CN220916363U

CN220916363U - Continuous frying production equipment

Info

Publication number: CN220916363U
Application number: CN202322782478.1U
Authority: CN
Inventors: 肖红明; 王德勇; 陈立涛; 王维
Original assignee: Kunshan Research & Development Center Of Uni President China Investment Co ltd; Uni President Enterprises China Investment Co Ltd
Current assignee: Kunshan Research & Development Center Of Uni President China Investment Co ltd; Uni President Enterprises China Investment Co Ltd
Priority date: 2023-10-17
Filing date: 2023-10-17
Publication date: 2024-05-10
Anticipated expiration: 2033-10-17

Abstract

The application relates to continuous frying production equipment which comprises a rack, wherein a heating unit, a conveying unit, an oil spraying unit, an oil recovery unit, a power unit and a cleaning unit are arranged on the rack, the conveying unit comprises a mesh belt, a frame and a conveying shaft, the conveying shaft is rotatably arranged on the frame, the mesh belt is sleeved on the conveying shaft, the power unit is connected to the conveying shaft, the mesh belt is used for placing products to be fried, the oil spraying unit is used for spraying oil on the mesh belt, the heating unit is used for heating the mesh belt so as to fry the products on the mesh belt, the oil recovery unit is used for recovering the oil on the mesh belt, and the cleaning unit is used for cleaning the mesh belt. The device adopts the mesh belt to convey the products, and adopts the heating plate to directly fry the products on the mesh belt, so that the continuous frying of the products is realized by utilizing the transmission function of the mesh belt, and the production efficiency of the products is improved.

Description

Continuous frying production equipment

Technical Field

The application relates to the technology of food processing equipment, in particular to continuous frying production equipment.

Background

There are many ways of cooking food products, wherein the food products fried with oil are much more preferred by consumers. At present, frying pans or frying ovens are adopted to fry foods, so that the sectional production mode is adopted, the production efficiency is low, the separation of oil and oil residues in waste oil is difficult, the waste oil is often directly discarded, and the waste of resources is caused.

Disclosure of utility model

In order to overcome the defects, the application provides continuous frying production equipment, wherein a mesh belt is adopted to convey products, and a heating plate is adopted to directly fry the products on the mesh belt, so that the continuous frying of the products is realized by utilizing the transmission function of the mesh belt, and the production efficiency of the products is improved.

The technical scheme adopted by the application for solving the technical problems is as follows:

The utility model provides a continuous frying production facility, includes the frame, install heating element, conveying unit, oil spout unit, oil recovery unit, power unit and cleaning element on the frame, the conveying unit includes guipure, frame and conveying axle, the conveying axle rotationally install in on the frame, the guipure cover is located the conveying axle, power unit connect in the conveying axle, just power unit can drive the conveying axle rotates, and then drives the guipure and transmit along the frame, the guipure is used for placing the product of waiting to fry, oil spout unit is used for spraying oil to the guipure, heating element is used for heating the guipure, and then fry product on the guipure, oil recovery unit is used for right oily on the guipure is retrieved, cleaning element is used for cleaning the guipure.

Optionally, the heating unit includes hot plate, temperature controller and control by temperature change probe, hot plate fixed mounting in on the frame, the hot plate is located the below of guipure is used for heating the guipure, control by temperature change probe install in on the hot plate, the temperature controller install in the frame, just the temperature controller connect in the control by temperature change probe, the guipure includes the guipure that the teflon material was made.

Optionally, the oil injection unit includes oil shower nozzle, brush, batch oil tank and oil pump, the oil pump is connected in oil shower nozzle, the oil pump be arranged in with oil in the batch oil tank pass through oil shower nozzle spouts on the guipure, the brush be used for with smear on the guipure is even.

Optionally, the oil storage tank is installed in the frame, the oil sprayer and the oil brush are installed on a first cross bar, the first cross bar is installed in the frame, the oil sprayer and the oil brush are located above the mesh belt, and the oil brush is contacted with the mesh belt.

Optionally, the oil recovery unit includes scraper blade, collecting vat, oil collecting vat, filter screen and oil pump, the scraper blade is used for with oil on the guipure is scraped into the collecting vat, the filter screen install in the top of oil collecting vat, oil in the collecting vat is pumped into by the oil pump before the oil collecting vat passes through the filter screen filters.

Optionally, the scraper is fixedly installed on the frame, the scraper is located below the mesh belt, the collecting tank and the oil collecting tank are fixedly installed on the frame, and the collecting tank is located below the scraper.

Optionally, the power unit includes motor, action wheel, first hold-in range and first follower, the action wheel install in the output shaft of motor, first follower is installed on the conveying axle, the action wheel with first follower passes through first hold-in range is connected.

Optionally, the cleaning unit includes cleaning round brush, driven shaft, second follower, third follower and second hold-in range, the driven shaft install in the cleaning round brush, the second follower install in on the conveying axle, the third follower install in on the driven shaft, the second follower with connect through the second hold-in range between the third follower, the cleaning round brush is located the below of guipure.

Optionally, still include water spray unit, water spray unit includes water shower nozzle, water pump and aqua storage tank, water shower nozzle installs on the second horizontal pole, second horizontal pole fixed mounting in the frame, the water pump be used for with the water of aqua storage tank passes through water shower nozzle spout in the guipure.

Optionally, the aperture of the water spray head is 0.1mm to 0.5mm, the water spray head is an atomized water spray head, the distances between two adjacent water spray heads are equal, and the automatic water supplementing assembly is arranged on the water storage tank.

The beneficial effects of the application are as follows:

1) According to the application, the net belt is used for directly frying the food, after the food is fried, the fried food is conveyed to the preset position through the net belt, and meanwhile, the next batch of food is continuously fried by directly feeding, so that continuous frying operation of the product is realized, and the production efficiency is improved.

2) According to the application, the heating unit is utilized to heat the mesh belt, the oil spraying unit is utilized to spray oil on the mesh belt and smear the oil uniformly, the oil recovery unit is utilized to recover and reuse the oil on the mesh belt, the cleaning unit is utilized to clean the mesh belt in time, and the power unit is utilized to drive the conveying unit and the cleaning unit to operate, so that the whole processes of frying, oil recovery, oil residue removal and mesh belt self-cleaning are realized, the problem that oil residues are difficult to separate is solved, the waste of resources is reduced, and the operation is simple and the use is convenient.

3) The water spraying unit is arranged in the application, the water spray heads in the water spraying unit are atomized water spray heads, the function of atomizing and humidifying the product is realized by utilizing the atomized water spray heads, and the distances between two adjacent atomized water spray heads are equal, so that the humidifying amount of the product can be reasonably controlled by utilizing the atomized water spray heads, the uniform humidification of the product is realized, and the quality of the product is improved.

Drawings

FIG. 1 is a schematic diagram of an apparatus according to the present application;

FIG. 2 is a second schematic diagram of the apparatus of the present application;

FIG. 3 is a third schematic diagram of the apparatus of the present application;

FIG. 4 is a schematic view of the apparatus of the present application after the apparatus is shielded;

FIG. 5 is a second schematic diagram of the apparatus of the present application after the apparatus is shielded;

FIG. 6 is a third schematic view of the apparatus of the present application after the apparatus is shielded;

FIG. 7 is a schematic diagram of the apparatus of the present application after the apparatus is shielded;

FIG. 8 is a fifth schematic diagram of the apparatus of the present application after the apparatus is shielded;

In the figure: the device comprises a frame, a first cross bar, a second cross bar, a 13-protective cover, a 20-heating unit, a 21-heating plate, a 22-rocker arm control cabinet, a 30-conveying unit, a 31-mesh belt, a 32-frame, a 33-conveying shaft, a 40-oil injection unit, a 41-oil spray head, a 42-oil brush, a 43-oil storage tank, a 50-oil recovery unit, a 51-scraping plate, a 52-collecting tank, a 53-oil collecting tank, a 54-filter screen, a 60-water spraying unit, a 61-water spray head, a 70-power unit, a 71-motor, a 72-driving wheel, a 73-first synchronous belt, a 74-first driven wheel, a 80-cleaning unit, a 81-cleaning rolling brush, a 82-driven shaft, a 83-second driven wheel, a 84-third driven wheel and a 85-second synchronous belt.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below in connection with the embodiments of the present application. It should be apparent that the described embodiments of the application are only some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and in the following figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the objects so used may be interchanged where appropriate to enable the embodiments of the application described herein to be practiced otherwise than as illustrated or described. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Spatially relative terms, such as "above … …," "above … …," "upper surface on … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Examples: as shown in fig. 1 to 8, a continuous frying production device comprises a frame 10, wherein a heating unit 20, a conveying unit 30, an oil spraying unit 40, an oil recycling unit 50, a power unit 70 and a cleaning unit 80 are arranged on the frame 10, the conveying unit 30 comprises a mesh belt 31, a frame 32 and a conveying shaft 33, the conveying shaft 33 is rotatably arranged on the frame 32, the mesh belt 31 is sleeved on the conveying shaft 33, the power unit 70 is connected with the conveying shaft 33, the power unit 70 can drive the conveying shaft 33 to rotate so as to drive the mesh belt 31 to convey along the frame 32, the mesh belt 31 is used for placing products to be fried, the oil spraying unit 40 is used for spraying oil onto the mesh belt 31, the heating unit 20 is used for heating the mesh belt 31 so as to fry the products on the mesh belt 31, the oil recycling unit 50 is used for recycling the oil on the mesh belt 31, and the cleaning unit 80 is used for cleaning the mesh belt 31. Alternatively, the mesh belt 31 comprises a mesh belt made of a teflon material which is resistant to high temperature and is not sticky, so that the mesh belt 31 made of a teflon material can meet the requirements of food frying. According to the application, the net belt 31 is utilized to directly fry the food, after the food is fried, the fried food is conveyed to a preset position through the net belt 31, and meanwhile, the next batch of food is continuously fried by direct feeding, so that continuous frying operation of the product is realized, and the production efficiency is improved.

In the application, the heating unit 20 is utilized to heat the mesh belt 31, the oil spraying unit 40 is utilized to spray oil on the mesh belt and smear the oil uniformly, the oil recovery unit 50 is utilized to recover and reuse the oil on the mesh belt 31, the cleaning unit 80 is utilized to clean the mesh belt 31 in time, and the power unit 70 is utilized to drive the operation of the conveying unit 30 and the cleaning unit 80, so that the whole process of frying, oil recovery and mesh belt self-cleaning is realized, and the operation is simple and the use is convenient.

As shown in fig. 1, the heating unit includes a heating plate 21, a temperature controller and a temperature control probe, the temperature control probe is not shown in the drawing, the heating plate 21 is fixedly installed on the frame 32, the heating plate 21 is located below the mesh belt 31 for heating the mesh belt 31, the temperature control probe is installed on the heating plate 21, the temperature controller is installed on the frame 10, and the temperature controller is connected to the temperature control probe, and the mesh belt 31 includes a mesh belt made of teflon material. The temperature controller is controlled by a system in the rocker arm control cabinet 22, the rocker arm control cabinet 22 is arranged on the frame 10, and besides the temperature of the heating plate is controlled by the temperature controller, the rocker arm control cabinet 22 can also control the product conveying speed, the oil injection duration, the speed and the like. The temperature controller is utilized to set the temperature of the heating plate 21 to be heated, the temperature range is 0-300 ℃, the temperature of the heating plate 21 is monitored in real time through the temperature control probe, and the temperature is fed back to the temperature controller, so that the accurate control of the temperature of the heating plate is realized. The net belt 31 above the heating plate 21 is directly heated by the heating plate 21, so that the heating efficiency is high, the heating is uniform, and the quality control of products is facilitated.

As shown in fig. 2, the oil injection unit 40 includes an oil spray head 41, an oil brush 42, an oil reservoir 43, and an oil pump, not shown in the drawing, connected to the oil spray head 41, for spraying the oil in the oil reservoir 43 onto the mesh belt 31 through the oil spray head 41, and the oil brush 42 for uniformly coating the mesh belt 31.

The oil storage tank 43 is installed on the frame 10, the oil spray head 41 and the oil brush 42 are installed on the first cross bar 11, the first cross bar 11 is installed on the frame 10, the oil spray head 41 and the oil brush 42 are located above the mesh belt 31, and the oil brush 42 is in contact with the mesh belt 31. As shown in fig. 2, the first cross bar 11 is located at the right end of the frame 10, the oil pump sprays oil in the oil reservoir 43 onto the mesh belt 31 through the oil spray nozzle 41, the oil brush 42 uniformly spreads the oil on the mesh belt 31, the spread mesh belt 31 moves above the heating plate 21 under the action of the power unit 70, and the product on the mesh belt 31 is heated by the heating plate 21.

As shown in fig. 4, the oil recovery unit 50 includes a scraper 51, a collecting tank 52, an oil sump 53, a filter screen 54, and an oil pump, not shown in the drawing, the scraper 51 is used to scrape the oil on the mesh belt 31 into the collecting tank 52, the filter screen 54 is installed above the oil sump 53, and the oil in the collecting tank 52 is filtered by the filter screen 54 before being pumped into the oil sump 53 by the oil pump.

The scraper 51 is fixedly installed on the frame 10, the scraper 51 is located below the mesh belt 31, the collecting tank 52 and the oil collecting tank 53 are fixedly installed on the frame 10, and the collecting tank 52 is located below the scraper 51. As shown in fig. 6, a scraper 51 is fixedly installed at the left and right ends of the frame 10, the scraper 51 is located below the mesh belt 31, when the mesh belt 31 is conveyed to the lower side of the frame 10, the scraper 51 contacts the mesh belt 31 to scrape oil on the mesh belt, the oil falls into a collecting tank 52, the oil in the collecting tank 52 is pumped into a filter screen 54 on an oil collecting tank 53 through an oil pump, the oil residues are intercepted by the filter screen, clean oil enters the oil collecting tank 53 and is pumped into an oil storage tank 43 through the oil pump, or the oil in the oil collecting tank 53 can be pumped into an oil spray head 41 through the oil pump directly, so that the recycling of the oil is realized. A portion of the oil is consumed with the product and therefore, by automatic control of the oil level, the oil pump automatically pumps make-up oil into the reservoir 43 to meet the production needs. Therefore, the equipment realizes operations such as oil recovery, oil residue removal, recycling, automatic oil supplementing and the like, solves the problem that the oil residue is difficult to separate, and has high automation degree and strong operability.

As shown in fig. 5, the power unit 70 includes a motor 71, a driving wheel 72, a first timing belt 73, and a first driven wheel 74, the driving wheel 72 is mounted on an output shaft of the motor 71, the first driven wheel 74 is mounted on the transmission shaft 33, and the driving wheel 72 and the first driven wheel 74 are connected through the first timing belt 73. A speed reducer is usually provided on the motor 71, and the motor 71 drives the driving wheel 72 to rotate through the power output of the speed reducer, and the driving wheel 72 drives the transmission shaft 33 to rotate through the first synchronous belt 73 and the first driven wheel 74, so as to drive the mesh belt 31 to transmit.

As shown in fig. 6 and 8, the cleaning unit 80 includes a cleaning roller brush 81, a driven shaft 82, a second driven wheel 83, a third driven wheel 84, and a second synchronous belt 85, wherein the driven shaft 82 is mounted on the cleaning roller brush 81, the second driven wheel 83 is mounted on the conveying shaft 33, the third driven wheel 84 is mounted on the driven shaft 82, the second driven wheel 83 and the third driven wheel 84 are connected by the second synchronous belt 85, and the cleaning roller brush 81 is located below the mesh belt 31. In operation, the motor 71 drives the driving wheel 72 to rotate, the driving wheel 72 drives the second driven wheel 83 to rotate through the first synchronous belt 73, the second driven wheel 83 drives the third driven wheel 84 to rotate through the second synchronous belt 85, and then the cleaning roller brush 81 is driven to rotate so as to clean the mesh belt 31 running to the back of the frame 32.

As shown in fig. 1 to 4, the apparatus further includes a water spraying unit 60, the water spraying unit 60 includes a water spray head 61, a water pump and a water storage tank, the water spray head 61 is mounted on the second cross bar 12, the second cross bar 12 is fixedly mounted on the frame 10, and the water pump is used for spraying water of the water storage tank on the mesh belt 31 through the water spray head 61.

The aperture of the water spray heads 61 is 0.1mm to 0.5mm, the water spray heads 61 are atomized water spray heads, the distances between two adjacent water spray heads 61 are equal, and an automatic water supplementing assembly is arranged on the water storage tank. The rocker arm control cabinet 22 controls the humidification time and flow of the atomized water spray head, the automatic water supplementing assembly realizes the automatic water storage tank supplementing function, and the flow of the water pump can be adjusted as required. Alternatively, the aperture of the water jet 61 may be 0.1mm, 0.2mm, 0.3mm, etc. As shown in fig. 1-3, a protective cover 13 is provided on the frame 10. The length of the heating plate 21 is smaller than that of the mesh belt 31, the area of the mesh belt 31 corresponding to the heating plate 21 is a frying area, the frying area is protected by the protective cover 13, so that the frying area is not polluted and oil is prevented from splashing, the water spray heads 61 extend into the protective cover 13, the number of the proper second cross rods 12 is selected according to the size of the frying area, 4 parallel second cross rods 12 are shown in fig. 1, the arrangement direction of the second cross rods 12 is perpendicular to the conveying direction of the mesh belt 31, the distances of two adjacent second cross rods 12 are equal, a plurality of water spray heads 61 are arranged on each second cross rod 12, and the distances of the two adjacent water spray heads 61 are equal, so that uniform humidification of the area in the protective cover 13 is realized, and the consistency of products is ensured.

The operation process of the application comprises the following steps:

Step 1: the oil pump sprays the oil in the oil reservoir 43 on the mesh belt 31 through the oil spray head 41, and the oil brush 42 uniformly spreads the oil on the mesh belt 31;

step 2: the coated mesh belt 31 runs above the heating plate 21 under the action of the motor 71, and the heating plate 21 is used for heating the product on the mesh belt 31;

Step 3: if necessary, mist water can be sprayed toward the surface of the product on the mesh belt 31 through the water spray head 61;

Step 4: when the frying of the product is completed, the motor 71 drives the mesh belt 31 again to convey, and when the mesh belt 31 runs to a preset position, the mesh belt 31 in the oiling area is discharged, and the mesh belt 31 in the oiling area is continuously conveyed to the back surface of the frame 32;

step 5: the scraper 51 is contacted with the net belt 31 to scrape oil on the net belt, the oil falls into the collecting tank 52, the oil in the collecting tank 52 is pumped into the filter screen 54 on the oil collecting tank 53 through the oil pump, the oil residue is intercepted by the filter screen, and clean oil enters the oil collecting tank 53 and is pumped into the oil storage tank 43 through the oil pump, so that the recycling of the oil is realized;

Step 6: the motor 71 drives the cleaning roller brush 81 to rotate to clean the mesh belt 31 running to the back of the frame 32;

Step 7: simultaneously, the mesh belt 31 on the front surface of the frame 32 can be continuously oiled and fed, so that continuous frying of products is realized.

It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims

1. A continuous frying production facility, characterized in that: including frame (10), install heating unit (20), conveying unit (30), oil spout unit (40), oil recovery unit (50), power unit (70) and clean unit (80) on frame (10), conveying unit (30) include guipure (31), frame (32) and conveying axle (33), conveying axle (33) rotationally install in on frame (32), guipure (31) cover is located conveying axle (33), power unit (70) connect in conveying axle (33), just power unit (70) can drive conveying axle (33) rotate, and then drive guipure (31) are transmitted along frame (32), guipure (31) are used for placing the product of waiting to fry, oil spout unit (40) are used for spraying oil to guipure (31), heating unit (20) are used for heating guipure (31), and then fry product on guipure (31), oil recovery unit (50) are used for to clear and retrieve in guipure (31) on guipure (31).

2. Continuous frying production device according to claim 1, characterized in that: the heating unit comprises a heating plate (21), a temperature controller and a temperature control probe, wherein the heating plate (21) is fixedly installed on the frame (32), the heating plate (21) is located below the mesh belt (31) for heating the mesh belt (31), the temperature control probe is installed on the heating plate (21), the temperature controller is installed on the frame (10), the temperature controller is connected to the temperature control probe, and the mesh belt (31) comprises a mesh belt made of Teflon materials.

3. Continuous frying production device according to claim 1, characterized in that: the oil injection unit (40) comprises an oil spray head (41), an oil brush (42), an oil storage tank (43) and an oil pump, wherein the oil pump is connected to the oil spray head (41), the oil pump is used for spraying oil in the oil storage tank (43) onto the mesh belt (31) through the oil spray head (41), and the oil brush (42) is used for uniformly smearing on the mesh belt (31).

4. A continuous frying production apparatus according to claim 3, wherein: the oil storage tank (43) is installed on the frame (10), the oil spray head (41) and the oil brush (42) are installed on a first cross rod (11), the first cross rod (11) is installed on the frame (10), the oil spray head (41) and the oil brush (42) are located above the mesh belt (31), and the oil brush (42) is in contact with the mesh belt (31).

5. Continuous frying production device according to claim 1, characterized in that: the oil recovery unit (50) comprises a scraping plate (51), a collecting tank (52), an oil collecting tank (53), a filter screen (54) and an oil pump, wherein the scraping plate (51) is used for scraping oil on the mesh belt (31) into the collecting tank (52), the filter screen (54) is arranged above the oil collecting tank (53), and the oil in the collecting tank (52) is filtered by the filter screen (54) before being pumped into the oil collecting tank (53) by the oil pump.

6. Continuous frying production device according to claim 5, characterized in that: the scraper blade (51) is fixedly mounted on the frame (10), the scraper blade (51) is located below the mesh belt (31), the collecting tank (52) and the oil collecting tank (53) are fixedly mounted on the frame (10), and the collecting tank (52) is located below the scraper blade (51).

7. Continuous frying production device according to claim 1, characterized in that: the power unit (70) comprises a motor (71), a driving wheel (72), a first synchronous belt (73) and a first driven wheel (74), wherein the driving wheel (72) is installed on an output shaft of the motor (71), the first driven wheel (74) is installed on a conveying shaft (33), and the driving wheel (72) is connected with the first driven wheel (74) through the first synchronous belt (73).

8. The continuous frying production apparatus of claim 7, wherein: the cleaning unit (80) comprises a cleaning rolling brush (81), a driven shaft (82), a second driven wheel (83), a third driven wheel (84) and a second synchronous belt (85), wherein the driven shaft (82) is installed in the cleaning rolling brush (81), the second driven wheel (83) is installed on the conveying shaft (33), the third driven wheel (84) is installed on the driven shaft (82), the second driven wheel (83) is connected with the third driven wheel (84) through the second synchronous belt (85), and the cleaning rolling brush (81) is located below the mesh belt (31).

9. Continuous frying production device according to claim 1, characterized in that: still include water spray unit (60), water spray unit (60) include water shower nozzle (61), water pump and aqua storage tank, water shower nozzle (61) are installed on second horizontal pole (12), second horizontal pole (12) fixed mounting in on frame (10), the water pump be used for with the water of aqua storage tank pass through water shower nozzle (61) spout in guipure (31).

10. Continuous frying production device according to claim 9, characterized in that: the aperture of the water spray heads (61) is 0.1mm to 0.5mm, the water spray heads (61) are atomizing water spray heads, the distances between two adjacent water spray heads (61) are equal, and an automatic water supplementing assembly is arranged on the water storage tank.