CN114287452A - Sweet potato chip frying device with intelligent temperature control function - Google Patents

Abstract

The invention relates to the technical field of food processing, and discloses an intelligent temperature-controlled sweet potato chip frying device which comprises a barrel, wherein mounting seats are arranged at two ends of the barrel, a plurality of conveying units which are uniformly distributed in an annular array mode by taking the axis of the barrel as the center are arranged in the barrel, and a charging basket is fixedly arranged on each conveying unit; an oil groove is formed in the center of the cylinder, a first driven bevel gear is arranged on a first rotating shaft at the front end of the conveying unit, a first driving bevel gear meshed with the first driven bevel gear is arranged on a conveying seat at the front end of the conveying unit, the first driving bevel gear is fixedly arranged on a second rotating shaft, the second rotating shaft is rotatably connected with the conveying seat, and a first driven gear is further arranged on the second rotating shaft; according to the invention, the conveying unit drives the charging basket to carry out temperature-controllable frying through the oil temperature zone formed by the plurality of spray heads, and the continuous frying processing of materials is realized.

Description

Sweet potato chip frying device with intelligent temperature control function

Technical Field

The invention relates to the technical field of food processing, in particular to an intelligent temperature-controlled sweet potato chip frying device.

Background

Sweet potato slices are food prepared from sweet potatoes serving as raw materials through the steps of cleaning, slicing, dehydrating, frying, deoiling and the like. The sweet potato slices after being processed are not only very fragrant and crisp to eat, but also easy to store. In the prior art, a charging basket is mostly adopted to carry materials, and then the materials are immersed into an oil pan for frying, and because the optimal oil temperatures required by different stages of sweet potato chip frying are different, the oil temperature is difficult to quickly adjust by adopting the mode, and the frying is required again.

Disclosure of Invention

The invention provides an intelligent temperature-controlled sweet potato chip frying device, which solves the technical problem that the oil temperature is difficult to quickly adjust in the related technology.

According to one aspect of the invention, the intelligent temperature-controlled sweet potato chip frying device comprises a barrel, wherein mounting seats are arranged at two ends of the barrel, a plurality of conveying units which are uniformly distributed in an annular array by taking the axis of the barrel as the center are arranged in the barrel, each conveying unit comprises a conveying seat and a conveying chain, the conveying chains are sleeved on two conveying chain wheels, the conveying chain wheels are rotatably connected with the conveying seats through first rotating shafts, the conveying seats at two ends of each conveying chain are respectively connected with one annular seat, and a bearing is arranged between each annular seat and the inner wall of the barrel;

a charging basket is fixedly arranged on a chain link of the conveying chain, and an opening of the charging basket faces to one side of the conveying chain, which is far away from the conveying chain wheel; an oil groove is formed in the center of the barrel and connected with the mounting seat, an opening is formed in the top of the oil groove, a plurality of spray heads are arranged on the barrel above the oil groove and distributed along the axial direction of the barrel, and the spray heads are connected with an oil supply pipe and used for spraying oil into a charging basket below the spray heads; the rear end of the cylinder body is provided with an oil outlet communicated with the oil groove, and the oil outlet is connected with an oil return pipeline;

the top of the cylinder body is provided with a feed inlet, and the bottom of the cylinder body is provided with a discharge outlet;

a first driven bevel gear is arranged on a first rotating shaft at the front end of the conveying unit, a first driving bevel gear meshed with the first driven bevel gear is arranged on a conveying seat at the front end of the conveying unit, the first driving bevel gear is fixedly arranged on a second rotating shaft, the second rotating shaft is rotatably connected with the conveying seat, and a first driven gear is further arranged on the second rotating shaft; the first driven gears of the plurality of conveying units are meshed with the same first driving gear, the first driving gear is arranged on a main shaft, the main shaft is rotatably connected with a mounting seat at the front end of the barrel, and the front end of the main shaft is connected with the output end of a first rotary power source; the first rotary power source includes a first motor;

the annular seat is connected with a second rotary power source for driving the annular seat to rotate around the axis of the cylinder.

As a second rotary power source, the rotary power source comprises a second motor, and the output end of the second motor is connected with the annular seat to drive the annular seat to rotate. The first inner gear ring is arranged inside the annular seat, an inner gear meshed with the first inner gear ring is arranged at the rear end of the barrel, and the inner gear is connected with the output end of the second motor.

The other second rotary power source comprises an annular body arranged at the rear end of the cylinder body, the annular body is connected with an annular seat through a connecting rod, the annular body is connected with a mounting seat at the rear end of the cylinder body through a bearing in a rotating mode, first rails with the same number as the conveying units are arranged in front of the annular body, and the first rails are arranged along the radial direction of the annular body;

the conveying unit is characterized in that a second driving bevel gear is arranged on a first rotating shaft at the rear end of the conveying unit, a third rotating shaft connected with the conveying unit in a rotating mode is arranged at the rear end of the conveying unit, a second driven bevel gear meshed with the second driving bevel gear is arranged on the third rotating shaft, a swing arm and a sector plate are arranged on the third rotating shaft, the swing arm and the sector plate are respectively located on two sides of the third rotating shaft, pins in clearance fit with a first track of an annular body are arranged at one end, away from the third rotating shaft, of the swing arm, arc-shaped grooves the number of which is the same as that of the first track are arranged on the annular body, and the arc-shaped grooves and the sector plate are arranged concentrically.

One or two or more of the conveying units are provided with a third rotating shaft.

The center of the ring body is provided with a hole with the diameter larger than the width of the oil groove, and the oil groove penetrates through the center of the ring body and then is connected with the mounting seat at the rear end of the cylinder body.

Further, a spray head is arranged above the front half part of the conveying chain.

Further, the top of barrel is equipped with the gas vent, and the aspiration pump is connected to the gas vent, all is equipped with the apron on feed inlet and the discharge gate.

Furthermore, the conveying unit comprises two parallel conveying chains, conveying chain wheels at the front ends of the two conveying chains are fixed on the same first rotating shaft, and conveying chain wheels at the rear ends of the two conveying chains are fixed on the same first rotating shaft;

one charging basket is connected with one corresponding chain link of two conveying chains of one conveying unit.

The invention has the beneficial effects that:

according to the invention, the conveying unit drives the charging basket to carry out temperature-controllable frying through the oil temperature zone formed by the plurality of spray heads, and the continuous frying processing of materials is realized.

Drawings

FIG. 1 is a top plan view of an intelligent temperature controlled sweet potato chip frying apparatus of the present invention;

FIG. 2 is a schematic view of the internal structure of an intelligent temperature controlled sweet potato chip frying apparatus according to the present invention;

FIG. 3 is a schematic view of the oil sump of FIG. 2 with the oil sump removed;

FIG. 4 is a schematic structural view of a conveying unit of the present invention;

FIG. 5 is a schematic view of a second rotary power source of the present invention;

figure 6 is a schematic view of the construction of the annular body of the present invention.

In the figure: the device comprises a cylinder body 101, a mounting seat 102, a conveying unit 103, a conveying seat 104, a conveying chain 105, an annular seat 106, a charging basket 107, an oil groove 108, a spray head 109, an oil outlet 110, a first rotating shaft 111, a first driven bevel gear 112, a first driving bevel gear 113, a second rotating shaft 114, a first driven gear 115, a first driving gear 116, a main shaft 117, a first rotating power source 118, an annular body 119, a first track 120, a second driving bevel gear 121, a third rotating shaft 122, a second driven bevel gear 123, a swing arm 124, a sector plate 125 and an arc-shaped groove 126.

Detailed Description

The subject matter described herein will now be discussed with reference to example embodiments. It should be understood that these embodiments are discussed only to enable those skilled in the art to better understand and thereby implement the subject matter described herein, and are not intended to limit the scope, applicability, or examples set forth in the claims. Changes may be made in the function and arrangement of elements discussed without departing from the scope of the disclosure. Various examples may omit, substitute, or add various procedures or components as needed. In addition, features described with respect to some examples may also be combined in other examples.

Example one

As shown in fig. X-X, an intelligent temperature-controlled sweet potato chip frying device comprises a barrel 101, wherein mounting seats 102 are arranged at two ends of the barrel 101, a plurality of conveying units 103 which are uniformly distributed in an annular array by taking the axis of the barrel 101 as the center are arranged in the barrel 101, each conveying unit 103 comprises a conveying seat 104 and a conveying chain 105, the conveying chains 105 are sleeved on two conveying chain wheels, the conveying chain wheels are rotatably connected with the conveying seats 104 through a first rotating shaft 111, the conveying seats 104 at two ends of each conveying chain 105 are respectively connected with an annular seat 106, and a bearing is arranged between each annular seat 106 and the inner wall of the barrel 101;

a charging basket 107 is fixedly arranged on a chain link of the conveying chain 105, and the opening of the charging basket 107 faces to one side of the conveying chain 105 far away from the conveying chain wheel; an oil groove 108 is formed in the center of the cylinder body 101, the oil groove 108 is connected with the mounting base 102, an opening is formed in the top of the oil groove 108, a plurality of spray heads 109 are arranged on the cylinder body 101 above the oil groove 108, the spray heads 109 are distributed along the axial direction of the cylinder body 101, and the spray heads 109 are connected with an oil supply pipe and used for spraying oil into a charging basket 107 below; an oil outlet 110 communicated with the oil groove 108 is formed in the rear end of the cylinder body 101, and the oil outlet 110 is connected with an oil return pipeline;

the top of the cylinder body 101 is provided with a feeding hole, and the bottom is provided with a discharging hole;

a first driven bevel gear 112 is arranged on a first rotating shaft 111 at the front end of the conveying unit 103, a first driving bevel gear 113 meshed with the first driven bevel gear 112 is arranged on a conveying seat 104 at the front end of the conveying unit 103, the first driving bevel gear 113 is fixedly arranged on a second rotating shaft 114, the second rotating shaft 114 is rotatably connected with the conveying seat 104, and a first driven gear 115 is further arranged on the second rotating shaft 114; the first driven gears 115 of the plurality of conveying units 103 are meshed with the same first driving gear 116, the first driving gear 116 is arranged on a main shaft 117, the main shaft 117 is rotatably connected with the mounting seat 102 at the front end of the barrel 101, and the front end of the main shaft 117 is connected with the output end of a first rotary power source 118;

the annular seat 106 is connected to a second rotary power source for driving it to rotate around the axis of the cylinder 101;

for the intelligent temperature-controlled sweet potato chip frying device, oil is sprayed into a charging basket 107 through a spray nozzle 109 to fry materials, the materials are added from a feed inlet and then fall into the charging basket 107 below, a first rotary power source 118 drives a conveying chain 105 to make rotary motion so as to drive the charging basket 107 to make rotary motion, the charging basket 107 sequentially passes through the lower parts of a plurality of spray nozzles 109, the spray nozzles 109 which are linearly distributed supply oil with different temperatures through oil supply pipes, and therefore the charging basket 107 is fried in a preset oil temperature area when sequentially passing through the plurality of spray nozzles 109;

after the material in the material basket 107 passes through the plurality of nozzles 109, the second rotary power source drives the annular seat 106 to rotate, and drives the next conveying unit 103 to move to a position right below the nozzles 109.

In one embodiment of the present invention, a specific example of a second rotary power source is provided, which includes a second motor, the output end of which is connected to the annular seat 106, driving it to rotate. The second motor may be replaced by a hydraulic motor or other devices capable of outputting torque, the second motor may be connected to the annular seat 106 by arranging a first inner gear ring inside the annular seat 106, and the rear end of the cylinder 101 is provided with an inner gear engaged with the first inner gear ring, which is connected to the output end of the second motor.

In an embodiment of the present invention, another specific example of the second rotary power source is provided, which includes an annular body 119 disposed at the rear end of the cylinder 101, the annular body 119 being connected to the annular base 106 through a connecting rod, the annular body 119 being connected to the mounting base 102 at the rear end of the cylinder 101 through a bearing, the annular body 119 being provided at the front thereof with a number of first rails 120 identical to the number of the conveying units 103, the first rails 120 being disposed along the radial direction of the annular body 119;

a second driving bevel gear 121 is arranged on a first rotating shaft 111 at the rear end of the conveying unit 103, a third rotating shaft 122 rotatably connected with the conveying unit 103 is arranged at the rear end of the conveying unit 103, a second driven bevel gear 123 meshed with the second driving bevel gear 121 is arranged on the third rotating shaft 122, a swing arm 124 and a sector plate 125 are arranged on the third rotating shaft 122, the swing arm 124 and the sector plate 125 are respectively positioned at two sides of the third rotating shaft 122, a pin in clearance fit with a first track 120 of the annular body 119 is arranged at one end, far away from the third rotating shaft 122, of the swing arm 124, arc-shaped grooves 126 are arranged on the annular body 119, the number of the arc-shaped grooves 126 is the same as that of the first track 120, and the arc-shaped grooves 126 and the sector plate 125 are concentrically arranged.

The conveying chain 105 rotates and simultaneously drives the first rotating shaft 111 at the rear end of the conveying unit 103 and the first rotating shaft 111 at the front end to rotate synchronously, the first rotating shaft 111 at the rear end of the conveying unit 103 drives the third rotating shaft 122 to rotate through the transmission of the second driving bevel gear 121 and the second driven bevel gear 123, the third rotating shaft drives the swing arm 124 and the sector plate 125 to rotate, when the pin of the swing arm 124 enters the first track 120, the sector plate 125 is separated from the arc-shaped groove 126 of the annular body 119, at the moment, the pin of the swing arm 124 moves in the first track 120 to drive the annular body 119 to rotate for an angle, and further, the annular seat 106 is driven to rotate for a fixed angle, so that the next conveying unit 103 moves to be right below the spray head 109;

during the gradual transition of the delivery unit 103 to the inner bottom of the cylinder 101, excess oil is allowed to flow out of the holes of the basket 107.

When the conveying unit 103 is shifted to the inner bottom of the cylinder 101, the fried materials fall into the bottom of the cylinder 101, and are discharged from the discharge port after being accumulated for a period of time.

In one embodiment of the present invention, one or two or more of the conveying units 103 may be provided with the third rotating shaft 122.

In one embodiment of the invention, spray heads 109 are provided only above the front half of conveyor chain 105. Therefore, the situation that the material basket 107 is moved to the rear end of the conveying chain 105 to cause the material to fall off in advance does not occur in the process that the conveying unit 103 is gradually shifted to the inner bottom of the cylinder 101.

In one embodiment of the present invention, the top of the cylinder 101 is provided with an exhaust port, the exhaust port is connected to an air pump, and the feed port and the discharge port are provided with cover plates. Negative pressure inside the cylinder 101 is realized through air exhaust, the oxygen content inside the cylinder 101 is reduced, and the oxidation of material frying is reduced.

In one embodiment of the present invention, the center of the annular body 119 is provided with a hole having a diameter larger than the width of the oil groove 108, and the oil groove 108 penetrates the center of the annular body 119 and is connected to the mounting seat 102 at the rear end of the cylinder 101.

In one embodiment of the present invention, the basket 107 is provided with a plurality of holes. The through holes can play a role in penetrating oil gas and leaking oil liquid.

In one embodiment of the present invention, the conveying unit 103 includes two parallel conveying chains 105, the conveying sprockets at the front ends of the two conveying chains 105 are fixed on the same first rotating shaft 111, and the conveying sprockets at the rear ends of the two conveying chains 105 are fixed on the same first rotating shaft 111;

one basket 107 is connected to a corresponding one of the links of the two conveyor chains 105 of one conveyor unit 103.

The stability of the movement of the basket 107 can be ensured by two parallel conveying chains 105.

In one embodiment of the present invention, the first rotary power source 118 includes a first electric motor. Further, the output end of the first motor is connected with a first speed reducer, and the output end of the first speed reducer is connected with the main shaft 117.

In one embodiment of the present invention, the third shaft 122 is divided into two sections, and a speed reducing mechanism is disposed between the two sections of the third shaft 122. The rotational speed of the third rotating shaft 122 output to the swing arm 124 is reduced.

The embodiments of the present invention have been described with reference to the drawings, but the present invention is not limited to the above-mentioned specific embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention and the protection scope of the claims.

Claims (10)

1. An intelligent temperature-controlled sweet potato chip frying device is characterized by comprising a barrel, wherein mounting seats are arranged at two ends of the barrel, a plurality of conveying units which are uniformly distributed in an annular array by taking the axis of the barrel as the center are arranged in the barrel, each conveying unit comprises a conveying seat and a conveying chain, the conveying chains are sleeved on two conveying chain wheels, the conveying chain wheels are rotatably connected with the conveying seats through first rotating shafts, the conveying seats at two ends of each conveying chain are respectively connected with one annular seat, and a bearing is arranged between each annular seat and the inner wall of the barrel;

a charging basket is fixedly arranged on a chain link of the conveying chain, and an opening of the charging basket faces to one side of the conveying chain, which is far away from the conveying chain wheel; an oil groove is formed in the center of the barrel and connected with the mounting seat, an opening is formed in the top of the oil groove, a plurality of spray heads are arranged on the barrel above the oil groove and distributed along the axial direction of the barrel, and the spray heads are connected with an oil supply pipe and used for spraying oil into a charging basket below the spray heads; the rear end of the cylinder body is provided with an oil outlet communicated with the oil groove, and the oil outlet is connected with an oil return pipeline;

the top of the cylinder body is provided with a feed inlet, and the bottom of the cylinder body is provided with a discharge outlet;

a first driven bevel gear is arranged on a first rotating shaft at the front end of the conveying unit, a first driving bevel gear meshed with the first driven bevel gear is arranged on a conveying seat at the front end of the conveying unit, the first driving bevel gear is fixedly arranged on a second rotating shaft, the second rotating shaft is rotatably connected with the conveying seat, and a first driven gear is further arranged on the second rotating shaft; the first driven gears of the plurality of conveying units are meshed with the same first driving gear, the first driving gear is arranged on a main shaft, the main shaft is rotatably connected with a mounting seat at the front end of the barrel, and the front end of the main shaft is connected with the output end of a first rotary power source;

the annular seat is connected with a second rotary power source for driving the annular seat to rotate around the axis of the cylinder.

2. The intelligent temperature controlled sweet potato chip frying apparatus as claimed in claim 1, wherein the second rotary power source comprises a second motor, the output of which is connected to the annular base to drive it to rotate.

3. The intelligent temperature-controlled sweet potato chip frying device as claimed in claim 2, wherein a first inner gear ring is arranged inside the annular seat, an inner gear meshed with the first inner gear ring is arranged at the rear end of the barrel body, and the inner gear is connected with the output end of the second motor.

4. The intelligent temperature-controlled sweet potato chip frying device according to claim 1, wherein the second rotary power source comprises an annular body arranged at the rear end of the barrel body, the annular body is connected with the annular base through a connecting rod, the annular body is rotatably connected with the mounting base at the rear end of the barrel body through a bearing, first rails with the same number as that of the conveying units are arranged in front of the annular body, and the first rails are arranged along the radial direction of the annular body;

the conveying unit is characterized in that a second driving bevel gear is arranged on a first rotating shaft at the rear end of the conveying unit, a third rotating shaft connected with the conveying unit in a rotating mode is arranged at the rear end of the conveying unit, a second driven bevel gear meshed with the second driving bevel gear is arranged on the third rotating shaft, a swing arm and a sector plate are arranged on the third rotating shaft, the swing arm and the sector plate are respectively located on two sides of the third rotating shaft, pins in clearance fit with a first track of an annular body are arranged at one end, away from the third rotating shaft, of the swing arm, arc-shaped grooves the number of which is the same as that of the first track are arranged on the annular body, and the arc-shaped grooves and the sector plate are arranged concentrically.

5. The intelligent temperature controlled sweet potato chip frying apparatus of claim 4, wherein one or two or more of the conveyor units are provided with a third spindle.

6. The intelligent temperature controlled sweet potato chip frying apparatus as claimed in claim 4, wherein the center of the annular body is provided with a hole with a diameter larger than the width of the oil groove, and the oil groove penetrates through the center of the annular body and is connected with the mounting seat at the rear end of the cylinder body.

7. The intelligent temperature controlled sweet potato chip frying apparatus according to claim 1, wherein a spray head is disposed above the front half of the conveyor chain.

8. The intelligent temperature-controlled sweet potato chip frying device according to claim 1, wherein the top of the barrel is provided with an exhaust port, the exhaust port is connected with an air pump, and the feed inlet and the discharge outlet are respectively provided with a cover plate.

9. The intelligent temperature-controlled sweet potato chip frying device according to claim 1, wherein the conveying unit comprises two parallel conveying chains, the conveying chain wheels at the front ends of the two conveying chains are fixed on the same first rotating shaft, and the conveying chain wheels at the rear ends of the two conveying chains are fixed on the same first rotating shaft;

one charging basket is connected with one corresponding chain link of two conveying chains of one conveying unit.

10. The intelligent temperature controlled sweet potato chip frying apparatus of claim 1 wherein the first rotary power source comprises a first motor.

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