CN211746528U - Food blank angle adjusting mechanism - Google Patents

Abstract

The utility model discloses a food blank angle adjusting mechanism, which comprises a bedplate, a fixing device, a movable driving component and a rotary driving component, wherein the fixing device is fixed at a first position at a first corner of a coating skin, and the movable driving component drives the fixing device to move to a second position so as to drag the coating skin; in the process of dragging the coating leather, the fixing device is driven to rotate by the rotation driving component. The utility model discloses a food blank angle modulation method and angle modulation mechanism can transfer the angle to food blank, thereby make the first corner of cladding skin can be rotated to appointed angle and be convenient for carry on subsequent manufacturing procedure to the precision that the angle was transferred to the cladding skin is high, and the operation of angle modulation mechanism is stable, can avoid causing the damage to the cladding skin as far as possible, avoids throwing away the filling material on the cladding skin.

Description

Food blank angle adjusting mechanism

Technical Field

The utility model relates to a food blank angle modulation mechanism belongs to food processing machinery processing equipment technical field.

Background

In the field of food processing, food is often processed using a forming machine. However, for rolled food, such as spring rolls, because the food has a unique structural shape, it is particularly difficult to realize automatic production, the forming still remains in a semi-automatic state, only mechanical skin cutting and automatic filling can be realized, the subsequent steps can only be manually turned over and rolled, the efficiency is low, the use cost of personnel is high, and on the other hand, the food specification of the manual rolling is different, and the high yield cannot be ensured. In processing, a blank is prepared, including a wrapper 901 and a filling 902, and as shown in fig. 1, a sheet-like wrapper 901 is laid flat, the filling 902 is placed on the wrapper 901, and the filling 902 is located near a corner of the wrapper 901 to form a primary blank 91. If a corner of the wrapper 901 adjacent the filling 902 is further folded over to cover the filling 902, a secondary blank 92 is formed, as shown in fig. 2. The formation of the primary blank 91 is easily achieved by the prior art, but the primary blank 91 needs to be turned before the secondary blank 92 is formed by machining, or the primary blank 91 is formed by preventing the stuffing 902 after the coating 901 is turned, so as to facilitate the subsequent corner folding operation. For example, as shown in fig. 3, when a corner of the wrapper 901 close to the filling 902 needs to be folded by the subsequent flanging mechanism, the corner close to the filling 902 (the corner is defined as a first corner 901a) needs to be faced to the flanging mechanism, and the wrapper 901 needs to be rotated by a certain angle, for example, 45 °. The coating 901 may be sucked by a vacuum suction device and then rotated, but the filling 902 on the coating 901 is easily thrown out when rotated. In addition, there is no good way to rotate the coating 901.

SUMMERY OF THE UTILITY MODEL

Therefore, an object of the utility model is to provide a can carry out the food blank angle modulation mechanism of angle modulation with food blank.

In order to achieve the above object, the utility model discloses a food blank angle modulation mechanism, include:

a bedplate for supporting the coating leather;

the fixing device is used for fixing the first corner of the wrapping skin at the position of the first station;

the moving driving assembly is connected to the fixing device and used for driving the fixing device to drag the coating leather to move to a second station;

the rotating driving assembly is connected to the fixing device and can drive the fixing device to rotate to a preset angle in the process of dragging the coating skin.

The fixing device comprises an upper clamping part and a lower clamping part, wherein a long groove is formed in the bedplate, the first station and the second station are located on the track of the long groove, and the lower clamping part can penetrate through the long groove to be matched with the upper clamping part so as to clamp and fix the cladding leather.

Last clamping part and be provided with first needle and pinhole respectively on the clamping part down, first needle can insert extremely in the pinhole, thereby make go up clamping part and lower clamping part can be under the drive of removal drive assembly synchronous motion.

The platen includes a support portion for supporting the lower clamp portion; the upper clamping part is arranged on the clamping driving assembly, the clamping driving assembly is used for driving the upper clamping part to lift, and the moving driving assembly is used for driving the upper clamping part to move.

The lower clamping part is connected with a mobile resetting device.

The upper clamping part comprises a sleeve, the first needle is arranged on the inner side of the sleeve, an elastic resetting component acts on the first needle and the sleeve respectively, and when the first needle moves downwards relative to the sleeve, the elastic resetting component starts to store energy.

The upper clamping part and/or the lower clamping part are/is also provided with an air blowing structure.

And the contact surface of the upper clamping part and/or the lower clamping part and the coating skin is/are provided with an anti-skidding structure.

The lower clamping part comprises a supporting block part protruding outwards along the radial direction, and when the lower clamping part is located at the first station, the supporting block part extends out towards the tip of the first corner.

The supporting block part is provided with a through groove which extends outwards along the radial direction, and the through groove extends to the edge of the supporting block part.

And a blowing device is arranged below the long groove.

The first station and the second station are positioned on the bedplate; and the orientation of the first angle is taken as the front, when the first angle needs to be rotated to the left, the second station is positioned at the front left of the first station, and when the first angle needs to be rotated to the right, the second station is positioned at the front right of the first station.

The rotation driving assembly comprises a steering part arranged on the fixing device and a guide part capable of being matched with the steering part, and the guide part is positioned on the moving track of the steering part and can limit and guide the part of the guide part, which is far away from one side of the rotation axis of the guide part.

The steering portion includes a cross bar and the guide portion includes a blocking portion.

The guide part comprises a guide groove, and the steering part comprises a guide block positioned in the guide groove and a connecting rod, wherein one end of the connecting rod is fixed at the other end of the fixing device, and the connecting rod is provided with the guide block.

A plurality of first stations and a plurality of second stations are arranged on the bedplate in parallel, and correspondingly, a plurality of fixing devices, a plurality of moving driving components and a plurality of rotating driving components are arranged on the bedplate; the tracks of the plurality of fixing devices moving from the first station to the second station are distributed in a divergent mode.

Adopt above-mentioned technical scheme, the utility model discloses a food blank angle modulation method and angle modulation mechanism are fixed in the first angle position of cladding skin through fixing device, then drive fixing device and remove to drag the in-process that the cladding skin removed to the second station at fixing device and rotate fixing device, because fixing device and cladding skin synchronous motion, cladding skin synchronous revolution when so fixing device is rotatory, when fixing device removed to the second station, the cladding skin was dragged to the second station, the cladding skin also rotates appointed angle simultaneously. The utility model discloses a food blank angle modulation method and angle modulation mechanism can transfer the angle to food blank, thereby make the first corner of cladding skin can be rotated to appointed angle and be convenient for carry on subsequent manufacturing procedure to the precision that the angle was transferred to the cladding skin is high, and the operation of angle modulation mechanism is stable, can avoid causing the damage to the cladding skin as far as possible, avoids throwing away the filling material on the cladding skin.

Drawings

Fig. 1 is a schematic view of a primary blank.

Fig. 2 is a schematic structural view of the secondary blank.

Fig. 3 is a schematic diagram of an embodiment of the food dough angle adjusting mechanism of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a schematic view of a state where the angle adjusting operation is performed when the primary blank is sent to the first station.

Fig. 6 is a partially enlarged view of portion B in fig. 5.

Fig. 7 is a schematic view of a primary blank on a platen.

Fig. 8 is a top view of fig. 7.

FIG. 9 is a schematic view of the turning direction of the wrapper, the orientation of the first angle, and the moving direction of the fixing device.

Fig. 10 is a diagram illustrating a state two of the reclining operation.

FIG. 11 is a schematic view of the mounting structure of the sleeve and the first needle.

Fig. 12 is another angle view of fig. 10.

Fig. 13 is a schematic diagram of the state three of the reclining operation.

Fig. 14 is another angle view of fig. 13.

FIG. 15 is a schematic view of the structure of the air blowing device.

Fig. 16 is a diagram illustrating a state four of the reclining operation.

FIG. 17 is a schematic view of another embodiment of a fixture and a rotational drive assembly.

Fig. 18 is another angle schematic of fig. 17.

FIG. 19 is a schematic view of another embodiment of a rotational drive assembly.

Detailed Description

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

As shown in fig. 3-6, the food dough angle adjusting mechanism of the present invention comprises a platen 11, a fixing device, a movable driving assembly and a rotatable driving assembly. The second conveyor 8 is provided with a cutting device 7, and the cutting device 7 cuts the hide into a plurality of coated hides 901. The filling 902 may be dispensed on the wrapper 901 before cutting or the filling 902 may be dispensed after cutting. The second transfer device 8 transfers the primary blank 91 onto the platen 11 and positions the first corner of the cover skin 901 at the first station M1 on the platen 11.

In this embodiment, since the second transfer device 8 simultaneously transfers the three cut coating sheets 901 to the platen 11 at a time, the angle adjustment work can be simultaneously performed on the three coating sheets 901. Of course, in other embodiments, the present invention is not limited thereto.

The fixing device is used for being fixed at a first corner of the wrapping sheet 901 at the position of a first station M1, the moving driving assembly is used for driving the fixing device to drag the wrapping sheet 901 to move to a second station M2, and the rotating driving assembly is used for driving the fixing device to rotate to a preset angle in the process of dragging the wrapping sheet 901.

The fixing device is fixed at the first corner 901a of the wrapping skin 901, then the fixing device is driven to move, and the fixing device is rotated in the process that the fixing device drags the wrapping skin 901 to move to the second station M2, because the fixing device and the wrapping skin 901 act synchronously, the wrapping skin 901 rotates synchronously when the fixing device rotates, and when the fixing device moves to the second station M2, the wrapping skin 901 is dragged to the second station M2, and meanwhile, the wrapping skin 901 also rotates to a specified angle.

The tracks of the plurality of fixing devices moving from the first station M1 to the second station M2 are distributed in a divergent manner, so that the wrapping sheets 901 can be dragged to move in the direction away from each other, and the distance between the plurality of wrapping sheets 901 is also pulled apart while the angle adjusting operation is completed, so that the equipment can be conveniently arranged in the subsequent process.

As shown in fig. 7-9, when the direction F1 of the first corner 901a is forward, the second station M2 is located at the left front of the first station M1 when the rotating direction F2 of the first corner 901a is leftward, and the moving method F3 of the fixing device is the direction. Similarly, the second station M2 is located right in front of the first station M1 when it is desired to rotate the first corner 901a to the right. Therefore, when the cover 901 is dragged, the cover rotates in the direction F2 by the frictional force between the cover and the platen 11 and the tensile force of the fixing device.

As shown in fig. 3 and 4, and fig. 10 and 12, in the present embodiment, a movement driving unit is provided above the platen 11, the movement driving unit includes a third cylinder 31, the third cylinder 31 may be a linear cylinder, a long groove 119 is provided on the platen 11, and a driving direction of the third cylinder 31 coincides with an extending direction of the long groove 119. The clamping driving assembly is mounted on the third air cylinder 31 and comprises a fourth air cylinder 32, a mounting seat 33 is arranged at the lower end of an air cylinder arm of the fourth air cylinder 32, an upper air guide cylinder 34 is fixed on the mounting seat 33, and a first needle 35 is fixed at the lower end of the upper air guide cylinder 34. As shown in fig. 11, the lower end of the upper gas cylinder 34 is further provided with a gas outlet 341, and the upper portion is further provided with a connection hole 342 for connecting the upper gas blowing pipe 343.

The fixing device comprises an upper clamping part 36 and a lower clamping part 37, and the fourth air cylinder 32 is used for driving the upper clamping part 36 to move up and down. The first station M1 and the second station M2 are located on the track of the elongated slot 119, the lower clamping portion 37 can penetrate through the elongated slot 119 to cooperate with the upper clamping portion 36 to clamp and fix the wrapping sheet 901 therein, and the clamping driving assembly is used for driving the upper clamping portion 36 and the lower clamping portion 37 to clamp.

A needle hole 371 for inserting the first needle 35 is provided on the lower clamping portion 37, the first needle 35 is inserted into the needle hole 371, so that when the moving driving assembly drives the upper clamping portion 36 to move, the driving force can be transmitted to the lower clamping portion 37 through the first needle 35, and the upper clamping portion 36 and the lower clamping portion 37 move synchronously. In this embodiment, the upper clamping portion 36 includes a sleeve 361, the first needle 35 is disposed inside the sleeve 361, an elastic restoring member acts on the first needle 35 and the sleeve 361, and the elastic restoring member starts to store energy when the first needle 35 moves downward relative to the sleeve 361. In this embodiment, the elastic return means includes a return spring 38, and one end of the return spring 38 abuts against the sleeve 361, and the other end abuts against the bottom of the upper gas cylinder 34. When the fourth cylinder 32 drives the sleeve 361 and the first needle 35 to move downwards, the lower edge of the sleeve 361 can be pressed on the coating 901, and the first needle 35 is inserted into the needle hole 371 of the lower support part after penetrating through the coating 901. When the cover 901 is rotated during being dragged, the sleeve 361 and the first needle 35 can be relatively rotated. The sleeve 361 includes a pressing ring 362 at a lower end thereof and a rubber pressing piece 363 provided on the pressing ring 362. The pressing ring 362 and the rubber pressing piece 363 can increase the contact area with the cladding skin, so that the clamping is more stable.

A brim 119a recessed downward is provided at an edge of the long groove 119, and the brim 119a supports the lower clip portion 37. The lower clamping portion 37 comprises a circular plate 372 contacting with the wrapping skin 901 and a lower gas cylinder 373 fixed below the circular plate 372, the pin hole 371 is located in the middle of the circular plate 372 and communicated with the lower gas cylinder 373, and the circular plate 372 is lapped on the brim 119 a. On the upper surface of the circular plate 372, an anti-slip structure, such as anti-slip lines 372a, is provided for increasing friction with the wrapping skin 901. Of course, an anti-slip structure may be provided on the lower end surface of the sleeve 361.

The upper air guide cylinder 34 and the lower air guide cylinder 373 are respectively connected to the upper air blow pipe 343 and the lower air blow pipe 374 to form an air blowing structure for blowing air to the covering leather 901, so that the upper clamping part 36 and the lower clamping part 37 are prevented from being adhered to the covering leather 901.

The lower clamping portion 37 is further connected to a moving reset device, which may be a reset cylinder 39, and the reset cylinder 39 is used to drive the lower clamping portion 37 to reset to the first station M1. Of course, the lower clamp portion 37 may be similarly driven to reset by the movement driving unit without providing a separate movement resetting device.

At the edge position of the circular plate 372, a pad portion 375 protruding outward in the radial direction is provided, and when the lower clamping portion 37 is located at the first station M1, the pad portion 375 protrudes toward the tip of the first corner 901a for supporting the edge of the first corner 901 a. And a through groove 375a extending outward in the radial direction is formed on the pad part 375, the through groove 375a extends to the edge of the pad part 375, and after the angle adjustment operation is completed, the second needle 14 is inserted into the through groove 375a after penetrating through the covering skin 901 to pull out the covering skin 901. An accommodating groove 119b for accommodating the pallet portion 375 is provided on an edge of the long groove 119 at the second station position.

As shown in fig. 15, an air blowing device 191 may be further disposed below the elongated slot 119, and air is blown upward by the air blowing device 191 to blow the coating 901 above the elongated slot 119, so as to prevent the coating 901 from partially falling into the elongated slot 119 when being dragged above the elongated slot 119.

The rotation driving assembly comprises a steering part arranged on the fixing device and a guide part capable of being matched with the steering part, and the guide part is positioned on the moving track of the steering part and can limit and guide the part of the guide part, which is far away from one side of the rotation axis of the guide part.

As shown in fig. 12, in this embodiment, the turning part includes a cross bar 41, and the guiding part includes a front blocking part 42 and a rear blocking part 43, when the lower clamping part 37 moves to the second station M2, the cross bar 41 moves forward together, and when the cross bar 41 touches the front blocking part 42, the lower clamping part 37 rotates due to being blocked, so as to drive the wrapping sheet 901 to rotate together; when resetting, the lower clamping portion 37 moves to the first station M1, and similarly, the rear blocking portion 43 is used for rotating the lower clamping portion 37 back to the initial angle, in order to prevent the transition of circling round, therefore, the lower clamping portion 37 is further provided with a short lever 41a, an included angle between the short lever 41a and the cross bar 41 is set at 45 degrees, the lower clamping portion 37 and a cross mounting plate synchronously move, the cross mounting plate is further provided with a resetting blocking portion 43a, and when the lower clamping portion 37 performs resetting movement, the resetting blocking portion 43a can block the short lever 41 a.

In another embodiment, as shown in fig. 17 and 18, the fixing device includes a negative pressure suction device 44, the negative pressure suction device 44 includes a circular plate 372, a lower air cylinder 373 located below the circular plate 372, and a negative pressure pipe 441 connected to the lower air cylinder 373, the circular plate 372 is provided with a negative pressure suction port 440, the negative pressure suction port 440 is communicated with the negative pressure pipe 441, and the wrapping sheet 901 can be fixed and pressed on the circular plate 372 by means of negative pressure suction. The movement driving assembly comprises a fifth air cylinder 45, and the fifth air cylinder 45 drives the negative pressure suction device 44 to move. Meanwhile, the guide portion includes a guide groove 46, and the steering portion includes a guide block 47 located in the guide groove 46 and a connecting rod 48 having one end fixed to the other end of the fixing device and mounting the guide block 47.

In another embodiment, as shown in fig. 19, the rotation driving assembly includes a rotation motor 49, and the vacuum suction device 44 is connected to a power output end of the rotation motor 49, and the vacuum suction device 44 is driven to rotate by the rotation motor 49.

As shown in fig. 10 and 12, after the wrapping sheet 901 is fed onto the platen 11 by the second conveying device 8, the lower clamping portion 37 is located below the wrapping sheet 901, the fourth cylinder 32 drives the upper clamping portion 36 to move down to clamp and fix the wrapping sheet 901, and the first needle 35 is inserted into the needle hole 371 of the lower clamping portion 37 after penetrating through the wrapping sheet 901.

As shown in fig. 13 and 14, the third cylinder 31 drives the fixing device to move along the direction of the long slot 119, and when the cross bar 41 touches the front blocking portion 42, the lower clamping portion 37 rotates under the action of the cross bar 41, and at the same time, the wrapping sheet 901 and the upper clamping portion 36 rotate together.

As shown in fig. 16, when the fixing device moves to the second station M2, the covering skin 901 rotates to a predetermined angle, the second needle 14 moves downward and penetrates into the covering skin of the primary blank 91, and the upper clamp 36 is lifted and moves in the return direction.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. A food blank angle modulation mechanism is characterized by comprising:

a bedplate for supporting the coating leather;

the fixing device is used for fixing the first corner of the wrapping skin at the position of the first station;

the moving driving assembly is connected to the fixing device and used for driving the fixing device to drag the coating leather to move to a second station;

the rotating driving assembly is connected to the fixing device and can drive the fixing device to rotate to a preset angle in the process of dragging the coating skin.

2. The food dough recliner mechanism of claim 1 wherein: the fixing device comprises an upper clamping part and a lower clamping part, wherein a long groove is formed in the bedplate, the first station and the second station are located on the track of the long groove, and the lower clamping part can penetrate through the long groove to be matched with the upper clamping part so as to clamp and fix the cladding leather.

3. The food dough recliner mechanism of claim 2 wherein: last clamping part and be provided with first needle and pinhole respectively on the clamping part down, first needle can insert extremely in the pinhole, thereby make go up clamping part and lower clamping part can be under the drive of removal drive assembly synchronous motion.

4. The food dough recliner mechanism of claim 3 wherein: the platen includes a support portion for supporting the lower clamp portion; the upper clamping part is arranged on the clamping driving assembly, the clamping driving assembly is used for driving the upper clamping part to lift, and the moving driving assembly is used for driving the upper clamping part to move.

5. The food dough recliner mechanism of claim 4 wherein: the upper clamping part and/or the lower clamping part are/is also provided with an air blowing structure.

6. The food dough recliner mechanism of claim 4 wherein: the lower clamping part comprises a supporting block part protruding outwards along the radial direction, and when the lower clamping part is located at the first station, the supporting block part extends out towards the tip of the first corner.

7. The food dough recliner mechanism of any one of claims 1 to 6 wherein: the rotation driving assembly comprises a steering part arranged on the fixing device and a guide part capable of being matched with the steering part, and the guide part is positioned on the moving track of the steering part and can limit and guide the part of the guide part, which is far away from one side of the rotation axis of the guide part.

8. The food dough recliner mechanism of claim 7 wherein: the steering portion includes a cross bar and the guide portion includes a blocking portion.

9. The food dough recliner mechanism of claim 7 wherein: the guide part comprises a guide groove, and the steering part comprises a guide block positioned in the guide groove and a connecting rod, wherein one end of the connecting rod is fixed at the other end of the fixing device, and the connecting rod is provided with the guide block.

10. The food dough recliner mechanism of any one of claims 1 to 6 wherein: a plurality of first stations and a plurality of second stations are arranged on the bedplate in parallel, and correspondingly, a plurality of fixing devices, a plurality of moving driving components and a plurality of rotating driving components are arranged on the bedplate; the tracks of the plurality of fixing devices moving from the first station to the second station are distributed in a divergent mode.

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