CN217049155U - Cake breakfast packaging system - Google Patents

Abstract

The utility model relates to a cake breakfast packaging system. The cake breakfast packaging system comprises a feeding conveying device and a heat-seal packaging device, wherein the heat-seal packaging device is arranged at the downstream of the feeding conveying device, the feeding conveying device comprises a driving part and a plurality of bearing units arranged on the driving part, and the driving part drives the bearing units to convey cakes to a feeding plate of the heat-seal packaging device; the bearing unit comprises a bearing plate and a bearing shaft, the bearing shaft penetrates through the upstream end of the bearing plate and supports the bearing plate on the driving part, a guide part is arranged between the downstream end of the driving part and the feeding plate, and the bearing plate and the feeding plate are arranged to be in a mutually matched fork comb-shaped structure. The utility model has the advantages of strong stability and more sanitation.

Description

Cake breakfast packaging system

Technical Field

The utility model relates to a cake packing technical field especially relates to a cake breakfast packaging system.

Background

At present, in a packaging system for breakfast, a feed conveyor for cakes is provided with a conveying groove extending along the conveying direction for limiting the cakes in the conveying process, and the cakes are easy to rub against the inner wall of the conveying groove in the conveying process, so that the cakes generate scraps. And then after the machine operation a period, produce a large amount of cake piece in the conveyer trough, not only the clearance process is very inconvenient, more importantly leads to the food processing process to have the relatively poor problem of sanitary conditions, is unfavorable for health and environmental protection. Accordingly, the present application provides a pastry breakfast packaging system.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a pastry breakfast packaging system that solves or at least alleviates one or more of the above-mentioned problems and other problems with the prior art.

One aspect of the utility model provides a cake breakfast packaging system, including feeding conveyor and heat-seal packing device, heat-seal packing device sets up the low reaches of feeding conveyor, wherein, feeding conveyor includes drive part and sets up a plurality of bearing unit on drive part, drive part drive bearing unit carry cake to heat-seal packing device's feed plate;

the bearing unit comprises a bearing plate and a bearing shaft, the bearing shaft penetrates through the upstream end of the bearing plate and supports the bearing plate on the driving part, a guide part is arranged between the downstream end of the driving part and the feeding plate, the bearing plate and the feeding plate are arranged to be of a fork comb-shaped structure which is matched with each other, and the guide part enables the bearing plate to move to the lower side of the feeding plate along an inclined track from the upper side of the feeding plate when passing through the feeding plate and places cakes on the feeding plate.

According to the utility model discloses a cake breakfast packaging system, optionally, the drive part sets up to a pair of synchronous conveyer belt, and supports respectively bear the both ends of axle.

According to the utility model discloses a cake breakfast packaging system, optionally, the outside of synchronous conveyer belt is provided with the guide rail, the both ends that bear the weight of the axle insert respectively in the guide rail of corresponding side, and slide in the guide rail.

According to the utility model discloses a cake breakfast packaging system, optionally, the middle part that bears the weight of the axle is fixed with the push pedal, the width of push pedal set to with fork pectination structure's clearance cooperatees.

According to the utility model discloses a cake breakfast packaging system, optionally, the guide part includes a pair of guide rail that is the slope setting, a pair of guide rail be in the length direction who bears the axle respectively corresponding to the both ends setting of loading board, the guide rail is used for the tip of loading board passes through, will the direction of loading board below to one side.

According to the utility model discloses a cake breakfast packaging system, optionally, bear the axle and include supporting part and connecting portion, the supporting part is fixed on the synchronous conveyer belt, the support of connecting portion liftable is in on the supporting part.

According to the utility model discloses a cake breakfast packaging system, optionally, be provided with gliding supporting shoe from top to bottom on the supporting part, the end fixing of connecting portion is in on the supporting shoe, just the bottom of supporting shoe with be provided with supporting spring between the supporting part.

According to the utility model discloses a cake breakfast packaging system, optionally, the loading board rotates to set up on the connecting portion, just the loading board with be provided with the support torsional spring between the connecting portion, it is used for keeping to support the torsional spring the loading board is the horizontality.

According to the utility model discloses a cake breakfast packaging system, optionally, the low reaches of guide rail are provided with the baffle that is parallel distribution from top to bottom, the top the upper reaches end of baffle with the low reaches end of guide rail is connected, the both ends of loading board all are provided with the spigot surface, the spigot surface sets to be in the process below during the baffle, by the below the upper reaches end of baffle promotes, makes the loading board rotates downwards.

In accordance with the utility model discloses a cake breakfast packaging system, optionally, the spigot surface is the plane, just the spigot surface sets up to after the loading board rotates downwards, the spigot surface and below the upper surface contact of baffle.

According to the utility model discloses an among the cake breakfast packaging system, bear the weight of the unit through setting up and support the cake and carry it, carry that stability is strong and not rub with feeding conveyor, have difficult production sweeps, environmental protection health's advantage more.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application, are incorporated in and constitute a part of this application. The exemplary embodiments and descriptions of the present application are provided to explain the present application and not to limit the scope of the application. In the drawings:

fig. 1 is a schematic view of an ensemble according to the present invention.

Fig. 2 is an internal schematic view of a feed conveyor according to the present invention.

Fig. 3 is an enlarged view of a portion a of fig. 2 according to the present invention.

Fig. 4 is an enlarged view of a portion B of fig. 2 according to the present invention.

Detailed Description

First of all, it should be noted that the structural composition, characteristics and advantages of the pastry breakfast packaging system in accordance with the present invention will be explained below by way of example, however, all the descriptions should not be used to form any limitation to the present invention.

In this document, the technical terms "first" and "second" are used for distinguishing expression purposes only and are not intended to indicate their order or relative importance. Furthermore, to any single feature described or implicit in the embodiments herein described or shown or implicit in the drawings or any single feature shown or implicit in the drawings, the present invention still allows any combination or deletion between the features (or their equivalents) to continue without any technical obstacles, so that further embodiments according to the present invention should be considered within the scope of the claims herein. In addition, for the sake of simplicity of the drawings, identical or similar parts and features may be indicated in the same drawing only in one or several places.

As shown in fig. 1 to 4, the cake breakfast packaging system of the present invention includes a feeding conveyor 1 and a heat-sealing packaging device 2, the heat-sealing packaging device 2 is disposed at the downstream of the feeding conveyor 1, and the feeding conveyor 1 conveys the cake into the heat-sealing packaging device 2 for packaging.

The infeed conveyor 1 comprises a drive member 11 and a plurality of carrier units 12 arranged on the drive member 11. Specifically, the feeding conveyor 1 moves in a reciprocating manner, a plurality of bearing units 12 are distributed on the feeding conveyor 1 at equal intervals, and each bearing unit 12 is used for supporting one cake. When the feeding conveyor 1 is operated, the cakes are conveyed one by one into the heat-seal packaging device 2 by the respective carrier units 12 and packaged.

The feeding end of the heat-seal packaging device 2 is provided with a feeding plate 21, the cakes are conveyed onto the feeding plate 21 by the corresponding carrying unit 12, and after being conveyed onto the feeding plate 21, the cakes are conveyed onto a packaging film in the hot air packaging device by the feeding conveying device 1 of the heat-seal packaging device 2. The packaging film is through constantly twitching downstream, supports the cake in heat-seal packaging device 2 to at this in-process, heat-seal packaging device 2 encapsulates the packaging film, packs the cake to the packaging film in, with this, can realize the packing to the cake.

The carrying unit 12 includes a carrying plate 121 and a carrying shaft 122, and when the carrying unit 12 carries the cake, the cake is placed on the carrying plate 121. The bearing shaft 122 is disposed through the upstream end of the bearing plate 121 based on the direction of delivering the cakes by the bearing unit 12, and the downstream end of the bearing plate 121 is suspended, and the bearing shaft 122 supports the bearing plate 121 on the driving part 11.

A guide member 3 is arranged between the downstream end of the driving member 11 and the feeding plate 21, and the carrying plate 121 and the feeding plate 21 are arranged in a mutually matched fork comb-like structure. Specifically, with the direction of delivering the cakes by the carrying unit 12 as a reference, the carrying plate 121 and the comb-like structure on the feeding plate 21 are oppositely arranged, so that the carrying plate 121 can be overlapped with the feeding plate 21 without interfering with each other. Wherein, when the guide member 3 makes the carrying plate 121 pass the feeding plate 21, the carrying plate 121 moves along an inclined track from above the feeding plate 21 to below the feeding plate 21, and the cakes are placed on the feeding plate 21. It should be noted that, during the action of the guiding component 3, the carrying plate 121 is matched with the fork comb structure, so that the carrying plate 121 passes through the feeding plate 21, and during the process, the cakes on the carrying plate 121 fall onto the feeding plate 21.

According to the technical scheme, the cake breakfast is kept still on the bearing plate 121 in the process of being conveyed by the bearing unit 12, and does not generate friction with the feeding and conveying device 1 in the process of being conveyed, so that the conveying stability is improved, the deviation caused by the friction with the feeding and conveying device 1 is prevented, the generation of scraps can be prevented, the cake is more environment-friendly and sanitary, meanwhile, the cake is not easy to damage, and the quality of the cake breakfast is improved. Compared with the prior art, when the cake breakfast is conveyed, the cake breakfast slides in the track of the feeding and conveying device 1 in the prior art, the cake breakfast is easy to rub against the side wall of the track, so that scraps are generated, the cake breakfast is extremely unhygienic, meanwhile, the cake is easy to shift, the subsequent packaging effect is influenced, and in addition, the cake is easy to damage, and the quality is influenced.

As one example thereof, the driving member 11 is provided as a pair of synchronous conveyor belts and supports both ends of the bearing shaft 122, respectively. Specifically, the feeding and conveying device 1 further comprises a frame 13, and a pair of synchronous conveying belts are respectively installed on the inner walls of the two sides of the frame 13 and synchronously rotate. Of course, in other embodiments, the driving member 11 may be provided as a pair of synchronous conveyor chains, and a chain and a sprocket may be used instead of the synchronous conveyor chains, which is not limited herein.

As one example, the outer side of the synchronous conveyor is provided with a guide rail 4, and both ends of the bearing shaft 122 are respectively inserted into the guide rails 4 of the corresponding sides and slide in the guide rails 4. Specifically, the opposite ends of the two guide rails 4 are open, and the end of the bearing shaft 122 extends into the guide rails 4 from the opening. The shape of the guide rail 4 is adapted to the shape of the synchronous conveyor belt. The guide rail 4 is used for preventing the synchronous conveying belt from being stressed and bent, so that the bearing plate 121 deflects downwards, and the stability is improved.

As one of the cases, a push plate 123 is fixed to the middle of the bearing shaft 122, and the width of the push plate 123 is set to fit the gap of the interdigitated structure. When the carrying unit 12 conveys breakfast pastry, the push plate 123 is located behind the breakfast pastry. On the one hand, during the cake conveying process, the cake moves backwards due to inertia generation. On the other hand, when the cake breakfast is placed on the bearing plate 121, the rear end face of each cake contacts the push plate 123, so that the positions of all the cakes are uniform when entering the feeding plate 21, the uniformity of the front and rear positions of the following cakes entering the packaging film is facilitated, and the packaging effect is improved.

As an example, the guide member 3 includes a pair of guide rails 31 disposed obliquely, the pair of guide rails 31 are disposed corresponding to both ends of the carrier plate 121 in a longitudinal direction of the bearing shaft 122, and the guide rails 31 are used for guiding the carrier plate 121 obliquely downward when the end portion of the carrier plate 121 passes through. Specifically, in the implementation process, two ends of the bearing plate 121 located on one side of the bearing shaft 122 extend to two sides respectively to form the columnar portions 124, and in the transporting direction of the cakes, the two columnar portions 124 are respectively arranged in one-to-one correspondence with the two guide rails 31, and the inclined state of the guide rails 31 is set in a state that the height of the upstream end is greater than that of the downstream end. In the process that the loading plate 121 passes through the guide rail 31, the column parts 124 enter the lower surfaces of the guide rails 31 of the corresponding sides, respectively. In this process, the guide rail 31 guides the corresponding columnar portion 124 so that the carrying plate 121 has a movement process obliquely downward, and in this process, the carrying plate 121 moves from above to below the feed plate 21 in the height direction, thereby achieving the placement of the confectionery from top to bottom onto the feed plate 21.

Further, the bearing shaft 122 includes a support portion 1221 and a connecting portion 1222, the support portion 1221 is fixed on the synchronous conveyor belt, and the connecting portion 1222 is supported on the support portion 1221 in a liftable manner. Specifically, the outer end of the supporting portion 1221 extends into the guide rail 4 on the corresponding side. Under the action of the guide rail 31, the carrier plate 121 lowers the connecting portion 1222 on the supporting portion 1221, and the carrier plate 121 completes the obliquely downward movement process to pass through the feeding plate 21 in cooperation with the conveying stroke of the synchronous conveyor belt.

Further, a support slider 1223 which can slide up and down is provided on the support portion 1221, an end portion of the connecting portion 1222 is fixed to the support slider 1223, and a support spring 1224 is provided between a bottom portion of the support slider 1223 and the support portion 1221. Specifically, in the initial state, the support spring 1224 causes the bearing shaft 122 and the bearing plate 121 to be located at their highest positions in the height direction by providing a supporting force to the support slider 1223. The supporting spring 1224 is compressed when the carrier plate 121 is moved obliquely downward by the guide rail 31. Until the carrier plate 121 moves to below the feed plate 21 and the carrier plate 121 is separated from the guide rail 31, the support springs 1224 are gradually restored and allow the carrier plate 121 and the carrier shaft 122 to be restored.

Further, the loading plate 121 is rotatably disposed on the connecting portion 1222, and a supporting torsion spring 125 is disposed between the loading plate 121 and the connecting portion 1222, the supporting torsion spring 125 is used for keeping the loading plate 121 in a horizontal state. In the initial state, the torsion spring 125 is supported to keep the carrier plate 121 in a horizontal state, and to support the carrier plate 121 and the breakfast pastry.

As one example, the guide rail 31 is provided with guide plates 5 horizontally arranged up and down at the downstream, the upstream end of the upper guide plate 5 is connected to the downstream end of the guide rail 31, the carrying plate 121 is provided with guide surfaces 1211 at both ends, and the guide surfaces 1211 are arranged to be pushed by the upstream end of the lower guide plate 5 when passing through the lower guide plate 5, so that the carrying plate 121 rotates downward. Specifically, the guide surface 1211 may be provided on a surface of the columnar portion 124, and in an initial state, the columnar portion has an inclined shape in which a top portion is inclined toward a downstream direction. When the guide surface 1211 passes through the guide plate 5, the guide surface 1211 is blocked by the upstream end of the lower guide plate 5, and at this time, the cylindrical part 124 is made to have a rotation process of the top end to the downstream, and the downstream end of the carrying plate 121 is made to rotate downward by the cylindrical part 124. And the rotating process of the bearing plate 121 is located after passing through the feeding plate 21, with this process, the distance that the downstream end of the bearing plate 121 extends outward from the feeding conveyor 1 after passing through the feeding plate 21 can be reduced, and when the bearing plate 121 circularly moves along with the synchronous conveyor, the space required by the bearing plate 121 between the synchronous conveyor and the heat-seal packaging device 2 is reduced, thereby reducing the interference of the bearing plate 121 on the heat-seal packaging device 2.

Further, the guide surface 1211 is a plane surface, and the guide surface 1211 is provided such that after the carrier plate 121 is rotated downward, the guide surface 1211 is in contact with the upper surface of the lower guide plate 5, and at this time, the upper surface of the pillar portion 124 is in contact with the lower surface of the upper guide plate 5.

The double-sided photovoltaic module according to the utility model is explained in detail above only by way of example. These examples are provided only for illustrating the principles and embodiments of the present invention, and are not intended to limit the present invention. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. Accordingly, all equivalent embodiments are intended to fall within the scope of the present invention and are defined by the various claims of the present invention.

Claims (10)

1. A cake breakfast packaging system, comprising an input conveying device and a heat-seal packaging device, wherein the heat-seal packaging device is arranged at the downstream of the input conveying device, wherein the input conveying device comprises a driving part and a plurality of bearing units arranged on the driving part, and the driving part drives the bearing units to convey cakes onto an input plate of the heat-seal packaging device;

the bearing unit comprises a bearing plate and a bearing shaft, the bearing shaft penetrates through the upstream end of the bearing plate and supports the bearing plate on the driving part, a guide part is arranged between the downstream end of the driving part and the feeding plate, the bearing plate and the feeding plate are arranged to be of a fork comb-shaped structure which is matched with each other, and the guide part enables the bearing plate to move to the lower side of the feeding plate along an inclined track from the upper side of the feeding plate when passing through the feeding plate and places cakes on the feeding plate.

2. The breakfast pastry packaging system as claimed in claim 1, wherein said drive means is provided as a pair of synchronous conveyor belts and supports the ends of said carrier shaft, respectively.

3. The pastry breakfast packaging system of claim 2, wherein the outside of the synchronous conveyor belt is provided with a guide rail, and two ends of the bearing shaft are respectively inserted into the guide rails on the corresponding sides and slide in the guide rails.

4. A breakfast pastry packing system as claimed in claim 1, wherein a push plate is fixed to the middle of said bearing shaft, said push plate having a width configured to fit the gap of said fork comb structure.

5. The pastry breakfast packaging system as claimed in claim 2, wherein said guide member comprises a pair of guide rails disposed obliquely, said pair of guide rails being disposed corresponding to both ends of said carrier plate in the longitudinal direction of said carrier shaft, respectively, said guide rails being adapted to guide said carrier plate obliquely downward when the end portion of said carrier plate passes therethrough.

6. The breakfast system of claim 5, wherein the carrier shaft comprises a support portion fixed to the conveyor belt and a connecting portion that is elevatably supported on the support portion.

7. The breakfast pastry packaging system as claimed in claim 6, wherein the support portion is provided with a support slider capable of sliding up and down, the end of the connecting portion is fixed to the support slider, and a support spring is provided between the bottom of the support slider and the support portion.

8. The pastry breakfast packaging system of claim 7, wherein the carrying plate is rotatably disposed on the connecting portion, and a supporting torsion spring is disposed between the carrying plate and the connecting portion for keeping the carrying plate in a horizontal state.

9. A breakfast pastry package as claimed in claim 8, wherein said guides are provided with guide plates disposed in parallel up and down downstream, the upstream end of the upper guide plate being connected to the downstream end of the guide, and the carrier plate is provided at both ends with guide surfaces arranged to be pushed by the upstream end of the lower guide plate as it passes the lower guide plate, so that the carrier plate rotates downwardly.

10. A breakfast pastry packaging system as claimed in claim 9 wherein the guide surface is planar and is arranged to contact the upper surface of the underlying guide plate after the carrier plate has been rotated downwardly.

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