CN219258652U - Manual switching left-right moving belt conveying line - Google Patents

Abstract

The utility model discloses a manual switching left-right moving belt conveyor line, which comprises a left-right moving rack component, a left-right moving track component and a left-right moving rack component, the slag scraping and receiving mechanism component is fixedly arranged on the left and right movable frame component, the bottom of the working height adjusting screw rod is arranged on the left and right movable frame component, and the top of the working height adjusting screw rod is connected with the side plate through a transverse shaft and fixedly connected with the side plate through a joint bearing; the driving motor assembly is arranged on a side plate on one side, two ends of the belt outlet side end head cutter assembly are respectively arranged on the side plate and connected with an inlet end of the conveying belt assembly, and two ends of the belt outlet side end head cutter assembly are respectively arranged on the side plate and connected with an outlet end of the conveying belt assembly. The movable belt conveyor line can be quickly abutted and separated with the specific position of the cooling spiral tower, different cooling time requirements of different baked products are realized, and the universality of cooling time adjustment can be realized when the motor speed regulation cannot be met by matching different conveying modes.

Description

Manual switching left-right moving belt conveying line

Technical Field

The utility model relates to the technical field of automation in the food industry, in particular to a manual switching left-right moving belt conveyor line.

Background

In the automatic production industry of the baked food industry, generally, equipment of a belt conveying product line and a cooling link is independent, an outlet end of a conveying line cannot extend into a cooling spiral tower, rapid butt joint or separation cannot be performed, and cooling time of baked products cannot be reduced.

For example, the publication number is CN212100844U, and a food conveying device comprises a conveying platform, wherein a square groove is formed in the middle of the conveying platform, four symmetrically distributed supporting frames are fixedly arranged in the square groove, round rods are rotatably arranged between the two supporting frames, the number of the round rods is two and mutually symmetrical, rollers are fixedly arranged on the round rods, and a belt is sleeved between the two rollers. The lifting mechanism is arranged, the first transverse plate is rotationally connected with the conveying platform, the height of the first transverse plate is changed, and meanwhile, the height and the angle of the conveying platform can be adjusted, so that the conveying platform can adapt to the connection of two conveying belts with different heights; in addition, the ultraviolet lamp in the U-shaped plate can sterilize and disinfect food, so that the safety problem of the food is guaranteed. But this technique can't dock or separate fast with cooling spiral tower, can't reduce the time to the cooling of baked products to not set up side-to-side mobile device, not convenient and fast enough in the in-service use.

Disclosure of Invention

The utility model aims to solve the technical problems, and provides a manual switching left-right movable belt conveyor line which can be quickly connected with and separated from a specific position of a cooling spiral tower and can realize different cooling time requirements of different baked products.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the device comprises a left-right moving rack assembly, a left-right moving track assembly, a belt inlet side end cutter assembly, a belt outlet side end cutter assembly, a slag scraping and receiving mechanism assembly, a working height adjusting screw rod, a joint bearing, a driving motor assembly, a conveying belt assembly, side plates and a transverse shaft, wherein the left-right moving rack assembly is arranged on the left-right moving track assembly in a left-right moving way, the slag scraping and receiving mechanism assembly is fixedly arranged on the left-right moving rack assembly and is positioned above the conveying belt assembly, the bottom of the working height adjusting screw rod is arranged on the left-right moving rack assembly, and the top of the working height adjusting screw rod is connected with the side plates on the two sides through the transverse shaft and is fixedly connected through the joint bearing; the driving motor assembly is arranged on a side plate on one side, two ends of the belt outlet side end head cutter assembly are respectively arranged on the side plate and connected with an inlet end of the conveying belt assembly, and two ends of the belt outlet side end head cutter assembly are respectively arranged on the side plate and connected with an outlet end of the conveying belt assembly.

Preferably, the left and right moving frame assembly comprises a left and right moving frame, left and right rolling ball bearings, a first slag receiving disc bracket, a second slag receiving disc bracket and a connecting part, wherein the connecting part is uniformly arranged at the periphery of the bottom of the left and right moving frame, the left and right rolling ball bearings are fixedly connected with the connecting part, the first slag receiving disc bracket is fixedly arranged on the upper part of the left and right moving frame, and the second slag receiving disc bracket is fixedly arranged on the side wall of one side of the left and right moving frame and is positioned below the end knife assembly at the inlet side of the belt.

Preferably, a positioning ring is arranged on the connecting part, and the positioning ring is positioned on the inner sides of the left rolling ball bearing and the right rolling ball bearing.

Preferably, the left-right moving track assembly comprises an upper track plate and a lower track plate, the upper track plate and the lower track plate are connected with each other, the connecting part is a groove, and the left-right rolling ball bearing moves left and right in the groove.

Preferably, the belt inlet side end cutter assembly comprises a first transition aluminum cutter body, a cutter body fixing plate, an end cutter reinforcing shaft, corner bearing supports and transition rolling corner bearings, wherein two ends of the end cutter reinforcing shaft penetrate through the cutter body fixing plate respectively and are mounted on two side plates, two ends of the first transition cutter body are mounted on the cutter body fixing plate respectively, a plurality of uniformly distributed corner bearing supports are fixedly mounted on the side surfaces of the first transition cutter body, and the transition rolling corner bearings are correspondingly mounted between every two adjacent corner bearing supports.

Preferably, the conveyor belt assembly comprises a conveyor belt and limiting blocks uniformly arranged on the upper portion of the conveyor belt, wherein the limiting blocks are arranged in a plurality and uniformly distributed along two sides of the conveyor belt.

Preferably, the belt outlet side end cutter assembly comprises a second transition aluminum cutter body, roller end brackets, roller middle brackets, corner bearings and corner bearing mandrels, wherein the second transition aluminum cutter body is arranged on two sides of the side plates, the roller end brackets are fixedly arranged on two sides of the second transition aluminum cutter body, a plurality of roller middle brackets are uniformly arranged between the roller end brackets, the corner bearing mandrels are sleeved in the corner bearings, and the corner bearings are correspondingly arranged at the joints of the roller end brackets and the roller middle brackets.

Preferably, the slag scraping and receiving mechanism assembly comprises a scraper plate, a slag sliding plate, a first slag receiving disc, a second slag receiving disc, scraper fixing rods and scraper fixing plates, wherein the scraper fixing rods are fixedly arranged on the scraper fixing plates on two sides, the scraper plate is arranged on the scraper fixing rods, the slag sliding plate is arranged below the scraper plate and fixedly connected with the scraper fixing plates, the first slag receiving disc is arranged on a first slag receiving disc bracket, and the second slag receiving disc is arranged on a second slag receiving disc bracket.

Preferably, the driving motor assembly comprises a driving motor, a power output shaft, a belt tensioning roller, a first belt corner shaft and a second belt corner roller, wherein the driving motor is arranged on a side plate on one side, one end of the driving motor is connected with the power output shaft, the belt tensioning roller is arranged at two ends of the end knife assembly on the side of the belt inlet, the first belt corner shaft and the second belt corner roller are sequentially arranged on the side plate and are positioned above the processing shaft, and the driving motor drives the conveying belt to rotate through the power output shaft, the belt tensioning roller, the first belt corner shaft and the second belt corner roller.

Compared with the prior art, the utility model provides a manual switching left-right mobile belt conveyor line, which has the following beneficial effects:

1. the utility model is provided with the left-right moving rack component which is arranged on the left-right moving track component in a left-right moving way, and achieves the aim of realizing quick butt joint and separation of equipment (a cooling spiral tower) in a cooling link by moving the left-right moving track component in the left-right direction, thereby increasing the universality of cooling baked products and realizing different cooling time requirements of different baked products; the conveyor line outlet end is arranged to be a belt outlet side end cutter assembly, products are fed through the surface of the middle position net chain of the belt outlet side end cutter assembly extending into the cooling spiral tower, the purpose of halving cooling time is achieved, the conveyor line switching operation is simple and convenient, and the universality of cooling time adjustment can be achieved when motor speed regulation cannot be met through the collocation of different conveying modes.

2. According to the utility model, the positioning ring is arranged, so that the position of the positioning device is used for fixing the device when the conveying mode is switched.

3. According to the utility model, the plurality of limiting blocks are uniformly arranged on the conveying belt, so that the belt deviation is prevented, the assembly process is simplified, the stability of the quality of conveyed products is improved, the positions and the distances between the belts are fixed, and convenience is provided for the assembly process.

4. The working height adjusting screw rod adopted in the utility model has the advantages of convenient use, high precision, high efficiency and flexible transmission.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a side view of the overall structure of the present utility model;

FIG. 3 is a schematic view of the overall structure of the left and right mobile frame assembly of the present utility model;

FIG. 4 is a schematic view of the overall structure of the left and right moving track assembly of the present utility model;

FIG. 5 is a schematic view of the overall construction of the belt entry side end blade assembly of the present utility model;

FIG. 6 is a schematic view of the overall structure of the belt exit side end cutter assembly of the present utility model;

FIG. 7 is a schematic diagram of the overall structure of the slag scraping and receiving mechanism assembly of the present utility model;

fig. 8 is a schematic diagram of the structure of the output shaft of the present utility model.

In the figure: 1. a left-right moving frame assembly; 101. a rack is moved left and right; 102. left and right rolling ball bearings; 103. a first slag receiving pan carriage; 104. a second slag receiving pan bracket; 105. a connection part; 2. moving the track assembly left and right; 21. an upper track plate; 22. a lower track plate; 23. a groove; 3. a belt entry side end cutter assembly; 31. a first transitional aluminum cutter body; 32. a cutter body fixing plate; 33. a tip cutter reinforcing shaft; 34. a corner bearing bracket; 35. a transitional rolling corner bearing; 4. a belt outlet side end cutter assembly; 41. a second transitional aluminum cutter body; 42. a roller end bracket; 43. a roller middle bracket; 44. a corner bearing; 45. a corner bearing mandrel; 5. a slag scraping and receiving mechanism component; 51. a doctor plate; 52. a slag slide plate; 53. a first slag receiving tray; 54. a second slag receiving plate; 55. a scraper fixing rod; 56. a scraper fixing plate; 6. a working height adjusting screw rod; 7. a knuckle bearing; 8. a drive motor assembly; 81. a driving motor; 82. a force output shaft; 83. a belt tensioning roller; 84. a first belt angular shaft; 85. a second belt corner roller; 9. a conveyor belt assembly; 91. a conveyor belt; 92. a limiting block; 10. a side plate; 11. and a horizontal axis.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments.

In the description of the present utility model, 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 utility model 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 utility model.

Referring to fig. 1-8, the manual switching left and right moving belt conveyor line of the present utility model includes a left and right moving frame assembly 1, a left and right moving rail assembly 2, a belt inlet side end cutter assembly 3, a belt outlet side end cutter assembly 4, a slag scraping and receiving mechanism assembly 5, a working height adjusting screw 6, a joint bearing 7, a driving motor assembly 8, a conveyor belt assembly 9, a side plate 10 and a transverse shaft 11, wherein the left and right moving frame assembly 1 is arranged on the left and right moving rail assembly 2 in a left and right moving manner, the slag scraping and receiving mechanism assembly 5 is fixedly installed on the left and right moving frame assembly 1 and above the conveyor belt assembly 9, the bottom of the working height adjusting screw 6 is arranged on the left and right moving frame assembly 1, and the top is connected with the side plates 10 on both sides through the transverse shaft 11 and is fixedly connected with the side plates 10 through the joint bearing 7; the driving motor assembly 8 is arranged on a side plate 10 at one side, two ends of the belt outlet side end head cutter assembly 4 are respectively arranged on the side plate 10 and are connected with an inlet end of the conveying belt assembly 9, and two ends of the belt outlet side end head cutter assembly 4 are respectively arranged on the side plate 10 and are connected with an outlet end of the conveying belt assembly 9; the belt outlet side end head cutter assembly 4 comprises a second transition aluminum cutter body 41, roller end supports 42, roller middle supports 43, corner bearings 44 and corner bearing mandrels 45, wherein the second transition aluminum cutter body 41 is arranged on two sides of the side plate 10, the roller end supports 42 are fixedly arranged on two sides of the second transition aluminum cutter body 41, a plurality of roller middle supports 43 are uniformly arranged between the roller end supports 42, the corner bearing mandrels 45 are sleeved in the corner bearings 44, and the corner bearings 44 are correspondingly arranged at the joints of the roller end supports 42 and the roller middle supports 43. The utility model is provided with the working height adjusting screw rod 6, thereby being convenient to use, high in precision, high in efficiency and flexible in transmission; the device comprises a left moving rack assembly 1, a right moving rack assembly 1, a left moving rack assembly 2, a right moving rack assembly 2, a cooling screw tower, a motor speed regulation device, a belt outlet side end knife assembly 4, a cooling screw tower, a motor speed regulation device and a cooling time regulation device, wherein the left moving rack assembly 1 and the right moving rack assembly are arranged on the left moving rack assembly 2, the left moving rack assembly 2 and the right moving rack assembly 2 are used for realizing the purpose of quick butt joint and separation of equipment (the cooling screw tower) of a cooling link, the universality of cooling the baked products is improved, different cooling time requirements of different baked products are realized, the outlet end of the conveying line is the belt outlet side end knife assembly 4, the belt outlet side end knife assembly 4 stretches into the surface of a middle position net chain of the cooling screw tower to feed the products, the purpose of halving cooling time is achieved, and the universality of cooling time regulation can be also realized when the motor speed regulation can not be met through the collocation of the different conveying modes.

Referring to fig. 4, the left-right moving rail assembly 2 includes an upper rail plate 21 and a lower rail plate 22, wherein the upper rail plate 21 and the lower rail plate 22 are connected to each other, and a groove 23 is formed at the connection position. The utility model achieves the purpose of moving the rack component 1 left and right in the groove 23 by arranging the groove 23 at the connecting part of the upper track plate 21 and the lower track plate 22.

Referring to fig. 3, the left and right moving frame assembly 1 of the present utility model includes a left and right moving frame 101, a left and right rolling ball bearing 102, a first slag receiving tray bracket 103, a second slag receiving tray bracket 104, and a connecting portion 105, wherein the connecting portion 105 is uniformly disposed around the bottom of the left and right moving frame 101, the left and right rolling ball bearing 102 is fixedly connected to the connecting portion 105, the first slag receiving tray bracket 103 is fixedly mounted on the upper portion of the left and right moving frame 101, the second slag receiving tray bracket 104 is fixedly mounted on a side wall of one side of the left and right moving frame 101 and is located below the belt inlet side end cutter assembly 3, the left and right rolling ball bearings 102 move left and right in the groove 23, the connecting portion 105 is provided with a positioning ring 12, and the positioning ring 12 is located inside the left and right rolling ball bearings 102. The left and right rolling ball bearings 102 are fixedly connected with the connecting part 105, so that the requirement that the left and right rolling ball bearings 102 move left and right in the groove 23 is met, and the positioning ring 12 is arranged, so that the position of equipment can be positioned when the conveying mode is switched, and the function of fixing the equipment is realized.

Referring to fig. 5, the belt inlet side end cutter assembly 3 of the present utility model includes a first transitional aluminum cutter body 31, a cutter body fixing plate 32, an end cutter reinforcing shaft 33, corner bearing supports 34, and transitional rolling corner bearings 35, wherein two ends of the end cutter reinforcing shaft 33 are respectively installed on two side plates 10 through the cutter body fixing plate 32, two ends of the first transitional aluminum cutter body 31 are respectively installed on the cutter body fixing plate 32, a plurality of corner bearing supports 34 are fixedly installed on the side surfaces of the first transitional aluminum cutter body 31, and the transitional rolling corner bearings 35 are correspondingly installed between every two adjacent corner bearing supports 34. According to the utility model, the end cutter reinforcing shaft 33 is used for fixing the cutter body fixing plate 32, the cutter body fixing plate 32 is used for fixing the first transitional aluminum cutter body 31, the transitional rolling corner bearing 35 is a transitional rolling Yi Gesi corner bearing, the corner bearing support 34 is a Yi Gesi corner bearing support, and the transitional rolling Yi Gesi corner bearing is connected between the Yi Gesi corner bearing supports.

Referring to fig. 1, the conveyor belt assembly 9 of the present utility model includes a conveyor belt 91 and a plurality of stoppers 92 uniformly disposed on the upper portion of the conveyor belt 91, and the stoppers 92 are uniformly distributed along two sides of the conveyor belt 91. The utility model uniformly arranges the plurality of limiting blocks 92 on the conveying belt 91, thereby assisting in preventing the belt from deviating, simplifying the assembly process, improving the stability of the quality of conveyed products, fixing the positions and the distances between the belts and providing convenience for the assembly process.

Referring to fig. 7, the slag scraping and receiving mechanism assembly 5 of the present utility model includes a scraper plate 51, a slag plate 52, a first slag receiving tray 53, a second slag receiving tray 54, a scraper fixing rod 55 and a scraper fixing plate 56, wherein the scraper fixing rod 55 is fixedly installed on the scraper fixing plate 56 on both sides, the scraper plate 51 is installed on the scraper fixing rod 55, the slag plate 52 is installed below the scraper plate 51 and fixedly connected with the scraper fixing plate 56, the first slag receiving tray 53 is disposed on a first slag receiving tray bracket 103, and the second slag receiving tray 54 is disposed on a second slag receiving tray bracket 104. The utility model provides a scraper plate 51 for conveniently scraping the residues of products, a slag plate 52 for conveniently sliding the residues along the slag plate 52 into a first slag receiving disc 53, and a second slag receiving disc 54 for preventing the products from falling at the position of the products entering the end knife assembly 3 at the inlet side of the belt.

Referring to fig. 2 and 8, the driving motor assembly 8 of the present utility model includes a driving motor 81, an output shaft 82, a belt tensioning roller 83, a first belt corner shaft 84 and a second belt corner roller 85, wherein the driving motor 81 is mounted on a side plate 10 at one side, one end of the driving motor is connected with the output shaft 82, the belt tensioning roller 83 is mounted at two ends of the end knife assembly 3 at the belt inlet side, the first belt corner shaft 84 and the second belt corner roller 85 are sequentially mounted on the side plate and are located above the output shaft 82, and the driving motor 81 drives the conveying belt 91 to rotate through the output shaft 82, the belt tensioning roller 83, the first belt corner shaft 84 and the second belt corner roller 85. According to the utility model, the output shaft 82 is arranged as a driving shaft driven by the conveying belt, the output shaft 81 is driven by the driving motor 81, and the driving belt tensioning roller 83, the first belt corner shaft 84 and the second belt corner roller 85 are further driven to drive the conveying belt 91 to rotate, so that the purpose of conveying products by the movable belt conveying line is achieved.

The working principle of the utility model is as follows: when the product A (baked products with lower height) is produced, the device is pushed to a specific position to be in butt joint with the device (cooling spiral tower) of the cooling link, and the product is conveyed and transferred to a conveying belt of the cooling device (cooling spiral tower) by the device, so that the cooling and conveying of the product A are completed; when producing the product B (baked products of higher height), manually pushing out the device to a specific position for leaving the position for conveying the product B to the conveyor belt of the cooling device (cooling screw tower); the conveying line is used with cooling spiral tower equipment, so that the cooling spiral tower can realize different cooling time requirements of different baked products, the outlet end of the conveying line is used for conveying products to the surface of a middle position net chain extending into the cooling spiral tower, the conveying line is abutted against the input products at corresponding positions, the effect of reducing the cooling time is realized, and the structure can realize different cooling conveying lengths through matching treatment of mechanical modes under the condition that the motor speed regulation cannot be met, so that the cooling time is adjusted.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (9)

1. The utility model provides a manual switch moves belt transfer chain about, its characterized in that: the device comprises a left-right moving frame assembly (1), a left-right moving track assembly (2), a belt inlet side end cutter assembly (3), a belt outlet side end cutter assembly (4), a slag scraping and receiving mechanism assembly (5), a working height adjusting screw rod (6), a joint bearing (7), a driving motor assembly (8), a conveying belt assembly (9), side plates (10) and a transverse shaft (11), wherein the left-right moving frame assembly (1) is arranged on the left-right moving track assembly (2) in a left-right moving way, the slag scraping and receiving mechanism assembly (5) is fixedly arranged on the left-right moving frame assembly (1) and is positioned above the conveying belt assembly (9), the bottom of the working height adjusting screw rod (6) is arranged on the left-right moving frame assembly (1), and the top of the slag scraping and receiving mechanism assembly is connected with the side plates (10) on two sides through the transverse shaft (11) and is fixedly connected with the side plates (7) through the joint bearing; the driving motor assembly (8) is arranged on a side plate (10) on one side, two ends of the belt outlet side end head cutter assembly (4) are respectively arranged on the side plate (10) and are connected with an inlet end of the conveying belt assembly (9), and two ends of the belt outlet side end head cutter assembly (4) are respectively arranged on the side plate (10) and are connected with an outlet end of the conveying belt assembly (9).

2. The manual switching left-right moving belt conveyor line according to claim 1, wherein: the left-right moving rack assembly (1) comprises a left-right moving rack (101), a left-right rolling ball bearing (102), a first slag receiving disk bracket (103), a second slag receiving disk bracket (104) and a connecting part (105), wherein the connecting part (105) is uniformly arranged on the periphery of the bottom of the left-right moving rack (101), the left-right rolling ball bearing (102) is fixedly connected with the connecting part (105), the first slag receiving disk bracket (103) is fixedly arranged on the upper part of the left-right moving rack (101), and the second slag receiving disk bracket (104) is fixedly arranged on the side wall of one side of the left-right moving rack (101) and is positioned below the end knife assembly (3) at the inlet side of the belt.

3. The manual switching left-right moving belt conveyor line according to claim 2, wherein: a positioning ring (12) is arranged on the connecting part (105), and the positioning ring (12) is positioned on the inner sides of the left rolling ball bearing (102) and the right rolling ball bearing.

4. The manual switching left-right moving belt conveyor line according to claim 2, wherein: the left-right moving track assembly (2) comprises an upper track plate (21) and a lower track plate (22), the upper track plate (21) and the lower track plate (22) are connected with each other, a groove (23) is formed at the connecting position, and the left-right rolling ball bearing (102) moves left and right in the groove (23).

5. The manual switching left-right moving belt conveyor line according to claim 1, wherein: the belt entry side end cutter assembly (3) comprises a first transition aluminum cutter body (31), a cutter body fixing plate (32), an end cutter reinforcing shaft (33), corner bearing supports (34) and transition rolling corner bearings (35), wherein two ends of the end cutter reinforcing shaft (33) penetrate through the cutter body fixing plate (32) respectively and are mounted on two side plates (10), two ends of the first transition aluminum cutter body (31) are mounted on the cutter body fixing plate (32) respectively, a plurality of uniformly distributed corner bearing supports (34) are fixedly mounted on the side face of the first transition aluminum cutter body, and the transition rolling corner bearings (35) are correspondingly mounted between every two adjacent corner bearing supports (34).

6. The manual switching left-right moving belt conveyor line according to claim 1, wherein: the conveyor belt assembly (9) comprises a conveyor belt (91) and limiting blocks (92) which are uniformly arranged on the upper portion of the conveyor belt (91), wherein the limiting blocks (92) are arranged in a plurality, and are uniformly distributed along two sides of the conveyor belt (91).

7. The manual switching left-right moving belt conveyor line according to claim 1, wherein: the belt outlet side end head cutter assembly (4) comprises a second transition aluminum cutter body (41), roller end supports (42), roller middle supports (43), corner bearings (44) and corner bearing mandrels (45), wherein the second transition aluminum cutter body (41) is arranged on two sides of a side plate (10), one roller end support (42) is fixedly arranged on two sides of the second transition aluminum cutter body (41), a plurality of roller middle supports (43) are uniformly arranged between the roller end supports (42), the corner bearing mandrels (45) are sleeved in the corner bearings (44), and the corner bearings (44) are correspondingly arranged at the joints of the roller end supports (42) and the roller middle supports (43).

8. The manual switching left-right moving belt conveyor line according to claim 1, wherein: the slag scraping and receiving mechanism assembly (5) comprises a scraper plate (51), a slag sliding plate (52), a first slag receiving plate (53), a second slag receiving plate (54), scraper fixing rods (55) and scraper fixing plates (56), wherein the scraper fixing rods (55) are fixedly installed on the scraper fixing plates (56) on two sides, the scraper plate (51) is installed on the scraper fixing rods (55), the slag sliding plate (52) is installed below the scraper plate (51) and fixedly connected with the scraper fixing plates (56), the first slag receiving plate (53) is arranged on a first slag receiving plate bracket (103), and the second slag receiving plate (54) is arranged on a second slag receiving plate bracket (104).

9. The manual switching left-right moving belt conveyor line according to claim 1, wherein: the driving motor assembly (8) comprises a driving motor (81), an output shaft (82), a belt tensioning roller (83), a first belt corner shaft (84) and a second belt corner roller (85), wherein the driving motor (81) is installed on a side plate (10) on one side, one end of the driving motor is connected with the output shaft (82), the belt tensioning roller (83) is installed at two ends of the belt inlet side end knife assembly (3), the first belt corner shaft (84) and the second belt corner roller (85) are sequentially installed on the side plate and are located above the output shaft (82), and the driving motor (81) drives a conveying belt (91) to rotate through the output shaft (82), the belt tensioning roller (83), the first belt corner shaft (84) and the second belt corner roller (85).

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