CN211197653U - Water absorption conveying device - Google Patents

Abstract

The utility model provides a water-absorbing conveying device, which comprises a frame, wherein a water-falling groove is arranged on the frame, a vertical conveying device and a transverse conveying device are arranged on the water-falling groove, a first conveying group and a second conveying group are fixed on the water-falling groove through a supporting component, a fixing frame is arranged on the water-falling groove at the center of the first conveying group and the second conveying group, a first handle component is arranged on the fixing frame, and the first handle component is connected with the first conveying group and the second conveying group through a connecting block; above-mentioned structure rotates through first handle and makes first lead screw and second lead screw rotate thereby to drive first transport group and second transport group and remove to relative or opposite direction, realizes vertical water absorption to the material of carrying, reciprocates the setting by second handle group to the third transport group, realizes horizontal water absorption to the material of carrying to realize carrying the material at horizontal and vertical water absorption and handle, simple structure.

Description

Water absorption conveying device

Technical Field

The utility model relates to a pay-off technical field, concretely relates to conveyor absorbs water.

Background

At present, canned food production enterprises in the food production industry generally wash the outer side of a can body of a packaged canned food, particularly meat canned food, and the oil stain on the outer side of the canned food is serious after the canned food is packaged, so that the canned food needs to be washed, or subsequent procedures such as labeling and packaging cannot be performed.

The Chinese patent application number is 201420398347.1, discloses a can cleaning equipment in the patent document with the announcement date of 2014.12.31, including can conveyer and can washing unit, can conveyer is provided with the sanitizer and paints the device, the sanitizer is paintd the both sides that the device is located the conveyer belt to rotate with the frame and be connected, the sanitizer is paintd the device and is included the inner tube, the outside of inner tube is provided with paints the layer, the inside cavity of inner tube forms the cleaner accumulator, the lateral wall of cleaner accumulator is equipped with the sepage hole, packs the cleaner into the cleaner accumulator, because the lateral wall of cleaner accumulator is equipped with the sepage hole, the cleaner from the cleaner accumulator to scribbling the layer infiltration, will permeate the even outside of smearing the can of cleaner on scribbling the layer, send into washing unit again and wash, because the cleaner directly paints the outside at the can, therefore, the cleaning agent can be greatly saved, the cleaning effect of the can is improved, and the purpose of environmental protection is also achieved.

The utility model discloses a cleaning device, the cleaning work is not done to the can after washing, can have a large amount of water stains after probably leading to washing to influence subsequent work of labelling, packing.

Disclosure of Invention

An object of the utility model is to provide a conveyor absorbs water utilizes the utility model discloses a device can carry out many-sided cleanness of absorbing water, simple structure to the material.

In order to achieve the purpose, the water absorption conveying device comprises a rack, wherein a water falling groove is formed in the rack, a vertical conveying device and a transverse conveying device are arranged on the water falling groove, the vertical conveying device comprises a first conveying group, a second conveying group, a first handle assembly and a supporting assembly, the first conveying group and the second conveying group are vertically arranged, the first conveying group and the second conveying group are fixed on the water falling groove through the supporting assembly, a fixing frame is arranged on the water falling groove in the middle position of the first conveying group and the middle position of the second conveying group, the first handle assembly is arranged on the fixing frame, and the first handle assembly is connected with the first conveying group and the second conveying group through a connecting block; the first conveying group and the second conveying group are arranged in parallel and opposite to each other;

the first handle assembly comprises a handle, a first screw rod, a second screw rod, connecting blocks and a fixed seat, wherein the two connecting blocks are respectively fixed on the first conveying group and the second conveying group; the thread directions of the first screw rod and the second screw rod are opposite;

the tail end of the vertical conveying device is provided with a transverse conveying device, the transverse conveying device comprises a third conveying group, a fourth conveying group, a second handle group and a supporting plate, the third conveying group, the fourth conveying group, the second handle group and the supporting plate are transversely arranged, the third conveying group is connected with the top end of the rack through the second handle group, and the fourth conveying group is fixed on a cross beam of the water falling groove through the supporting plate; the third conveying group and the fourth conveying group are arranged in parallel and oppositely, and the bottom of the first conveying group and the bottom of the second conveying group are not lower than the top surface of the third conveying group.

The structure, the first conveying group and the second conveying group which are vertically arranged are arranged in a left-right mode, the first conveying group and the second conveying group are arranged in a moving mode through the first handle group, the first screw rod and the second screw rod are connected with the first conveying group and the second conveying group through the connecting blocks respectively, the directions of threads on the first screw rod and the second screw rod are opposite, so that the first screw rod and the second screw rod are driven to rotate through the rotation of the first handle group, the first conveying group and the second conveying group are driven to move in opposite or opposite directions, the width suitable for conveying materials is adjusted, the conveyed materials are prevented from being arranged between the first conveying group and the second conveying group, the vertical water absorption is realized on the conveyed materials, the third conveying group and the fourth conveying group which are transversely arranged are arranged in an up-down mode, the second handle group is used for moving the third conveying group up-down mode, the distance between the third conveying group and the fourth conveying group is adjusted, thereby the adjustment is fit for the height of carrying the material, because the top surface position of third transport group is not higher than first transport group and second transport group to thereby enter into the third and carry the group and carry between the group and the fourth transport group in the bottom of the transport material behind transverse conveying device on entering into the third, realize horizontal absorbing water to the material of carrying, thereby realize carrying the material and handling horizontal and vertical absorbing water, simple structure.

Further, the supporting component comprises an optical axis, a first linear bearing, a second linear bearing, a first bearing fixing plate, a second bearing fixing plate and a supporting pipe, the supporting component is fixed in the water falling groove through the supporting pipe, the first bearing fixing plate is arranged on one side of the supporting pipe, the second bearing fixing plate is arranged on the other side of the supporting pipe, one side of the optical axis is fixed on the first bearing fixing plate, the other side of the optical axis is fixed on the second bearing fixing plate, the optical axis is located between the first bearing fixing plate and the second bearing fixing plate and is provided with the first linear bearing and the second linear bearing, the first linear bearing is connected with the first conveying group, the second linear bearing is connected with the second conveying group, the number of the supporting component is two groups, and the supporting component is located on one side of. Through the setting of optical axis, can adjust the position of first transport group and second transport group at the optical axis.

Furthermore, a through hole is formed in the center of the water falling groove, and the whole water falling groove is downwards inclined from the edge to the center and extends to the through hole. Therefore, water pressed out by the water pressing group sleeve flows out of the device through the through hole.

Furthermore, the second handle group comprises two second handles, screw rods, adjusting fixing plates, adjusting transverse plates, second fixing seats, connecting seats, guide shafts, limiting bearings and connecting plates, the second handle group is fixed on the frame through the adjusting fixing plates, the second handle connecting screw rods are fixed on the adjusting fixing plates through the second fixing seats, the connecting seats are arranged at one ends of the screw rods provided with threads, the connecting seats are connected with the adjusting transverse plates, the limiting bearings are arranged on two sides of the adjusting transverse plates, the guide shafts are arranged in the limiting bearings and fixed on the adjusting fixing plates, the connecting plates are arranged at the bottom ends of the adjusting transverse plates and connected with third conveying groups through the connecting plates, and the number of the second handle groups is two;

more than, rotate through the second handle and drive the screw rod and rotate and drive the connecting seat and reciprocate on the screw rod, drive adjustment diaphragm and connecting plate motion on the connecting seat, and then drive third transport group and reciprocate, simple structure and reliable.

Furthermore, the first conveying group and the second conveying group comprise vertical driving assemblies, vertical belt pulleys, vertical belt driven wheels, vertical driven wheel rotating shafts, vertical frames, vertical belts, vertical driven wheel limiting plates and vertical water pressing sleeve groups, wherein the vertical belt pulleys are arranged on one sides of the vertical frames, the vertical belt pulleys are connected with the driving assemblies, the vertical driven wheel limiting plates are arranged on the other sides of the vertical frames, the vertical belt driven wheels are connected with the vertical driven wheel limiting plates through the vertical driven wheel rotating shafts, the vertical belt wraps the vertical belt pulleys, the vertical belt driven wheels and the vertical frames, and the vertical water pressing sleeve groups are arranged on the outer sides of the conveying ends of the vertical belts;

above setting, first transport group and second are carried group and are all driven vertical belt pulley through vertical drive assembly and rotate then drive vertical belt and remove, and are equipped with vertical pressurized-water suit in the vertical belt outside, realize squeezing out water to absorbent vertical belt through vertical pressurized-water suit.

Furthermore, the third conveying group and the fourth conveying group comprise transverse driving assemblies, transverse belt pulleys, transverse belt driven wheels, transverse driven wheel rotating shafts, transverse frames, transverse belts, transverse driven wheel limiting plates and water pressing sleeve groups, wherein the transverse belt pulleys are arranged on one sides of the transverse frames and connected with the driving assemblies, the transverse driven wheel limiting plates are arranged on the other sides of the transverse frames, the transverse belt driven wheels are connected with the transverse driven wheel limiting plates through the transverse driven wheel rotating shafts, the transverse belt wraps the transverse belt pulleys, the transverse belt driven wheels and the transverse frames, and the transverse water pressing sleeve groups are arranged on the outer sides of the conveying ends of the transverse belts;

above setting, third transport group and fourth transport group all drive the rotation of horizontal belt pulley then drive horizontal belt and remove through horizontal drive assembly, and are equipped with horizontal pressurized-water suit in the horizontal belt outside, realize squeezing out water to absorbent horizontal belt through horizontal pressurized-water suit.

Further, the transverse driving assembly comprises a transverse driving motor, a transverse speed reducer, a transverse driving shaft, a transverse bearing seat, a transverse lower bearing seat and a transverse motor mounting plate, the transverse driving motor is connected with the transverse speed reducer, the transverse speed reducer is fixed on the transverse frame through the transverse motor mounting plate, the transverse driving shaft connected with the transverse belt pulley is arranged in the transverse speed reducer, and the transverse belt pulley is fixed on the transverse driving shaft through the transverse bearing seat and the transverse lower bearing seat;

the transverse water pressing group sleeve comprises two transverse roller shafts, a transverse water pressing shaft sleeve, two transverse water pressing shaft plates, a transverse adjusting plate and a transverse rolling shaft, the two transverse water pressing shaft plates are respectively installed on the outer side of the transverse belt, the two transverse water pressing shaft plates are oppositely arranged, one end of each transverse water pressing shaft plate is provided with a transverse limiting groove, the transverse roller shafts are arranged in the transverse limiting grooves and are connected with the transverse water pressing shaft plates, the transverse roller shafts are connected with the transverse water pressing shaft sleeves, the transverse rolling shaft is located in the transverse frame and is connected with the other end of each transverse water pressing shaft plate, the transverse belt is arranged between the transverse rolling shaft and the transverse water pressing shaft sleeves, and the two transverse water pressing shaft plates are provided with the transverse adjusting plate moving along the transverse limiting grooves;

above setting, thereby the horizontal drive subassembly passes through horizontal drive motor drive horizontal drive shaft and rotates horizontal belt pulley and rotate the horizontal belt and remove, thereby horizontal pressurized-water stack moves the distance between adjustment horizontal drum axle and the horizontal pressurized-water axle sleeve in horizontal spacing groove through adjusting horizontal regulating plate in addition for thereby the horizontal belt that is located wherein receives the extrusion dehydration.

Further, the vertical driving assembly comprises a vertical driving motor, a vertical speed reducer, a vertical driving shaft, a vertical upper bearing seat, a vertical lower bearing seat and a vertical motor mounting plate, the vertical driving motor is connected with the vertical speed reducer, the vertical speed reducer is fixed on the vertical frame through the vertical motor mounting plate, the vertical driving shaft connected with the vertical belt pulley is arranged in the vertical speed reducer, and the vertical driving shaft fixes the vertical belt pulley through the vertical upper bearing seat and the vertical lower bearing seat;

the vertical water pressing group sleeve comprises two vertical roller shafts, vertical water pressing shaft sleeves, vertical water pressing shaft plates, vertical adjusting plates and vertical rolling shafts, the two vertical water pressing shaft plates are respectively installed on the outer sides of vertical belts, the two vertical water pressing shaft plates are arranged oppositely, one ends of the vertical water pressing shaft plates are provided with vertical limiting grooves, vertical roller shafts are arranged in the vertical limiting grooves, the vertical roller shafts are connected and installed on the vertical water pressing shaft plates, the vertical roller shafts are connected with the vertical water pressing shaft sleeves, the vertical rolling shafts are located in vertical frames and connected with the other ends of the vertical water pressing shaft plates, the vertical belts are arranged between the horizontal rolling shafts and the vertical water pressing shaft sleeves, and the vertical adjusting plates moving along the vertical limiting grooves are arranged on the two vertical water pressing shaft plates;

above setting, thereby vertical drive assembly passes through vertical drive motor drive vertical drive shaft and rotates vertical belt pulley and rotate vertical belt and remove, thereby vertical pressurized-water stack moves the distance between adjustment vertical drum axle and the vertical pressurized-water axle sleeve in vertical spacing groove through adjusting vertical regulating plate in addition for thereby it dewaters to receive the extrusion to be located vertical belt wherein.

Furthermore, the other end of the first screw rod is fixed on the fixing frame, and one end of the second screw rod is connected with one end of the first screw rod through a fixing sleeve; above through, first lead screw links to each other through fixed cover with the second lead screw and realizes fixing, easy to assemble.

Drawings

Fig. 1 is a schematic perspective view of a water absorbing and conveying device of the present invention.

Fig. 2 is a schematic perspective view of the water absorbing and conveying device according to the present invention after the frame is removed.

Fig. 3 is an exploded view of the first conveying group according to the present invention.

Fig. 4 is a perspective view of the first handle set of the present invention.

Fig. 5 is an enlarged view of a point a in fig. 1.

Fig. 6 is an exploded view of the second handle set according to the present invention.

Fig. 7 is an exploded view of the vertical drive assembly of the present invention.

Fig. 8 is a schematic perspective view of the support assembly of the present invention.

Fig. 9 is a schematic perspective view of the vertical water pressing stack of the present invention.

Fig. 10 is an exploded view of the vertical drive assembly of the present invention.

Fig. 11 is an exploded view of the third conveying group according to the present invention.

Fig. 12 is a schematic perspective view of the horizontal water pressing stack according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 9, a water absorption and delivery device comprises a frame 1, wherein a water falling groove 12 is arranged on the frame 1;

the water falling groove 12 is provided with a vertical conveying device 2 and a horizontal conveying device 3, the vertical conveying device 2 comprises a first conveying group 21, a second conveying group 22, a first handle assembly 4 and a supporting assembly 23, the first conveying group 21 and the second conveying group 22 are fixed on the water falling groove 12 through the supporting assembly 23, a fixing frame 13 is arranged on the water falling groove 12 located in the middle of the first conveying group 21 and the middle of the second conveying group 22, the first handle assembly 4 is arranged on the fixing frame 13, and the first handle assembly 4 is connected with the first conveying group 21 and the second conveying group 22 through a connecting block 43.

As shown in fig. 3, the first conveying group 21 includes a vertical driving assembly 24, a vertical belt pulley 211, a vertical belt driven pulley 212, a vertical driven pulley rotating shaft 213, a vertical frame 214, a vertical belt 215, a vertical driven pulley limit plate 216 and a vertical water pressing sleeve group 25, the vertical belt pulley 211 is arranged on one side of the vertical frame 214, the vertical belt pulley 211 is connected with the vertical driving assembly 24, a vertical driven pulley limit plate 216 is arranged on the other side of the vertical frame 214, the vertical belt driven pulley 212 is connected with the vertical driven pulley limit plate 216 through the vertical driven pulley rotating shaft 213, the vertical belt 215 is wrapped and connected with the vertical belt pulley 211, the vertical belt driven pulley 212 and the vertical frame 214, and the vertical water pressing sleeve group 25 is. The vertical driving assembly 24 drives the vertical belt pulley 211 to drive the vertical belt driven pulley 212 to rotate. In this embodiment, the second conveying set 12 is parallel to and opposite to the first conveying set 11, and the structure of the second conveying set 12 is the same as that of the first conveying set 11.

As shown in fig. 4, the first handle assembly 4 includes two handles 41, a first screw rod 42, a second screw rod 45, two connecting blocks 43 and a fixing seat 44, the two connecting blocks 43 are respectively fixed on the first conveying set 21 and the second conveying set 22, one end of the first screw rod 42 passes through one connecting block 43 to be connected with the handle 41, one end of the second screw rod passes through the other connecting block 43 to be connected with the other end of the first screw rod 42, the other end of the second screw rod 45 is connected with the fixing seat 44, the first handle assembly 4 is connected to the fixing frame 13 through the fixing seat 44, and the thread directions on the first screw rod 42 and the second screw rod 45 are opposite. The connecting block is connected with the transverse frame in the embodiment.

As shown in fig. 1 and 2, a transverse conveying device 3 is arranged at the end of the vertical conveying device 2, the transverse conveying device 3 includes a third conveying group 31, a fourth conveying group 32, a second handle group 5 and a support plate 33, the third conveying group 31 is connected to the top end of the rack 1 through the second handle group 5, the fourth conveying group 32 is fixed on a cross beam 121 of the drop-in-water trough 12 through the support plate 33, the bottoms of the first conveying group and the second conveying group are not lower than the top surface of the third conveying group, and the first conveying group 21, the second conveying group 22, the third conveying group 31 and the fourth conveying group 32 are of the same structure.

As shown in fig. 5 and 6, the second handle set 5 includes two second handles 51, a screw 52, an adjusting fixing plate 53, an adjusting transverse plate 54, a second fixing seat 55, a connecting seat 56, a guide shaft 57, a limit bearing 58 and a connecting plate 59, the second handle set 5 is fixed on the frame 1 through the adjusting fixing plate 53, the second handle 51 is connected with the screw 52 and fixed on the adjusting fixing plate 53 through the second fixing seat 55, the connecting seat 56 is arranged at one end of the screw 52 provided with threads, the connecting seat 56 is connected with the adjusting transverse plate 54, the limit bearing 58 is arranged on two sides of the adjusting transverse plate 54, the guide shaft 57 is arranged in the limit bearing 58, the guide shaft 57 is fixed on the adjusting fixing plate 53, the connecting plate 59 is arranged at the bottom end of the adjusting transverse plate 54 and connected with the third conveying set 31 through the connecting plate 59.

As shown in fig. 7, the vertical driving assembly 24 includes a vertical driving motor 241, a vertical speed reducer 242, a vertical driving shaft 243, a vertical upper bearing seat 244, a vertical lower bearing seat 245 and a vertical motor mounting plate 246, the vertical driving motor 241 is connected with the vertical speed reducer 242, the vertical speed reducer 242 is fixed on the vertical frame 214 through the vertical motor mounting plate 246, a vertical driving shaft 243 connected with the vertical belt pulley 211 is arranged in the vertical speed reducer 242, and the vertical driving shaft 243 fixes the vertical belt pulley 211 through the vertical upper bearing seat 244 and the vertical lower bearing seat 245. The vertical driving motor 241 drives the vertical pulley 211 to move the vertical belt 215.

As shown in fig. 10, the transverse driving assembly 34 includes a transverse driving motor 341, a transverse speed reducer 342, a transverse driving shaft 343, a transverse bearing seat 344, a transverse lower bearing seat 345 and a transverse motor mounting plate 346, the transverse driving motor 341 is connected with the transverse speed reducer 342, the transverse speed reducer 342 is fixed on the transverse frame 314 through the transverse motor mounting plate 346, the transverse driving shaft 343 connected with the transverse belt pulley 311 is arranged in the transverse speed reducer 342, and the transverse driving shaft 343 fixes the transverse belt pulley 311 through the transverse bearing seat 344 and the transverse lower bearing seat 345.

As shown in fig. 11, the third conveying sets 31 each include a transverse driving assembly 34, a transverse belt pulley 311, a transverse belt driven pulley 312, a transverse driven pulley rotating shaft 313, a transverse frame 314, a transverse belt 315, a transverse driven pulley limit plate 316 and a water pressing set 35, the transverse belt pulley 311 is disposed on one side of the transverse frame 314, the transverse belt pulley 311 is connected to the driving assembly 34, the transverse driven pulley limit plate 316 is disposed on the other side of the transverse frame 314, the transverse belt driven pulley 312 is connected to the transverse driven pulley limit plate 316 through the transverse driven pulley rotating shaft 313, the transverse belt 315 is wrapped and connected to the transverse belt pulley 311, the transverse belt driven pulley 312 and the transverse frame 314, and the transverse water pressing set 35 is disposed on the outer. The fourth conveying group 32 is parallel to and opposite to the third conveying group 31, and the fourth conveying group 32 and the third conveying group 31 have the same structure. And the material of vertical belt and horizontal belt is present the material that absorbs water and makes in this embodiment. The connecting plate 59 is in this embodiment connected to the transverse frame of the third transport group 31.

As shown in fig. 12, the horizontal water pressing set 35 includes two horizontal roller shafts 351, two horizontal water pressing shaft sleeves 352, two horizontal water pressing shaft plates 353, two horizontal adjusting plates 354 and two horizontal rolling shafts 355, the two horizontal water pressing shaft plates 353 are respectively installed at the outer sides of the horizontal belts 311, the two horizontal water pressing shaft plates 353 are oppositely arranged, one ends of the horizontal water pressing shaft plates 353 are provided with horizontal limiting grooves 3531, the horizontal roller shafts 351 are arranged in the horizontal limiting grooves 3531, the horizontal roller shafts 351 are connected and installed on the horizontal water pressing shaft plates 353, the horizontal roller shafts 351 are connected with the horizontal water pressing shaft sleeves 352, the horizontal rolling shafts 355 are located at the other ends of the horizontal water pressing shaft plates 353 connected in the horizontal frame 314, the horizontal belts 311 are arranged between the horizontal rolling shafts 355 and the horizontal water pressing shaft sleeves 352, and the two horizontal water pressing shaft plates 353 are provided with the horizontal adjusting plates 354 moving along the horizontal limiting grooves 3531.

As shown in fig. 2 and 8, the support assembly 23 includes an optical axis 231, a first linear bearing 232, a second linear bearing 233, a first bearing fixing plate 234, a second bearing fixing plate 235 and a support tube 236, the support assembly 23 is fixed in the sink-into-water tank 12 through the support tube 236, one side of the support tube 236 is provided with the first bearing fixing plate 234, the other side of the support tube 236 is provided with the second bearing fixing plate 235, one side of the optical axis 231 is fixed on the first bearing fixing plate 234, the other side of the optical axis 231 is fixed on the second bearing fixing plate 235, the optical axis 231 is located between the first bearing fixing plate 234 and the second bearing fixing plate 235 and is provided with the first linear bearing 232 and the second linear bearing 233, the first linear bearing 232 is connected to the first transporting group 21, the second linear bearing 233 is connected to the, the above-mentioned support assembly 23 is provided in two sets, one on each side of the pulley 211 and one on each side of the belt follower pulley 213. By the arrangement of the optical axis 231, the first conveying group 21 and the second conveying group 22 can be position-adjusted along the optical axis 231.

As shown in fig. 3 and 9, the vertical water pressurizing assembly 25 includes a vertical drum shaft 251, a vertical water pressurizing shaft sleeve 252, vertical water pressurizing shaft plates 253, vertical adjusting plates 254, and vertical rolling shafts 255, two vertical water pressurizing shaft plates 253 are provided, and are respectively installed at the outer side of the vertical belt 215, and the two vertical water pressurizing shaft plates 253 are arranged oppositely, one end of the vertical water pressing shaft plate 253 is provided with a vertical limiting groove 2531, a vertical roller shaft 251 is arranged in the vertical limiting groove 2531, the vertical roller shaft 251 is connected and installed on the vertical water pressing shaft plate 253 on one side of the vertical belt 215, the roller shaft 251 is connected with the vertical water pressing shaft sleeve 252, the vertical rolling shaft 251 is located in the vertical frame 214 and connected with the other end of the vertical water pressing shaft plate 253, the vertical belt 215 is arranged between the vertical rolling shaft 255 and the vertical water pressing shaft sleeve 252, and the two vertical water pressing shaft plates 253 are provided with vertical adjusting plates 254 which move along the vertical limiting grooves 2531. Therefore, when the vertical belt 215 absorbs more water, the vertical water pressing shaft sleeve 252 presses the vertical belt 215 through the vertical adjusting plate 254, and the water is pressed out through the vertical water pressing shaft sleeve 252 and the vertical rolling shaft 255.

As shown in fig. 2, the center of the water falling groove 12 is provided with a through hole 122, and the whole of the water falling groove 12 extends downwards from the edge to the center to the through hole 122. Thus, water forced out through the water pressing stack 25 flows out of the device through the through-holes 122.

Above-mentioned structure, first transport group 21 and second transport group 22 are controlled and are arranged the setting, carry group 21 and second transport group 22 to remove the setting about by first handle group 4, adjust the width that is fit for carrying the material, realize vertical absorbing water to the material of carrying, third transport group 31 and fourth transport group 32 are arranged the setting from top to bottom, carry group 31 to the third by second handle group 5 and reciprocate the setting, adjust the height that is fit for carrying the material, realize horizontal absorbing water to the material of carrying, install pressurized-water suit 25 on every transport group, go out the water pressure on with the belt 215 through pressurized-water suit and fall in the groove 12 that falls into water, carry out the drainage through the groove 12 that falls into water outside the device.

Claims (9)

1. The utility model provides a conveyor absorbs water, includes the frame, is equipped with the groove of falling into water in the frame, its characterized in that: the water falling groove is provided with a vertical conveying device and a transverse conveying device, the vertical conveying device comprises a first conveying group, a second conveying group, a first handle assembly and a supporting assembly, the first conveying group, the second conveying group, the first handle assembly and the supporting assembly are vertically arranged, the first conveying group and the second conveying group are fixed on the water falling groove through the supporting assembly, fixing frames are arranged on the water falling groove in the middle position of the first conveying group and the middle position of the second conveying group, the first handle assembly is arranged on the fixing frames, and the first handle assembly is connected with the first conveying group and the second conveying group through connecting blocks; the first conveying group and the second conveying group are arranged in parallel and opposite to each other;

the first handle assembly comprises a handle, a first screw rod, a second screw rod, connecting blocks and a fixed seat, wherein the two connecting blocks are respectively fixed on the first conveying group and the second conveying group; the thread directions of the first screw rod and the second screw rod are opposite;

the tail end of the vertical conveying device is provided with a transverse conveying device, the transverse conveying device comprises a third conveying group, a fourth conveying group, a second handle group and a supporting plate, the third conveying group, the fourth conveying group, the second handle group and the supporting plate are transversely arranged, the third conveying group is connected with the top end of the rack through the second handle group, and the fourth conveying group is fixed on a cross beam of the water falling groove through the supporting plate; the third conveying group and the fourth conveying group are arranged in parallel and oppositely, and the bottom of the first conveying group and the bottom of the second conveying group are not lower than the top surface of the third conveying group.

2. The water-absorbing delivery device as set forth in claim 1, wherein: the supporting component comprises an optical axis, a first linear bearing, a second linear bearing, a first bearing fixing plate, a second bearing fixing plate and a supporting pipe, the supporting component is fixed in a water falling groove through the supporting pipe, one side of the supporting pipe is provided with the first bearing fixing plate, the other side of the supporting pipe is provided with the second bearing fixing plate, one side of the optical axis is fixed on the first bearing fixing plate, the other side of the optical axis is fixed on the second bearing fixing plate, the optical axis is arranged between the first bearing fixing plate and the second bearing fixing plate and is provided with the first linear bearing and the second linear bearing, the first linear bearing is connected with a first conveying group, the second linear bearing is connected with a second conveying group, the number of the supporting component is provided with two groups, and the supporting component is respectively.

3. The water-absorbing delivery device as set forth in claim 1, wherein: the center of the water falling groove is provided with a through hole, and the whole body of the water falling groove is downwards inclined and extends to the through hole from the edge to the center.

4. The water-absorbing delivery device as set forth in claim 1, wherein: the second handle group includes the second handle, the screw rod, adjust the fixed plate, adjust the diaphragm, the second fixing base, the connecting seat, the guiding axle, spacing bearing and connecting plate, the second handle group is fixed in the frame through adjusting the fixed plate, second handle connecting screw passes through the second fixing base to be fixed on adjusting the fixed plate, the screw rod is established screwed and is served and be equipped with the connecting seat, the regulation diaphragm is connected to the connecting seat, be located and be equipped with spacing bearing on the regulation diaphragm both sides, be equipped with the guiding axle in the spacing bearing, the guiding axle is fixed on adjusting the fixed plate, the bottom that is located the regulation diaphragm is equipped with the connecting plate, carry the group through the third of connecting plate connection.

5. The water-absorbing delivery device as set forth in claim 1, wherein: first transport group and second transport group all include vertical drive assembly, vertical belt pulley, vertical belt is from the driving wheel, vertical from the driving wheel pivot, vertical frame, vertical belt, vertical from driving wheel limiting plate and vertical pressurized-water suit, one side of vertical frame is equipped with vertical belt pulley, vertical belt pulley connection drive assembly, be equipped with on the opposite side of vertical frame vertically from the driving wheel limiting plate, vertical belt is from the vertical driven wheel limiting plate of driving wheel pivot connection, vertical belt parcel connects vertical belt pulley, vertical belt is from driving wheel and vertical frame, be located and be equipped with vertical pressurized-water suit on the outside of vertical belt transport end.

6. The water-absorbing delivery device as set forth in claim 1, wherein: the third is carried group and is all including horizontal drive assembly with the fourth transport group, horizontal belt pulley, horizontal belt follows the driving wheel, transversely follow the driving wheel pivot, horizontal frame, horizontal belt, transversely follow driving wheel limiting plate and pressurized-water suit, one side of horizontal frame is equipped with horizontal belt pulley, horizontal belt pulley connection drive assembly, be equipped with on the opposite side of horizontal frame and transversely follow the driving wheel limiting plate, horizontal belt is from driving the driving wheel and transversely connects from the driving wheel limiting plate through transversely following the driving wheel pivot, horizontal belt pulley is connected in horizontal belt parcel, horizontal belt follows driving wheel and horizontal frame, be located and be equipped with horizontal pressurized-water suit on the outside of horizontal belt.

7. The water-absorbing delivery device as set forth in claim 6, wherein: the transverse driving assembly comprises a transverse driving motor, a transverse speed reducer, a transverse driving shaft, a transverse bearing seat, a transverse lower bearing seat and a transverse motor mounting plate, the transverse driving motor is connected with the transverse speed reducer, the transverse speed reducer is fixed on the transverse frame through the transverse motor mounting plate, the transverse driving shaft connected with the transverse belt pulley is arranged in the transverse speed reducer, and the transverse belt pulley is fixed on the transverse driving shaft through the transverse bearing seat and the transverse lower bearing seat;

the transverse water pressing group sleeve comprises two transverse roller shafts, two transverse water pressing shaft sleeves, two transverse water pressing shaft plates, a transverse adjusting plate and two transverse rolling shafts, the two transverse water pressing shaft plates are respectively installed on the outer sides of the transverse belts and are arranged oppositely, one end of each transverse water pressing shaft plate is provided with a transverse limiting groove, the transverse roller shafts are arranged in the transverse limiting grooves and are connected and installed on the transverse water pressing shaft plates, the transverse roller shafts are connected with the transverse water pressing shaft sleeves, the transverse rolling shafts are located in the transverse frames and are connected with the other ends of the transverse water pressing shaft plates, the transverse belts are arranged between the transverse rolling shafts and the transverse water pressing shaft sleeves, and the two transverse water pressing shaft plates are provided with the transverse adjusting plates moving along the transverse limiting grooves.

8. The water-absorbing delivery device as set forth in claim 5, wherein: the vertical driving assembly comprises a vertical driving motor, a vertical speed reducer, a vertical driving shaft, a vertical upper bearing seat, a vertical lower bearing seat and a vertical motor mounting plate, the vertical driving motor is connected with the vertical speed reducer, the vertical speed reducer is fixed on the vertical frame through the vertical motor mounting plate, the vertical driving shaft connected with the vertical belt pulley is arranged in the vertical speed reducer, and the vertical driving shaft fixes the vertical belt pulley through the vertical upper bearing seat and the vertical lower bearing seat;

the vertical pressurized-water unit sleeve comprises two vertical roller shafts, two vertical pressurized-water shaft sleeves, two vertical pressurized-water shaft plates, a vertical adjusting plate and two vertical rolling shafts, the two vertical pressurized-water shaft plates are respectively installed on the outer sides of vertical belts, the two vertical pressurized-water shaft plates are arranged oppositely, one end of each vertical pressurized-water shaft plate is provided with a vertical limiting groove, the vertical roller shafts are arranged in the vertical limiting grooves, the vertical roller shafts are connected and installed on the vertical pressurized-water shaft plates and connected with the vertical pressurized-water shaft sleeves, the vertical rolling shafts are located in vertical frames and connected with the other ends of the vertical pressurized-water shaft plates, the vertical belts are arranged between the horizontal rolling shafts and the vertical pressurized-water shaft sleeves, and the vertical adjusting plates moving along the vertical limiting grooves are located on the two vertical pressurized-water shaft plates.

9. The water-absorbing delivery device as set forth in claim 1, wherein: the other end of the first screw rod is fixed on the fixing frame, and one end of the second screw rod is connected with one end of the first screw rod through a fixing sleeve.

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