KR101148761B1 - A transferring apparatus of molds for heating of walnut - Google Patents

Abstract

The present invention relates to a mold transfer device for walnut confectionery, and more particularly to baking walnut confectionery by heating efficiently while moving in a sealed heating chamber in a sealed heating chamber filled with dough liquid and enamel metal. It is an object of the present invention to provide a mold transfer device for walnut cookies configured to produce.
The present invention constituted as described above can be heated while sequentially transporting the mold of the walnut cake in a closed heating chamber, thereby maximizing the heating effect with low fuel cost, and improving the poor working environment due to high heat. In addition, the installation space can be minimized to provide an effect such as significantly increasing the utilization of the space.

Description

Mold transfer device of walnut confectionery {A TRANSFERRING APPARATUS OF MOLDS FOR HEATING OF WALNUT}

The present invention relates to a mold transfer device for walnut confectionery, and more particularly, the walnut confectionery filled with dough liquid and enamel is efficiently heated while moving in a sealed heating chamber in a rising and falling manner. It relates to a mold transfer device for walnut cookies configured to bake cookies.

In general, a baking device such as a walnut cake which bakes a batter liquid and an enamel metal on a forming mold and bakes it by heating while baking the forming mold horizontally along an endless track.

At this time, the walnut pastry heating apparatus described in the registered publication of the Utility Model Registration No. 20-0446377 is as shown in Fig. 1 as the mold 100 filled with the dough solution and the enamel metal is inverted roll 101 while moving horizontally in an endless track manner ) And the forming mold inserting hole 102 are turned upside down, and in this process, it is configured to be heated by a heating apparatus installed in the lower part of the forming mold.

Here, the walnut pastry heating device is very low heating efficiency because it is heated in the lower part of the mold in the open state of the mold 100, the horizontal endless track configuration is required such as excessive installation space there is a problem.

The present invention has been made to improve the above-described problems of the prior art, when the mold of the walnut confectionery filled with dough liquid and enamel is introduced into the sealed heating chamber, the heating mold rises and the heating mold descends the heat. It is configured to withdraw while moving in the way of falling, thereby providing a mold transfer device of the walnut confectionery is configured to be slowly baked while the walnut confectionery of the mold is transported in sequence in the heating chamber of a high temperature state. .

In order to achieve the above object, the present invention is heated molding by the lifting mold lifting part when the drawing mold filled with the dough liquid and the enamel metal is inserted into the molding frame inlet position of the heating chamber sealed by the chamber vertical frame and the sealing cover plate. Ascending to the lower end of the frame riser, the molding frame in the upper position of the heating mold riser is horizontally transferred to the upper position of the heating mold lowering row by the sliding drive unit, and the molding frame hatch at the lower end of the heating mold lowering row In the mold transfer device of the known walnut confectionery configured to be lowered by the eastern part to the molding die dispensing position and to be drawn out to the withdrawal molding die, the molding die lifting drive unit is installed at the lower portion of the molding die retracting position and the molding die withdrawal position An entrance / exit lifting unit which is rotated by the hoisting bar and the crank bar of the inlet / outlet driving motor and is elevated along the elevating guide rail; A molding frame lift lever installed on one side of the lever mounting plate so as to be symmetrical with each other and elastically rotated about the first center pin to support the lifting mold raised to the lower end of the heating mold riser by the pull-out unit; The other side of the lever mounting plate is installed to be symmetrical with each other and is rotated up around the second center pin by the weight of the head while supporting the lower end of the heating molding frame descending heat from the first supporting jaw and heating molding from the second supporting jaw And a molding frame lower lever for separating and supporting the draw molding frame at the drawing frame pull-out position lowered from the lower end of the frame lowering row, wherein the sliding driving unit is installed between the heating mold raising row and the heating mold lowering row; An elevating vertical bar driven up and down by a rotating cam; An elevating horizontal bar which is vertically driven along the elevating guide hole of the sliding guide plate by the elevating vertical bar; A push rod driving bar having lower ends coupled to both ends of the elevating horizontal bar and having a push rod flow hole at an upper end thereof; Walnut confectionery, characterized in that consisting of; sliding end for horizontally transporting the forming mold at the upper position of the heating mold up and down row as the two ends are inserted into the push rod flow hole and the sliding guide hole; It will provide a frame feeder.

The present invention constituted as described above can be heated while sequentially transporting the mold of the walnut cake in a closed heating chamber, thereby maximizing the heating effect with low fuel cost, and improving the poor working environment due to high heat. In addition, the installation space can be minimized to provide an effect of significantly increasing the utilization of the space.

1 is a perspective view illustrating a conventional walnut heating device,
2 to 4 is a perspective view showing a mold transfer device of walnut cookies according to the present invention,
5 to 8 is a state diagram illustrating the operation of the mold transfer device of the walnut cake according to the present invention.
Figure 9 is a perspective view showing a sliding drive of the mold transporting device of the walnut cake according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

According to one embodiment of the present invention, as shown in Figures 2 and 3, the draw molding mold 80 filled with the dough liquid and the enamel metal is transferred to one side of the lower portion of the heating chamber 1, and the mold drawing position ( When a) is reached, the mold is lifted up by the lifting frame driving unit 20 and drawn into the heating chamber to be positioned at the lower end of the heating mold raising column 81.
Then, the bottom of the heating mold lowering heat 82 baked while being heated in the heating chamber 1 is lowered from the heating chamber to the molding frame withdrawal position (d) by the molding frame lifting and lowering drive unit 20. The drawing mold 90 is configured to be drawn out.
At this time, the heating chamber 1 is configured to be insulated from the outside while the outside is opened and closed by the sealing cover plate 2, four chamber vertical frame (3) is fixed to the inside of the chamber vertical frame The sliding guide plate 5 is fixedly attached to the upper end, and the lever mounting plate 4 is attached to the lower end of the chamber vertically so as to be symmetrical to each other.
Here, the lever mounting plate 4 is provided with a molding frame lifting lever 31 and a molding frame lifting lever 32 of the mold lifting device 20, the mold lifting lever 31 is a heating mold lifting heat ( When the inlet molding frame 90 reaching the forming frame inlet position (a) of the lower part of 81) is raised, it is supported and drawn into the heating chamber 1 so as to be located at the lower end of the heating mold riser 81. The mold lowering lever 32 lowers the molding mold positioned at the bottom of the heating molding mold lowering heat 82 that is supported, and draws it to the molding frame drawing position (D) which is the lower portion of the heating molding mold lowering heat 82. .
In particular, the draw-out lifting unit 24 in the molding frame lifting and lowering drive unit 20 installed to be located on the lower side of the heating chamber 1 has a draw molding frame 80 and a molding frame drawing-out at the molding frame drawing-in position (A). It is provided to support the take-out mold 90 at the position (d).
At this time, the forming frame lifting and driving unit 20 is the rotation bar 22 is rotated by the pull-out drive motor 21, the crank bar 23 drives the draw-up lifting unit 24 up and down, accordingly The lifting unit 24 is configured to move up and down along the lifting guide rails 6.
In addition, the four forming frame lifting lever 31 forming a substantially triangular shape is installed on one side of the lever mounting plate 4 to be symmetrical with each other as shown in Figure 4 elastically around the first center pin (33) It is configured to rotate.
Here, as shown in FIGS. 5 and 6, after the pull-out unit 24 is lifted up and pushes the pull-up mold 80 of the molding frame inlet position (a) to pass through the mold lifting lever 31. In this ascending process, if the inlet molding frame of the forming frame inlet position (a) is pushed up by pushing the raising frame raising lever 31, the raising mold 31 naturally rotates upwards, and then the inlet molding frame When this passes, it is elastically rotated back to its original state and supports the inlet molding frame which is lowered. As it is drawn into the heating chamber 1, it is positioned at the bottom of the heating mold riser 81.
In addition, the molding frame lower lever 32 is configured to eccentrically rotate about the second center pin 34 while being installed to be symmetrical with each other on the other side of the lever mounting plate 4 as shown in FIG.
At this time, the molding frame lower lever 32 is composed of the head weight 32-1, the first support jaw 32-2 and the second support jaw 32-3, the second weight by the head weight It rotates upward with respect to the center pin 34, and supports the lower part of the heating mold lowering row 82 at the first support jaw, and from the lower end of the heating mold lowering row 82 at the second support jaw. It is comprised so that the drawing-out mold 90 of a draw-out position d may be supported and separated.
Here, as shown in FIG. 7 and FIG. 8, the heating mold lowering heat 82 is lifted by the pull-out unit 24 that is raised, and the first supporting jaw 32-of the mold lowering lever 32 is lifted. When separated from 2), the mold lowering lever 32 rotates about the second center pin 34 by the weight of the head weight 32-1, and thus the first support jaw 32-2 and the second support jaw. (32-3) is raised.
Subsequently, when the pull-out unit 24 that lifts the heating mold lowering heat 82 is lowered, the heating support mold lowering heat 82 is also lowered to form the second supporting jaw 32-3 in a horizontal state. In this process, the mold lowering lever 32 rotates around the second center pin 34 to support the heating mold lowering row 82 in which the first supporting jaw 32-2 is lowered. .
At this time, as shown in FIG. 8, the first heating jaw is moved by the downward rotation of the molding die lowering lever 32 while the heating mold lowering heat 82 descends while pressing the second supporting jaw 32-3 in a horizontal state. In the process of (32-2) being switched to the horizontal state and supporting the heating mold lowering heat 82, the molding mold positioned at the bottom of the heating mold lowering heat 82 is separated and moved to the molding frame withdrawal position (D). It is pulled down.
On the other hand, in the present invention, by the lifting of the pull-out elevating unit 24 is added to the lifting mold 80 of the molding frame inlet position (a) to the heating mold lifting heat 81 and at the same time heating mold lowering heat (82) When the mold of the lower part is discharged to the draw mold 90 of the mold draw-out position (D), as shown in FIG. 3, the mold is filled in the upper position (B) of the heating mold riser 81. However, the mold is empty at the upper position (C) of the heating mold lowering heat 82.
Accordingly, as shown in FIGS. 3 and 9, the sliding drive unit 40 is driven after the pulling in and out of the lifting unit 24 to move up and down the upper position (b) of the heating mold riser 81 in the heating chamber 1. Sliding the mold of the horizontally to move to the upper position (C) of the heating mold lowering row 82.
At this time, when the rotary cam 42 of the sliding drive motor 41 installed on the lower side of the heating chamber 1 is driven, the sliding drive unit 40 and the heating mold lowering heat 81 and the heating molding frame lowering heat 82 The vertical lift bar 43, which is installed to be positioned between the upper and lower drives, is configured to vertically drive the vertical lift horizontal bar 44 installed in the sliding guide plate 5 while being vertically driven.
Here, the sliding guide plate 5 is provided with a lifting guide hole 5-1 and a sliding guide hole 5-2 symmetrically, respectively, the lifting horizontal bar 44 connected to the upper end of the lifting vertical bar 43. The both ends are inserted into the elevating guide hole (5-1) while moving up and down along the elevating guide hole (5-1), the sliding rod 46 is that both ends are inserted into the sliding guide hole (5-2) While moving along the sliding guide hole (5-2), push the molding frame in the upper position (b) of the heating molding frame upward row 81 to the upper position (c) of the heating mold lower row (82) horizontally. do.
And, the push rod driving bar 45 is coupled to both ends of the elevating horizontal bar 44, the lower end is configured to fit both ends of the sliding push rod 46 in the push rod flow hole 45-1 provided on the upper end. It is.
Accordingly, when the elevating horizontal bar 44 moves along the elevating guide hole 5-1, the pushing rod 45 drives the sliding rod 46 along the sliding guide hole 5-2. The sliding rod 46 acts to push the molding die at the upper end position (b) of the heating molding die upward row 81 to the upper end position (c) of the heating die lowering row 82.
In the heating chamber 1 according to the present invention, a conventional heating medium supply device (not shown) is installed to bake walnut cookies by heating the mold of the heating mold raising heat 81 and the heating mold lowering heat 82. do.
The heat medium supply device may be configured to supply, for example, a heat medium such as high temperature hot air into the heating chamber 1, or may be configured to supply a high temperature heat medium by arranging an electric heating wire on the inner wall of the heating chamber, or a magnetron in the heating chamber. It is composed of a structure of a microwave oven for heating by generating a heating medium such as electromagnetic waves by installing a vacuum tube, such as can be easily selected and implemented from the conventional heating medium supply technology, the description of the specific configuration will be omitted.

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As such, in the detailed description of the present invention, specific embodiments have been described. However, various modifications may be made without departing from the scope of the present invention.

Therefore, it should be understood that the scope of the present invention should not be limited by the above-described embodiments, but should be defined not only by the claims below but also by the structures equivalent to the claims.

DESCRIPTION OF SYMBOLS 1: Heating chamber 2: Sealing cover plate 3: Chamber vertical frame 4: Lever mounting plate 5: Sliding guide plate 20: Molding frame lifting drive part 40: Sliding drive part 80: Draw-in mold 90: Draw-out mold

Claims (1)

When the drawing mold 80 filled with the dough liquid and the enamel metal is introduced into the forming frame drawing position of the heating chamber 1 sealed by the chamber vertical frame 3 and the sealing cover plate 2, The molding die at the upper end position (b) of the heating molding die rising heat 81 is raised by the sliding drive part 40 by the eastern portion 20 and is raised to the lower end of the heating mold rising heat 81. It is horizontally conveyed to the upper end position (c) of the lowering row 82, and is lowered to the drawing frame drawing position (d) by the forming frame lifting and lowering drive unit 20 at the lower end of the heating forming frame lowering row 82 In the mold transfer device of the known walnut confectionery configured to be drawn out to the mold (90),
The molding frame lifting and lowering drive unit 20 is installed at the lower portion of the molding frame inlet position (a) and the molding frame outlet position (d) to the pivot bar 22 and the crank bar 23 of the inlet / outlet drive motor 21. An incoming and outgoing elevating unit 24 which is rotated by the elevating guide rail 6 while being elevated; It is installed on one side of the lever mounting plate 4 to be symmetrical with each other and is elastically rotated about the first center pin 33 while being raised to the lower end of the heating mold riser 81 by the pull-out elevating unit 24 A mold lifting lever 31 for supporting the pull-out mold 80; It is installed on the other side of the lever mounting plate 4 to be symmetrical with each other and is rotated upward about the second center pin 34 by the weight of the head weight (32-1) in the first support jaw (32-2) The support mold 90 of the molding frame withdrawal position (D) supported by the lower end of the heating mold lowering heat 82 and lowered from the lower end of the heating mold lowering heat 82 at the second supporting jaw 32-3. Forming frame lowering lever 32 for supporting the separation;
The sliding drive part 40 is installed between the heating mold up and down heat 81 and the heating mold down and down heat 82, and is vertically driven up and down by the rotary cam 42 of the sliding drive motor 41 ( 43); An elevating horizontal bar 44 which is vertically driven along the elevating guide hole 5-1 of the sliding guide plate 5 by the elevating vertical bar 43; A push rod driving bar 45 having lower ends coupled to both ends of the lifting horizontal bar 44 and having a push rod flow hole 45-1 at an upper end thereof; Both ends are inserted into the push rod flow hole (45-1) and the sliding guide hole (5-2) while heating the molding die at the upper end position (b) of the heating mold rise heat 81 Sliding bar (46) to move horizontally to the upper position (C) of the; forming mold transfer device of walnut confectionery characterized in that consisting of.

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