CN210048011U - Drive connection structure of narrowband formula commodity circulation sorting machine - Google Patents

Abstract

The utility model discloses a drive connection structure of narrowband formula commodity circulation sorting machine, including belt, sprocket and dolly, the both ends of dolly are equipped with the pulley, and the bottom is equipped with the bolt, the belt is the annular, and its lateral part evenly distributed has a plurality of jacks that cross its self, and its inner surface evenly distributed has a plurality of recesses that cross its self, evenly distributed has a plurality of reference columns on the round of sprocket week, the both ends of rubber chain are respectively around locating one sprocket is last, utilize the reference column with the cooperation of recess is realized the connection of rubber chain and sprocket, the bolt inserts one in the jack. Compared with the prior art, the utility model provides a drive connection structure of narrowband formula sorting machine, it has set up the rubber chain, and at the during operation, the rubber chain drives the dolly operation to the drive dolly compares the mode that sets up the rigid chain in prior art, the utility model discloses can effectively reduce the noise that the during operation produced, build good operational environment.

Description

Drive connection structure of narrowband formula commodity circulation sorting machine

Technical Field

The utility model relates to a drive structure of sorting machine, in particular to drive connection structure of narrowband formula commodity circulation sorting machine.

Background

With the rapid development of modern logistics technology and the vigorous development of the express industry, express companies face a great deal of sorting work of express every day. Traditional express delivery letter sorting mostly leans on manual sorting, and work letter sorting intensity is big, inefficiency, the error rate is high, divides easily wrong when express delivery staff sorts, but also loses a piece easily. At present, along with the continuous promotion of express delivery industry personnel cost, the requirement of customer to quality of service also constantly improves, and the market demand can't be satisfied in artifical letter sorting, therefore the equipment of automatic sorting express delivery also should be transported to the production. The existing sorting equipment is unreasonable in structure arrangement, easy to produce noise and cause noise pollution to the environment. In view of the above, the present inventors have conducted extensive studies to obtain a driving connection structure for a narrow-band type logistics sorting machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a drive connection structure of narrowband formula commodity circulation sorting machine, noise when it can effectively reduce the operation optimizes operational environment.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a drive connection structure of narrowband formula sorting machine, includes rubber chain, sprocket and dolly, the both ends of dolly are equipped with the pulley, and the bottom is equipped with the bolt, the rubber chain is the annular, and its lateral part evenly distributed has a plurality of jacks that cross its self, and its inner surface evenly distributed has a plurality of recesses that cross its self, evenly distributed has a plurality of reference columns on the wheel week of sprocket, the both ends of rubber chain are respectively around locating one on the sprocket, utilize the reference column with the cooperation of recess is realized the connection of rubber chain and sprocket, the bolt inserts one in the jack.

Further improvement: the trolley comprises a plurality of trolleys, and a plug pin of each trolley in the trolleys is inserted into one jack.

Further improvement: the bottom of the trolley is provided with two bolts, the number of the rubber chains is two, the two rubber chains are arranged in parallel, and the two bolts at the bottom of the trolley are respectively inserted into one jack of one rubber chain.

Further improvement: the sprocket includes first round curb plate, second round curb plate and the reference column, first round curb plate and second round curb plate numerical value parallel arrangement, the reference column is connected first round curb plate and second round curb plate, it is a plurality of the reference column is followed the marginal evenly distributed of first round curb plate and second round curb plate, be equipped with the shaft hole that the position corresponds each other on first round curb plate and the second round curb plate.

Further improvement: the positioning column comprises a fixing bolt and a positioning sleeve, the positioning sleeve is arranged between the first wheel side plate and the second wheel side plate, and the fixing bolt sequentially penetrates through the first wheel side plate, the positioning sleeve and the second wheel side plate.

Compared with the prior art, the utility model provides a drive connection structure of narrowband formula sorting machine, it has set up the rubber chain, and at the during operation, the rubber chain drives the dolly operation to the drive dolly compares the mode that sets up the rigid chain in prior art, the utility model discloses can effectively reduce the noise that the during operation produced, build good operational environment.

Drawings

Fig. 1 is the utility model relates to a structural schematic diagram of narrowband formula commodity circulation sorting machine.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is an enlarged schematic view of a portion B of fig. 1.

Fig. 4 is a schematic structural diagram of the active end of the rack of the narrow-band logistics sorting machine of the utility model.

Fig. 5 is a schematic structural diagram of a driven end of a rack of the narrow-band logistics sorting machine.

Fig. 6 is a schematic structural diagram of a trolley of the narrow-band logistics sorting machine.

Fig. 7 is a longitudinal section structure schematic diagram of a trolley of the narrow-band logistics sorting machine.

Fig. 8 is a first view structural diagram of a guiding structure of the narrow-band logistics sorting machine of the present invention.

Fig. 9 is a second view structural diagram of a guiding structure of a narrow-band logistics sorting machine according to the present invention.

In the drawings

A slide rail-1; a trolley-2; a conveyor belt-21;

a front side plate-22; a rear side plate-23; a left-hand roller-24;

a right-hand roller-25; a first cross plate-26; a second transverse plate-27;

a first longitudinal plate-28; a second longitudinal plate-29; a third vertical plate-291;

a fourth longitudinal plate-292; a faceplate-293; a first intermediate roll-294;

a second intermediate roll-295; a third transverse plate-296; a fifth longitudinal plate-298;

a sixth longitudinal plate-299; a drive belt-281; a transmission wheel-282;

a fixing plate-283; a first drive shaft-284; a second drive shaft-285;

a friction wheel-286; a first bevel gear-287; a second bevel gear-288;

a first shaft-31; a second shaft-32; a first cylinder-33;

a second cylinder-34; a bottom plate-35; opening-351;

a first side panel-36; a second side plate-37; a first friction plate-38;

a second friction plate-39; a first rotating frame-40; a first plate-401;

a second plate-402; a second turret-41; a third plate-411;

a fourth plate-412; a first positioning seat-51; a first positioning bolt-52;

a second positioning seat-53; a second positioning bolt-54; a first articulated seat-61;

a second articulated seat-62; a third hinge mount-63; a fourth articulated seat-64;

a first latch-65; a second pin-66; a first pulley-71;

a second pulley-72; a third pulley-73; a fourth pulley-74;

a fifth pulley-75; a sixth pulley-76; motor-81;

rubber chain-82; plug-821; a groove-822;

a sprocket-83; a first wheel side plate-832; a second wheel side plate-833;

a positioning post-84; fixing bolt-841; a positioning sleeve-842;

a drive shaft-9; a frame-10.

Detailed Description

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

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

As shown in fig. 1 to 5, a driving connection structure of a narrow-band sorting machine includes a rubber chain 82, a sprocket 83 and a trolley 2, wherein pulleys are disposed at two ends of the trolley 2, the pulleys may be single pulleys or pulley blocks, in this embodiment, a first pulley block and a second pulley block are respectively disposed at two ends of the trolley, a bolt is disposed at the bottom of the trolley, the rubber chain 82 is annular, a plurality of insertion holes 821 crossing itself are uniformly distributed at a side portion of the rubber chain 82, a plurality of grooves 822 crossing itself are uniformly distributed at an inner surface of the rubber chain, a plurality of positioning pillars 84 are uniformly distributed on a circumference of the sprocket 83, two ends of the rubber chain 82 are respectively wound around one sprocket 83, and the rubber chain 82 and the sprocket 83 are connected by matching the positioning pillars 84 and the grooves 822, and the bolt is inserted into one of the insertion holes 821.

The bottom of the trolley 2 is provided with two bolts, the number of the belts is two, the two rubber chains 82 are arranged in parallel, the two bolts at the bottom of the trolley 2 are respectively inserted into one jack of each belt, and the two bolts are respectively a first bolt 65 and a second bolt 66.

The sprocket includes first round of curb plate 832, second round of curb plate 833 and reference column 84, first round of curb plate 832 and second round of curb plate 833 parallel arrangement, reference column 84 connects first round of curb plate 832 and second round of curb plate 833, and is a plurality of reference column 84 is along the edge evenly distributed of first round of curb plate 833 and second round curb plate 834, be equipped with the mutual corresponding shaft hole in position on first round of curb plate 832 and the second round of curb plate 833, when with the belt cooperation, the reference column is absorbed in the recess for the reference column plays the effect of latch.

Specifically, in order to facilitate the assembly of the sprocket, the positioning column 84 includes a fixing bolt 841 and a positioning sleeve 842, the positioning sleeve 842 is disposed between the first wheel side plate 832 and the second wheel side plate 833, the fixing bolt 841 sequentially penetrates through the first wheel side plate 832, the positioning sleeve 842 and the second wheel side plate 833, and under this structural arrangement, the sprocket can be disassembled by disassembling and assembling the fixing bolt 841.

The drive connection structure of this embodiment is mainly applied to narrowband formula commodity circulation sorting machine, and narrowband formula commodity circulation sorting machine includes controller, scanning head, frame 10, forward driving device, slide rail, dolly 2 and guide structure.

As shown in fig. 6 and 7, the trolley 2 includes a supporting frame, a conveying belt 21, a transmission assembly and a forward sliding assembly, the supporting frame includes a front side plate 22, a rear side plate 23, a left-turning roller 24 and a right-turning roller 25, the front side plate 22 and the rear side plate 23 are vertically arranged in parallel to form the side portion of the supporting frame, the left-turning roller 24 and the right-turning roller 25 are respectively fixed at the left end and the right end of the supporting frame, both ends of the left-turning roller 24 and the right-turning roller 25 are respectively fixed on the front side plate 22 and the rear side plate 23, the conveying belt 21 surrounds the left-turning roller 24 and the right-turning roller 25, the transmission assembly includes a driving belt 281, a driving wheel 282, a fixing plate 283, a first driving shaft 284, a second driving shaft 285, a friction wheel 286, a first bevel gear 287 and a second bevel gear 288, the fixing plate 283 is horizontally arranged and both ends of the fixing plate 22 and the rear side plate 23, the first transmission shaft 284 passes through the fixing plate 283 from bottom to top and is rotatably fixed on the fixing plate 283, the first bevel gear 287 is fixed at the upper end of the first transmission shaft 284, the friction wheel 286 is fixed at the lower end of the first transmission shaft 284, the second transmission shaft 285 passes through the front side plate 22 from left to right and is rotatably fixed on the front side plate 22, the transmission wheel 282 and the second bevel gear 288 are respectively fixed at the two ends of the second transmission shaft 285, the first bevel gear 287 and the second bevel gear 288 are engaged with each other, one end of the transmission belt 281 surrounds the transmission wheel 282 and the other end surrounds one end of the left rotating roller 24, and the forward sliding assemblies are arranged at the two ends of the supporting frame;

when the friction wheel 286 rotates, the first transmission shaft 284 is driven to rotate, the first transmission shaft 284 drives the first bevel gear 287 to rotate, the first bevel gear 287 and the second bevel gear 288 are meshed with each other, so as to drive the second bevel gear 288 to rotate, the second bevel gear 288 drives the second transmission shaft 285 to rotate, the second transmission shaft 285 drives the transmission wheel 282 to rotate, the transmission wheel 282 drives the transmission belt 281, the transmission belt 281 drives the left-turn roller 24 to rotate, and the left-turn roller 24 drives the conveying belt 21 to rotate.

As shown in fig. 8 and 9, the guide structure includes a first rotating shaft 31, a second rotating shaft 32, a first cylinder 33, a second cylinder 34, a bottom plate 35, a first side plate 36, a second side plate 37, a first friction plate 38, a second friction plate 39, a first rotating frame 40, a second rotating frame 41, a first hinge seat 61, a second hinge seat 62, a third hinge seat 63, and a fourth hinge seat 64, the first rotating shaft 31 sequentially passes through the first side plate 36, the first rotating frame 40, and the second side plate 37, the second rotating shaft 32 sequentially passes through the first side plate 36, the second rotating frame 41, and the second side plate 37, the first friction plate 38 and the second friction plate 39 are respectively fixed on the first rotating frame 40 and the second rotating frame 41, the first friction plate 38 and the second friction plate 39 are oppositely arranged, the first hinge seat 61 is fixed at the bottom of the first rotating frame 40, the second hinge base 62 is fixed at the bottom of the second rotating frame 41, the third hinge base 63 and the fourth hinge base 64 are fixed on the bottom plate 35, the third hinge base 63 is arranged close to the second rotating frame 41, the fourth hinge base 64 is arranged close to the first rotating frame 40, one end of the first air cylinder 33 is connected with the first hinge base 61, the other end of the first air cylinder is connected with the third hinge base 63, one end of the second air cylinder 34 is connected with the second hinge base 62, and the other end of the second air cylinder is connected with the fourth hinge base 64;

the guide structures are arranged side by side, so that the trolley 2 can be guided at different positions, and the working principle of the guide structures is that when the first air cylinder 33 extends, the first rotating frame 40 rotates, the first friction plate 38 is close to the direction of the second friction plate 39, and when the first air cylinder 33 shortens, the first rotating frame 40 rotates, and the first friction plate 38 is far away from the direction of the second friction plate 39; when the second cylinder 34 extends, the second rotating frame 41 rotates, the second friction plate 39 approaches the first friction plate 38, and when the second cylinder 34 extends, the second rotating frame 41 rotates, and the second friction plate 39 moves away from the first friction plate 38.

The advancing sliding assembly comprises the first pulley block, the second pulley block, the first bolt 65 and the second bolt 66, the support frame further comprises a first transverse plate 26, a second transverse plate 27, a first longitudinal plate 28, a second longitudinal plate 29, a third longitudinal plate 291 and a fourth longitudinal plate 292, the first pulley block and the second pulley block are respectively fixed at two ends of the support frame, the first transverse plate 26 and the second transverse plate 27 are respectively arranged close to the first pulley block and the second pulley block, two sides of the first transverse plate 26 and two sides of the second transverse plate 27 are respectively fixed on the front side plate 22 and the rear side plate 23, the first longitudinal plate 28 and the second longitudinal plate 29 are fixed on the first transverse plate 26 in parallel, the first bolt 65 sequentially penetrates through the first longitudinal plate 28 and the second longitudinal plate 29, the third longitudinal plate 291 and the fourth longitudinal plate 292 are fixed on the second transverse plate 27 in parallel, the second latch 66 sequentially penetrates through the third vertical plate 291 and the fourth vertical plate 292, the first latch 65 and the second latch 66 are horizontally arranged, and the length direction of the first latch is vertical to that of the left-turning roller 24 and the right-turning roller 25;

the forward driving device comprises a motor 81, the rubber chain 82, the chain wheels 83 and a driving shaft 9, two chain wheels 83 are arranged on the driving shaft 9, two ends of the two driving shafts 9 are rotationally fixed on the rack 10, the first bolt 65 and the second bolt 66 are respectively inserted into one insertion hole 821 of one rubber chain 82, and the motor 81 is connected with one of the two driving shafts 9;

the sliding rails 1, the trolley 2 and the guide structure are arranged on the rack 10, the two sliding rails 1 are fixed on two sides of the upper part of the rack 10, the guide structure is arranged between the two sliding rails 1, the trolley 2 is arranged on the two sliding rails 1, the first pulley block and the second pulley block are respectively contacted with the two sliding rails 1, and the friction wheel 286 of the trolley 2 is positioned between the first friction plate 38 and the second friction plate 39;

the number of the trolleys 2 is multiple, and the trolleys 2 are arranged side by side and form a ring shape along the rubber chain 82.

The first cylinder 33, the second cylinder 34, the motor 81 and the scanning head are all electrically connected with the controller.

The controller controls the first air cylinder 33, the second air cylinder 34, the motor 81 and the scanning head by using the control method, the scanning head is used for acquiring the scanning information, when the motor 81 is started, the driving shaft 9 is driven to rotate, the driving shaft 9 drives the chain wheel 83 to rotate, the chain wheel 83 drives the rubber chain 82 to rotate, the rubber chain 82 drives the trolley 2 to slide on the sliding rail 1, in the sliding process, according to an execution command, the controller controls the first air cylinder 33 or the second air cylinder 34 to move, so that the first friction plate 38 or the second friction plate 39 is close to the friction wheel 286, when the first friction plate 38 or the second friction plate 39 contacts the friction wheel 286, the friction wheel 286 rotates, and when the first friction plate 38 and the friction wheel 286 contact, the rotation direction of the friction wheel 286 is opposite to the rotation direction of the friction wheel 286 when the second friction wheel 286 and the friction wheel 286 contact, so that the rotation direction of the conveyor belt 21 can be controlled by controlling which of the first and second friction plates 38 and 39 is in contact with the friction wheel 286, thereby achieving sorting of goods in different directions.

Due to the arrangement of the rubber chain 82, the noise during operation is reduced, and compared with a mode of adopting a rigid chain in the prior art, the noise level is effectively limited; the trolley 2 is not provided with a power device, but the running of the conveying belt 21 of the trolley is realized through the guide mechanism, so that the structure of the trolley 2 is simplified, the stability is improved, and the production cost is reduced.

Further, the support frame further comprises a panel 293, the panel 293 is horizontally arranged between the left-turning roller 24 and the right-turning roller 25, two sides of the panel 293 are respectively fixed on the upper edges of the front side plate 22 and the rear side plate 23, the panel 293 is surrounded by the conveying belt 21, and the bearing capacity of the trolley 2 can be improved by arranging the panel 293.

Further, in order to save space, the support frame further includes a first middle roller 294 and a second middle roller 295 which are horizontally arranged, two ends of the first middle roller 294 and the second middle roller 295 are respectively fixed on the front side plate 22 and the rear side plate 23, upper surfaces of the first middle roller 294 and the second middle roller 295 are higher than lower surfaces of the left roller 24 and the right roller 25, a lower portion of the conveyor belt 21 passes through the upper surfaces of the first middle roller 294 and the second middle roller 295, and the lower portion of the conveyor belt is lifted upwards by arranging the first middle roller 294 and the second middle roller 295, so that space is saved for arranging other components, and the volume of the trolley 2 is reduced.

Specifically, the supporting frame further comprises a third transverse plate 296, a fourth transverse plate, a fifth longitudinal plate 298 and a sixth longitudinal plate 299, the first pulley block comprises a first pulley 71, a second pulley 72, a third pulley 73 and a fourth pulley 74, the second pulley block comprises a fifth pulley 75, a sixth pulley 76, a seventh pulley and an eighth pulley, the fifth longitudinal plate 298 and the sixth longitudinal plate 299 are vertically arranged at two ends of the supporting frame, the third transverse plate 296 and the fourth transverse plate are horizontally arranged and respectively close to the fifth longitudinal plate 298 and the sixth longitudinal plate 299, the first pulley 71 and the second pulley 72 are fixed to the fifth vertical plate 298, the third pulley 73 and the fourth pulley 74 are fixed to the lower surface of the third cross plate 296, the fifth pulley 75 and the sixth pulley 76 are fixed to one side of the sixth vertical plate 299, and the seventh pulley and the eighth pulley are fixed to a lower surface of the fourth horizontal plate. When in use, the first pulley 71 and the second pulley 72 are placed on one of the two slide rails 1, the third pulley 73 and the fourth pulley 74 abut against the side portion of the slide rail 1, the slide rail 1 is provided with an edge covering the first pulley 71 and the second pulley 72 to prevent the trolley 2 from falling off the slide rail 1, the fifth pulley 75 and the sixth pulley 76 are placed on the other slide rail 1 of the two slide rails 1, the seventh pulley and the eighth pulley abut against the side portion of the slide rail 1 to enable the trolley 2 to be stably placed on the slide rail 1, and the slide rail 1 is provided with an edge covering the fifth pulley 75 and the sixth pulley 76 to prevent the trolley 2 from falling off the slide rail 1.

Specifically, the first rotating frame 40 includes a first plate 401 and a second plate 402, the lower end of the first plate 401 is connected to the first hinge base 61, the upper end of the first plate 401 is connected to the second plate 402, the second plate 402 is connected to the first friction plate 38, the second rotating frame 41 includes a third plate 411 and a fourth plate 412, the lower end of the third plate 411 is connected to the second hinge base 62, the upper end of the third plate is connected to the fourth plate 412, and the fourth plate 412 is connected to the second friction plate 39.

Further, the positioning device further comprises a first positioning seat 51, a first positioning bolt 52, a second positioning seat 53 and a second positioning bolt 54, wherein the first positioning seat 51 and the second positioning seat 53 are fixed on the bottom plate 35, the first positioning seat 51 is located on one side, provided with the first rotating frame 40, of the bottom plate 35, the second positioning seat 53 is located on one side, provided with the second rotating frame 41, of the bottom plate 35, a first screw hole is formed in the first positioning seat 51, the first positioning bolt 52 is inserted into the first screw hole and points to the first flat plate 401, a second screw hole is formed in the second positioning seat 53, and the second positioning bolt 54 is inserted into the second screw hole and points to the third flat plate 411. Under the structural arrangement, the first positioning bolt 52 and the second positioning bolt 54 limit the first rotating frame 40 and the second rotating frame 41, so that the rotation of the first rotating frame 40 and the second rotating frame 41 is controlled within a certain range, and meanwhile, the rotation amplitude of the first rotating frame 40 and the second rotating frame 41 can be adjusted and controlled by adjusting the first positioning bolt 52 and the second positioning bolt 54.

Further, an opening 351 for the first rotating frame 40 and the second rotating frame 41 to move is formed in the bottom plate 35, and the opening 351 is arranged between the first rotating frame 40 and the second rotating frame 41, so that the positions of the first rotating frame 40 and the second rotating frame 41 can be set to be lower, the space is saved, and the size of the narrow-band logistics sorting machine is reduced.

The foregoing description of the embodiments is provided to enable one of ordinary skill in the art to make and use the invention and is provided for enabling those of ordinary skill in the art to make and use the invention as provided within the appended claims. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (5)

1. The utility model provides a drive connection structure of narrowband formula commodity circulation sorting machine which characterized in that: the rubber chain is annular, a plurality of jacks crossing the rubber chain are uniformly distributed on the side part of the rubber chain, a plurality of grooves crossing the rubber chain are uniformly distributed on the inner surface of the rubber chain, a plurality of positioning columns are uniformly distributed on the periphery of the chain wheel, the two ends of the rubber chain are respectively wound on one chain wheel, the connection between the rubber chain and the chain wheel is realized by utilizing the matching of the positioning columns and the grooves, and the pins are inserted into the jacks.

2. The driving connection structure of the narrow-band logistics sorting machine according to claim 1, characterized in that: the trolley comprises a plurality of trolleys, and a plug pin of each trolley in the trolleys is inserted into one jack.

3. The driving connection structure of the narrow-band logistics sorting machine according to claim 1, characterized in that: the bottom of the trolley is provided with two bolts, the number of the rubber chains is two, the two rubber chains are arranged in parallel, and the two bolts at the bottom of the trolley are respectively inserted into one jack of one rubber chain.

4. The drive connection structure of the narrow-band logistics sorting machine according to any one of claims 1 to 3, wherein: the sprocket includes first round curb plate, second round curb plate and the reference column, first round curb plate and second round curb plate numerical value parallel arrangement, the reference column is connected first round curb plate and second round curb plate, it is a plurality of the reference column is followed the marginal evenly distributed of first round curb plate and second round curb plate, be equipped with the shaft hole that the position corresponds each other on first round curb plate and the second round curb plate.

5. The driving connection structure of the narrow-band logistics sorting machine of claim 4, wherein: the positioning column comprises a fixing bolt and a positioning sleeve, the positioning sleeve is arranged between the first wheel side plate and the second wheel side plate, and the fixing bolt sequentially penetrates through the first wheel side plate, the positioning sleeve and the second wheel side plate.

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