KR20110081918A

KR20110081918A - Panfrying mechanism of panfried food

Info

Publication number: KR20110081918A
Application number: KR1020100002041A
Authority: KR
Inventors: 이남재
Original assignee: 이남재
Priority date: 2010-01-09
Filing date: 2010-01-09
Publication date: 2011-07-15

Abstract

PURPOSE: A pan-frying apparatus for pan-fried vegetable pancake is provided to operate a pan-frying plate with pan-frying ring type grooves on an endless track to heat the pan-frying plate with a heater. CONSTITUTION: A pan-frying apparatus for pan-fried vegetable pancake comprises the following: a pan-frying plate(30) including plural pan-frying ring type grooves(31) receiving ingredients for cooking the pan-fried vegetable pancake; an endless track for operating the pan-frying plate while horizontally moving on the upper side of the track; and a heater(4) heating the lower side of the pan-frying plate.

Description

Panfrying mechanism of panfried food

The present invention relates to a paper-making machine of paper-cutting machine, which is fed to the supporting plate and travels on an endless track, and has a paper on the bottom of the paper-loading plate, and at the same time, the flat surface of the paper-pinning paper on the supporting table can be extracted from the track. In detail, a support plate having a plurality of support annular grooves to which the submerged material is supplied allows horizontal movement of the endless track and the traveling support plate is heated by a heater mechanism, so that the support plate is heated on the bottom surface of the supporter annular recesses of the support plate. In addition, the guide plate of the support plate is moved to the support table by the guide plate horizontal moving mechanism so as to carry the plane of the guide plate, and the guide plate moves from the support table to the mobile conveyor to perform extraction and packing. It relates to a seborrheic device of the pancreas.

In general, the pan-fried pan is prepared by putting oil into the frying pan properly, and laying flat pan-fried ingredients flat to bear the bottom of the pan-fried material of the frying pan by heating a heating device such as a burner or a heater. Repeating the sedimentation is made on the plane of the pan-yum by visually extracting it from the frying pan.

If you miss the inversion of the panic in the frying pan as described above, there is a problem such as burning or tearing the panic while inverting the panic.

In addition, the worker has to check the condition of the load on a daily basis, and also to obtain a single pancake in one frying pan, which takes a lot of up and down time and there is a limit in the quantity.

In order to solve the problem of the quantity limit, there is provided a support table of a certain width equipped with a heating mechanism to obtain a large number of palatal, but this also if the worker is properly made on the bottom of the palatal palpation of the palatal material Inverted to make the sedimentation on the plane of the palatal repetition by visually seeing the sediment on the plane and the bottom of the palatal palate is extracted properly from the support table. Compared to the above, a large number of the palates can be obtained. However, if the missiles are overturned, the palates may not be solved.

In addition, when the support material is supplied to the support substrate which can be covered by the cover, and the support substrate rotates the heating mechanism and is properly made, the support is made on the plane and the bottom of the support plate by inverting the support substrate. In addition, it is possible to open the cover of the paper holding substrate to complete the paper holding, and to extract the palatal from the paper holding substrate, but when the paper holding the inverting board, oil is leaked out, and the device for overturning the paper holding plate must be separately installed. There is a problem that the equipment cost becomes expensive due to the installation of a mechanism for extracting from the water.

Furthermore, there is a problem that the support plate is covered with a cover and is hermetically sealed, so that the palatal portion in the support plate is not properly loaded with oil, but it does not taste like the original palate.

The present invention has been made to solve the above problems, and the support plate material allows the support plate to move horizontally in the endless track and the traveling support plate is heated by the heater mechanism, so that the support plate is supported on the bottom surface of the support plate. The guide plate of the supporting plate is moved to the support table by the horizontal guide mechanism to support the flat surface of the guide plate, and the purpose of the guide plate is to be moved from the support table to the mobile conveyor to be extracted and packed.

In addition, the present invention allows the support plate having a plurality of support ring-shaped grooves supplied with the sub-opening material to run on the endless track, while the support plate on the endless track to travel while maintaining the equilibrium running, the support plate running on the endless track It is intended to be heated by the heater mechanism on the bottom of the.

In addition, the endless track of the present invention, while the first chain and the second chain travel side by side by the drive chain wheel and the driven chain wheels, both ends downward and upward driving, so as to run on the first and second chain The purpose of the supporting plate is to carry out equilibrium driving.

In addition, the present invention is to support the support plate is fixed to the first and second chain of the endless track is mounted on the traveling frame, and the support ring-shaped grooves can be formed on the upper surface to install a plurality of sub-opening material .

The present invention allows a support plate having a plurality of support annular grooves supplied with a submerged material to travel in an endless track, and at the same time, a support plate in an endless track travels in equilibrium, traveling in an endless track and running on the bottom of the support plate. As a basic feature, it can be heated by a heater mechanism.

In addition, the endless track of the present invention is such that the first chain and the second chain run side by side by the respective drive chain wheel and the driven chain wheel while both ends run downward and upward, the support plate is the first and second chain It is mounted on the balance and travels in equilibrium.

In addition, the sub-opening material supplied to the supporting annular grooves of the running support plate of the present invention is made on the bottom surface of the support plate by the heater mechanism, the guide plate of the support plate is moved to the support table by the support plate horizontal moving mechanism, It is possible to support the plane of the pan-tip in the support table.

In addition, the support plate of the present invention is fixed to the first and second chains of the caterpillar is mounted detachably coupled to the receiving frame in parallel running.

In addition, the present invention is to supply oil to the supporting annular grooves of the support plate running in parallel to the endless track.

As described above, the present invention allows the support plate having a plurality of support annular grooves to which the sub-opening material is supplied allows horizontal movement of the endless track and the traveling support plate to be heated by the heater mechanism, so that the supporters of the support annular recesses of the support plate are heated. The sediment is made at the bottom of the plate, and the treads of the tread plate are moved to the tumbler table by the tumbler horizontal moving mechanism so that the tumbler's plane can be tucked away, and the treads are moved from the tumbler table to the mobile conveyor and extracted and Packaging can be performed.

1 is a schematic diagram of an installation example of a fat and oil holding device of the present invention;
2 is a partially cut-away longitudinal sectional view of the fat and oil holding apparatus of the present invention;
3 is a plan view of the caterpillar portion of the fat and oil holding device of the present invention,
Figure 4 is a connection configuration of the chain of caterpillar of the jijijik device of the present invention,
5 is a partially cutaway perspective view of the caterpillar of the present invention and the support and the support plate,
6 is a partially cut-away perspective view of the caterpillar and the support and the support plate of the present invention,
Figure 7 is an exploded perspective view of the support frame and the support plate of the present invention,
8 is a longitudinal sectional view of an example in which the support frame and the supporting plate of the present invention are coupled to a caterpillar,
9A is a longitudinal sectional view of an example of traveling on the caterpillar of the support frame and the support plate of the present invention;
Figure 9b is a longitudinal sectional view of the receiving frame and the support plate and the heater mechanism of the present invention,
10A and 10B are front views of an example of the operation of the horizontal pan mechanism of the present invention;
11a, b, c, d, e, f are side views of an example of the operation of the horizontal pan mechanism of the present invention;
Figure 12a, b is an operation example of the oil supply mechanism of the present invention.

Detailed examples of the present invention will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram showing an installation example of the jibjiji device of the present invention, and Fig. 2 is a partially cutaway longitudinal sectional view of the jijijipji device of the present invention. 4 is a plan view of the connection of the chain of the caterpillar of the supporter of the jijimyeo of the present invention, and FIG. 5 is a partially cutaway perspective view of the caterpillar and the support and the support plate of the present invention. 6 is a partially cutaway perspective view of the caterpillar and the support frame and the support plate of the present invention, Figure 7 is an exploded perspective view of the support frame and the support plate of the present invention, and Figure 8 is a combination of the support frame and the support plate of the present invention 9A is a longitudinal cross-sectional view of a driving example in the endless track of the support frame and the support plate of the present invention, and FIG. 9B is a view of the support frame and support plate of the present invention. Fig. 10A, B is a front view of an example of the operation of the palatal horizontal moving mechanism of the present invention, and Figs. 11A, b, c, d, e, and f are side views of an example of the operation of the palatal horizontal moving mechanism of the present invention. In addition, Figure 12a, b is an operation example of the oil supply mechanism of the present invention.

As shown in FIG. 1, the bottom surface of the palatal opening 10 is supported by the palatal palpability holding device 1 of the present invention, and is then moved to the supporting table 70 by the paepa horizontal movement mechanism 200 to hold the plane of the papapa. Then, it is moved from the support table 70 to the mobile conveyor 80 to be extracted and packaged.

In the paper-making support device 1 of the present invention, an endless track 100 is provided on the main body of the apparatus, and a subordinate opening material supply hopper 2 and an upper-left horizontal moving mechanism 200 are provided above the endless track 100. And a controller 3 or the like, and an oil supply mechanism 300 is installed inside the crawler 100.

In addition, the support table 70 is a heater device 72 is installed under the iron plate 71 of the flat plate, and the pan-opening 10 moved by the pan-opening horizontal moving mechanism 200 from the paper-making apparatus 1 of the pan-needle It can be turned upside down to bear the plane 11 of the palate 10.

In addition, the mobile conveyor 80 is a conveyor belt 82 which is horizontally moved by the drive motor 81 is traveling in an infinite track. By moving the palatal bearing 10 supported by the supporting table 70 to the mobile conveyor 80 can be sampled by packaging or extracted immediately while cooling the hot palate. The conveyor belt 82 may be made of a mesh or the like so that the oil of the pancake 10 falls down, and an oil tray (not shown) may be installed under the conveyor belt 82.

As shown in FIGS. 2 to 4, the caterpillar 100 of the jigging device 1 of the present invention has the first chain 110 and the second chain 120 each having a first driving chain wheel ( 111, the first driven chain wheel 112, the second drive chain wheel 121, the second driven chain wheel 122 while driving side by side while running side by side, the receiving frame (to be described later) In the state in which 20) is fixed to the first and second chains 110 and 120, the support plate 30 is mounted on the receiving frame 20 so as to run in balance.

As shown in FIG. 4, the first connecting chain wheel 32 of the drive shaft 40 is connected to the motor chain wheel 31 of the drive motor 30 by a chain (omitted by number) so that a driving force is transmitted to the drive shaft ( As the first drive chain wheel 111 coaxially fixed to 40 is driven, the first driven chain wheels 112 constituting the first chain 110 guide the first chain 110 to travel in an infinite track. Done.

The first chain 110 has one first drive chain wheel 111 and three first driven chain wheels 112 arranged in a substantially rectangular shape to move in an endless track by horizontal movement, downward movement, horizontal movement, and upward movement. Will run. The three first driven chain wheels 112 are rotatably mounted on bearings (numbers omitted) fixed to the machine body.

In addition, the second chain 120 is a third connecting chain wheel 43 driven by the connecting chain 42 to the second connecting chain wheel 41 which is coaxially rotated to the drive shaft 40 of the first chain 110. The second driving chain wheel 121 is driven to the driving shaft, and the connecting shaft 44 coaxial with the third connecting chain wheel 43 is driven. As the second driving chain wheel 121 is driven, the second driving chain wheel 121 is driven. The second driven chain wheels 122 constituting the two chain 120 guides the second chain 120 to travel in an infinite track.

Also, the second chain 120 also has one second drive chain wheel 121 and three second driven chain wheels 122 arranged in a substantially rectangular shape to move horizontally, downwardly, horizontally and upwardly. The caterpillar runs. In addition, the three second driven chain wheels 122 are rotatably mounted on bearings (numbers omitted) fixed to the device body.

In addition, a driven shaft 50 is installed on the side opposite to the drive shaft 40, a second driven chain wheel 122 of the second chain 120 is mounted on the driven shaft 50, and the driven shaft ( The fifth connecting chain wheel 53 is rotated, and the fifth connecting chain wheel 53 is connected to the fourth connecting chain wheel 51 coaxially mounted with the connecting chain 52. It rotates while maintaining at the same speed as the first driven chain wheel 112 mounted to the shaft (54). The first driven chain wheel 112 rotates at the same speed as the first chain 110 and maintains the same speed as the second driven chain wheel 122 of the second chain 120. Therefore, the first chain 110 and the second chain 120 is stably running at the same speed.

In addition, in FIG. 4, the chain shaft 63 of the first driven chain wheel 112 of the first chain 110 is coaxially guided to the chain wheel 63 connected to the chain wheel 61 by the chain chain 61. The wheel 64 is adapted to rotate. The guide wheel 64 is guided so that the receiving frame 20 of the supporting plate 30 to be described later to move downward.

Next, as shown in FIGS. 5 to 8, the receiving frames 20 on which the support plate 30 may be mounted on the first chain 110 and the second chain 120 may be fixed at equal intervals. It is supposed to be.

The receiving frame 20 maintains a rectangular frame with the beam frame 21 on all sides, and the supporting rollers 22 are rotatably mounted on both sides of the supporting frame 20, and the two supporting rollers on both sides. The chain connector 23 is fixed to one of the support shafts 22, and the chain connector 23 is fixed, and the chain connector 23 is connected to the first chain 110 and the second chain 120 such as bolt nuts. It is fixed by the fixing means 24. The chain connector 23 provided on both sides of the receiving frame 20 alternately faces each other.

The chain connector 23 alternately installed on the receiving frame 20 has a stable balance during the downward movement and the upward movement of the first chain 110 and the second chain 120 of the endless track 100 described later. It will play a role.

As shown in FIG. 8, the support rollers 22 are guided to guide rails 25 installed side by side with the first chain 110 and the second chain 120 on both sides.

And, in Figures 7 and 8, the oil sump 26 in front of the receiving frame 20 is coupled by the fitting clip (27). Therefore, the oil flowing down from the support plate 30 is received through the drain oil groove 28 so that it can be collected in the oil container (not shown).

In addition, as shown in FIG. 7, the supporting plate 30 is a rectangular plate-shaped body which can be mounted and mounted on the receiving frame 20, and a plurality of supporting annular recesses 31 which can be installed by being provided with a sub-opening material ( 4 in the figure) is formed to a certain depth. In addition, the guide ring irregularities 32 are formed in front of the support annular groove 31 of the support plate 30, thereby minimizing the contact area when the guide plate 10 is moved by the below-described horizontal guide mechanism 200. The palate 10 is not to be damaged.

In addition, as shown in FIG. 2, heater mechanisms 4 are mounted in two stages to the main body of the supporting device 1 of the present invention. That is, the heater mechanism 4 is mounted above and below the crawler 100, and the heater mechanisms 4 are mounted on the bottom surface of the support plate 30 that travels the crawler 100 as shown in FIGS. 9A and 9B. Heat transfer allows for preheating and bearing. Therefore, the track 100 travels while the support plate 30 maintains a proper heating temperature. This may allow the temperature of the controller 3 to be automatically maintained by the sensing of the temperature sensor.

The first chain 110 and the second chain 120 of the caterpillar 100 travel with intermittent driving force. Therefore, when the caterpillar 100 stops, the sub-leak material of the sub-paid material supply hopper 2 is introduced into the support annular recess 31 of the support plate 30, and the sub-plate horizontal movement mechanism 200 operates to support the support plate. The tread 10 in the support annular recess 31 of 30 can be moved to the support table 70.

In addition, as shown in Figure 2 through the sub-opening material supply hopper (2) to the supporting annular groove 31 of the support plate 30, the sub-opening material is introduced, the support plate 30 intermittently travels by the endless track 100. As shown in FIGS. 9A and 9B, heating is carried out by the heater mechanism 4 to achieve paper bearing.

Then, the support plate 30 in the endless track 100 travels while maintaining the equilibrium running, and the endless track is driven by the heater mechanism 4 on the bottom surface of the support plate 30. The made up and down 10 is moved to the supporting table 70 by the horizontal and horizontal moving mechanism 200.

As shown in Figs. 10A, B and 11A, B, C, D, E and F, the above-described horizontal and horizontal moving mechanism 200 is installed under which the controller 3 at the upper right of the device body is mounted. The cylinder fixing frame 230 in which the lifting cylinder 220 is mounted on the rail frame 210 of the controller 3 is mounted to be movable in the left and right directions, and the rod 221 of the lifting cylinder 220. Rod fixing frame 240 is fixed to the end is mounted to be movable in the vertical direction.

As shown in Figs. 11A, B, C, D, E, and F, left and right driving cylinders 250 are disposed on the fixed plate (not shown) of the controller 3 at the rear of the cylinder fixing frame 230 (left side in the drawing). The cylinder fixing frame 230 is movable in the left and right directions of the drawing by the driving of the left and right driving cylinder 250.

In addition, the holding block 260 is fixed to the rod fixing frame 240, the fork holding plate 270 is mounted on the end of the holding block 260, the fork holding plate 270 is the holding block 260 It is elastically coupled by the spring 290.

Accordingly, the lifting cylinder 220 operates in the state of FIGS. 10A and 11A to lower the fork holding plate 270 so that the fork 280 of the fork holding plate 270 is supported by the holding plate 30 as shown in FIGS. 10B and 11B. In the state of the support ring annular groove 31 of the plinth 10 is also stabbed, and by the operation of the left and right driving cylinder 250 in the above state by pushing the cylinder fixing frame 230 to the right as shown in Figure 11c fork holding plate 270 Fork 280 of the) is to move the guide plate 10 of the support annular groove 31 of the support plate 30 to the stacking plate (400).

The loading plate 400 is maintained at the base force of its base portion is formed to be movable by the hinge 410 in the machine body, and at the same time to maintain the vertical state as shown in Figure 2 elastically by the return spring 420. . In addition, the flat plate of the loading plate 400 is the size that can be placed on the flattening 10 and also the flattening guide irregularities 430 is formed in its plane to minimize the sliding contact of the flattening (10).

In addition, a contact protrusion 440 is formed on the left side of the drawing of the loading plate 400 to move the support plate 30 as described below, and the loading plate 400 moves the loading protrusion 440 by pushing the contact protrusion 440. It moves the palatal 10 on the plate 400 to the support table 70.

As shown in FIG. 11C, when the subtractor 10 is placed on the stacking moving plate 400, the lifting cylinder 220 moves upward to drop the fork 280 of the fork retaining plate 270 from the subtractor 10, and then infinitely. By the operation of the track 100, the frame support roll 22 of the support frame 20 of the support plate 30 pushes the contact protrusion 440 of the loading plate 400 as shown in FIG. ), The pan palate 10 is moved to the support table 70.

Thereafter, as shown in FIGS. 11E and 11F, the horizontal pan mechanism 200 returns to its original state and prepares to move the pan 10 of the next supporting plate 30, and the loading plate 400 is The return force of the return spring 420 (see FIG. 2) returns to the original position.

Next, the oil supply mechanism 300 is installed below the track 100 is traveling as shown in FIG. The oil supply mechanism 300 is connected to the support ring-shaped recess 31 of the support plate 30 through the nozzle 310 by connecting the hose 303 to the storage tank 302 to which the oil of the oil container 301 is supplied. To be supplied.

As shown in FIGS. 12A and 12B, the upper and lower fixing frames 320 and 320 fixed to the apparatus main body are maintained at regular intervals by the fixing post 330, and the lifting cylinder 340 is attached to the upper fixing frame 320. The movable plate 350 is fixed to the rod 341 of the elevating cylinder 340, and the movable plate 350 is guided to the fixed posts 330 to move up and down.

An oil opening and closing pin 360 is fixed to the movable plate 350 by a fixing cap 351, and a nozzle 310 is fixed to the lower fixing frame 320. The nozzle 310 has an opening passage 370 connected to the hose 303 and communicates therewith, and the nozzle hole 380 is connected to orthogonal to the opening passage 370. The opening 370 may be opened and closed at the nozzle hole 380 as the oil opening / closing pin 360 moves up and down.

That is, in the state in which the lifting cylinder 340 does not operate as shown in FIG. 12A, the oil opening / closing pin 360 of the movable plate 350 is positioned in the nozzle hole 380, and the opening passage perpendicular to the nozzle hole 380 ( 370 prevents the outflow of oil to the nozzle 310.

In the above state, as shown in FIG. 12B, the support plate 30 of the crawler track 100 maintains the intermittent operation stop state. When the lifting cylinder 340 moves up according to the ascending operation, the movable plate 350 rises. The oil opening / closing pin 360 moves upwardly of the nozzle hole 380 to open the opening passage 370 so that the oil is ejected into the supporting annular recess 31 of the supporting plate 30 through the nozzle 310. When the oil is ejected to the support plate 30 as described above returns to its original position as shown in Figure 12a and the oil opening and closing pin 360 to block the opening passage 370, the next support plate 30 is supplied with oil The standby state is maintained until moving toward the mechanism 300.

The present invention is possible if the pan-fried rice cakes can be put on the support plate such as bedbug rice cake, jenya, Jeonjeon.

1: paper bearing device of the pancake 2: peeping material supply hopper
3: controller 4: heater mechanism
10: pancake 11: flat
12: bottom 20: support
22: frame support 23: chain connector
25: guide rail 26: oil sump
28: drain oil groove 30: drive motor
40: drive shaft 50: driven shaft
100: infinite track 110: the first chain
111: first drive chain wheel 112: first driven chain wheel
120: second chain 121: second drive chain wheel
122: second driven chain wheel 200: floating needle horizontal moving mechanism
210: rail frame 220: lifting cylinder
230: cylinder fixed frame 240: rod fixed frame
250: sinwoo driving cylinder 270: fork holding plate
280: fork 300: oil supply mechanism
301: oil drum 310: nozzle
320: up and down fixed frame 340: lifting cylinder
350: movable plate 360: oil opening and closing pin
370: opening passage 380: nozzle hole
400: Jeokje moving plate 410: hinge
420: return spring 440: contact projection

Claims

The support plate 30 having a plurality of support annular grooves 31 to which the submerged material is supplied travels on the track 100, and the support plate 30 on the track 100 maintains the equilibrium. To keep running, the jippimji jikji apparatus characterized in that it can be heated by the heater mechanism (4) on the bottom surface of the support plate (30) while traveling.

According to claim 1, The endless track 100 is the first chain 110 and the second chain 120, both ends of the drive chain wheels 111, 121 and driven chain wheels 112. By supporting the downward and upward driving, the support plate 30 is loaded paper jikji device characterized in that the balanced running on the first and second chains (110,120).

The method of claim 1 or 2, wherein the sub-opening material supplied to the supporting ring-shaped grooves 31 of the running support plate 30 is made on the bottom surface of the sub-opening 10 by the heater mechanism 4, the support plate The flattener 10 of 30 is moved to the support table 70 by the flattener horizontal moving mechanism 200, so that the flat surface of the flattener 10 can be supported by the supporter table 70. Sedimentation device.

The method according to claim 1 or 2, wherein the support plate 30 is fixed to the first and second chains (110, 120) of the caterpillar (100) characterized in that it is mounted detachably coupled to the receiving base 20 to balance Paperwork device of the pancreas.

The method according to claim 1 or 2, characterized in that the oil is supplied by the oil supply mechanism 300 to the supporting annular grooves 31 of the support plate 30 running in parallel to the endless track 100 Sedimentation device.