CN218999382U - Automatic demolding equipment for scraper knife belt conveying bread - Google Patents

Abstract

The utility model belongs to the technical field of bread production equipment. The utility model discloses a scraper knife belt conveying bread automatic demoulding equipment, which comprises a fixed bracket assembly, an inlet oblique angle magnetic plastic flat top chain assembly, an inlet rolling shovel belt assembly, an outlet transition plastic flat top chain assembly and a driving gear motor assembly; the fixed bracket component is respectively fixed with a driving shaft, a driven shaft and a driven shaft; the first driven shaft and the driving and driven shafts act together to drive the inlet bevel angle magnetic plastic flat-top chain assembly; the second driven shaft and the driving and driven shaft are combined to drive the outlet transition plastic flat-top chain assembly; the third driven shaft and the fourth driven shaft drive the inlet rolling shovel belt assembly and the outlet transition belt assembly. The design is different from the traditional mode of the stripper, the stripping can be completed under the condition that the baking tray and the product are not stopped, the continuity is strong, the production efficiency is high, and the stripping rate is high.

Description

Automatic demolding equipment for scraper knife belt conveying bread

Technical Field

The utility model relates to the technical field of bread production equipment, in particular to automatic demolding equipment for bread conveyed by a scraper knife belt.

Background

With the progress of human society and the development of the technology level, the automatic production equipment in the food industry is more and more important, and the traditional demoulding mode in the food industry has a plurality of defects at present: the mould is taken manually, so that unnecessary labor cost is caused; the efficiency is low, and the production requirement can not be met; in-process has manual contact, causes pollution etc. of intermediate link easily, and for this reason we need to design a full-automatic demolding equipment to solve above problem urgently, realizes the quick drawing of patterns of product, makes the product in the overware separate with the disk body fast, and the production beat is fast, needs to solve simultaneously can't use the drawing of patterns problem of sucking, needle grasp formula, the product of tilting disk formula.

Disclosure of Invention

The utility model aims to solve the technical problems, and provides the automatic demolding equipment for the scraper knife belt conveying bread, which is novel in structure, strong in continuity, high in production efficiency and high in demolding rate.

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

an automatic demolding device for a scraper knife belt conveying bread, comprising: the device comprises a fixed bracket assembly, an inlet oblique angle magnetic plastic flat top chain assembly, an inlet rolling shovel belt assembly, an outlet transition plastic flat top chain assembly and a driving gear motor assembly; the fixed bracket component is respectively fixed with a driving shaft, a driven shaft and a driven shaft; the inlet oblique angle magnetic plastic flat top chain assembly and the outlet transition plastic flat top chain assembly are sequentially fixed on a first layer of support of the fixed support assembly and are connected through an active coaxial shaft and a passive coaxial shaft, and the inlet oblique angle magnetic plastic flat top chain assembly is driven by the combined action of the first passive shaft and the active coaxial shaft; the second driven shaft and the driving and driven shaft are combined to drive the outlet transition plastic flat-top chain assembly; the inlet rolling shovel belt assembly and the outlet transition belt assembly are arranged above the outlet transition plastic flat top chain assembly and are fixed with a second layer of support of the fixed support assembly, and the third driven shaft and the fourth driven shaft drive the inlet rolling shovel belt assembly and the outlet transition belt assembly; the output end of the inlet oblique angle magnetic plastic flat top chain assembly is connected with the input ends of the inlet rolling shovel belt assembly and the outlet transition plastic flat top chain assembly respectively, and the output end of the inlet rolling shovel belt assembly is connected with the input end of the outlet transition belt assembly; the driving gear motor assembly comprises a first driving gear motor, a second driving gear motor, a third gear motor and a fourth gear motor; the first driving gear motor is arranged on one side of the inlet oblique angle magnetic plastic flat top chain assembly, the output end of the first driving gear motor is connected with the driving shaft and the driven shaft, the second driving gear motor is arranged on one side of the inlet rolling shovel belt assembly, the output end of the second driving gear motor is connected with the third driven shaft, the third gear motor is arranged on one side of the outlet transition belt assembly, the output end of the third gear motor is connected with the fourth driven shaft, and the fourth gear motor is arranged on one side of the outlet transition plastic flat top chain assembly, and the output end of the fourth gear motor is connected with the second driven shaft.

Preferably, the inlet oblique angle magnetic plastic flat top chain assembly further comprises a first conveying side plate, a baking tray auxiliary supporting strip, a flat top chain rotating wheel, an inlet oblique angle magnetic plastic flat top chain and a first belt seat bearing, wherein the first conveying side plate is arranged on two sides of the inlet oblique angle magnetic plastic flat top chain assembly and is respectively connected with two ends of a first driven shaft and a driving and driven shaft, the first driven shaft penetrates through the flat top chain rotating wheel, the first conveying side plate and the first belt seat bearing shaft respectively and is fixed through the first belt seat bearing shaft, the other end of the first conveying side plate is respectively connected with two ends of the driving and driven shaft, and the bottom of the baking tray auxiliary supporting strip is uniformly fixed on the fixed support assembly and the two ends of the baking tray auxiliary supporting strip are respectively arranged above the first driven shaft and the driving and driven shaft.

Preferably, the inlet rolling shovel belt assembly further comprises an inlet rolling shovel belt, a shovel blade belt supporting plate, a shovel blade swinging cylinder, a first belt scraper slag receiving disc, a first belt tensioning roller, a first driving rubber coating roller belt seat bearing, a first swinging belt supporting seat and a first belt end roller fixing plate, the shovel blade is arranged at the input end of the inlet rolling shovel belt, the shovel blade belt supporting plate is arranged below the shovel blade, the shovel blade swinging cylinder is arranged at one side of the inlet rolling shovel belt input end, the first belt scraper slag receiving disc is arranged below the inlet rolling shovel belt, the first belt tensioning roller is arranged below the middle of the inlet rolling shovel belt, the first driving rubber coating roller belt seat bearing is arranged below the first belt tensioning roller, and the first swinging belt supporting seat is arranged below the first belt end roller fixing plate and is fixedly connected with a main driven shaft.

Preferably, the outlet transition belt assembly comprises an outlet transition belt, a belt inlet length adjusting seat, a belt scraper slag receiving disc, a second belt tensioning roller, a second driving rubber coating roller belt seat bearing, a second swinging belt supporting seat and a second belt end roller fixing plate, wherein the input end of the outlet transition belt is connected with the output end of the inlet rolling shovel belt, the belt inlet length adjusting seat is arranged on one side of the input end of the outlet transition belt, the belt scraper slag receiving disc is arranged below the outlet transition belt, the second belt tensioning roller is arranged below the middle part of the outlet transition belt, the second driving rubber coating roller belt seat bearing is arranged below the second belt tensioning roller, and the second swinging belt supporting seat is arranged below the second belt end roller fixing plate and is fixedly connected with a fourth driven shaft.

Preferably, the outlet transition plastic flat top chain assembly further comprises outlet transition plastic flat top chains, a second conveying side plate, outlet flat top chain rotating wheels and second belt seat bearings, wherein the active shaft and the passive shaft penetrate through the two outlet flat top chain rotating wheels, two sides of the outlet transition plastic flat top chain assembly are fixedly connected with the second conveying side plate through the second belt seat bearings, the number of the outlet transition plastic flat top chains is two, and two sides of the outlet transition plastic flat top chains respectively encircle on the corresponding outlet flat top chain rotating wheels.

Preferably, the inlet bevel magnetic plastic flat top chain is a flat top chain with a magnetic stripe.

Preferably, the output end of the inlet oblique angle magnetic plastic flat top chain assembly is provided with a downhill structure.

Compared with the prior art, the utility model provides automatic demolding equipment for the scraper knife belt conveying bread, which has the following beneficial effects:

1. according to the automatic demolding equipment for the scraper knife belt conveying bread, disclosed by the utility model, the inlet oblique angle magnetic plastic flat-top chain assembly is arranged for conveying, and the driven shaft is driven by the driving gear motor so as to drive the flat-top chain with the magnetic strip, so that the baking tray is conveyed from the inlet end to the front lower side, and the flat-top chain with the magnetic strip can absorb the baking tray and prevent the self-weight of the baking tray from sliding downwards.

2. According to the scheme, through the mutual cooperation of the components, full-automatic quick demolding of the product is realized, the product in the baking tray is quickly separated from the tray body, the production beat is quick, the problem of demolding of the conventional products which cannot be absorbed by a suction type, a needle grabbing type and a turnover type is solved, and the consistency of equipment is high and the production efficiency is high.

3. The method has the advantages of avoiding the pollution of intermediate links to food, avoiding the manual work in the bread conveying process, fully automatically demolding the bread by a machine, avoiding direct contact and avoiding the pollution of the intermediate links to the bread, saving the manual work, improving the efficiency and having high demolding rate.

Drawings

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

FIG. 2 is a schematic diagram of the whole structure of the present utility model;

FIG. 3 is a schematic structural view of a mounting bracket assembly of the present utility model;

FIG. 4 is a schematic view of the structure of the entry bevel magnetic plastic flat top chain assembly of the present utility model;

FIG. 5 is a schematic view of the inlet roller blade belt assembly of the present utility model;

FIG. 6 is a schematic structural view of an outlet transition belt assembly of the present utility model;

fig. 7 is a schematic structural view of the outlet transition plastic flat top chain assembly of the present utility model.

In the figure: 1. a fixed bracket assembly; 2. an inlet bevel angle magnetic plastic flat top chain assembly; 20. active and passive coaxial; 21. a first driven shaft; 22. a first conveying side plate; 23. auxiliary supporting strips of baking trays; 24. a flat top chain rotating wheel; 25. inlet bevel angle magnetic plastic flat top chain; 26. a first belt seat bearing; 3. an inlet roller blade belt assembly; 30 a first belt end roller fixing plate, 31 and a third driven shaft; 32. an inlet roller blade belt; 33. a shovel blade; 34. a blade belt support plate; 35. a shovel blade swinging cylinder; 36. the first belt scraper is connected with the slag tray; 37. a first belt tensioning roller; 38. a first active encapsulated roller belt seat bearing; 39. a first swing belt support; 4. an outlet transition belt assembly; 41. a fourth driven shaft; 42. an outlet transition belt; 43. a belt inlet length adjusting seat; 44. a belt scraper is connected with a slag tray; 45. a second belt tensioning roller; 46. the second active rubber-coated roller is provided with a seat bearing; 47. a second swing belt support; 48. a second belt end roller securing plate; 5. an outlet transition plastic flat top chain assembly; 51. a second driven shaft; 52. an outlet transition plastic flat top chain; 53. a second conveying side plate; 54. an outlet flat top chain rotating wheel; 55. a second seated bearing; 6. driving a gear motor assembly; 61. a first drive reduction motor; 62. a second drive reduction motor; 63. a third drive gear motor; 64. and fourth driving the gear motor.

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. 1-7, the automatic demolding device for conveying bread by a scraper knife belt comprises a fixed bracket assembly 1, an inlet oblique angle magnetic plastic flat top chain assembly 2, an inlet rolling shovel belt assembly 3, an outlet transition belt assembly 4, an outlet transition plastic flat top chain assembly 5 and a driving gear motor assembly 6; the fixed bracket assembly 1 is respectively fixed with a driving and driven coaxial shaft 20, a first driven shaft 21, a second driven shaft 51, a third driven shaft 31 and a fourth driven shaft 41; the inlet oblique angle magnetic plastic flat top chain assembly 2 and the outlet transition plastic flat top chain assembly 5 are sequentially fixed on a first layer of support of the fixed support assembly 1 and are connected through an active coaxial shaft and a passive coaxial shaft 20, and the inlet oblique angle magnetic plastic flat top chain assembly 2 is driven by the combined action of the first passive shaft 21 and the active coaxial shaft and the passive coaxial shaft 20; the second driven shaft 51 and the driving and driven shaft 21 jointly act to drive the outlet transition plastic flat-top chain assembly 5; the inlet rolling shovel belt assembly 3 and the outlet transition belt assembly 4 are arranged above the outlet transition plastic flat top chain assembly 5 and are fixed with a second layer of support of the fixed support assembly 1, and the third driven shaft 31 and the fourth driven shaft 41 drive the inlet rolling shovel belt assembly 3 and the outlet transition belt assembly 4; the output end of the inlet oblique angle magnetic plastic flat top chain assembly 2 is respectively connected with the input ends of the inlet rolling shovel belt assembly 3 and the outlet transition plastic flat top chain assembly 5, and the output end of the inlet rolling shovel belt assembly 3 is connected with the input end of the outlet transition belt assembly 4; the driving gear motor assembly 6 comprises a first driving gear motor 61, a second driving gear motor 62, a third gear motor 63 and a fourth gear motor 64; the first driving gear motor 61 is installed on one side of the inlet oblique angle magnetic plastic flat top chain assembly 2, the output end of the first driving gear motor is connected with the driving shaft and the driven shaft 20, the second driving gear motor 62 is installed on one side of the inlet rolling shovel belt assembly 3, the output end of the second driving gear motor is connected with the third driven shaft 31, the third gear motor 63 is installed on one side of the outlet transition belt assembly 4, the output end of the third gear motor is connected with the fourth driven shaft 41, and the fourth gear motor 64 is installed on one side of the outlet transition plastic flat top chain assembly 5, and the output end of the fourth gear motor is connected with the second driven shaft 51. The automatic demolding device for the scraper knife belt conveying bread is novel in structure, strong in continuity, high in production efficiency and high in demolding rate.

As shown in fig. 1, 2 and 4, the inlet bevel magnetic plastic flat top chain assembly 2 of the present utility model further includes a first conveying side plate 22, a baking tray auxiliary supporting strip 23, a flat top chain rotating wheel 24, an inlet bevel magnetic plastic flat top chain 25 and a first belt seat bearing 26, wherein the first conveying side plate 22 is disposed at two sides of the inlet bevel magnetic plastic flat top chain assembly 2 and is respectively connected with a first driven shaft 21 and two ends of the driving and driven coaxial 20, the first driven shaft 21 respectively penetrates through the flat top chain rotating wheel 24 and the first conveying side plate 22, is connected with the first belt seat bearing 26 in a shaft manner, and is fixed through the first belt seat bearing 26, the other end of the first conveying side plate 22 is respectively connected with two ends of the driving and driven coaxial 20, and the bottom of the baking tray auxiliary supporting strip 23 is uniformly fixed on the fixed support assembly 1, and the two ends are respectively disposed above the first driven shaft 21 and the driving and driven coaxial 20. Through setting up entry oblique angle magnetic plastic flat top chain assembly 2 and carrying, the entry oblique angle magnetic plastic flat top chain 25 that adopts is the imperial Le Naigao temperature magnetic plastic flat top chain, thereby the flat top chain that adopts first drive gear motor 61 drive driven shaft drive has the magnetic stripe, carries the overware from entry end forward below, and the overware can be sucked to the flat top chain of taking the magnetic stripe, prevents overware dead weight gliding.

As shown in fig. 5, the inlet roller shovel belt assembly 3 of the present utility model further comprises an inlet roller shovel belt 32, a shovel blade 33, a shovel blade belt supporting plate 34, a shovel blade swinging cylinder 35, a first belt-scraper slag receiving plate 36, a first belt tensioning roller 37, a first driving rubber-covered roller belt seat bearing 38, a first swinging belt supporting seat 39 and a first belt end roller fixing plate 30, wherein the shovel blade 33 is arranged at the input end of the inlet roller shovel belt 32, the shovel blade belt supporting plate 34 is arranged below the shovel blade 33, the shovel blade swinging cylinder 35 is arranged at one side of the input end of the inlet roller shovel belt 32, the first belt-scraper slag receiving plate 36 is arranged below the inlet roller shovel belt 32, the first belt tensioning roller 37 is arranged below the middle part of the inlet roller shovel belt 32, the first driving roller belt seat bearing 38 is arranged below the first belt tensioning roller belt supporting seat 39, and the first swinging belt supporting seat 39 is arranged below the first belt end roller fixing plate 30 and is fixedly connected with the driving and driven roller 20. Through adopting the inlet to roll the interconnect between shovel belt assembly 3 and each subassembly, thereby the interact makes the product break away from the overware, designs shovel sword swing cylinder 35 in the shovel sword belt, can play the angle of cutting down little, reduces the purpose of crushing the product when cutting down.

As shown in fig. 6, the outlet transition belt assembly 4 according to the present utility model includes an outlet transition belt 42, a belt inlet length adjustment seat 43, a belt scraper slag receiving tray 44, a second belt tensioning roller 45, a second active rubber coating roller belt seat bearing 46, a second swinging belt support seat 47 and a second belt end roller fixing plate 48, wherein an input end of the outlet transition belt 42 is connected with an output end of the inlet roller shovel belt 32, the belt inlet length adjustment seat 43 is disposed at one side of an input end of the outlet transition belt 42, the belt scraper slag receiving tray 44 is disposed below the outlet transition belt 42, the second belt tensioning roller 45 is disposed below a middle portion of the outlet transition belt 42, the second active rubber coating roller belt seat bearing 46 is disposed below the second belt tensioning roller 45, and the second swinging belt support seat 47 is disposed below the second belt end roller fixing plate 48 and is fixedly connected with the fourth driven shaft 41. Can adjust belt entry length as required through setting up belt entry length adjustment seat 43, set up belt scraper and connect slag pan 44 can retrieve bread cinder automatically, export transition belt 42 is high temperature resistant material belt moreover, interconnect between the setting export transition belt subassembly 4 and each subassembly has realized scooping up and has driven to carry the drawing of patterns on the belt line, the product enters into export transition belt, reach and carry full-automatic drawing of patterns, can not pass through the manual work in the product conveying process simultaneously, all be machine direct contact, the pollution of intermediate link to the food has effectively been avoided.

As shown in fig. 7, the outlet transition plastic flat-top chain assembly 5 of the present utility model further includes an outlet transition plastic flat-top chain 52, a second conveying side plate 53, an outlet flat-top chain rotating wheel 54 and a second bearing with a seat 55, the active and passive shafts 20 penetrate through the two outlet flat-top chain rotating wheels 54 and two sides of the active and passive shafts are fixedly connected with the second conveying side plate 53 through the second bearing with a seat 55, the number of the outlet transition plastic flat-top chains 52 is two, and two sides of the outlet transition plastic flat-top chains 52 are respectively surrounded on the corresponding outlet flat-top chain rotating wheels 54. The full-automatic conveying of the empty baking tray entering the outlet plastic flat-top chain is realized by adopting the outlet transition plastic flat-top chain assembly 5 and the interconnection and interaction between various parts in the assemblies, so that manual intervention is not needed, the efficiency is high, and the continuity is strong.

As shown in fig. 1, 2 and 4, the inlet bevel magnetic plastic flat top chain 25 of the present utility model is a flat top chain with a magnetic stripe. The baking tray can be effectively sucked by adopting the flat-top chain with the magnetic stripe, and the self-weight of the baking tray is prevented from sliding downwards.

As shown in fig. 1, 2 and 4, the output end of the inlet oblique angle magnetic plastic flat top chain assembly 2 is provided with a downhill structure. The downhill structure is more beneficial to the descending motion of the conveyor belt of the scraper knife at the upper inlet, so that the scraper knife can scoop up the product in the baking tray to drive the conveyor belt to convey and demould.

The working principle of the utility model is as follows:

the automatic demoulding equipment for the scraper knife belt conveying bread consists of a fixed bracket assembly 1, an inlet oblique angle magnetic plastic flat top chain assembly 2, an inlet rolling shovel belt assembly 3, an outlet transition belt assembly 4, an outlet transition plastic flat top chain assembly 5 and the like; when the baking tray filled with the products is conveyed by the inlet oblique angle magnetic plastic flat top chain 2 and then conveyed downhill after being subjected to angle adjustment, the descending action of conveying the upper inlet oblique angle magnetic plastic flat top chain assembly 2 causes the products in the baking tray to be shoveled up to drive the products to be conveyed and demoulded on the inlet rolling belt 32 line, the products enter the outlet transition belt 42 for conveying, and the empty baking tray enters the outlet transition plastic flat top chain 52 for conveying.

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 (7)

1. The utility model provides a scraper knife belt carries bread automatic demoulding equipment which characterized in that: the device comprises a fixed bracket assembly (1), an inlet oblique angle magnetic plastic flat top chain assembly (2), an inlet rolling shovel belt assembly (3), an outlet transition belt assembly (4), an outlet transition plastic flat top chain assembly (5) and a driving gear motor assembly (6);

the fixed bracket assembly (1) is respectively fixed with a driving shaft and a driven shaft (20), a first driven shaft (21), a second driven shaft (51), a third driven shaft (31) and a fourth driven shaft (41);

the inlet oblique angle magnetic plastic flat top chain assembly (2) and the outlet transition plastic flat top chain assembly (5) are sequentially fixed on a first layer of support of the fixed support assembly (1) and are connected through an active coaxial shaft and a passive coaxial shaft (20), and the inlet oblique angle magnetic plastic flat top chain assembly (2) is driven by the combined action of the first driven shaft (21) and the active coaxial shaft and the passive coaxial shaft (20); the second driven shaft (51) and the driving and driven shaft (20) act together to drive the outlet transition plastic flat-top chain assembly (5); the inlet rolling shovel belt assembly (3) and the outlet transition belt assembly (4) are arranged above the outlet transition plastic flat top chain assembly (5) and are fixed with a second layer of support of the fixed support assembly (1), and the third driven shaft (31) and the fourth driven shaft (41) drive the inlet rolling shovel belt assembly (3) and the outlet transition belt assembly (4);

the output end of the inlet oblique angle magnetic plastic flat top chain assembly (2) is respectively connected with the input ends of the inlet rolling shovel belt assembly (3) and the outlet transition plastic flat top chain assembly (5), and the output end of the inlet rolling shovel belt assembly (3) is connected with the input end of the outlet transition belt assembly (4);

the driving gear motor assembly (6) comprises a first driving gear motor (61), a second driving gear motor (62), a third gear motor (63) and a fourth gear motor (64); the first driving gear motor (61) is arranged on one side of the inlet oblique angle magnetic plastic flat top chain assembly (2) and the output end of the first driving gear motor is connected with the driving shaft (20), the second driving gear motor (62) is arranged on one side of the inlet rolling shovel belt assembly (3) and the output end of the second driving gear motor is connected with the third driven shaft (31), the third gear motor (63) is arranged on one side of the outlet transition belt assembly (4) and the output end of the third gear motor is connected with the fourth driven shaft (41), and the fourth gear motor (64) is arranged on one side of the outlet transition plastic flat top chain assembly (5) and the output end of the fourth gear motor is connected with the second driven shaft (51).

2. The automatic demolding device for scraper knife belt conveying bread according to claim 1, wherein: the inlet oblique angle magnetic plastic flat top chain assembly (2) further comprises a first conveying side plate (22), a baking tray auxiliary supporting strip (23), a flat top chain rotating wheel (24), an inlet oblique angle magnetic plastic flat top chain (25) and a first belt seat bearing (26), wherein the first conveying side plate (22) is arranged on two sides of the inlet oblique angle magnetic plastic flat top chain assembly (2) and is respectively connected with two ends of a first driven shaft (21) and a driving and driven coaxial shaft (20), the first driven shaft (21) respectively penetrates through the flat top chain rotating wheel (24) and the first conveying side plate (22) to be connected with the first belt seat bearing (26) in an axial manner and is fixed through the first belt seat bearing (26), the other end of the first conveying side plate (22) is respectively connected with two ends of the driving and driven coaxial shaft (20), and the bottom of the baking tray auxiliary supporting strip (23) is uniformly fixed on the fixed support assembly (1) and the two ends of the baking tray auxiliary supporting strip are respectively arranged above the first driven shaft (21) and the driving and driven coaxial shaft (20).

3. The automatic demolding device for scraper knife belt conveying bread according to claim 1, wherein: the inlet shovel belt assembly (3) further comprises an inlet shovel belt (32), a shovel blade (33), a shovel blade belt supporting plate (34), a shovel blade swinging cylinder (35), a first belt scraper slag receiving disc (36), a first belt tensioning roller (37), a first driving rubber coating roller belt seat bearing (38), a first swinging belt supporting seat (39) and a first belt end roller fixing plate (30), the shovel blade (33) is arranged at the input end of the inlet shovel belt (32), a shovel blade belt supporting plate (34) is arranged below the shovel blade (33), the shovel blade swinging cylinder (35) is arranged at one side of the input end of the inlet shovel belt (32), the first belt scraper slag receiving disc (36) is arranged below the inlet shovel belt (32), the first belt tensioning roller (37) is arranged below the middle part of the inlet shovel belt (32), the first driving rubber coating roller belt seat bearing (38) is arranged below the first belt tensioning roller (37), and the first swinging supporting seat (39) is arranged below the first belt tensioning roller (30) and is connected with the first driving roller fixing plate (20).

4. The automatic demolding device for scraper knife belt conveying bread according to claim 1, wherein: the outlet transition belt assembly (4) comprises an outlet transition belt (42), a belt inlet length adjustment seat (43), a belt scraper slag receiving disc (44), a second belt tensioning roller (45), a second driving rubber coating roller belt seat bearing (46), a second swinging belt support seat (47) and a second belt end roller fixing plate (48), the input end of the outlet transition belt (42) is connected with the output end of the inlet rolling shovel belt (32), the belt inlet length adjustment seat (43) is arranged on one side of the input end of the outlet transition belt (42), the belt scraper slag receiving disc (44) is arranged below the outlet transition belt (42), the second belt tensioning roller (45) is arranged below the middle of the outlet transition belt (42), the second driving rubber coating roller belt seat bearing (46) is arranged below the second belt tensioning roller (45), and the second swinging belt support seat (47) is arranged below the second belt end roller fixing plate (48) and fixedly connected with a fourth driven roller (41).

5. The automatic demolding apparatus for a scraper knife belt-conveyed bread according to claim 1, characterized in that: the outlet transition plastic flat top chain assembly (5) further comprises outlet transition plastic flat top chains (52), second conveying side plates (53), outlet flat top chain rotating wheels (54) and second belt seat bearings (55), wherein the active shaft (20) penetrates through the two outlet flat top chain rotating wheels (54) and two sides of the active shaft (20) are fixedly connected with the second conveying side plates (53) through the second belt seat bearings (55), the number of the outlet transition plastic flat top chains (52) is two, and two sides of the outlet transition plastic flat top chains (52) respectively encircle on the corresponding outlet flat top chain rotating wheels (54).

6. The automatic demolding device for scraper knife belt conveying bread according to claim 2, wherein: the inlet oblique angle magnetic plastic flat top chain (25) is a flat top chain with a magnetic stripe.

7. The automatic demolding device for scraper knife belt conveying bread according to claim 1, wherein: the output end of the inlet oblique angle magnetic plastic flat top chain component (2) is provided with a downhill structure.

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