CN214283236U

CN214283236U - Frying machine

Info

Publication number: CN214283236U
Application number: CN202023177256.XU
Authority: CN
Inventors: 金国正
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-09-28
Anticipated expiration: 2030-12-25

Abstract

The utility model belongs to the field of nut frying tools, and relates to a frying machine, which comprises a heating unit, a cover body and a furnace end arranged on the cover body; the stir-frying unit is arranged in the cover body and is arranged above the furnace end in a rotatable manner; the stir-frying unit comprises an outer cylinder and an inner cylinder which are coaxially arranged, and pea stones are filled between the outer cylinder and the inner cylinder; wherein, the frying plate component is arranged in the inner cylinder body. It can effectively ensure even heating in the frying process of roasted seeds and nuts and has less salt consumption.

Description

Frying machine

Technical Field

The utility model belongs to nut roasted seeds and nuts goods are with stir-fry utensil field relates to a stir-fry system equipment of nut roasted seeds and nuts goods is exclusively used in, concretely relates to machine of stir-fry.

Background

Roasted nuts are snacks which are necessary in daily life and are fried by a frying machine in a heat exchange environment. In the prior art, various frying machines exist, but the applicant finds that the existing frying machines have the following technical problems in the practical application process:

1. the heat source is directly contacted with the frying cylinder, the heat transfer is uneven, and the roasted seeds and nuts are easy to generate burnt spots;

2. a large amount of salt is consumed when a part of nuts are fried;

3. during operation, the nuts are fried with big fire all the time, so that the energy consumption of heat is excessive, and the nutritional ingredients of the nuts cannot be damaged even if the nuts are not kept at constant temperature;

4. after the stir-frying is finished, the salt and the nuts can be automatically separated only in a limited way.

SUMMERY OF THE UTILITY MODEL

The application provides a frying machine, which can effectively ensure that the roasted seeds and nuts are uniformly heated in the frying process and the salt consumption is less.

In order to achieve the technical purpose, the technical scheme adopted by the application is that the frying machine comprises

The heating unit comprises a cover body and a furnace end arranged on the cover body;

the stir-frying unit is arranged in the cover body and is arranged above the furnace end in a rotatable manner; the stir-frying unit comprises an outer cylinder and an inner cylinder which are coaxially arranged, and pea stones are filled between the outer cylinder and the inner cylinder; wherein, the frying plate component is arranged in the inner cylinder body.

As the improved technical scheme of the application, the frying plate assembly comprises a long frying plate and a short frying plate, wherein the long frying plate is spirally arranged along the axial direction of the inner cylinder body, and the short frying plate is arranged along the radial direction of the inner cylinder body; wherein the short frying plate is positioned at the tail end of the long frying plate;

the inner cylinder comprises a feed inlet of the inner cylinder and a discharge outlet of the inner cylinder, and the arrangement spiral direction of the long frying plate can ensure that materials can be transmitted to the discharge outlet of the inner cylinder through the feed inlet of the inner cylinder in the rotating process of the inner cylinder; the arrangement of the short frying plate ensures that materials can be reversely transferred from the discharge port side of the inner cylinder to the feed port side of the inner cylinder;

the end of the long frying plate is close to one end of the discharge hole of the inner cylinder body.

As the improved technical scheme of the application, the frying plate assembly comprises six groups, wherein six long frying plates are uniformly distributed in the inner cylinder along the radial direction of the inner cylinder.

As the improved technical scheme of the application, the device also comprises a separation unit arranged in the cover body; the separation unit comprises a separation cylinder body which is coaxially arranged, and a medium storage chamber and a separation screen which are arranged in the separation cylinder body; the axis of the separation barrel, the medium storage chamber and the separation screen is positioned on the same straight line with the axis of the inner barrel and the axis of the outer barrel;

wherein the inlet of the separation cylinder is communicated with the discharge hole of the inner cylinder;

the medium storage chamber is provided with a large opening end and a small opening end, the large opening end is arranged at the middle section of the separation cylinder body and has the diameter the same as the inner diameter of the separation cylinder body; the small opening end is arranged at the outlet of the separation cylinder body, and the diameter of the small opening end is smaller than the inner diameter of the separation cylinder body;

the inner diameter of the separation screen is equal to the diameter of the small opening end of the medium storage chamber, and the feeding port of the separation screen is communicated with the discharging port of the inner cylinder.

As the improved technical scheme of the application, the device further comprises a feeding unit, wherein the feeding unit comprises:

the feeding hole is arranged at one end of the cover body and is used for feeding materials through a feeding hopper and a movable hopper which are sequentially communicated; the feed inlet arranged on the cover body is communicated with the feed inlet arranged on the inner cylinder body;

locate the discharge gate of the cover body other end, its discharge gate that communicates in the separation screen cloth.

As the improved technical scheme of the application, the device further comprises a dehumidifying unit which comprises a dehumidifying port arranged at the feed inlet of the cover body, a smoke outlet arranged on the cover body and corresponding to the position of the furnace end, and a dust removing port arranged at the discharge outlet of the cover body.

As the improved technical scheme of the application, the device also comprises a transmission unit; the transmission unit includes:

the track ring group comprises a first track ring arranged at the end of the outer barrel close to the feed inlet of the inner barrel and a second track ring arranged at the outlet of the separation barrel;

the dragging wheel group comprises a first dragging wheel arranged at the end of the outer cylinder body close to the feed inlet of the inner cylinder body and a second dragging wheel arranged at the outlet of the separation cylinder body;

the motor speed reducer is in transmission connection with the first tug and the second tug; the first dragging wheel is in transmission connection with the first track ring; the second tug is in transmission connection with the second track ring.

As the improved technical scheme of the application, the furnace end is at least three and is evenly distributed below the outer cylinder body.

As the improved technical scheme of the application, the separating screen is supported by the chain wheel at the bottom of one side of the discharging opening deviating from the inner cylinder, and the chain wheel is connected to the power mechanism.

Advantageous effects

For prior art, this application adopts double-deck barrel, fills the pea stone between the double-deck barrel and is the heat that the furnace end produced transmits to outer barrel earlier, and outer barrel is with heat transfer to pea stone, because there is the heat transfer between pea stone and the pea stone, also has the heat transfer between pea stone and the interior barrel, effectively guarantees the homogeneity of the inside temperature of interior barrel. During the frying process, the required salt amount is reduced because the heating is uniform.

The application adopts six spiral stir-fry boards and is equipped with reverse stir-fry board (stir-fry board for a short time), and the optimal design is that every spiral stir-fry board department is equipped with a reverse stir-fry board (stir-fry board for a short time).

This application is equipped with separation barrel and separation screen cloth, effectively realizes the separation of roasted seeds and nuts and the recovery to salt.

In conclusion, the technical scheme of the application can effectively ensure that the roasted seeds and nuts are uniformly heated in the roasting process, the salt consumption is low, and the automatic separation of the salt and the roasted seeds and nuts can be realized.

Drawings

Fig. 1 is a schematic structural diagram of a frying machine according to the present application.

In the figure: 1. a feed hopper 1; 2. a movable hopper; 3. a frame; 4. a furnace end; 5. a discharge hole of the inner cylinder body; 6. a motor reducer; 7. a discharge hole of the cover body; 8. a moisture removal port; 9. reversely frying the plate; 10. long frying plates; 11. an inner cylinder; 12. -pea stone; 13. an outer cylinder; 14. a chimney; 15. separating the screen; 16. a medium reservoir; 17. separating the cylinder body; 18. a second orbital ring; 19. a sprocket; 20. a second tug; 21. a dust removal port; 22. and a rear cover.

Detailed Description

In order to make the purpose and technical solution of the embodiments of the present invention clearer, the following description will clearly and completely describe the technical solution of the embodiments of the present invention by combining the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

This application is for current machine of frying, at first adopts the heating unit heating, adopts the stir-fry unit of turning over of double-deck barrel to carry out the material and turns over the stir-fry, sets up simultaneously and removes the moisture quick discharge in the unit assurance material that wets. Herein, a separation unit is used to efficiently recover a heat transfer medium, such as salt. And the transmission unit is adopted to carry out the integral transmission of the frying machine.

Specifically, as shown in fig. 1, the frying machine comprises a heating unit, a frying unit, a separating unit, a feeding unit, a moisture removing unit and a transmission unit which are arranged on a frame 3.

Wherein the feed unit comprises:

the feeding hole is arranged at one end of the cover body and feeds materials through a feeding hopper 1 and a movable hopper 2 (the movable hopper is a common hopper which has certain freedom after being installed so as to ensure that materials are accurately fed into the feeding hole of the cover body, and the movable hopper is named as the movable hopper); the feed inlet arranged on the cover body is communicated with the feed inlet arranged on the inner cylinder body 11;

locate the discharge gate of the cover body other end, its discharge gate that communicates in the separation screen cloth. In order to avoid the material from spilling and the fly ash when the material is discharged from the cover body, the rear cover 22 is arranged at the discharge hole of the cover body.

The heating unit comprises a cover body and a furnace end 4 arranged on the cover body; one end of the cover body is provided with a feeding hole, and the other end of the cover body is provided with a discharging hole. Furnace end 4 locates the below of the cover body, for uniform temperature, furnace end 4 has at least three, and three furnace end 4 evenly distributed is in the below of outer barrel to guarantee that outer barrel is heated evenly.

The stir-frying unit is arranged in the cover body and is arranged above the furnace end 4 in a rotatable manner; the stir-frying unit comprises an outer cylinder and an inner cylinder which are coaxially arranged, and pea stones are filled between the outer cylinder and the inner cylinder; wherein, the frying plate component is arranged in the inner cylinder body.

The frying plate component can adopt any frying plate in the prior art, and can also adopt the frying plate with the following structure:

the frying plate component comprises a long frying plate 10 which is spirally arranged along the axial direction of the inner cylinder and a short frying plate which is arranged along the radial direction of the inner cylinder; wherein, the short frying plate is positioned at the tail end of the long frying plate 10, and the tail end is defined as one end close to the discharge hole of the inner cylinder body; the frying plate components are provided with six groups, wherein six long frying plates 10 are uniformly distributed in the inner cylinder body along the radial direction of the inner cylinder body.

The inner cylinder comprises a feeding hole of the inner cylinder and a discharging hole of the inner cylinder, and the arrangement spiral direction of the long frying plate 10 can ensure that materials can be transmitted to the discharging hole 5 of the inner cylinder through the feeding hole of the inner cylinder in the rotating process of the inner cylinder; the short frying plate is arranged to ensure that materials can be reversely transferred to the feeding port side of the inner cylinder body from the discharging port 5 side of the inner cylinder body. The stir-frying unit is made of high-quality 304 stainless steel and adopts a double-cylinder structure, and a gap between the inner cylinder body 11 and the outer cylinder body 13 is filled with the pea stones 12. The heat source that furnace end 4 provided is the naked light, and the outer barrel of direct heating, heat are gathered heat to the pea stone transmission by outer barrel, and then are transmitted to the inner tube, and the pea stone after the heating gathers heat the constant temperature, evenly heats inner barrel. The inner cylinder body 11 is provided with six spiral frying plates (long frying plates 10), reverse frying plates 9 (short frying plates) are arranged between every two spiral frying plates, and peanuts are reversely pushed towards the frying direction so as to be evenly spread on the inner cylinder body. The connecting plate of the inner cylinder and the separating cylinder is provided with a plurality of inlets and outlets. The heat source is heated by open fire such as natural gas, liquefied gas, diesel oil, coal, firewood and the like. Non-open fire heating methods such as electric heating and electromagnetic heating can also be used.

Furnace body that furnace end 4 is connected in this application, wherein the structure of furnace body is according to the specific design of the fuel of adoption, does not improve the furnace body in this application, only uses the furnace body. Taking natural gas as an example, a hearth of a furnace body is provided with a fire baffle plate, a plurality of furnace ends 4 are arranged on the fire baffle plate, a natural gas inlet is arranged below the furnace ends 4, ignition is carried out by one key, and a fan blows air. The natural gas inlet is also provided with a gas bag, and the gas bag is provided with a plurality of valves for controlling the flow of the natural gas.

A separation unit built in the cover body; the separation unit comprises a separation cylinder 17 which is coaxially arranged, and a medium storage chamber 16 and a separation screen 15 which are arranged in the separation cylinder 17; the axes of the separation cylinder 17, the medium storage chamber 16 and the separation screen 15 are positioned on the same straight line with the axes of the inner cylinder 11 and the outer cylinder 13;

wherein, the inlet of the separation cylinder 17 is connected with the tail end of the inner cylinder 11 through a connecting plate; the inner cylinder body 11 is provided with a discharge port 5 of the inner cylinder body at a corresponding position.

The medium storage chamber 16 is provided with a large opening end and a small opening end, the large opening end is arranged at the middle section of the separation cylinder body and has the diameter the same as the inner diameter of the separation cylinder body; the small opening end is arranged at the outlet of the separation cylinder body, and the diameter of the small opening end is smaller than the inner diameter of the separation cylinder body;

the inner diameter of the separation screen is equal to the diameter of the small opening end of the medium storage chamber, and the feeding port of the separation screen is communicated with the discharging port 5 of the inner cylinder.

When the separating unit works, the transmission unit drives the separating cylinder, the medium storage chamber and the separating screen to rotate together, materials are separated from heat transfer media (such as salt, five-spice powder and the like) through the separating screen in the rotating process, the heat transfer media are absorbed by the medium storage chamber, and the materials are conveyed to the discharge port 7 of the cover body through the separating screen. In order to ensure that the heat transfer medium and the material can be sufficiently separated, the separating screen is supported by a chain wheel 19 at the discharge port 7 side (the side deviating from the discharge port of the cylinder body) of the cover body, and the chain wheel 19 is driven by a motor reducer 6 (a power mechanism) to drive the separating screen to vibrate.

In order to sufficiently accelerate the drying of the materials, the dehumidifying unit comprises a dehumidifying port 8 arranged at the feed inlet of the cover body, a smoke outlet (chimney 14) arranged on the cover body corresponding to the position of the furnace end 4 and a dust removing port 21 arranged at the discharge outlet of the cover body.

A transmission unit arranged for rotating the frying machine; the transmission unit includes:

the track ring group comprises a first track ring arranged at the end of the outer cylinder body close to the feed inlet of the inner cylinder body and a second track ring 18 arranged at the outlet of the separation cylinder body;

the tug unit comprises a first tug arranged at the end of the outer cylinder body 13 close to the feed inlet of the inner cylinder body and a second tug 20 arranged at the outlet of the separation cylinder body;

the motor speed reducer 6 is in transmission connection with the first tug and the second tug 20; the first dragging wheel is in transmission connection with the first track ring; the second tug is in transmission connection with the second track ring.

When the transmission unit works, the tugboat can drive the stir-frying unit and the separation unit to rotate together, and stir-frying and separation are carried out synchronously. The mode of adopting the track circle effectively guarantees to turn over the uniformity of stir-fry unit and the unit work of separation.

In order to ensure that the materials can be smoothly shaken out after power failure, a crank handle is further arranged on the motor speed reducer 6.

The above description is only for the embodiments of the present invention, and the description is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes and modifications can be made, which all fall within the scope of the present invention.

Claims

1. A frying machine is characterized by comprising

2. The frying machine as claimed in claim 1, wherein the frying plate assembly includes a long frying plate spirally arranged along an axial direction of the inner cylinder and a short frying plate arranged along a radial direction of the inner cylinder; wherein the short frying plate is positioned at the tail end of the long frying plate;

3. The fryer of claim 1, wherein said frying pan assembly comprises six groups of six long frying pans, wherein the six long frying pans are uniformly arranged in the inner cylinder along the radial direction of the inner cylinder.

4. The fryer of claim 1, further comprising a separation unit built into the housing; the separation unit comprises a separation cylinder body which is coaxially arranged, and a medium storage chamber and a separation screen which are arranged in the separation cylinder body; the axis of the separation barrel, the medium storage chamber and the separation screen is positioned on the same straight line with the axis of the inner barrel and the axis of the outer barrel;

5. The fryer of claim 4, further comprising a feed unit, said feed unit comprising:

6. The frying machine as claimed in claim 5, further comprising a moisture removing unit including a moisture removing port provided at the inlet of the hood, a smoke outlet provided at a position of the hood corresponding to the burner, and a dust removing port provided at the outlet of the hood.

7. The fryer of claim 1, further comprising a transmission unit; the transmission unit includes:

8. The frying machine as claimed in claim 1, wherein the number of said burners is at least three and is uniformly distributed below the outer cylinder.

9. The fryer of claim 4, wherein said separating screen is further supported at the bottom on the side facing away from the outlet opening of the inner drum by a sprocket wheel, said sprocket wheel being connected to a power mechanism.