), a bevel gear (117) is fixedly arranged on the fixed column (118), a rotating frame (107) is fixedly arranged on the fixed column (118), a sliding column (108) is fixedly arranged on the rotating frame (107), a sliding frame (110) is slidably arranged on the sliding column (108), a spring (109) is arranged between the sliding frame (110) and the rotating frame (107), a rotating seat (111) is fixedly arranged on the sliding frame (110), a fixed column block (112) is rotatably arranged on the rotating seat (111), a fixed column block (112) is fixedly arranged on the vertical column (105), a roller (119) is rotatably arranged on the sliding frame (110), and the roller (119) is rotatably arranged on the elliptical rail (106);

the supporting mechanism comprises a bottom frame (113) fixedly arranged at the bottom of the vertical column (105), a shaking frame (114) is slidably arranged in the bottom frame (113), a side spring (115) is arranged between the shaking frame (114) and the bottom frame (113), and a chassis (116) is fixedly arranged at the bottom of the shaking frame (114);

the dumping device comprises an outer upright post (208) fixedly arranged on a bottom plate (201), an upper frame (202) is slidably arranged on the outer upright post (208), a bottom swivel seat (209) is fixedly arranged on the bottom plate (201), a vertical rod (210) is fixedly arranged on the bottom swivel seat (209), a storage bucket (211) is rotatably arranged on the vertical rod (210), a sliding block (212) is rotatably arranged on the storage bucket (211), an opening plate (213) is rotatably arranged on the sliding block (212), a toothed plate (214) is fixedly arranged on the opening plate (213), the sliding block (212) is slidably arranged on the upper frame (202), a vertical rack (215) is fixedly arranged on the bottom plate (201), the vertical rack (215) is meshed with the toothed plate (214), a central column (217) is fixedly arranged at the bottom of the upper frame (202), and the central column (217) is slidably arranged on the bottom plate (201) and is provided with a lifting mechanism;

the lifting mechanism comprises an outer sliding rail (203) and an inner sliding rail (206) which are fixedly arranged on a bottom plate (201), an outer sliding block (204) is arranged in the outer sliding rail (203), an inner sliding block (207) is arranged in the inner sliding rail (206), an outer sliding block (205) is rotatably arranged on the outer sliding block (204), a middle rotating rod (216) is rotatably arranged on the inner sliding block (207), a rotary upper seat (223) is fixedly arranged at the bottom of an upper frame (202), a transverse frame (222) is fixedly arranged on the rotary upper seat (223), the outer sliding block (205) is rotatably arranged on the rotary upper seat (223), a bottom extending frame (221) is fixedly arranged at the bottom of the bottom plate (201), a large bevel gear (220) is rotatably arranged on the bottom extending frame (221), a large bevel gear (219) is meshed with the motor bevel gear (219), and a vortex block (224) is fixedly arranged on the large bevel gear (220) and the inner sliding block (224);

the vortex-shaped wheel (224) is provided with a vortex-shaped linear groove, and the width of the groove is the same as the diameter of a cylinder at the bottom of the inner slide block (207);

the transmission device comprises a transmission gear (302) fixedly mounted on an output shaft of a transmission motor (301), an inner shaft (304) is rotatably mounted on a bottom plate (201), an inner gear (303) and an outer gear (305) are fixedly mounted on the inner shaft (304), a vertical shaft (307) is rotatably mounted on the bottom plate (201), a face gear (306) and a bottom gear (308) are fixedly mounted on the vertical shaft (307), the transmission gear (302) is meshed with the inner gear (303), the outer gear (305) is meshed with the face gear (306), a long shaft (310) is rotatably mounted at the bottom of the bottom plate (201), a transmission gear (309) and a butt gear (311) are fixedly mounted on the long shaft (310), the bottom gear (308) is meshed with the transmission gear (309), and the butt gear (311) is meshed with a bevel gear (117).