CN116750391B

CN116750391B - Loading conveyor for conveying warehouse goods

Info

Publication number: CN116750391B
Application number: CN202311054678.3A
Authority: CN
Inventors: 杨晓琴
Original assignee: Hefei Huanfeng Intelligent Technology Co ltd
Current assignee: Hefei Huanfeng Intelligent Technology Co ltd
Priority date: 2023-08-22
Filing date: 2023-08-22
Publication date: 2023-10-27
Anticipated expiration: 2043-08-22
Also published as: CN116750391A

Abstract

The invention discloses a loading conveyor for carrying goods in a warehouse, and belongs to the field of carrying goods in a warehouse. The utility model provides a loading conveyer for warehouse goods transport, includes supporting baseplate, the top surface of supporting baseplate is vertical to being provided with the isolation roof, the perpendicular downward even welding in bottom surface of isolation roof has the grafting backing block, the side joint of grafting backing block has the buckle sloping block, supporting baseplate has the butt joint piece in the side horizontal symmetry welding of keeping away from the side box body, can carry the appointed place use as required when being convenient for follow-up to the transport operation of goods, has adopted the sloping baffle structure to make and has helped follow-up carrying goods to use, lets its transport operation get up more labour saving and time saving, and the conveyer belt structure carries out the material loading simultaneously and lets it can raise the efficiency, and makes under the roll body structure of single control can carry out orderly piling up to place and handle, has improved the transport and the efficiency of unloading of goods.

Description

Loading conveyor for conveying warehouse goods

Technical Field

The invention relates to the technical field of warehouse cargo carrying, in particular to a loading conveyor for warehouse cargo carrying.

Background

The warehouse is used for storing and safeguarding commodities and articles. The warehouse is a general name of a building and a place for storing, safeguarding and storing articles, and can be a house building, a cave, a large container or a specific place, and the like, and has the functions of storing and protecting articles. The term "store" means store and reserve, and means store for use, store, and deliver.

Traditional warehouse is carrying out inside cargo loading and carrying the operation, all is carrying out the transportation processing after lifting up the goods through fork truck structure for manual operation can be more time consuming and laborious, and can not realize present intelligent warehouse, and single automobile body transport structure still needs outside porter to carry the operation on the automobile body with the goods, has caused the transport goods and has unloaded the goods and all be comparatively laborious, influences the efficiency that goods transport was carried.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, when the traditional warehouse is used for carrying out internal goods loading and conveying operation, the goods are lifted through a forklift structure and then are transferred, so that manual operation is time-consuming and labor-consuming, the existing intelligent warehouse cannot be realized, and a single vehicle body conveying structure is used for conveying the goods to a vehicle body for operation by an external carrier, so that the problem that the efficiency of carrying and conveying the goods is affected due to the fact that the goods are relatively laborious to carry and the goods are unloaded is solved.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a loading conveyer for warehouse goods transport, includes supporting baseplate, supporting baseplate's bottom surface evenly is provided with the drive wheel, a side bolt fixedly connected with side box body of supporting baseplate, the inside of side box body is provided with the scanning main part, supporting baseplate's top surface is vertical to being provided with keeps apart the roof, supporting baseplate is keeping away from a side horizontal symmetry welding of side box body and has the butt joint piece, side level is provided with the backup pad between the butt joint piece, the backup pad is being provided with the deflector in the one end of keeping away from the butt joint piece.

Preferably, the supporting baseplate comprises side buckle holes, the both sides limit at supporting baseplate are all symmetrically offered and are close to the top surface position, and the inside that runs through end extension end spliced eye of side buckle hole keeps the joint setting, the spliced eye has evenly been offered to the top surface of supporting baseplate, the even joint of top surface of supporting baseplate has the conveying roller, the number of conveying roller is many, and the parallel arrangement each other of many conveying rollers sets up, the equidistant level arrangement each other sets up the top surface central line position at supporting baseplate, the top surface of conveying roller all keeps in same horizontal plane position, the spliced eye is the equidistant top surface of arranging at supporting baseplate and is close to both sides edge position, the inboard level of supporting baseplate is inlayed and is had the main power supply, the bottom surface of supporting baseplate has evenly been offered a limit groove, the bottom surface of just limit groove corresponds and is offered and be close to four corner positions at the supporting baseplate, the inboard central position that is close to of supporting baseplate to of main power supply level setting, the even motor inside wall of supporting baseplate has set up the uniform motor, the uniform motor has been arranged in the bottom surface of supporting baseplate's the uniform motor, the uniform number of teeth of gear is cup joints with the conveying roller sets up the end, the uniform number of gear sets up the end of conveying roller evenly has been cup jointed.

Preferably, the butt joint piece is including upset motor, the number of butt joint piece is two, and two butt joint pieces are mutual parallel symmetry fixed setting in the side both ends position of supporting baseplate, the side level is provided with the main roll body between the butt joint piece, the both ends axostylus axostyle grafting of main roll body sets up at the fixed bearing inner side, one the side bolt fixedly connected with transmission motor of butt joint piece, upset motor is fixed to be set up in the side central point of a butt joint piece, and the output extends the welding setting and in the one end position of an end connecting pipe, transmission motor is fixed to be set up in the side central point of another butt joint piece, and the output level of transmission motor runs through the grafting setting at the inner side of end connecting pipe, extends the end welding setting in the one end axle head position of main roll body.

Preferably, the support plate comprises a transmission belt, one end of the support plate extends to be arranged at the side edge position between the butt joint blocks, the two support plates are arranged in parallel, the pulling air cylinder is horizontally and fixedly arranged at the side edge center line of the support plate, which is close to one end position of the butt joint block, the output end of the pulling air cylinder is horizontally and fixedly arranged at the side edge center position of the moving block, the transmission belt is sleeved between the support plates, the transmission belt is sleeved at the outer side edges of the auxiliary roller and the main roller body, one side edge of the support plate is horizontally and fixedly connected with the pulling air cylinder, the side edge of the support plate is fixedly welded with an end connecting pipe, one end of the end connecting pipe is spliced at the side edge of the support plate, which is close to one end position, the other end is spliced at the side edge center position of the butt joint block, a fixed bearing is fixedly inlaid at the side edge between the support plates, one end of the fixed bearing is butt-jointed and arranged at the splicing end of the end connecting pipe, a side edge of the supporting plate is horizontally provided with a horizontal side groove, auxiliary rollers are horizontally and uniformly arranged on the side edges between the supporting plates, the auxiliary rollers are arranged in parallel, the horizontal side groove is horizontally arranged at the center line of the side edge of the supporting plate, the supporting plate is provided with an end groove at one end far away from the butt joint block, the side of the supporting plate is abutted with a moving block, the turning groove is vertically arranged at the side central line of the moving block, the top end and the bottom surface of the turning groove penetrate through the top surface and the bottom surface of the moving block and extend to the outer side to form an opening shape, one side of the moving block is abutted with the side opening end of the horizontal side groove in a one-to-one correspondence manner, the side of the moving block is provided with the turning groove, the inner side of the turning groove is horizontally inserted with a turning shaft, the utility model discloses a turnover rod, including the turnover rod, the fixed connection of side bolt, the output level of movable block extends the welding setting in the one end position of tilting axis, the welding of a side of movable block has the side fixture block, the fixed outside limit that sets up at the tilting axis that cup joints of socket, a side level bolt fixedly connected with telescopic link of turnover rod, the side fixture block all corresponds the joint setting at the medial side of horizontal side groove, the inboard limit grafting of turnover groove has the turnover rod, the socket has been seted up to the side of turnover rod, the one end fixed connection of telescopic link sets up the side top position at the turnover rod, the medial side level bolt fixedly connected with inner cylinder of telescopic link, the welding of the side of telescopic link has the hooking piece, the fixed one end position that sets up at the side of telescopic link and keep away from the turnover rod.

Preferably, the driving wheel includes the joint commentaries on classics piece, the number of driving wheel is four, and four driving wheel homogeneous one correspond the joint setting in the bottom channel of joint commentaries on classics piece inside, and joint commentaries on classics piece homogeneous one correspond the joint setting at the inboard limit of bottom groove, the top surface of joint commentaries on classics piece is provided with turns to the motor, turn to the motor homogeneous one and correspond fixed the setting at the inboard limit of interior draw-in groove, and turn to the output vertical downward extension of motor to the inboard top surface fixed connection setting of limit of bottom groove at the top central point of joint commentaries on classics piece, the even joint of top surface and bottom surface of joint commentaries on classics piece has the antifriction ball, the equidistant top surface and the bottom surface that is the annular arrangement of being at the joint commentaries on classics piece are close to the edge position, and the side through groove opening extension butt joint setting at the inside wall position of limit of bottom groove.

Preferably, the bottom ends of the plugging bottom blocks are plugged and arranged on the inner side of the plugging hole in a one-to-one correspondence manner, and one ends of the buckling inclined blocks are buckled and arranged on the inner side of the side buckling hole in a one-to-one correspondence manner.

Preferably, the side of side box body and bottom surface all inlay and have the scanning head, the inside of side box body is provided with the control mainboard, and the fixed setting of side box body is in a side central point of supporting baseplate puts, and scanning head, scanning main part and control mainboard all keep electric connection to set up each other, keep apart the roof and be the setting of U-shaped shape, and keep apart roof lock joint setting at supporting baseplate's top surface border position, the perpendicular downward even welding in bottom surface of keep apart the roof has the grafting backing block, a side joint of grafting backing block has the oblique piece of buckle.

Preferably, a side symmetry welding of deflector has the upset inserted bar, the side grafting of upset inserted bar has the connecting rod, and deflector one side corner position sets up the open end position that is close to the end channel, and the number of upset inserted bar is two, and two upset inserted bars are mutual parallel symmetry fixed setting in a side corner position of deflector, and two upset inserted bars are in the equal one-to-one grafting of one end of keeping away from the deflector setting at the medial edge of end channel, and the connecting rod is the side that runs through grafting setting at the upset inserted bar, and the both ends level grafting setting of connecting rod is at the inside wall of end channel.

Compared with the prior art, the invention provides a loading conveyor for conveying warehouse goods, which has the following beneficial effects:

1. this loading conveyor for warehouse goods transport is making under the rotation of the upset motor of side and is driving the backup pad and forming the upset operation in the position between the butt joint piece, let the backup pad from the one side opening of the isolation roof at top turn over the operation downwards, form the condition of opening to the isolation roof, then after the one end upset of backup pad is close ground position, make the deflector of one end turn over and contact subaerial, let deflector and backup pad form the baffle structure setting of slope each other, let its bearing diagonal be at a side of supporting baseplate, and the upset is and the side level setting of deflector to down is near the bottom of goods, in order to follow-up pulling transfer operation to the goods, make can overturn when not using in combination automatic flip structure accomodate, can not form the great and occupation space is inconvenient for accomodating the condition, simultaneously make and help carrying the goods use afterwards, let its transport operation get up labour saving and time saving more.

2. This loading conveyer for warehouse goods transport makes the upset of upset bull stick in the inside upset of upset groove upwards handle through making under the drive of upset axle for the one end of the piece of hooking of one end is pegged graft and is set up the side channel position at the bottom plate of goods, make under the simultaneous shrink motion of inner cylinder and pulling cylinder and hook the piece and carry out to deflector top surface pulling operation to goods, make under the continuous pulling goods remove the top surface position of conveyer belt, make the output drive the main roll body under the rotation of the transport motor of side rotate the processing, make the conveyer belt form horizontal transmission motion under the cooperation of auxiliary roller under the drive of main roll body, let the top surface of many conveying rollers of top surface through the drive of conveyer belt, make the transmission gear drive end tooth processing under the rotation of the inside corresponding conveying motor of supporting bottom plate, make the corresponding conveying roller rotate the operation, make the goods of top surface move to the top surface of supporting bottom plate place the processing, make the goods that follow-up pulls on can form the conveying roller rotation through control and transport the operation, make the multiple goods form the tight supporting roller body and can be carried the top surface and can be carried the efficiency under the top surface of the control and can be carried the top surface and can be carried the goods and the top surface is carried the structure is carried independently to the high, can make the efficiency of goods can be kept off the top surface and can be kept off the top and the top surface can be kept off the goods and the top is carried the goods and the goods is more high.

3. This loading conveyor for warehouse goods transport carries out horizontal migration operation through letting the drive wheel drive supporting baseplate, when the supporting baseplate level carries out the removal, can scan the processing to the guide line on ground at the inside scanning head of side box body, when the receipt scanning signal of scanning main part, then can let the supporting baseplate carry out the removal operation along the guide line, and make the output drive joint commentaries on classics piece at the inside rotation operation of bottom restriction groove under the rotation of the steering motor of four sides angular position, let corresponding joint commentaries on classics piece rotate to appointed angle, and make the joint commentaries on classics piece rotate more smoothly in the inside of bottom restriction groove under the isolation buffering of antifriction ball, great to the frictional force that rotates between the pair has weakened the processing, make the drive wheel of bottom rotate and be appointed angle and satisfy the removal needs, and the movement such as turning round of 360 degrees nothing of supporting baseplate is more nimble, can form the motion processing such as movement in a small range, let the supporting baseplate move more nimble intelligent in warehouse, so that can carry out appointed use place to follow-up when carrying the operation to goods.

Drawings

Fig. 1 is a schematic structural view of a loading conveyor for conveying warehouse goods according to the present invention;

FIG. 2 is a schematic view showing the details of the connection of the supporting base plate of the loading conveyor for carrying the warehouse goods;

FIG. 3 is a schematic view showing a cross-sectional connection detail structure of a supporting base plate of a loading conveyor for carrying goods in a warehouse according to the present invention;

FIG. 4 is a schematic view showing the details of the connection of the driving wheels of a loading conveyor for transporting goods in a warehouse according to the present invention;

FIG. 5 is a schematic view showing the connection of the support plates of the loading conveyor for transporting the warehouse goods according to the present invention;

FIG. 6 is a schematic diagram showing details of the connection of the moving blocks of the loading conveyor for transporting the warehouse goods according to the present invention;

fig. 7 is a schematic view showing a section connection detail of a telescopic link of a loading conveyor for conveying warehouse goods according to the present invention;

FIG. 8 is a schematic view showing the connection of the top isolation plates of the loading conveyor for transporting the warehouse goods according to the present invention;

fig. 9 is a schematic diagram showing internal connection details of a cross section of a side box of a loading conveyor for conveying warehouse goods according to the present invention.

In the figure: 1. a support base plate; 101. a side snap hole; 102. a plug hole; 103. a conveying roller; 104. a main power supply; 105. an inner clamping groove; 106. a bottom limiting groove; 107. a conveying motor; 108. a transmission gear; 109. an end gear; 2. a driving wheel; 201. the clamping rotating block; 202. a rolling ball; 203. a steering motor; 3. a side case; 301. a scanning head; 302. a control main board; 303. a scanning main body; 4. an isolation top plate; 401. inserting a bottom block; 402. a buckle inclined block; 5. a butt joint block; 501. a turnover motor; 502. a main roller body; 503. a transmission motor; 6. a support plate; 601. a transmission belt; 602. pulling the air cylinder; 603. an end connecting pipe; 604. an auxiliary roller; 605. fixing a bearing; 606. a horizontal side groove; 607. an end channel; 608. a moving block; 609. a turnover groove; 610. a turnover shaft; 611. a side motor; 612. a side clamping block; 613. turning over the rod; 614. a socket hole; 615. a telescopic rod; 616. an inner cylinder; 617. a hooking block; 7. a guide plate; 701. turning over the inserted link; 702. and (5) connecting a rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1: referring to fig. 1-9, a loading conveyor for conveying warehouse goods comprises a supporting bottom plate 1, and is characterized in that the bottom surface of the supporting bottom plate 1 is uniformly provided with driving wheels 2, one side of the supporting bottom plate 1 is fixedly connected with a side box body 3 through bolts, the side and bottom surfaces of the side box body 3 are embedded with scanning heads 301, a control main board 303 is arranged in the side box body 3, a scanning main body 304 is arranged in the side box body 3, the top surface of the supporting bottom plate 1 is vertically and vertically provided with an isolation top plate 4, the bottom surface of the isolation top plate 4 is vertically and downwards uniformly welded with a plugging bottom block 401, one side of the plugging bottom block 401 is clamped with a buckling oblique block 402, the bottom ends of the plugging bottom block 401 are respectively and correspondingly plugged at the inner side of the plugging hole 102, one end of the buckling oblique block 402 is respectively and correspondingly buckled at the inner side of the side buckling hole 101, the supporting bottom plate 1 is horizontally and symmetrically welded with a butt joint block 5 at one side far away from the side of the side box body 3, the butt joint blocks 5 comprise turnover motors 501, the number of the butt joint blocks 5 is two, the two butt joint blocks 5 are mutually and symmetrically arranged at two ends of the side edge of the supporting bottom plate 1 in parallel, the turnover motors 501 are fixedly arranged at the center of the side edge of one butt joint block 5, the output ends are extended and welded at one end of one end connecting pipe 603, main roller bodies 502 are horizontally arranged at the side edge between the butt joint blocks 5, shaft rods at two ends of the main roller bodies 502 are inserted and arranged at the inner side edge of a fixed bearing 605, a side bolt of one butt joint block 5 is fixedly connected with a transmission motor 503, the transmission motor 503 is fixedly arranged at the center of the side edge of the other butt joint block 5, the output ends of the transmission motor 503 are horizontally and penetratingly inserted and arranged at the inner side edge of the end connecting pipe 603, the extended ends are welded at one end shaft end of the main roller bodies 502, the side level is provided with backup pad 6 between the butt joint piece 5, and backup pad 6 is provided with deflector 7 in the one end that keeps away from butt joint piece 5, and the side symmetry welding of deflector 7 has upset inserted bar 701, and the side grafting of upset inserted bar 701 has connecting rod 702.

According to the invention, when materials are required to be carried and transferred, the supporting bottom plate 1 is horizontally moved to a position nearby a specified cargo under the rotation of the driving wheel 2, then the supporting plate 6 is driven to form overturning operation at a position nearby the specified cargo under the rotation of the overturning motor 501 at the side, the supporting plate 6 is overturned downwards from one side opening of the top isolation top plate 4 to form an opening state of the isolation top plate 4, after one end of the supporting plate 6 is overturned to be close to the ground, the guide plate 7 at one end is overturned to be contacted with the ground, the guide plate 7 and the supporting plate 6 are arranged to form an inclined guide plate structure, the inclined guide plate is obliquely supported at one side of the supporting bottom plate 1, and one side of the overturned guide plate 7 is horizontally arranged nearby the bottom of the cargo, so that the cargo can be overturned later, the automatic overturning structure is combined, the cargo can be overturned and stored, the situation that the size is large and the occupied space is inconvenient to be stored is avoided, and meanwhile, the inclined guide plate 7 is used for facilitating the subsequent cargo carrying operation, the cargo carrying operation is more time-saving and labor-saving.

Example 2: referring to fig. 1-9, a loading conveyor for conveying warehouse goods comprises a supporting base plate 1, and is characterized in that the bottom surface of the supporting base plate 1 is uniformly provided with driving wheels 2, one side of the supporting base plate 1 is fixedly connected with side box bodies 3 through bolts, the sides and the bottom surfaces of the side box bodies 3 are embedded with scanning heads 301, a control main board 302 is arranged in the side box bodies 3, a scanning main body 303 is arranged in the side box bodies 3, the top surface of the supporting base plate 1 is vertically and vertically provided with an isolation top plate 4, the bottom surface of the isolation top plate 4 is vertically and downwards uniformly welded with an inserting bottom block 401, one side of the inserting bottom block 401 is clamped with a buckling oblique block 402, one side of the supporting base plate 1 far away from the side box bodies 3 is horizontally and symmetrically welded with abutting blocks 5, a supporting plate 6 is horizontally arranged between the abutting blocks 5, the supporting plate 6 comprises a conveying belt 601, one end of the supporting plate 6 is extended and arranged at the side position between the abutting blocks 5, the two support plates 6 are arranged in parallel, the transmission belt 601 is sleeved between the support plates 6, the transmission belt 601 is sleeved outside the auxiliary roller 604 and the main roller 502, a side horizontal bolt of the support plates 6 is fixedly connected with a pulling cylinder 602, the pulling cylinder 602 is horizontally and fixedly arranged at one end position of a side central line of the support plates 6 close to the butt joint block 5, the output end of the pulling cylinder 602 is horizontally and extendedly welded at one side central position of the moving block 608, the side of the support plates 6 is fixedly welded with an end connecting pipe 603, one end of the end connecting pipe 603 is spliced at one end position close to the side of the support plates 6, the other end is spliced at the side central position of the butt joint block 5, the side horizontally and uniformly provided with the auxiliary roller 604 between the support plates 6, the number of the auxiliary rollers 604 is multiple, the auxiliary rollers 604 are arranged in parallel, fixed bearings 605 are fixedly inlaid on the side edges between the supporting plates 6, one ends of the fixed bearings 605 are butt-jointed and arranged at the inserting ends of the end connecting pipes 603, one side edge of the supporting plate 6 is horizontally provided with horizontal side grooves 606, the horizontal side grooves 606 are horizontally arranged at the side central line positions of the supporting plates 6, one end of the supporting plate 6 far away from the butt joint block 5 is provided with end channels 607, the side edges of the supporting plate 6 are butt-jointed with moving blocks 608, one side edge of each moving block 608 is butt-jointed and arranged at the side opening end positions of the horizontal side grooves 606, the side edge of each moving block 608 is provided with a turnover groove 609, the turnover grooves 609 are vertically arranged at the side central line positions of the moving blocks 608, the top ends and the bottom surfaces extend to the outer sides in an opening shape through the top surfaces and the bottom surfaces of the moving blocks 608, the inner side edges of the turnover grooves 609 are horizontally inserted with turnover shafts 610, one side edge bolts of the moving blocks 608 are fixedly connected with side motors 611, the output end of the side motor 611 is horizontally extended and welded at one end position of the turnover shaft 610, a side clamping block 612 is welded at one side of the moving block 608, the side clamping blocks 612 are correspondingly clamped at the inner side of the horizontal side groove 606, the inner side of the turnover groove 609 is inserted with a turnover rod 613, a sleeved hole 614 is arranged at the side of the turnover rod 613, the sleeved hole 614 is fixedly sleeved at the outer side of the turnover shaft 610, a side horizontal bolt of the turnover rod 613 is fixedly connected with a telescopic rod 615, one end of the telescopic rod 615 is fixedly connected with an inner cylinder 616 at the top end position of the side of the turnover rod 613, a hooking block 617 is welded at the side of the telescopic rod 615, the hooking block 617 is fixedly arranged at one end position of the side of the telescopic rod 615 away from the turnover rod 613, a guide plate 7 is arranged at one end of the support plate 6 away from the opposite connection block 5, the side symmetry welding of deflector 7 has upset inserted bar 701, the side grafting of upset inserted bar 701 has connecting rod 702, deflector 7 one side corner position sets up the open end position that is close to end channel 607, the number of upset inserted bar 701 is two, and the fixed side corner position that sets up at deflector 7 of mutual parallel symmetry of two upset inserted bars 701, two upset inserted bars 701 are keeping away from the equal one-to-one grafting of one end of deflector 7 and are set up the medial side at end channel 607, connecting rod 702 is the side that runs through grafting set up at upset inserted bar 701, and the both ends level grafting of connecting rod 702 sets up the inside wall at end channel 607.

In the invention, when the materials are required to be carried and conveyed, as the supporting bottom plate 1 is moved to the position nearby the goods before, the side supporting plate 6 and the guide plate 7 are overturned to be arranged nearby the bottom of the goods, the side pulling cylinder 602 is controlled to extend the output end, the output end is propped against the moving block 608 to move at the side edge of the supporting plate 6, the moving block 608 is more stable under the restriction of the side clamping block 612 and the horizontal side groove 606, after the moving block 608 moves to one end position of the horizontal side groove 606, the output end drives the overturning shaft 610 to rotate under the rotation of the side motor 611, the overturning rod 613 overturns upwards in the overturning groove 609 under the driving of the overturning shaft 610, after the turning rod 613 drives the telescopic rod 615 to turn upwards, the output end of the internal air cylinder 616 extends to enable the telescopic rod 615 to form an extending state, one end of the hooking block 617 at one end is spliced at the side channel position of the bottom plate of the goods, the hooking block 617 performs pulling operation on the top surface of the guide plate 7 on the goods under the simultaneous contraction movement of the internal air cylinder 616 and the pulling air cylinder 602, the goods are continuously pulled to move to the top surface position of the conveying belt 601, the output end drives the main roller body 502 to rotate under the rotation of the conveying motor 503 at the side, the conveying belt 601 forms horizontal conveying movement under the cooperation of the auxiliary roller 604 under the driving of the main roller body 502, the goods on the top surface enter the top surfaces of the plurality of conveying rollers 103 on the top surface of the supporting bottom plate 1 under the driving of the conveying belt 601, the transmission gear 108 is driven to rotate by the end gear 109 under the rotation of the corresponding conveying motor 107 in the supporting bottom plate 1, the corresponding conveying roller 103 is enabled to rotate, the goods on the top surface are enabled to move to the top surface of the supporting bottom plate 1 to be placed and processed, the goods pulled up subsequently can be formed into conveying operations through controlling the corresponding conveying roller 103 to rotate, a plurality of goods are enabled to be tightly placed at the top surface of the supporting bottom plate 1, the isolation top plate 4 at the top can form an isolation protection effect on the goods, the goods with larger volume can be placed after the isolation top plate 4 is detached to carry and convey the goods, the goods can be more efficiently loaded through automatic pulling operation, meanwhile, the conveying belt structure is enabled to be capable of improving efficiency, and the goods can be orderly stacked and placed under the roller structure which is controlled independently, so that the efficiency of carrying and unloading of the goods is improved.

Example 3: referring to fig. 1-9, a loading conveyor for conveying goods in a warehouse comprises a supporting bottom plate 1, wherein driving wheels 2 are uniformly arranged on the bottom surface of the supporting bottom plate 1, the supporting bottom plate 1 comprises side buckling holes 101, the side buckling holes 101 are symmetrically arranged at positions, close to the top surface, of two side edges of the supporting bottom plate 1, the insides of through end extending end inserting holes 102 of the side buckling holes 101 are in through connection, inserting holes 102 are uniformly arranged on the top surface, close to two side edge positions, of the supporting bottom plate 1 in a straight line equidistant arrangement, of the inserting holes 102 are uniformly clamped with conveying rollers 103, the conveying rollers 103 are distributed in parallel, the conveying rollers 103 are distributed at the center line position of the top surface of the supporting bottom plate 1 at equal intervals, the top surfaces of the conveying rollers 103 are kept at the same horizontal position, the main power supply 104 is horizontally embedded in the inner side of the supporting bottom plate 1, the main power supply 104 is horizontally and fixedly arranged in the position, close to the bottom surface, of the inner side wall of the supporting bottom plate 1, the inner clamping grooves 105 are uniformly formed in the inner side wall of the supporting bottom plate 1, the bottom limiting grooves 106 are uniformly and correspondingly formed in the top surface position of the bottom limiting grooves 106, the bottom limiting grooves 106 are correspondingly formed in the position, close to the four corners, of the bottom surface of the supporting bottom plate 1, the conveying motors 107 are uniformly embedded in the inner side wall of the supporting bottom plate 1, the number of the conveying motors 107 is consistent with the number of the conveying rollers 103, the conveying motors 107 are uniformly and correspondingly arranged in the position, close to one end, of the bottom surface of the conveying rollers 103, the output end of the conveying motor 107 is fixedly sleeved with the conveying gears 108, one ends of the conveying rollers 103 are fixedly sleeved with the end gears 109, the top surface of the transmission gear 108 and the bottom surface of the end gear 109 are uniformly and correspondingly kept in toothed connection, the driving wheel 2 comprises clamping rotating blocks 201, the number of the driving wheels 2 is four, the four driving wheels 2 are uniformly and correspondingly clamped in the bottom end channel of the clamping rotating blocks 201, the clamping rotating blocks 201 are uniformly and correspondingly clamped in the inner side edges of the bottom limiting grooves 106, the top surface and the bottom surface of the clamping rotating blocks 201 are uniformly clamped with rolling balls 202, the rolling balls 202 are uniformly and annularly distributed at the positions, close to the edges, of the top surface and the bottom surface of the clamping rotating blocks 201, the side edges of the rolling balls 202 extend through the openings of the grooves to be butted in the inner side walls of the bottom limiting grooves 106, the top surface of the clamping rotating blocks 201 is provided with a steering motor 203, the steering motor 203 is uniformly and correspondingly and fixedly arranged at the inner side edges of the inner clamping grooves 105, the output end of the steering motor 203 extends vertically downwards to the inner side top surface of the bottom limiting groove 106 and is fixedly connected with the top center position of the clamping rotating block 201, one side bolt of the supporting bottom plate 1 is fixedly connected with the side box body 3, the side edge and the bottom surface of the side box body 3 are embedded with the scanning head 301, the control main plate 303 is arranged in the side box body 3, the scanning main body 304 is arranged in the side box body 3, the top surface of the supporting bottom plate 1 is vertically provided with the isolation top plate 4, the side box body 3 is fixedly arranged at the center position of one side edge of the supporting bottom plate 1, the scanning head 301, the scanning main body 304 and the control main plate 303 are all kept in electrical connection, the isolation top plate 4 is arranged in a U-shaped shape, the isolation top plate 4 is buckled and arranged at the edge position of the top surface of the supporting bottom plate 1, the bottom surface of the isolation top plate 4 is vertically and downwards uniformly welded with the inserting bottom block 401, one side edge of the inserting bottom block 401 is buckled with the buckling oblique block 402, the supporting baseplate 1 is provided with butt joint blocks 5 at a side horizontal symmetry welding of keeping away from the side box body 3, and the side level is provided with backup pad 6 between the butt joint blocks 5, and backup pad 6 is provided with deflector 7 in the one end of keeping away from butt joint blocks 5, and the side symmetry welding of deflector 7 has upset inserted bar 701, and the side grafting of upset inserted bar 701 has connecting rod 702.

In the present invention, when in use, the control main board 302 can control the rotation operation of the driving wheel 2 under the power supply of the main power source 104, so that the driving wheel 2 drives the supporting base board 1 to perform the horizontal movement operation, when the supporting base board 1 moves horizontally, the internal scanning head 301 of the side box 3 can scan the guide line of the ground, when the scanning main body 303 receives the scanning signal, the supporting base board 1 can move along the guide line, the output end drives the clamping rotating block 201 to rotate in the bottom limiting groove 106 under the rotation of the steering motor 203 at the four-side angle position, the corresponding clamping rotating block 201 rotates to a designated angle under the isolation buffer of the rolling ball 202, the rotation of the clamping rotating block 201 in the bottom limiting groove 106 is smoother, the friction force between the two rotating directions is greatly weakened, the rotation of the driving wheel 2 at the bottom end is enabled to be a designated angle to meet the movement requirement, the steering structure without dead angle at 360 degrees enables the supporting base board 1 to move more flexibly, the movement of the supporting base board 1 can form a small-scale movement falling within a small range, and the movement of the supporting base board 1 can move to the required to the place intelligently and move to the moving base board according to the requirements.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims

1. The utility model provides a loading conveyor for warehouse goods transport, includes supporting baseplate (1), its characterized in that, the bottom surface of supporting baseplate (1) evenly is provided with drive wheel (2), a side bolt fixedly connected with side box body (3) of supporting baseplate (1), the inside of side box body (3) is provided with scanning main part (304), the top surface of supporting baseplate (1) is vertical to being provided with keeps apart roof (4), supporting baseplate (1) is keeping away from a side horizontal symmetry welding of side box body (3) and has butt joint piece (5), side level is provided with backup pad (6) between butt joint piece (5), backup pad (6) are provided with deflector (7) in the one end of keeping away from butt joint piece (5);

the supporting bottom plate (1) comprises side buckling holes (101) and inner clamping grooves (105), the side buckling holes (101) are symmetrically formed in the position, close to the top surface, of two side edges of the supporting bottom plate (1), through ends of the side buckling holes (101) extend to be connected with the inside of the inserting holes (102), the inserting holes (102) are uniformly formed in the top surface of the supporting bottom plate (1), conveying rollers (103) are uniformly clamped on the top surface of the supporting bottom plate (1), the conveying rollers (103) are arranged in parallel, the conveying rollers (103) are horizontally arranged at the center line position of the top surface of the supporting bottom plate (1) at equal intervals, the top surfaces of the conveying rollers (103) are uniformly arranged at the same horizontal plane position, the inserting holes (102) are uniformly arranged at the position, close to the two side edges, the inner side of the supporting bottom plate (1) is horizontally embedded with a main power supply (104), the bottom limiting grooves (106) are uniformly clamped on the bottom surface of the supporting bottom plate (1), the bottom surface of the supporting bottom plate (1) is uniformly clamped on the bottom surface of the bottom plate (106) at the position, the bottom surface of the bottom plate (1) is correspondingly limited by the bottom surface of the supporting bottom plate (106) and is horizontally arranged at the position, the bottom surface of the bottom plate (106) is horizontally arranged at the same horizontal position, the inner clamping grooves (105) are uniformly formed in the inner side wall of the supporting bottom plate (1), the conveying motors (107) are uniformly embedded in the inner side wall of the supporting bottom plate (1), the output ends of the conveying motors (107) are fixedly sleeved with the conveying gears (108), one ends of the conveying rollers (103) are fixedly sleeved with the end gears (109), the number of the conveying motors (107) and the number of the conveying rollers (103) are uniformly and correspondingly arranged at the position, close to one end, of the bottom surface of the conveying roller (103), of the conveying motors (107), and the top surfaces of the conveying gears (108) and the bottom surfaces of the end gears (109) are uniformly and correspondingly kept in toothed connection;

the supporting plate (6) comprises a transmission belt (601), a pulling cylinder (602), a turnover groove (609), a sleeving hole (614), a turnover rod (613) and a hooking block (617), one end of the supporting plate (6) is extended and arranged at the side edge position between the butting blocks (5), the two supporting plates (6) are arranged in parallel, the pulling cylinder (602) is horizontally and fixedly arranged at the side edge center line of the supporting plate (6) to be close to the one end position of the butting blocks (5), the output end of the pulling cylinder (602) is horizontally extended and welded at the center position of one side edge of the moving block (608), the transmission belt (601) is sleeved and arranged at the position between the supporting plates (6), the transmission belt (601) is sleeved and arranged at the outer side edge of the auxiliary roller (604) and the main roller body (502), one side edge of the supporting plate (6) is fixedly connected with the pulling cylinder (602) through a horizontal bolt, one side edge of the supporting plate (6) is fixedly welded with the end (603), one end of the end connecting pipe (603) is spliced and arranged at the side edge of the supporting plate (6) to be close to the one end position, the other end of the connecting pipe (603) is spliced and arranged at the side edge of the connecting pipe (6) to be fixedly spliced and fixedly connected with the bearing (605), a horizontal side groove (606) is horizontally formed in one side of the supporting plate (6), auxiliary rollers (604) are uniformly arranged on the side of the supporting plate (6), the auxiliary rollers (604) are arranged in parallel, the horizontal side groove (606) is horizontally formed in the side central line of the supporting plate (6), an end groove (607) is formed in one end of the supporting plate (6) far away from the butt joint block (5), a movable block (608) is butt-jointed on the side of the supporting plate (6), the overturning groove (609) is vertically formed in the side central line of the movable block (608), and the top and the bottom extend to the outside through the top and the bottom of the moving block (608) to be in an opening shape, one side of the moving block (608) is in one-to-one correspondence butt joint with the side opening end position of the horizontal side groove (606), the side of the moving block (608) is provided with a turnover groove (609), the inner side of the turnover groove (609) is horizontally inserted with a turnover shaft (610), one side of the moving block (608) is fixedly connected with a side motor (611) by bolts, the output end of the side motor (611) is horizontally extended and welded with one end position of the turnover shaft (610), one side of the moving block (608) is welded with a side clamping block (612), the utility model discloses a telescopic handle for a bicycle, including overturning shaft (610), telescopic handle (615), side fixture block (612), socket hole (614) are fixed to be cup jointed and set up the lateral side at overturning shaft (610), a side horizontal bolt fixedly connected with telescopic handle (615) of overturning handle (613), side fixture block (612) all correspond the joint setting at the medial side of horizontal side groove (606), the medial side of overturning groove (609) is pegged graft and is had overturning handle (613), socket hole (614) have been seted up to the side of overturning handle (613), the one end fixed connection of telescopic handle (615) sets up in the side top position of overturning handle (613), the medial side horizontal bolt fixedly connected with inner cylinder (616) of telescopic handle (615), the side welding of telescopic handle (615) has hooking piece (617), hooking piece (617) are fixed to be set up in the side of telescopic handle (615) and are kept away from the one end position of overturning handle (613).

2. The loading conveyor for carrying goods in a warehouse according to claim 1, wherein the butt joint blocks (5) comprise turnover motors (501), the number of the butt joint blocks (5) is two, the two butt joint blocks (5) are symmetrically and mutually arranged at two side edge end positions of the supporting base plate (1) in parallel, a main roller body (502) is horizontally arranged between the butt joint blocks (5), two end shaft rods of the main roller body (502) are inserted and arranged at the inner side edge of a fixed bearing (605), one butt joint block (5) is fixedly connected with a transmission motor (503) through a side edge bolt, the turnover motors (501) are fixedly arranged at the side edge center position of one butt joint block (5), the output ends of the turnover motors (501) are welded at one end position of one end connecting pipe (603), the transmission motors (503) are fixedly arranged at the side edge center position of the other butt joint block (5), the output ends of the transmission motors (503) horizontally penetrate and are inserted and arranged at the inner side edge of the end connecting pipe (603), and the extending ends of the transmission motors are welded at one end position of the main roller body (502).

3. The loading conveyor for carrying goods in a warehouse according to claim 1, wherein the driving wheels (2) comprise clamping rotating blocks (201), the number of the driving wheels (2) is four, the four driving wheels (2) are uniformly and correspondingly clamped in the bottom end channels of the clamping rotating blocks (201), the clamping rotating blocks (201) are uniformly and correspondingly clamped in the inner side edges of the bottom limiting grooves (106), the top surfaces of the clamping rotating blocks (201) are provided with steering motors (203), the steering motors (203) are uniformly and correspondingly fixedly arranged in the inner side edges of the inner clamping grooves (105), the output ends of the steering motors (203) vertically and downwardly extend to the inner side top surface fixed connection positions of the bottom limiting grooves (106) and are arranged in the top center positions of the clamping rotating blocks (201), the top surfaces and the bottom surfaces of the clamping rotating blocks (201) are uniformly clamped with rolling balls (202), the rolling balls (202) are uniformly and annularly distributed on the top surfaces and the bottom surfaces of the clamping rotating blocks (201) and the bottom surfaces of the clamping rotating blocks are close to the inner side edges of the limiting grooves (106), and the rolling balls are arranged in the positions of the inner side edges of the limiting grooves (106).

4. The loading conveyor for carrying goods in a warehouse according to claim 1, wherein the isolation top plate (4) comprises an inserting bottom block (401) and a buckling inclined block (402), the inserting bottom block (401) is vertically and uniformly welded on the bottom surface of the isolation top plate (4) downwards, the buckling inclined block (402) is clamped on one side of the inserting bottom block (401), the bottom ends of the inserting bottom block (401) are respectively inserted on the inner side of the inserting hole (102) in a one-to-one correspondence manner, and one ends of the buckling inclined block (402) are respectively buckled on the inner side of the side buckling hole (101).

5. The loading conveyor for carrying goods in a warehouse according to claim 1, wherein the side edges and the bottom surface of the side box body (3) are embedded with scanning heads (301), a control main board (302) is arranged in the side box body (3), the side box body (3) is fixedly arranged at the center position of one side edge of the supporting bottom board (1), the scanning heads (301), the scanning main body (303) and the control main board (302) are electrically connected with each other, the isolation top board (4) is arranged in a U-shaped mode, and the isolation top board (4) is buckled at the edge position of the top surface of the supporting bottom board (1).

6. The loading conveyor for carrying goods in a warehouse according to claim 1, wherein a turnover inserting rod (701) is symmetrically welded on one side edge of the guide plate (7), a connecting rod (702) is inserted on one side edge of the turnover inserting rod (701), one side edge angle position of the guide plate (7) is arranged at an opening end position close to the end channel (607), the number of the turnover inserting rods (701) is two, the two turnover inserting rods (701) are symmetrically arranged at one side edge angle position of the guide plate (7) in parallel, the two turnover inserting rods (701) are inserted on the inner side edge of the end channel (607) in one-to-one correspondence at one end far away from the guide plate (7), the connecting rod (702) is arranged on the side edge of the turnover inserting rod (701) in a penetrating mode, and two ends of the connecting rod (702) are horizontally inserted on the inner side wall of the end channel (607).