CN210235536U - Multilayer bread workshop cooling mesh belt - Google Patents

Abstract

The utility model discloses a multilayer bread workshop cooling guipure relates to guipure technical field, and it includes the base, two dead levers of the left side of base upper surface and the equal fixedly connected with in right side, and the equal joint of opposite face of two relative dead levers has first bearing, second bearing and third bearing, and the internal surface of two relative first bearings has cup jointed same first pivot. This multilayer bread workshop cooling guipure, through the motor, first pivot, the second pivot, the third pivot, first bearing, the second bearing, the third bearing, first cylinder, the second cylinder, the third cylinder, first cooling guipure body, the second cooling guipure body, mutually support between the third cooling guipure body, thereby make bread can not appear central temperature on the high side before advancing the inner bag packing, follow-up moldy condition easily, and production speed need not slow down in the online production, thereby make the utility model discloses the productivity has been improved at same time, thereby the production efficiency of enterprise has been improved.

Description

Multilayer bread workshop cooling mesh belt

Technical Field

The utility model relates to a guipure technical field specifically is a multilayer bread workshop cooling guipure.

Background

A belt is a machine that uses static friction to frictionally drive the material being transported in a continuous manner. By using the material conveying device, the materials can be conveyed on a certain conveying line from an initial feeding point to a final discharging point to form a material conveying flow path.

The existing machine table has the advantages that the original mesh belt is only single-layer, the cooling stroke is short, the stainless steel mesh belt is dense, the product is not cooled in place during production, the central temperature is high before the product enters an inner bag for packaging, the follow-up mildew is easy to occur, the quality is greatly reduced, the production speed can be only slowed down during the on-line production due to the center temperature, the productivity is low in the same time, and the production efficiency of an enterprise can be influenced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a multilayer bread workshop cooling guipure has solved the product and has advanced before the inner bag packing, and central temperature is on the high side, and follow-up easy mouldy, the quality is discounted greatly, because this reason, the production speed can only be slowed down in the online production moreover, and same time productivity is on the low side to can influence the production efficiency's of enterprise problem.

(II) technical scheme

In order to achieve the above purpose, the utility model adopts the technical proposal that: a multi-layer bread workshop cooling mesh belt comprises a base, a driving device, supporting rods, a motor, a driving gear, a first rotating shaft, a first bearing, a first roller, a first cooling mesh belt body, a first driven gear, a second rotating shaft, a second bearing, a second roller, a second cooling mesh belt body, a second driven gear, a third rotating shaft, a third bearing, a third roller, a third cooling mesh belt body, a power supply, a switch and fixing rods, wherein the left side and the right side of the upper surface of the base are fixedly connected with two fixing rods, the first bearing, the second bearing and the third bearing are clamped on opposite surfaces of the two fixing rods, the same first rotating shaft is sleeved on the inner surfaces of the two first bearings, the same second rotating shaft is sleeved on the inner surfaces of the two second bearings, and the same third rotating shaft is sleeved on the inner surfaces of the two third bearings, and the surfaces of the two first rotating shafts are all clamped with first rollers, the two first rollers are connected through a first cooling mesh belt body in a transmission mode, the rear ends of the two first rotating shafts on the right side are fixedly connected with the front of the driving gear, the surfaces of the two second rotating shafts are all clamped with second rollers, the two second rollers are connected through a second cooling mesh belt body in a transmission mode, the rear ends of the two second rotating shafts on the right side are fixedly connected with the front of the first driven gear, the first driven gear is meshed with the driving gear, the surfaces of the two third rotating shafts are all clamped with third rollers, the two third rollers are connected through a third cooling mesh belt body in a transmission mode, the rear ends of the third rotating shafts on the right side are fixedly connected with the front of the second driven gear, and the second driven gear is meshed with the driving gear.

Preferably, the first cooling belt body has a length one and a half times that of a conventional cooling belt and the second cooling belt body has a length one and a half times that of a conventional cooling belt.

Preferably, the third cooling belt body has a length one and a half times that of a conventional cooling belt, the first cooling belt body has a density two-thirds that of the conventional cooling belt, and the second cooling belt body has a density two-thirds that of the conventional cooling belt.

Preferably, the density of the third cooling mesh belt body is two thirds of that of the conventional cooling mesh belt, and the radiuses of the first roller, the second roller and the third roller are the same.

Preferably, the driving device comprises a motor, the lower surface of the motor is fixedly connected with the top end of the supporting rod, the bottom end of the supporting rod is fixedly connected with the upper surface of the base, and an output shaft of the motor is fixedly connected with a driving gear.

Preferably, the upper surface of the base is fixedly connected with a power supply, and the upper surface of the power supply is fixedly connected with a switch.

Preferably, the power output end is electrically connected with the switch input end through a wire, and the output end of the switch is electrically connected with the motor input end through a wire.

(III) advantageous effects

The beneficial effects of the utility model reside in that:

1. the multilayer bread workshop cooling mesh belt is characterized in that a worker places bread above a first cooling mesh belt body, a second cooling mesh belt body and a third cooling mesh belt body through mutual matching among a motor, a first rotating shaft, a second rotating shaft, a third rotating shaft, a first bearing, a second bearing, a third bearing, a first roller, a second roller, a third roller, a first cooling mesh belt body, a second cooling mesh belt body and a third cooling mesh belt body, then the motor works to drive the driving gear to rotate, so that the driving gear drives the first rotating shaft on the left side to rotate, the first rotating shaft drives the first roller to rotate, the first roller on the left side is in transmission connection with the first roller on the right side through the first cooling mesh belt body, the bread is in moving cooling through the first cooling mesh belt body, and the driving gear drives the first driven gear and the second driven gear to rotate, thereby enabling the first driven gear to drive the left second rotating shaft to rotate, enabling the second rotating shaft to drive the second roller to rotate, enabling the left second roller to be in transmission connection with the right second roller through the second cooling mesh belt body, further enabling bread to be in mobile cooling through the second cooling mesh belt body, enabling the second driven gear to drive the left third rotating shaft to rotate, enabling the third rotating shaft to drive the third roller to rotate, enabling the left third roller to be in transmission connection with the right third roller through the third cooling mesh belt body, further enabling the bread to be in mobile cooling through the third cooling mesh belt body, due to the fact that the lengths of the first cooling mesh belt body, the second cooling mesh belt body and the third cooling mesh belt body are lengthened, and the densities of the first cooling mesh belt body, the second cooling mesh belt body and the third cooling mesh belt body are reduced, the bread cannot have high central temperature before being packaged in an inner bag, the condition of follow-up easy mildewing to production need not slow down the production speed on line, thereby makes the utility model discloses the productivity has been improved at same time, thereby has improved the production efficiency of enterprise.

2. This multilayer bread workshop cooling guipure through setting up first driven gear for first driven gear drives the second pivot that is located the left and rotates, makes the second pivot that is located the right side rotate in the second bearing that is located the right side, thereby makes the second cylinder more steady when rotating through the second pivot that is located the right side.

3. This multilayer bread workshop cooling guipure through setting up second driven gear for the third pivot that the second driven gear drove to be located the right side rotates, makes the third pivot that is located the right side rotate in being located the third bearing on right side, thereby makes the third cylinder more steady when rotating through being located the third pivot on right side.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

FIG. 2 is a schematic structural diagram of the present invention viewed from the right;

fig. 3 is a front view of the present invention.

In the figure: the automatic cooling device comprises a base 1, a driving device 2, a supporting rod 21, a motor 22, a driving gear 3, a first rotating shaft 4, a first bearing 5, a first roller 6, a first cooling mesh belt body 7, a first driven gear 8, a second rotating shaft 9, a second bearing 10, a second roller 11, a second cooling mesh belt body 12, a second driven gear 13, a third rotating shaft 14, a third bearing 15, a third roller 16, a third cooling mesh belt body 17, a power supply 18, a switch 19 and a fixing rod 20.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, the utility model provides a technical solution: a multi-layer bread workshop cooling mesh belt comprises a base 1, a driving device 2, a supporting rod 21, a motor 22, a driving gear 3, a first rotating shaft 4, a first bearing 5, a first roller 6, a first cooling mesh belt body 7, a first driven gear 8, a second rotating shaft 9, a second bearing 10, a second roller 11, a second cooling mesh belt body 12, a second driven gear 13, a third rotating shaft 14, a third bearing 15, a third roller 16, a third cooling mesh belt body 17, a power supply 18, a switch 19 and fixing rods 20, wherein the left side and the right side of the upper surface of the base 1 are fixedly connected with the two fixing rods 20, the upper surface of the base 1 is fixedly connected with the power supply 18, the power supply 18 supplies power to the motor 222 through the arrangement of the power supply 18, the upper surface of the power supply 18 is fixedly connected with the switch 19, and the control of a worker on the motor 222 is more convenient through the arrangement of the switch 19, the output end of the power supply 18 is electrically connected with the input end of a switch 19 through a lead, the output end of the switch 19 is electrically connected with the input end of a motor 22 through a lead, opposite surfaces of two opposite fixing rods 20 are respectively connected with a first bearing 5, a second bearing 10 and a third bearing 15 in a clamping manner, the inner surfaces of two opposite first bearings 5 are respectively sleeved with a same first rotating shaft 4, the inner surfaces of two opposite second bearings 10 are respectively sleeved with a same second rotating shaft 9, the inner surfaces of two opposite third bearings 15 are respectively sleeved with a same third rotating shaft 14, the surfaces of two first rotating shafts 4 are respectively connected with a first roller 6 in a clamping manner, the two first rollers 6 are in transmission connection through a first cooling mesh belt body 7, the length of the first cooling mesh belt body 7 is one point of the length of a traditional cooling mesh belt, and the length of the second cooling mesh belt body 12 is five times of the length of the traditional, the length of the third cooling mesh belt body 17 is one half and five times of the length of a traditional cooling mesh belt, the density of the first cooling mesh belt body 7 is two thirds of the density of the traditional cooling mesh belt, the density of the second cooling mesh belt body 12 is two thirds of the density of the traditional cooling mesh belt, the rear end of the first rotating shaft 4 positioned on the right side is fixedly connected with the front surface of the driving gear 3, the surfaces of the two second rotating shafts 9 are respectively connected with the second rotating drum 11 in a clamping manner, the two second rotating drums 11 are in transmission connection through the second cooling mesh belt body 12, the rear end of the second rotating shaft 9 positioned on the right side is fixedly connected with the front surface of the first driven gear 8, through the arrangement of the first driven gear 8, the first driven gear 8 drives the second rotating shaft 9 positioned on the left side to rotate, the second rotating shaft 9 positioned on the right side rotates in the second bearing 10 positioned on the right side, and the second rotating shaft 9 positioned on the right side rotates more stably, the first driven gear 8 is meshed with the driving gear 3, the surfaces of the two third rotating shafts 14 are respectively connected with a third roller 16 in a clamping manner, the two third rollers 16 are in transmission connection through a third cooling mesh belt body 17, the density of the third cooling mesh belt 17 is two thirds of that of the traditional cooling mesh belt, the radiuses of the first roller 6, the second roller 11 and the third rollers 16 are all the same, the rear end of the third rotating shaft 14 positioned on the right side is fixedly connected with the front surface of the second driven gear 13, the second driven gear 13 is arranged to drive the third rotating shaft 14 positioned on the right side to rotate, the third rotating shaft 14 positioned on the right side rotates in the third bearing 15 positioned on the right side, and therefore the third roller 16 rotates more stably through the third rotating shaft 14 positioned on the right side, and the second driven gear 13 is meshed with the driving gear 3, and the back of driving gear 3 and drive arrangement 2's front end fixed connection, drive arrangement 2 includes motor 22, the lower surface of motor 22 and the top fixed connection of bracing piece 21, and the bottom of bracing piece 21 and the upper surface fixed connection of base 1, the output shaft fixed connection of motor 22 has driving gear 3, and drive arrangement 2's bottom and the upper surface fixed connection of base 1.

The utility model discloses an operating procedure does:

s1, enabling an operator to place bread above the first cooling mesh belt body 7, the second cooling mesh belt body 12 and the third cooling mesh belt body 17, and then operating the switch 19 to enable the motor 22 to work, enabling the motor 22 to drive the driving gear 3 to rotate, enabling the driving gear 3 to drive the first rotating shaft 4 on the left side to rotate, enabling the first rotating shaft 4 to drive the first roller 6 to rotate, enabling the first roller 6 on the left side to be in transmission connection with the first roller 6 on the right side through the first cooling mesh belt body 7, and enabling the bread to be moved and cooled through the first cooling mesh belt body 7;

s2, the driving gear 3 drives the first driven gear 8 and the second driven gear 13 to rotate, so that the first driven gear 8 drives the left second rotating shaft 9 to rotate, the second rotating shaft 9 drives the second roller 11 to rotate, the left second roller 11 is in transmission connection with the right second roller 11 through the second cooling mesh belt body 12, and the bread is moved and cooled through the second cooling mesh belt body 12;

s3, the second driven gear 13 drives the left third rotating shaft 14 to rotate, so that the third rotating shaft 14 drives the third roller 16 to rotate, and the left third roller 16 is in transmission connection with the right third roller 16 through the third cooling mesh belt body 17, so that the bread is cooled by the third cooling mesh belt body 17.

The above-mentioned embodiments further describe the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a multilayer bread workshop cooling guipure, includes base (1), drive arrangement (2), bracing piece (21), motor (22), driving gear (3), first pivot (4), first bearing (5), first cylinder (6), first cooling guipure body (7), first driven gear (8), second pivot (9), second bearing (10), second cylinder (11), second cooling guipure body (12), second driven gear (13), third pivot (14), third bearing (15), third cylinder (16), third cooling guipure body (17), power (18), switch (19), dead lever (20), its characterized in that: the left side and the right side of the upper surface of the base (1) are fixedly connected with two fixed rods (20), opposite surfaces of the two fixed rods (20) are respectively clamped with a first bearing (5), a second bearing (10) and a third bearing (15), the inner surfaces of the two first bearings (5) are sleeved with the same first rotating shaft (4), the inner surfaces of the two second bearings (10) are sleeved with the same second rotating shaft (9), the inner surfaces of the two third bearings (15) are sleeved with the same third rotating shaft (14), the surfaces of the two first rotating shafts (4) are respectively clamped with a first roller (6), the two first rollers (6) are in transmission connection through a first cooling mesh belt body (7), the rear end of the first rotating shaft (4) on the right side is fixedly connected with the front of the driving gear (3), the surfaces of the two second rotating shafts (9) are respectively clamped with a second roller (11), and two second cylinders (11) are in transmission connection through a second cooling mesh belt body (12), the rear ends of the second rotating shafts (9) on the right side are fixedly connected with the front face of the first driven gear (8), the first driven gear (8) is meshed with the driving gear (3), third cylinders (16) are clamped on the surfaces of the two third rotating shafts (14), the two third cylinders (16) are in transmission connection through a third cooling mesh belt body (17), the rear ends of the third rotating shafts (14) on the right side are fixedly connected with the front face of the second driven gear (13), and the second driven gear (13) is meshed with the driving gear (3).

2. The multi-layer bread plant cooling mesh belt according to claim 1, characterized in that: the first cooling belt body (7) is one and a half times as long as a conventional cooling belt, and the second cooling belt body (12) is one and a half times as long as a conventional cooling belt.

3. The multi-layer bread plant cooling mesh belt according to claim 1, characterized in that: the length of the third cooling mesh belt body (17) is one, five and a half of the length of the traditional cooling mesh belt, the density of the first cooling mesh belt body (7) is two thirds of the density of the traditional cooling mesh belt, and the density of the second cooling mesh belt body (12) is two thirds of the density of the traditional cooling mesh belt.

4. The multi-layer bread plant cooling mesh belt according to claim 1, characterized in that: the density of the third cooling mesh belt body (17) is two thirds of that of the traditional cooling mesh belt, and the radiuses of the first roller (6), the second roller (11) and the third roller (16) are the same.

5. The multi-layer bread plant cooling mesh belt according to claim 1, characterized in that: drive arrangement (2) include motor (22), the lower surface of motor (22) and the top fixed connection of bracing piece (21), and the bottom of bracing piece (21) and the upper surface fixed connection of base (1), the output shaft fixedly connected with driving gear (3) of motor (22).

6. The multi-layer bread plant cooling mesh belt according to claim 5, characterized in that: the upper surface of base (1) is fixedly connected with power (18), the upper surface of power (18) is fixedly connected with switch (19).

7. The multi-layer bread plant cooling mesh belt according to claim 6, characterized in that: the output end of the power supply (18) is electrically connected with the input end of the switch (19) through a lead, and the output end of the switch (19) is electrically connected with the input end of the motor (22) through a lead.

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