CN211721679U - Continuous automatic tower of proofing - Google Patents

Abstract

The utility model belongs to the technical field of food processing production. A continuous automatic proofing tower comprises a proofing chamber, a product conveying component, a lifting component, a descending component and a pushing component, wherein a conveying feeding hole and a conveying discharging hole are formed in the lower portion of the proofing chamber; the lifting assembly is arranged in the proofing chamber and is used for sequentially lifting the product trays on the first conveying assembly; a drop assembly disposed within the proofing chamber and configured to receive a product tray on the lift assembly; a horizontal pushing assembly is disposed on top of the lifting assembly and the lowering assembly and is used to push the product trays in the lifting assembly into the lowering assembly. This application can realize proofreading wheaten food, realizes that production efficiency and proofreading technology's coordination is unanimous, satisfies the automated production's of equipment demand, and overall structure's design not only makes the utilization ratio of inner space higher, has reduced the occupation space area of whole equipment.

Description

Continuous automatic tower of proofing

Technical Field

The utility model belongs to the technical field of food processing production, concretely relates to continuous automatic tower that proofs.

Background

The cooked wheaten food such as steamed bread, steamed stuffed bun and the like is a daily main food for people, and with the development of society and the acceleration of life rhythm, various foods in diet of people tend to be produced automatically and professionally in high efficiency, so that higher requirements are provided for aspects such as sanitary standards, production environment, production efficiency, automation degree and the like in the production process, and higher requirements are provided for the quality and automation degree of products.

During the proofing process, the wheaten food is shaped and then sent into a proofing chamber for proofing, wherein the proofing temperature is controlled to be about 35-40 ℃, the time is generally 30-60 minutes, the relative humidity is 80-90%, and the volume after proofing is preferably increased to be two times of that before proofing. In the proofing stage, the time of the production processing of the early-stage production equipment and the time of the subsequent steaming process are balanced and adjusted, and on the other hand, the time is also optimized for the production process of the bread and the production efficiency of the whole equipment, so that how to ensure the maximization of the production efficiency and the coordination with the proofing and steaming process are the technical problems to be solved by the application.

Disclosure of Invention

The utility model discloses the purpose is to the problem that above-mentioned exists with not enough, provides a continuous automatic tower of proofreading, and it can realize proofreading to wheaten food, realizes production efficiency and proofreading the harmonious unanimity of technology, satisfies the automated production's of equipment demand, and overall structure's design not only makes the utilization ratio of inner space higher, has reduced the occupation space area of whole equipment.

In order to realize the purpose, the adopted technical scheme is as follows:

a continuous automatic proofing tower comprising:

the fermentation chamber is provided with a conveying feed inlet and a conveying discharge outlet at the lower part;

the product conveying assembly comprises a first conveying assembly corresponding to the conveying feed port and a second conveying assembly corresponding to the conveying discharge port;

the lifting assembly is arranged in the fermentation chamber and used for sequentially lifting the product trays on the first conveying assembly, and the lower part of the lifting assembly corresponds to the conveying feed inlet and the first conveying assembly;

the descending assembly is arranged in the fermentation chamber and used for receiving the product tray on the lifting assembly and lowering the product tray onto the second conveying assembly, and the lower part of the descending assembly corresponds to the conveying discharge port and the second conveying assembly; and

a horizontal pushing assembly disposed on top of the lifting assembly and the lowering assembly and adapted to push the product trays in the lifting assembly into the lowering assembly.

According to the utility model discloses continuous automatic tower of proofreading, preferably, promote the subassembly with the decline subassembly all includes:

a support frame;

two groups of chain wheels correspondingly arranged at two sides of the product conveying component;

the conveying chains are arranged on the corresponding chain wheels in a matching manner, at least two conveying chains are correspondingly arranged on the same side of the supporting frame, and supporting plates are arranged on the corresponding conveying chains at intervals; and

and the lifting driving motor is in transmission connection with the chain wheel.

According to the utility model discloses continuous automatic tower of proofreading, preferably, be provided with 1~3 stations of placing the product tray on the singly group of support layer board of promotion subassembly, the station number of placing the product tray on the singly group of support layer board on the decline subassembly does 1~4 times of station number on the singly group of support layer board in the promotion subassembly.

According to the utility model discloses continuous automatic tower of proofreading, preferably, the single group of lifting unit props and is provided with 2 stations of placing the product tray on the layer board, the single group of descending unit props and is provided with 4, 6 or 8 stations of placing the product tray on the layer board.

According to the utility model discloses continuous automatic tower of proofreading, preferably, the tip of propping the layer board is provided with into position hem section.

According to the utility model discloses continuous automatic tower of proofreading, preferably, the monoblock the conveyor chain middle part is provided with spacing backup pad, spacing backup pad supports with the inboard laminating of conveyor chain.

According to the utility model discloses continuous automatic tower of proofreading, preferably, the flat push subassembly includes:

a push plate; and

the pushing driving part drives the pushing plate to horizontally reciprocate on the tops of the lifting assembly and the descending assembly.

According to the continuous automatic fermentation tower of the utility model, preferably, the pushing driving part is an electric push rod; or

The pushing driving part is a hydraulic cylinder; or

The pushing driving part is an air cylinder; or

The propelling movement drive division includes multiunit conveying chain, sprocket and propelling movement driving motor that the level set up, the propelling movement board sets up on the conveying chain.

According to the utility model discloses continuous automatic tower of proofreading, preferably, first conveyor assembly with second conveyor assembly all includes:

a carriage;

the chain wheels are arranged on the conveying frame and are in two rows;

the product trays are supported on the two rows of conveying chains and move along with the conveying chains; and

and a conveying driving motor.

According to the utility model discloses continuous automatic tower of proofreading preferably, still includes control system, control system controls each subassembly action.

By adopting the technical scheme, the beneficial effects are as follows:

the utility model has the advantages of reasonable design, it can realize proofreading the wheaten food, realizes that production efficiency and proofreading the coordination of technology are unanimous, satisfies the automated production's of equipment demand, and overall structure's design not only makes the utilization ratio of inner space higher, has reduced the occupation space area of whole equipment, has reduced the fault rate of equipment moreover, has optimized the transmission structure, is more convenient for make whole structure motion synchronous, avoids the emergence of chuck problem.

The product trays are compactly arranged in a stacked mode through the conveying chains, the space can be fully utilized, the arrangement number of the product trays in the proofing chamber is increased, the proofing time and the production efficiency are more conveniently unified, the product trays can be more conveniently turned over due to the design of the edge folding sections in the positions, and the phenomenon of clamping is avoided; due to the structural design of the lifting assembly, the descending assembly and the horizontal pushing assembly, the structure of the lifting assembly, the descending assembly and the horizontal pushing assembly is more convenient to synchronize and control, the failure rate is low, and the matching performance is better; the utility model provides a design of spacing backup pad can avoid the not hard up problem emergence that leads to counterpointing inaccurately or the product tray drops that leads to of carrying the chain, has improved its stability.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments of the present invention will be briefly described below. The drawings are intended to depict only some embodiments of the invention, and not all embodiments of the invention are limited thereto.

Fig. 1 is a schematic front view of a continuous automatic proofing tower according to an embodiment of the present invention.

Fig. 2 is a schematic top view of a continuous automatic proofing tower according to an embodiment of the present invention.

Fig. 3 is a schematic side view of a continuous automatic proofing tower according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a lifting assembly or a lowering assembly according to an embodiment of the present invention.

Number in the figure:

100 is a fermentation chamber, 101 is a conveying feed inlet, and 102 is a conveying discharge outlet;

210 is a first conveying component, 220 is a second conveying component;

310 is a lifting component, 311 is a conveying chain, 312 is a chain wheel, 313 is a lifting driving motor, 314 is a supporting plate, 315 is a positioning folding edge section, 316 is a supporting frame, 320 is a descending component, 330 is a horizontal pushing component, 331 is a pushing plate, and 340 is a limiting supporting plate;

400 is a product tray.

Detailed Description

The embodiments of the present invention will be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the invention are shown. Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art.

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for describing various elements of the present invention, and do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

It should be noted that when an element is referred to as being "connected," "coupled," or "connected" to another element, it can be directly connected, coupled, or connected, but it is understood that intervening elements may be present therebetween; i.e., positional relationships encompassing both direct and indirect connections.

It should be noted that the use of the terms "a" or "an" and the like do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items.

It should be noted that terms indicating orientation or positional relationship such as "upper", "lower", "left", "right", and the like, are used only for indicating relative positional relationship, which is for convenience of describing the present invention, and not that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation; when the absolute position of the object to be described is changed, the relative positional relationship may also be changed accordingly.

Referring to fig. 1-4, the present application discloses a continuous automatic proofing tower, comprising a proofing chamber 100, a product conveying assembly, a lifting assembly 310, a descending assembly 320 and a pushing assembly 330, wherein a conveying inlet 101 and a conveying outlet 102 are arranged at the lower part of the proofing chamber 100; the product conveying assembly comprises a first conveying assembly 210 corresponding to the conveying feed inlet and a second conveying assembly 220 corresponding to the conveying discharge outlet; the lifting assembly is arranged in the proofing chamber 100 and is used for sequentially lifting the product trays on the first conveying assembly 210, and the lower part of the lifting assembly 310 corresponds to the conveying feed inlet 101 and the first conveying assembly 210; the descending assembly 320 is used for receiving the product tray 400 on the lifting assembly 310 and lowering the product tray 400 onto the second conveying assembly 220, and the lower part of the descending assembly 320 corresponds to the conveying discharge port 102 and the second conveying assembly 220; a horizontal pushing assembly 330 is disposed on top of the lifting assembly 310 and the lowering assembly 320 and is used to push the product trays 400 in the lifting assembly 310 into the lowering assembly 320.

In the structure, the wheaten food is placed in the product tray and conveyed into the proofing chamber through the first conveying assembly, the product tray is conveyed to the corresponding station at the lower part of the lifting assembly, then is sequentially lifted by the lifting assembly and is arranged in the lifting assembly in a stacking manner, so that the arrangement and upward lifting of product pictures are realized, after the product tray is lifted to the upper end part, the horizontal pushing assembly is used for transversely pushing the product tray on the station at the uppermost part, and the product tray is pushed to the station corresponding to the descending assembly; after the product trays are all pushed into the stations corresponding to the descending assemblies, the descending assemblies move downwards for a stroke, and the product trays in the stations at the lowest parts of the descending assemblies are placed in the second conveying assemblies and conveyed out of the proofing chamber to perform the subsequent steaming process.

In this embodiment, each of the lifting assembly and the lowering assembly includes a supporting frame 316, two sets of chain wheels 312 correspondingly disposed at two sides of the product conveying assembly, a conveying chain 311 and a lifting driving motor 313, the conveying chains 311 are disposed on the corresponding chain wheels 312 in a matching manner, at least two conveying chains 311 are disposed on the same side of the supporting frame 316 in a corresponding manner, the conveying chains are vertically circulated, supporting plates 314 are disposed on the corresponding conveying chains 311 at intervals in a vertical direction, an entering folding edge section 315 is disposed at an end portion of each supporting plate 314, a conveying chain section near the first conveying assembly or the second conveying assembly on a single conveying chain is a first section, and a principle that the first conveying assembly or the second conveying assembly is a second section, so that entering folding edge sections at two ends of the supporting plate at a position where the conveying chains run to the first section are in a state of being folded downwards, which is more convenient for feeding the product tray, chuck is avoided; the lifting driving motor 313 is in transmission connection with the chain wheel 312.

In the actual design process, according to the difference of the process, 1-3 stations for placing product trays are arranged on the single group of supporting plates 314 of the lifting assembly 310, that is, two product trays 400 can be placed between each group of supporting plates 314, each group of supporting plates 314 consists of two corresponding supporting plates arranged on the conveying chains positioned at two sides of the product conveying assembly, so that the supporting plates 314 are supported at the bottoms of two sides of the product trays, and the number of the work stations for placing the product trays on the single group of supporting plates on the lowering assembly is 1-4 times that of the work stations on the single group of supporting plates in the lifting assembly.

In order to ensure the synchronous motion of each chain wheel and chain in the lifting assembly or the descending assembly, the corresponding chain wheel 312 in each group of conveying chains 311 is driven by a first synchronous shaft, and the first synchronous shafts in the two groups of conveying chains 311 are driven by a second synchronous shaft, as shown in the figure, the direction-changing transmission is realized by a direction-changing gear box, and the driving part of the direction-changing gear box is a driving motor; in the above structure, in order to ensure the stability of the product tray 400, the inner side of the conveying chain is provided with the limiting supporting plate 340, which can play a role of inner side jacking, so that the problem that the conveying chain 311 is bent towards the inner side to cause the product tray to fall or to be misplaced is avoided.

Preferably, in this embodiment, 2 stations for placing the product trays are disposed on a single group of supporting pallets of the lifting assembly, and 4, 6, or 8 stations for placing the product trays are disposed on a single group of supporting pallets of the corresponding lowering assembly, and according to the production efficiency, the proofing time, and the limitations of the subsequent processes, 6 stations for placing the product trays are disposed on a single group of supporting pallets of the lowering assembly of the present application, that is, two product trays can be placed on each layer of the lifting assembly, and 6 product trays can be placed on each layer of the lowering assembly.

In order to ensure the stability of the product tray, a limiting support plate 340 is arranged in the middle of the single conveying chain, and the limiting support plate 340 is attached to and supported by the inner side of the conveying chain.

The horizontal pushing assembly in the embodiment comprises a pushing plate 331 and a pushing driving portion, the pushing assembly can be supported at the tops of a lifting assembly and a descending assembly by arranging a horizontal pushing frame, when a gap exists between the lifting assembly 310 and the descending assembly 320, a section of supporting platform can be arranged to support the gap between supporting plates of the lifting assembly and the descending assembly, and the pushing driving portion drives the pushing plate to horizontally reciprocate at the tops of the lifting assembly and the descending assembly.

The structure of the pushing driving part can be various, such as an electric push rod, a hydraulic cylinder, an air cylinder, a screw rod nut, a gear rack and the like; the utility model provides a propelling movement drive division includes multiunit conveying chain 311, sprocket 312 and the propelling movement driving motor that the level set up, propelling movement board 331 sets up on the conveying chain 311 that corresponds, through the reciprocating motion of conveying the chain, realizes resetting of propelling movement board.

The first conveying assembly 210 and the second conveying assembly 220 in this embodiment each include a conveying frame, a sprocket arranged on the conveying frame, a conveying chain 311 arranged on the sprocket, and a conveying driving motor, and the sprockets are two rows; the product tray is supported on the two rows of conveying chains and moves along with the conveying chains; the first conveying assembly and the second conveying assembly can also be in other forms, such as a belt conveyor, a supporting roller table and other horizontal conveying mechanisms.

In addition, because the action to each part needs to be coordinated and controlled, and fix a position the turnover in-process of product tray, consequently this application still includes control system, and it can adopt PLC control or single chip microcomputer control, fixes a position and can adopt to set up the locating piece backstop and fix a position, also can adopt the sensor to detect and fix a position.

While the above description has described in detail the preferred embodiments for carrying out the invention, it should be understood that these embodiments are presented by way of example only, and are not intended to limit the scope, applicability, or configuration of the invention in any way. The scope of the invention is defined by the appended claims and equivalents thereof. Many modifications may be made to the foregoing embodiments by those skilled in the art in light of the teachings of the present disclosure, and such modifications are intended to be within the scope of the present disclosure.

Claims (10)

1. A continuous automatic proofing tower, comprising:

the fermentation chamber is provided with a conveying feed inlet and a conveying discharge outlet at the lower part;

the product conveying assembly comprises a first conveying assembly corresponding to the conveying feed port and a second conveying assembly corresponding to the conveying discharge port;

the lifting assembly is arranged in the fermentation chamber and used for sequentially lifting the product trays on the first conveying assembly, and the lower part of the lifting assembly corresponds to the conveying feed inlet and the first conveying assembly;

the descending assembly is arranged in the fermentation chamber and used for receiving the product tray on the lifting assembly and lowering the product tray onto the second conveying assembly, and the lower part of the descending assembly corresponds to the conveying discharge port and the second conveying assembly; and

a horizontal pushing assembly disposed on top of the lifting assembly and the lowering assembly and adapted to push the product trays in the lifting assembly into the lowering assembly.

2. The continuous automatic proofing tower according to claim 1, wherein the lifting assembly and the lowering assembly each comprise:

a support frame;

two groups of chain wheels correspondingly arranged at two sides of the product conveying component;

the conveying chains are arranged on the corresponding chain wheels in a matching manner, at least two conveying chains are correspondingly arranged on the same side of the supporting frame, and supporting plates are arranged on the corresponding conveying chains at intervals; and

and the lifting driving motor is in transmission connection with the chain wheel.

3. The continuous automatic proofing tower according to claim 2, wherein 1-3 stations for placing product trays are arranged on the single-group supporting pallet of the lifting assembly, and the number of stations for placing product trays on the single-group supporting pallet on the descending assembly is 1-4 times that of stations on the single-group supporting pallet in the lifting assembly.

4. A continuous automatic proofing tower according to claim 3, wherein 2 product tray placing stations are provided on the single set of support pallets of the lifting assembly, and 4, 6 or 8 product tray placing stations are provided on the single set of support pallets of the lowering assembly.

5. A continuous automatic proofing tower according to claim 2, wherein the end of the brace plate is provided with a docking hem section.

6. The continuous automatic proofing tower according to claim 2, wherein a limiting support plate is arranged in the middle of the single conveying chain and is attached to and supported by the inner side of the conveying chain.

7. The continuous automatic proofing tower of claim 1, wherein the horizontal pushing assembly comprises:

a push plate; and

the pushing driving part drives the pushing plate to horizontally reciprocate on the tops of the lifting assembly and the descending assembly.

8. The continuous automatic proofing tower of claim 7, wherein the pushing driving part is an electric push rod; or

The pushing driving part is a hydraulic cylinder; or

The pushing driving part is an air cylinder; or

The propelling movement drive division includes multiunit conveying chain, sprocket and propelling movement driving motor that the level set up, the propelling movement board sets up on the conveying chain.

9. The continuous automatic proofing tower according to claim 1, wherein the first conveyor assembly and the second conveyor assembly each comprise:

a carriage;

the chain wheels are arranged on the conveying frame and are in two rows;

the product trays are supported on the two rows of conveying chains and move along with the conveying chains; and

and a conveying driving motor.

10. The continuous automatic proofing tower of claim 1, further comprising a control system that controls the actions of the components.

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