CN212754217U - Area props towards skin transport mechanism of face device - Google Patents

Abstract

A punching conveying mechanism with a noodle supporting device comprises a residual noodle recovery belt conveyor and a punching die with a driving function; the front end of the residual surface recovery belt conveyor is provided with a horizontal supporting plate, a belt-driven leather punching die is arranged above the horizontal supporting plate, and the residual surface recovery belt conveyor further comprises a surface supporting device which is adjacent to the belt-driven leather punching die. The face supporting device comprises a base (1) and a turnover frame (2), wherein the base (1) is correspondingly installed on a frame of the surplus face recovery belt conveyor, the turnover frame (2) is hinged to the front of the two bases (1) through a turnover shaft (5), a rotation shaft (3) with a driving function is fixed at the front end of the turnover frame (2), and two friction wheels (4) with felts are installed at the two ends of the rotation shaft (3). The rotating shaft (3) and the residual surface recovery belt conveyor synchronously rotate, and after the dough sheet is output from the dough sheet punching die, the raised edge is flattened through the friction wheel (4), and the dough sheet is continuously conveyed to the next process of the production line through the residual surface recovery belt conveyor. The remaining surface becomes more level and smooth, thereby being convenient for subsequent recovery operation and improving the working efficiency.

Description

Area props towards skin transport mechanism of face device

Technical Field

The utility model relates to the field of food machinery, specifically a take towards skin transport mechanism of face device that props.

Background

The skin punching mechanism is a common machine in the food industry and is generally used for making skins of food. When the dough making machine works, the complete dough cover is output from the dough pressing machine, after passing through the dough cover punching die on the dough cover punching mechanism, the formed dough cover is conveyed to a subsequent stuffing filling production line, and the rest dough cover is conveyed to the opposite residual dough recovery device. Because dash skin mould can cut the face skin that originally levels when dashing the skin, have certain extrusion force for the face skin. The phenomenon of curling and folding exists because of the effect of this power to soft face skin, and the recovery part that directly carries the assembly line like this can influence follow-up effect to the surplus face processing, has increased the work degree of difficulty, has reduced work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a take towards skin transport mechanism of face device that props has solved and has wrinkled after punching a hole, leads to follow-up transport and the unsmooth problem of processing because of not spreading out.

In order to solve the technical problem, the utility model provides a technical scheme does: a punching conveying mechanism with a noodle supporting device comprises a residual noodle recovery belt conveyor and a punching die with a driving function; the front end of the residual surface recovery belt conveyor is provided with a horizontal supporting plate, a belt-driven leather punching die is arranged above the horizontal supporting plate, and the residual surface recovery belt conveyor also comprises a surface supporting device which is adjacent to the belt-driven leather punching die; the face supporting device comprises a base and a turnover frame, the base is correspondingly arranged on a frame of the surplus face recovery belt conveyor, the turnover frame is hinged in front of the two bases, a rotating shaft with a driving device is fixed at the front end of the turnover frame, and two friction wheels are arranged at two ends of the rotating shaft; the rear end of the roll-over stand is provided with a roll-over shaft hinged on the base.

The driving device comprises a third synchronous belt wheel arranged at two ends of the rotating shaft and a second synchronous belt wheel arranged at two ends of the overturning shaft, and the second synchronous belt is wound on the second synchronous belt wheel and the third synchronous belt wheel. And a driven gear is arranged below the second synchronous belt wheel and is meshed with a driving gear on the surplus belt recovery belt conveyor. The driven gear internally comprises a first synchronous pulley and a first shaft; the first timing belt is wound around the first timing pulley and the second timing pulley.

Two adjusting bolts are respectively arranged on the inner side of the roll-over stand. The adjusting bolt can be used for manually controlling the height of the friction wheel, and the dough supporting device is adjusted according to the thickness of the dough cover and the specific situation of folds.

And a spacer bush is arranged inside the second synchronous belt wheel to separate the first synchronous belt from the second synchronous belt. On the one hand, the abrasion of the synchronous belts is reduced, and on the other hand, the synchronous belts with different motion directions can be sleeved on one wheel, so that the spatial position of the mechanism is saved.

The base is fixedly connected with the frame of the surplus surface recovery belt conveyor through screws. The position of the base can be moved according to the working condition, and the third synchronous pulley is fixed by a screw after the position of the third synchronous pulley is determined.

Two positioning shafts arranged side by side are further arranged between the overturning shaft and the rotating shaft, and two ends of each positioning shaft are fixed on the overturning frame. The positioning shaft arrangement enhances the strength of the roll stands and determines the distance between the roll stands.

And the friction wheel is fixedly connected with a felt. Preferably, the felt with the inclined opening is adhered to the surface of the friction wheel. The friction wheel is driven by the rotating shaft to rotate, and the felt on the wheel smoothes the folded residual surface edge.

A baffle is arranged on one outer side of the third synchronous belt pulley, and the third synchronous belt pulley is closer to a leather punching die, so that sundries can be prevented from falling into the third synchronous belt pulley to influence the operation of the machine; the other outer side is fixedly connected with a handle, and when the device does not work, the rotating shaft and the friction wheel are far away from the skin punching die through the handle overturning and supporting device, so that the device is convenient to replace and maintain.

When the device is used, the surplus surface recovery belt conveyor and the belt-driven leather punching die are installed, then the overturning frames are installed on the leather punching conveying plate of the surplus surface belt conveyor, and two positioning shafts are installed between the overturning frames. And a driving gear welded with a half coupling is arranged on the outer side surface of the surplus surface recovery belt conveyor on one side provided with the servo motor and is connected with the servo motor for driving the surplus surface recovery belt conveyor. Therefore, the whole noodle supporting device can be arranged on the noodle recovering belt conveyor, and the servo motor drives the noodle supporting device and the noodle supporting device to move simultaneously. A driven gear is arranged on one side of the driving gear, which is close to the skin punching die, and is meshed with the driving gear; the driven gear is centrally provided with a first shaft and a first synchronous belt wheel. The first shaft transmits the rotation of the driven gear to the first synchronous belt wheel, the second synchronous belt wheel is arranged at the rear end of the turnover frame above the first synchronous belt wheel, the first synchronous belt is wound on the first synchronous belt wheel and the second synchronous belt wheel, and a turnover shaft is connected between the left second synchronous belt wheel and the right second synchronous belt wheel. A spacer bush is inserted into the center of the second synchronous pulley, a third synchronous pulley is installed at the front end of the roll-over stand, and a second synchronous belt is wound on the second synchronous pulley and the third synchronous pulley. A rotating shaft is arranged between the left third synchronous belt wheel and the right third synchronous belt wheel, two friction wheels with felts are installed at two ends of the rotating shaft, and the rotating shaft drives the friction wheels to rotate. When the residual face passes through, the felt on the friction wheel is in contact with the surface of the edge of the face skin, and after the face skin with the wrinkled edge due to skin punching is flattened, the residual face recovery belt conveyor continues to run until the next process of the production line.

Compared with the prior art, the utility model has the substantive characteristics that: the friction wheel that sets up two parcel felts smooths the face skin that takes place the fold after dashing the skin to install the friction wheel in the axis of rotation, along with axis of rotation synchronous revolution, let the remaining face after the processing level and more smooth, subsequent transportation and processing of being convenient for. The punching conveying plate as the base is matched with the residual surface recovery belt conveyor, so that the operation space of the whole machine is saved; a servo motor of the residual noodle recovery belt conveyor is used for providing power to drive the noodle supporting device to move, and synchronous operation of the upper device and the lower device is guaranteed.

Drawings

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Fig. 1 is a schematic structural view of the noodle supporting device of the skin-punching conveying mechanism with the noodle supporting device of the present invention.

Reference numbers in the figures: 1. the automatic turnover mechanism comprises a base, a turnover frame 2, a rotation shaft 3, a friction wheel 4, a turnover shaft 5, a third synchronous belt wheel 6, a second synchronous belt wheel 7, a second synchronous belt wheel 8, a second synchronous belt 9, a driven gear 10, a first synchronous belt wheel 11, a first shaft 12, a first synchronous belt 13, an adjusting bolt 14, a spacer bush 15, a positioning shaft 16, a felt 17, a baffle plate 18 and a turnover handle.

Detailed Description

A leather punching conveying mechanism with a noodle supporting device comprises a residual noodle recovery belt conveyor and a leather punching die with a driving function. The front end of the residual surface recovery belt conveyor is provided with a horizontal supporting plate, a belt-driven leather punching die is arranged above the horizontal supporting plate, and the residual surface recovery belt conveyor further comprises a surface supporting device which is adjacent to the belt-driven leather punching die.

As shown in fig. 1, a base 1 of a face supporting device is mounted on a frame of a surplus face recovery belt conveyor, a roll-over stand 2 is hinged in front of two bases 1, a rotating shaft 3 with a driving device is fixed at the front end of the roll-over stand 2, and two friction wheels 4 are mounted at two ends of the rotating shaft 3; the rear end of the roll-over stand 2 is provided with a roll-over shaft 5; two positioning shafts 12 are arranged between the roll-over stands 2. Base 1 and surplus recovery belt machine screw fixation, operating personnel can be according to the position condition selection of taking the driven mould that dashes the skin and install the position of this face device that props, when finding axis of rotation 3 and dashing the place that the skin mould does not influence each other, with parts such as screw fixation base 1, the trip shaft 5 of packing into, axis of rotation 3 of installing in proper order again.

And a driving gear welded with a half coupling is arranged on the outer side surface of the surplus surface recovery belt conveyor on one side provided with the servo motor, and the half coupling is matched with the half coupling on the servo motor. A driven gear 9 is arranged on one side of the driving gear, which is close to the skin punching die, and is meshed with the driving gear; a first shaft 11 and a first synchronous pulley 10 are centrally mounted on the driven gear 9.

The first shaft 11 transmits the rotation of the driven gear 9 to the first synchronous pulley 10, and the second synchronous pulley 7 is installed at the rear end of the roll-over stand 2 above the first synchronous pulley 10. The first synchronous belt 12 is wound on the first synchronous belt wheel 10 and the second synchronous belt wheel 7, and the middle of the left second synchronous belt wheel 7 and the middle of the right second synchronous belt wheel 7 are connected with a turning shaft 5. A spacer 14 is inserted into the center of a second synchronous pulley 7, a third synchronous pulley 6 is installed at the front end of the roll-over stand 2, a second synchronous belt 8 is wound on the second synchronous pulley 7 and the third synchronous pulley 6, and a first synchronous belt 12 and a second synchronous belt 8 which are different in movement direction are separated by the spacer 14. The middle of the left third synchronous belt wheel 6 and the middle of the right third synchronous belt wheel 6 are provided with a rotating shaft 3, two ends of the rotating shaft 3 are respectively in transition fit with two friction wheels 4, and the rotating shaft 3 drives the friction wheels 4 to rotate.

When the die does not work, the rotating shaft 3 is arranged on the side of the turnover shaft 5 far away from the punching die with the driving function. When the remaining face passes through, the turnover handle 18 is shaken to enable the turnover frame 2 to rotate around the turnover shaft 5, and the friction wheel 4 and the rotating shaft 3 are close to the position of the rear fixing base 1 of the skin punching die with the driving function. Because the servo motor rotates to enable the residual noodle recycling device and the noodle supporting device to move simultaneously, the driving gear drives the driven gear 9 to rotate, and the driven gear 9 enables the first synchronous belt pulley 10 to rotate. The first synchronous pulley 10 and the second synchronous pulley 7 start to move because of the connection of the first synchronous belt 12; the second timing pulley 7 transmits power to the third timing pulley 6 through the second timing belt 8. Thus, the turning shaft 3 in the middle of the third timing pulley 6 rotates, and the friction wheel 4 on the turning shaft 3 also rotates. The felt 16 on the surface of the friction wheel 4 is contacted with the surface of the edge of the dough sheet, and after the dough sheet with the edge wrinkled due to the processing of the dough sheet mold is flattened, the output flat dough sheet continues to run on the residual surface recovery belt conveyor until the next process of the production line.

Preferably, a baffle 17 is arranged on the end face of the third synchronous pulley 6 on the same side as the servo motor, so that sundries are prevented from entering the face supporting device and affecting the operation effect of the machine. The inner side of the roll-over stand 2 is provided with two adjusting bolts 13, and an operator can rotate the adjusting bolts 13 to adjust the height of the friction wheel 4 according to the thickness and the folding degree of the residual dough sheet, so that the roll-over stand is suitable for more working conditions.

Claims (8)

1. A punching conveying mechanism with a noodle supporting device comprises a residual noodle recovery belt conveyor and a punching die with a driving function; the belt feeder front end is retrieved to the surplus is provided with horizontal layer board, and the top of horizontal layer board is installed the driven mould of dashing skin of area, its characterized in that: the dough-supporting device is adjacent to the leather punching die with the driving function; the face supporting device comprises bases (1) and a turnover frame (2), the bases (1) are correspondingly installed on a frame of the surplus face recovery belt conveyor, the turnover frame (2) is hinged in front of the two bases (1), a rotating shaft (3) with a driving device is fixed at the front end of the turnover frame (2), and two friction wheels (4) are installed at two ends of the rotating shaft (3); the rear end of the roll-over stand (2) is provided with a roll-over shaft (5) hinged on the base (1).

2. The skin punching conveying mechanism with the dough supporting device according to claim 1, wherein: the driving device comprises a third synchronous belt wheel (6) arranged at two ends of the rotating shaft (3) and a second synchronous belt wheel (7) arranged at two ends of the overturning shaft (5), and a second synchronous belt (8) is wound on the second synchronous belt wheel (7) and the third synchronous belt wheel (6); a driven gear (9) is arranged below the second synchronous belt wheel (7), and the driven gear (9) is meshed with a driving gear on the surplus recovery belt conveyor; the driven gear (9) internally comprises a first synchronous pulley (10) and a first shaft (11); a first timing belt (12) is wound around the first timing pulley (10) and the second timing pulley (7).

3. The skin punching conveying mechanism with the dough supporting device according to claim 1, wherein: and adjusting bolts (13) are respectively arranged on the inner sides of the roll-over frames (2).

4. The skin punching conveying mechanism with the dough supporting device according to claim 2, wherein: and a spacer bush (14) is arranged in the second synchronous pulley (7) to separate the first synchronous belt (12) from the second synchronous belt (8).

5. The skin punching conveying mechanism with the dough supporting device according to claim 1, wherein: the base (1) is fixedly connected with the frame of the surplus surface recovery belt conveyor through screws.

6. The skin punching conveying mechanism with the dough supporting device according to claim 1, wherein: two positioning shafts (15) arranged side by side are further arranged between the turning shaft (5) and the rotating shaft (3), and two ends of each positioning shaft (15) are fixed on the turning frame (2).

7. The skin punching conveying mechanism with the dough supporting device according to claim 1, wherein: and the friction wheel (4) is fixedly connected with a felt (16).

8. The skin punching conveying mechanism with the dough supporting device according to claim 2, wherein: a blocking piece (17) is arranged on the outer side of one end of the third synchronous belt wheel (6), and a turnover handle (18) is fixedly connected to the outer side of the other end of the third synchronous belt wheel.

Images