CN214988228U - Chain-driven narrow-belt sorting machine - Google Patents

Abstract

The utility model relates to a sorting machine, especially a narrow band sorting machine of chain drive. According to the technical scheme provided by the utility model, the chain-driven narrow-band sorting machine comprises a transmission chain group which can be in adaptive connection with a carrier and can convey the connected carrier and a transmission chain driving mechanism which is used for driving the transmission chain group to move, wherein the transmission chain group comprises two transmission chains which can be in adaptive connection with a machine head and a machine tail; a guide rail which can be matched with the transmission chain is arranged between the machine head and the machine tail, the guide rail is supported on the portal frame, and two ends of the guide rail are respectively fixedly connected with the machine head and the machine tail; after the transmission chain driving mechanism drives the transmission chain in the transmission chain group to do circular motion, the carrier which is in adaptive connection with the transmission chain can circulate along with the transmission chain. The utility model discloses compact structure can satisfy the user demand in narrow place, improves the stability and the reliability of letter sorting in-process.

Description

Chain-driven narrow-belt sorting machine

Technical Field

The utility model relates to a sorting machine, especially a narrow band sorting machine of chain drive.

Background

At present, the cross belt sorting equipment for sorting small goods is mostly a conveying transmission mode adopting a joint bearing and a traveling crane frame to be mutually connected between a trolley and a trolley. The cross belt sorting equipment manufactured in the mode has larger turning radius, so that the sorting equipment has high requirement on the field and cannot be applied to narrow fields.

Disclosure of Invention

The utility model aims at overcoming the not enough of existence among the prior art, providing a narrow band sorting machine of chain drive, its compact structure can satisfy the user demand in narrow place, improves the stability and the reliability of letter sorting in-process.

According to the technical scheme provided by the utility model, the chain-driven narrow-band sorting machine comprises a transmission chain group which can be in adaptive connection with a carrier and can convey the connected carrier and a transmission chain driving mechanism which is used for driving the transmission chain group to move, wherein the transmission chain group comprises two transmission chains which can be in adaptive connection with a machine head and a machine tail;

a guide rail which can be matched with the transmission chain is arranged between the machine head and the machine tail, the guide rail is supported on the portal frame, and two ends of the guide rail are respectively fixedly connected with the machine head and the machine tail; after the transmission chain driving mechanism drives the transmission chain in the transmission chain group to do circular motion, the carrier which is in adaptive connection with the transmission chain can circulate along with the transmission chain.

The transmission chain driving mechanism is arranged on the machine head;

the machine head comprises a machine head frame and a driving shaft arranged in the machine head frame, and driving chain wheels capable of being matched with a transmission chain are arranged at two ends of the driving shaft; the transmission chain wheel driving mechanism is fixedly arranged on the machine head frame and can drive the driving shaft to rotate in the machine head frame.

The transmission chain driving mechanism comprises a three-phase asynchronous motor, and a driving shaft is in adaptive connection with the headstock through a driving shaft bearing with a seat;

the periphery of the headstock is provided with a plurality of headstock sealing plates, and the inner side of the headstock sealing plates is provided with headstock soundproof cotton.

The bottom of the headstock is provided with a plurality of headstock shock absorbers.

The tail comprises a tail frame and a driven shaft arranged in the tail frame, driven chain wheels capable of being matched with a transmission chain are arranged at two ends of the driven shaft, and two ends of the driven shaft are in adaptive connection with the tail frame through driven shaft bearings with seats;

the driven chain wheel moving and adjusting mechanism is connected with the driven shaft bearing with the bearing seat in an adaptive mode, and the position state of the corresponding driven chain wheel in the tail frame can be adjusted through the driven chain wheel moving and adjusting mechanism.

The driven chain wheel movement adjusting mechanism comprises a movable guide rail arranged in the tail frame and capable of being matched with the driven shaft bearing with a seat and an adjusting connecting screw rod in adaptive connection with the driven shaft bearing with a seat, the driven shaft bearing with a seat can be driven to move on the movable guide rail through rotation of the adjusting connecting screw rod, and the moving direction of the driven shaft bearing with a seat on the movable guide rail is consistent with the length direction of the transmission chain.

The portal frame comprises a transverse beam and longitudinal beams arranged at two ends of the transverse beam, and a frame body adjusting mechanism for adjusting the height state is arranged at the bottom end of each longitudinal beam.

The support body guiding mechanism is located the podotheca of vertical roof beam bottom and is located including the cover support body bottom plate of podotheca below set up a plurality of bottom plate podotheca regulation poles that can be connected with the podotheca adaptation on the support body bottom plate, through the bottom plate podotheca lock nut of cover on the regulation pole of bottom plate podotheca can with the podotheca is adjusted the pole and is locked each other to the podotheca.

The guide rail includes the rail end shrouding and is located the rail side board portion of rail end shrouding both sides, the rail side board portion includes a plurality of lower track bodies and a plurality of being located of being connected with the rail end shrouding the last track body of track body top down, go up the track body and be connected with down the one-to-one between the track body, all set up the track connecting plate at the tip that last track body, lower track body are corresponding.

The device also comprises a guide wheel assembly arranged on the outer side of the transmission chain, and the transmission chain is in adaptive connection with the carrier through the guide wheel assembly;

the guide wheel subassembly including can with drive chain adaptation connection's end panel, set up in Y on the end panel is to spacing round and Z to spacing round.

The utility model has the advantages that: the both ends of guide rail set up aircraft nose and tail, and drive chain can drive chain through drive chain actuating mechanism with aircraft nose, tail cooperation, after the drive chain transmission, can realize the transport to the carrier, can satisfy the user demand in narrow place, improve the stability and the reliability of letter sorting in-process.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic view of the handpiece of the present invention.

Fig. 4 is a schematic view of the headstock soundproof cotton and the headstock closing plate of the present invention.

Fig. 5 is a schematic view of the tail of the present invention.

Fig. 6 is the schematic view of the driven sprocket movement adjusting mechanism and the driven shaft with a bearing seat of the present invention.

Fig. 7 is a schematic view of the portal frame of the present invention.

Fig. 8 is a schematic view of the guide rail of the present invention.

Fig. 9 is a perspective view of the guide wheel assembly and the transmission chain of the present invention.

Fig. 10 is a schematic diagram of the guide wheel assembly and the transmission chain of the present invention.

Fig. 11 is a side view of the guide wheel assembly of the present invention engaged with a drive chain.

Fig. 12 is a schematic view of the carrier of the present invention cooperating with the transmission chain via the guide wheel assembly.

Description of reference numerals: 1-machine head, 2-machine tail, 3-portal frame, 4-guide rail, 5-transmission chain, 6-guide wheel component, 7-carrier, 101-machine head frame, 102-driving shaft bearing with seat, 103-three-phase asynchronous motor, 104-driving shaft, 105-driving chain wheel, 106-machine head frame sealing plate, 107-machine head frame soundproof cotton, 108-machine head frame shock absorber, 201-machine tail frame, 202-moving guide rail, 203-driven shaft bearing with seat, 204-adjusting connecting screw, 205-driven chain wheel, 206-driven shaft, 207-machine tail frame shock absorber, 208-screw positioning plate, 209-screw positioning nut, 301-transverse beam, 302-foot sleeve, 303-frame bottom plate, 304-bottom plate foot sleeve adjusting rod, 305-a frame body bottom plate hole, 306-a bottom plate foot sleeve locking nut, 307-a transverse beam hole, 308-a longitudinal beam, 401-an upper rail body, 402-a lower rail body, 403-a rail connecting plate, 404-a rail bottom sealing plate, 405-a rail side sealing plate, 501-a chain link, 502-an end surface plate, 503-Y-direction limiting wheels, 504-Z-direction limiting wheels, 505-a flange pin and 506-a split pin.

Detailed Description

The invention is further described with reference to the following specific drawings and examples.

As shown in fig. 1 and 2: in order to meet the use requirement of a narrow place and improve the stability and reliability in the sorting process, the utility model comprises a transmission chain group which can be in adaptive connection with a carrier 7 and can convey the connected carrier 7 and a transmission chain driving mechanism which is used for driving the transmission chain group to move, wherein the transmission chain group comprises two transmission chains 5 which can be in adaptive connection with a machine head 1 and a machine tail 2;

a guide rail 4 which can be matched with a transmission chain 5 is arranged between the machine head 1 and the machine tail 2, the guide rail 4 is supported on the portal frame 3, and two ends of the guide rail 4 are respectively fixedly connected with the machine head 1 and the machine tail 2; after the transmission chain driving mechanism drives the transmission chain 5 in the transmission chain group to circularly move, the carrier 7 which is in adaptive connection with the transmission chain 5 can circulate along with the transmission chain 5.

Specifically, the carrier 7 can adopt an electric roller belt trolley, the carrier 7 is connected with a transmission chain set, and the carrier 7 can be conveyed through the transmission connection set. The transmission chain group comprises at least two transmission chains 5, the two transmission chains 5 are symmetrically distributed, the transmission chains 5 are connected with the machine head 1 and the machine tail 2 in an adaptive mode, and the transmission chain driving mechanism drives the two transmission chains 5 to move synchronously so as to convey the carrier 7.

During specific implementation, a guide rail 4 is arranged between the machine head 1 and the machine tail 2, the guide rail 4 is in one-to-one correspondence with the transmission chains 5, the guide rail 4 is supported by the portal frame 3, the transmission chains 5 are located on the inner side of the guide rail 4, and two ends of the guide rail 4 are fixedly connected with the machine head 1 and the machine tail 2 respectively. The both ends of drive chain 5 are located aircraft nose 1, tail 2 respectively, rotate the back through drive chain drive mechanism drive chain 5, and synchronous motion can be followed to carrier 7, and carrier 7 can get into in aircraft nose 1 in the motion process to in wearing out aircraft nose 1 back motion to tail 2, in wearing out aircraft nose 2 back reentrant aircraft nose 1, realize whole cyclic motion promptly, satisfy the letter sorting user demand in narrow place.

As shown in fig. 3 and 4, the transmission chain driving mechanism is arranged on the machine head 1;

the machine head 1 comprises a machine head frame 101 and a driving shaft 104 arranged in the machine head frame 101, wherein driving chain wheels 105 capable of being matched with a transmission chain 5 are arranged at two ends of the driving shaft 104; the driving sprocket driving mechanism is fixedly disposed on the head frame 101, and the driving sprocket driving mechanism can drive the driving shaft 104 to rotate in the head frame 101.

The embodiment of the utility model provides an in, drive chain actuating mechanism sets up on aircraft nose 1, of course, drive chain actuating mechanism can also set up on tail 2, specifically can select as required, and here is no longer repeated. The head 1 is in the form of a frame, and may be formed by welding a rectangular tube, an angle iron, a channel steel, or the like, and has a space in the head 1 for allowing the carrier 7 to pass through.

In order to be able to cooperate with the drive chain 5, a drive shaft 104 is provided in the headstock 1, a drive sprocket 105 is provided at both ends of the drive shaft 104, and the drive sprocket 105 is fixed to the drive shaft 104. The driving chain wheel driving mechanism can drive the driving shaft 104 to rotate, so that the driving chain wheel 105 can rotate, and after the driving chain wheel 105 rotates, the driving chain 5 connected with the driving chain wheel 105 can be driven to rotate.

Further, the transmission chain driving mechanism comprises a three-phase asynchronous motor 103, and a driving shaft 104 is in adaptive connection with a headstock 101 through a driving shaft bearing 102;

a plurality of headstock closing plates 106 are provided on the outer peripheral surface of the headstock 101, and headstock soundproof cotton 107 is provided inside the headstock closing plates 106.

In the embodiment of the present invention, the end of the driving shaft 104 is mounted on the head frame 101 through the driving shaft bearing 102, and the driving shaft 104 can rotate in the head frame 101 through the driving shaft bearing 102. The transmission chain driving mechanism adopts a three-phase asynchronous motor 103, and an output shaft of the three-phase asynchronous motor 103 is connected with one end of a transmission shaft 104 through a key and the like, so that the three-phase asynchronous motor 103 can drive a driving shaft 104 to rotate in a headstock 101.

A headstock closing plate 106 is arranged on the outer side surface of the headstock 101, the outer side surface of the headstock 101 can be closed through the headstock closing plate 106, and headstock soundproof cotton 107 is attached to the inner side surface of the headstock closing plate 106. The headstock vibration dampers 108 are disposed at the bottom of the headstock 101, the headstock vibration dampers 108 may be in a conventional form, and the headstock vibration dampers 108 may be uniformly distributed at the bottom of the headstock 101. When the transmission chain is used, the headstock 101 is contacted with the ground through the headstock shock absorber 108, and noise and vibration caused by transmission of the transmission chain 5 can be effectively relieved through the headstock shock absorber 108 and the headstock soundproof cotton 107.

As shown in fig. 5 and 6, the tail 2 includes a tail frame 201 and a driven shaft 206 disposed in the tail frame 201, driven sprockets 205 capable of adapting to the transmission chain 5 are disposed at two ends of the driven shaft 206, and two ends of the driven shaft 206 are adapted to the tail frame 201 through a driven shaft bearing 203;

the automatic adjusting device further comprises a driven sprocket moving adjusting mechanism which is in adaptive connection with the driven shaft bearing with seat 203, and the position state of the corresponding driven sprocket 205 in the tail frame 201 can be adjusted through the driven sprocket moving adjusting mechanism.

The embodiment of the present invention provides an embodiment, the tail frame 201 can adopt a form corresponding to the headstock 101, the tail frame 201 also has a space allowing the carrier 7 to pass through during the conveying process, the specific situation of the tail frame 201 can refer to the description of the headstock 101, and the description is not repeated here.

A driven shaft 206 is provided in the tailstock 201, the driven shaft 206 and the driving shaft 104 are parallel to each other, driven sprockets 205 are provided at both ends of the driven shaft 206, and the driven sprockets 205 and the driven shaft 206 are fixed to each other. The end of the driven shaft 206 can be connected with the tailstock 201 through the driven shaft bearing 203, that is, the driven shaft 206 can rotate in the tailstock 201 through the driven shaft bearing 203. In order to adjust the driven sprocket 205, the driven sprocket movement adjusting mechanism is matched with the driven shaft belt seat bearings 203 in a one-to-one correspondence manner. In addition, a tail frame shock absorber 207 is arranged at the bottom of the tail frame 201, the tail frame shock absorber 207 can be in the same form as the head frame shock absorber 108, and the tail frame shock absorber 207 can achieve shock absorption on the operation of the tail 2.

Further, the driven sprocket movement adjusting mechanism comprises a movable guide rail 202 which is arranged in the tail frame 201 and can be matched with the driven shaft bearing with seat 203 and an adjusting connecting screw 204 which is matched and connected with the driven shaft bearing with seat 203, the driven shaft bearing with seat 203 can be driven to move on the movable guide rail 202 by rotating the adjusting connecting screw 204, and the moving direction of the driven shaft bearing with seat 203 on the movable guide rail 202 is consistent with the length direction of the transmission chain 5.

The embodiment of the utility model provides an in, set up movable guide 202 in tailstock 201, movable guide 202's length is unanimous with drive chain 5's length direction, and movable guide 202 and driven shaft take a bearing 203's bearing frame adaptation to be connected can lead the motion of driven shaft take a bearing 203 in tailstock 201 through movable guide 202.

A screw positioning plate 208 is further arranged in the tail frame 201, the adjusting connecting screw 204 penetrates through the screw positioning plate 208 to be connected with the driven shaft bearing with a seat 203, a screw positioning nut 209 is further arranged on the adjusting connecting screw 204, and the adjusting connecting screw 204 and the screw positioning plate 208 can be mutually locked through the screw positioning nut 209. When the position of the driven sprocket 205 needs to be adjusted, the adjusting connecting screw 204 is rotated by a wrench and the like, after the adjusting connecting screw 204 rotates, the driven shaft bearing with seat 203 can be driven to move on the movable guide rail 202, and after the driven shaft bearing with seat 203 moves, the position of the end part of the driven shaft 206 can be adjusted, so that the position of the driven sprocket 205 can be adjusted, and the purpose of tensioning or loosening the transmission chain 5 can be met.

As shown in fig. 7, the gantry 3 includes a transverse beam 301 and longitudinal beams 308 disposed at two ends of the transverse beam 301, and a frame body adjusting mechanism for adjusting a height state is disposed at a bottom end of the longitudinal beam 308.

The embodiment of the utility model provides an in, transverse beam 031 can adopt welding such as square pipe to form, all sets up vertical roof beam 308 at transverse beam 301's both ends, and vertical roof beam 308 is perpendicular with transverse beam 301. The length of the transverse beam 301 is greater than the width of the two guide rails 4. The height of the transverse beam 301 can be adjusted by the frame body adjusting mechanism.

Further, the support body adjusting mechanism comprises a foot sleeve 302 sleeved at the bottom of the longitudinal beam 308 and a support body bottom plate 303 positioned below the foot sleeve 302, a plurality of bottom plate foot sleeve adjusting rods 304 capable of being in adaptive connection with the foot sleeve 302 are arranged on the support body bottom plate 303, and the foot sleeve 302 and the bottom plate foot sleeve adjusting rods 304 can be locked with each other through bottom plate foot sleeve locking nuts 306 sleeved on the bottom plate foot sleeve adjusting rods 304.

The embodiment of the utility model provides an in, podotheca 302 can weld in the bottom of vertical roof beam 308, sets up support body bottom plate 303 in the below of vertical roof beam 308, sets up the perpendicular bottom plate podotheca of distributing on support body bottom plate 303 and adjusts pole 304, and the podotheca is adjusted pole 304 and is passed podotheca 302 to can adjust pole 304 locking with the podotheca with the bottom plate podotheca through bottom plate podotheca lock nut 306. When the height of the transverse beam 301 needs to be adjusted, the bottom plate foot sleeve locking nut 306 needs to be loosened, and after the connection state between the bottom plate foot sleeve adjusting rod 304 and the foot sleeve 302 is adjusted, the bottom plate foot sleeve adjusting rod 304 and the foot sleeve 302 are locked with each other through the bottom plate foot sleeve locking nut 306 again, so that the purpose of adjusting the height of the transverse beam 301 is achieved. Of course, the balance state of the whole portal frame 3 can be adjusted by the frame body adjusting mechanism.

A plurality of shelf base holes 305 may also be provided on the shelf base 305, and the shelf base 305 may be conveniently installed in a desired position through the shelf base holes 305. Of course, several transverse beam holes 307 are also provided on the transverse beam 301, and the transverse beam holes 307 can be used to realize the adaptive connection with the guide rail 4.

As shown in fig. 8, the guide rail 4 includes a rail bottom sealing plate 404 and rail side plate portions located at two sides of the rail bottom sealing plate 404, the rail side plate portions include a plurality of lower rail bodies 402 connected to the rail bottom sealing plate 404 and a plurality of upper rail bodies 401 located above the lower rail bodies 402, the upper rail bodies 401 and the lower rail bodies 402 are connected in a one-to-one correspondence, and rail connecting plates 403 are disposed at corresponding ends of the upper rail bodies 401 and the lower rail bodies 402.

The embodiment of the utility model provides an in, the length of shrouding 404 is unanimous with whole guide rail 4's length direction, sets up track side plate, track side plate perpendicular to in the both sides of shrouding 404 at the bottom of the track. The side plate part of the track comprises a lower track body 402 and an upper track body 401, the upper track body 401 and the lower track body 402 are in a groove plate shape, and the lower track body 402 and the upper track body 401 are connected in a one-to-one correspondence manner. When a plurality of lower rail bodies 402 are adopted to be matched with a plurality of upper rail bodies 401, a rail connecting plate 403 is arranged at the end part of each of the upper rail bodies 401 and the lower rail bodies 402, the upper rail bodies 401 and the lower rail bodies 402 can be connected in an adaptive manner through the rail connecting plate 403, and in addition, the connection with the transverse beam 301 can also be realized through the rail connecting plate 403.

When the transverse beam 301 is connected to the guide rail 4, the transverse beam 301 penetrates the guide rail 4, and the transmission chain 5 is located above the rail bottom sealing plate 404 of the wire guide rail 4, but of course, the distance between the transmission chain 5 and the rail bottom sealing plate 404 of the wire guide rail 4 is determined so as not to affect the transportation of the carrier 7. Of course, even when the guide rail 4 is coupled to the lateral beam 301, and the lateral beam 301 is coupled to the rail side plate portion of the guide rail 4, the conveyance of the vehicle 7 must not be affected. In addition, still include the track side seal board 405 with the adaptation of last track body 401, still paste the track soundproof cotton at the medial surface of track side seal board 405, utilize the track soundproof cotton can give sound insulation to carrying out among the drive chain 5 transmission process.

As shown in fig. 9, 10, 11 and 12, the device further includes a guide wheel assembly 6 disposed outside the transmission chain 5, and the transmission chain 5 is connected to the carrier 7 via the guide wheel assembly 6;

the guide wheel assembly 6 comprises an end plate 502 which can be in adaptive connection with the transmission chain 5, and a Y-direction limiting wheel 503 and a Z-direction limiting wheel 504 which are arranged on the end plate 502.

In the embodiment of the utility model provides an in, set up leading wheel subassembly 6 in drive chain 5's the outside, drive chain 5 utilizes leading wheel subassembly 6 and carrier 7 to be connected the cooperation. The cooperation between the guide wheel assembly 6 and the drive chain 5 is shown in fig. 9, 10 and 11. Specifically, the drive chain 5 includes a plurality of links 501, an end plate 502 is provided on an outer side surface of the links 501, and a Y-guide wheel 503 and a Z-guide wheel 504 are provided on the end plate 502, wherein the Z-guide wheel 504 is prevented from falling off the end plate 502 by a flange pin 505 and a cotter pin 506. In the transmission process of the transmission chain 5, the Y-directional limiting wheel 503 and the Z-directional limiting wheel 504 can be conveniently contacted and matched with the headstock 101, the tailstock 201 and the rail side plate part of the guide rail 4, so that the required motion limitation can be performed.

Claims (10)

1. A narrow belt sorting machine with chain transmission is characterized in that: the automatic conveying device comprises a transmission chain group which can be in adaptive connection with a carrier (7) and can convey the connected carrier (7) and a transmission chain driving mechanism which is used for driving the transmission chain group to move, wherein the transmission chain group comprises two transmission chains (5) which can be in adaptive connection with a machine head (1) and a machine tail (2);

a guide rail (4) which can be matched with the transmission chain (5) is arranged between the machine head (1) and the machine tail (2), the guide rail (4) is supported on the portal frame (3), and two ends of the guide rail (4) are respectively fixedly connected with the machine head (1) and the machine tail (2); after the transmission chain (5) in the transmission chain group is driven to circularly move by the transmission chain driving mechanism, the carrier (7) which is in adaptive connection with the transmission chain (5) can circulate along with the transmission chain (5).

2. The chain driven narrow belt sorter of claim 1 wherein: the transmission chain driving mechanism is arranged on the machine head (1);

the machine head (1) comprises a machine head frame (101) and a driving shaft (104) arranged in the machine head frame (101), and driving chain wheels (105) capable of being matched with a transmission chain (5) are arranged at two ends of the driving shaft (104); the transmission chain wheel driving mechanism is fixedly arranged on the machine head frame (101), and the transmission chain wheel driving mechanism can drive the driving shaft (104) to rotate in the machine head frame (101).

3. The chain driven narrow band sorter of claim 2 wherein: the transmission chain driving mechanism comprises a three-phase asynchronous motor (103), and a driving shaft (104) is in adaptive connection with a headstock (101) through a driving shaft bearing (102);

the periphery of the headstock (101) is provided with a plurality of headstock sealing plates (106), and headstock soundproof cotton (107) is arranged on the inner side of the headstock sealing plates (106).

4. The chain driven narrow band sorter of claim 2 or 3, wherein: a plurality of headstock shock absorbers (108) are arranged at the bottom of the headstock (101).

5. The chain driven narrow band sorter of claim 2 wherein: the tail (2) comprises a tail frame (201) and a driven shaft (206) arranged in the tail frame (201), driven chain wheels (205) capable of being matched with the transmission chain (5) are arranged at two ends of the driven shaft (206), and two ends of the driven shaft (206) are in adaptive connection with the tail frame (201) through driven shaft bearings (203);

the automatic transmission mechanism further comprises a driven chain wheel movement adjusting mechanism which is in adaptive connection with the driven shaft bearing with a seat (203), and the position state of the corresponding driven chain wheel (205) in the tail frame (201) can be adjusted through the driven chain wheel movement adjusting mechanism.

6. The chain driven narrow band sorter of claim 5 wherein: the driven sprocket movement adjusting mechanism comprises a movable guide rail (202) which is arranged in a tail frame (201) and can be matched with a driven shaft bearing with seat (203) and an adjusting connecting screw rod (204) which is matched and connected with the driven shaft bearing with seat (203), the driven shaft bearing with seat (203) can be driven to move on the movable guide rail (202) through rotation of the adjusting connecting screw rod (204), and the moving direction of the driven shaft bearing with seat (203) on the movable guide rail (202) is consistent with the length direction of a transmission chain (5).

7. The chain driven narrow belt sorter of claim 1 wherein: the portal frame (3) comprises a transverse beam (301) and longitudinal beams (308) arranged at two ends of the transverse beam (301), and a frame body adjusting mechanism for adjusting the height state is arranged at the bottom end of each longitudinal beam (308).

8. The chain driven narrow band sorter of claim 7 wherein: support body guiding mechanism is located podotheca (302) of vertical roof beam (308) bottom and is located including the cover support body bottom plate (303) of podotheca (302) below set up a plurality of can with podotheca (302) adaptation connection's bottom plate podotheca regulation pole (304) on support body bottom plate (303), through bottom plate podotheca lock nut (306) of cover on bottom plate podotheca regulation pole (304) can with podotheca (302) with bottom plate podotheca regulation pole (304) is locked each other.

9. The chain driven narrow belt sorter of claim 1 wherein: the guide rail (4) include the track bottom seal board (404) and be located the track side board portion of track bottom seal board (404) both sides, the track side board portion includes a plurality of lower track bodies (402) of being connected with track bottom seal board (404) and a plurality of being located the last track body (401) of lower track body (402) top, goes up track body (401) and is connected with one-to-one between lower track body (402), all sets up track connecting plate (403) at last track body (401), the corresponding tip of lower track body (402).

10. The chain driven narrow belt sorter of claim 1 wherein: the device also comprises a guide wheel assembly (6) arranged on the outer side of the transmission chain (5), and the transmission chain (5) is in adaptive connection with the carrier (7) through the guide wheel assembly (6);

the guide wheel assembly (6) comprises an end plate (502) which can be in adaptive connection with the transmission chain (5), and a Y-direction limiting wheel (503) and a Z-direction limiting wheel (504) which are arranged on the end plate (502).

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