CN111730896A - Die-casting forming device is used in processing of distiller's yeast - Google Patents

Abstract

The invention relates to a die-casting forming device, in particular to a die-casting forming device for processing distiller's yeast. The invention aims to provide a die-casting forming device for processing distiller's yeast, which does not need manual die-casting of distiller's yeast grains. In order to solve the above-mentioned technical problems, the present invention provides a die-casting molding apparatus for koji processing, comprising: the two sides of the bottom plate are connected with supporting plates; the bottom plate is connected with a supporting plate; the mounting frame is connected between the supporting plates; the mounting plate is connected to one of the support plates; and the shaping mechanism is arranged among the object placing block, the mounting plate and the mounting frame. The shaping mechanism and the opening and closing mechanism are matched to shape the distiller's yeast grains, so that the distiller's yeast grains are prevented from scattering around when being die-cast, and the die-casting mechanism can be used for die-casting the distiller's yeast grains.

Description

Die-casting forming device is used in processing of distiller's yeast

Technical Field

The invention relates to a die-casting forming device, in particular to a die-casting forming device for processing distiller's yeast.

Background

In the white rice which is strongly cooked, conidium of aspergillus is transplanted, then heat preservation is carried out, hypha grows vigorously on rice grains, and the rice grains are the distiller's yeast. Since amylase produced by koji molds saccharifies starch in rice, it has been used for producing liquor, liqueur, bean paste, etc. since ancient times as raw material sugar together with malt.

In order to conveniently store and transport the distiller's yeast, the distiller's yeast grains are generally processed and die-cast to form, and the distiller's yeast grains are processed into distiller's yeast blocks, at present, the distiller's yeast grains are generally die-cast into the distiller's yeast blocks manually, more distiller's yeast grains are poured into a box when the distiller's yeast grains are die-cast into the distiller's yeast blocks manually, then a pressing plate is manually held, and the pressing plate is made to repeatedly move downwards and upwards to die-cast the distiller's yeast grains, so that the labor intensity of workers is high, and the die-casting forming efficiency is low.

Therefore, there is a need to develop a die-casting device for processing distiller's yeast, which does not need manual die-casting of distiller's yeast grains.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defect that the distillers yeast grains need to be die-cast and formed manually, and the technical problem to be solved by the invention is to provide a die-casting forming device for distillers yeast processing, which does not need to be die-cast and formed manually.

(2) Technical scheme

In order to solve the above-mentioned technical problems, the present invention provides a die-casting molding apparatus for koji processing, comprising: the two sides of the bottom plate are connected with supporting plates; the bottom plate is connected with a supporting plate; the mounting frame is connected between the supporting plates; the mounting plate is connected to one of the support plates; the shaping mechanism is arranged among the object placing block, the mounting plate and the mounting frame; the die-casting forming mechanism is arranged on the shaping mechanism.

Preferably, the setting mechanism comprises: the first servo motor is arranged on the object placing block; the mounting plate is rotatably connected with the chain transmission set, and the first servo motor is in transmission connection with the chain transmission set; the two sides of the top of the mounting frame are both connected with a grooving plate; the connecting rod is connected with the grooving plate in a sliding manner; the shaping frames are connected between the connecting rods; one side of the shaping frame is connected with a first transmission rod; the first transmission plate is connected to the first transmission rod; the first transmission plate is connected with a sliding block in a sliding mode, and the sliding block is connected with a chain of the chain transmission set.

Preferably, the die-casting molding mechanism includes: the second servo motor is arranged on one side, close to the first transmission rod, of the shaping frame; the second servo motor is connected with a crank connecting rod, and the crank connecting rod penetrates through the shaping frame; the pressing plate is connected in the shaping frame in a sliding manner; the pressing plate is connected with a third transmission plate; and the second transmission plate is connected with the third transmission plate and is connected with the crank connecting rod in a sliding manner.

Preferably, the method further comprises the following steps: a switch mechanism, the switch mechanism comprising: a switch mechanism, the switch mechanism comprising: the switch plate is connected to one side, close to the support plate, of the bottom plate in a sliding mode; the spring is connected between the switch board and the supporting board; the switch board is connected with a first rack; the first gear is rotatably connected to one side of the mounting frame and meshed with the first rack on one side; the side, close to the first gear, of the mounting frame is rotatably connected with a second gear which is respectively meshed with the first gear and the first rack on the other side; one side, close to one of the slotted plates, of the end part of the mounting frame is connected with a supporting rod sleeve; the support rod sleeve is rotatably connected with a second transmission rod; one end of the second transmission rod is connected with a third gear, and the third gear is meshed with the second gear; the other end of the second transmission rod is connected with the one-way clutch; the one-way clutch is connected with a first gear; and one side of the shaping frame, which is close to the support rod sleeve, is connected with a second rack, and the second rack is meshed with a fourth gear.

Preferably, the method further comprises the following steps: the push plate is connected between the switch plates on one side.

Preferably, the method further comprises the following steps: the other side of the shaping frame is connected with the material frame; the valve is arranged on the material frame.

(3) Advantageous effects

The shaping mechanism and the switch mechanism are matched to shape the distiller's yeast grains, so that the distiller's yeast grains are prevented from scattering around when being die-cast, and the die-cast shaping mechanism can be used for die-cast shaping of the distiller's yeast grains and die-cast the distiller's yeast grains into distiller's yeast blocks; therefore, the pressing plate does not need to be manually moved downwards and upwards repeatedly to die-cast the distiller's yeast grains, the labor intensity of workers can be reduced, and the die-casting forming efficiency can be improved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of the setting mechanism of the present invention.

FIG. 3 is an enlarged view of the invention at A.

Fig. 4 is a schematic perspective view of the die-casting mechanism according to the present invention.

Fig. 5 is a schematic perspective view of the switch mechanism of the present invention.

FIG. 6 is an enlarged view of the invention at B.

Fig. 7 is a schematic perspective view of a second embodiment of the present invention.

The labels in the figures are: 1-a bottom plate, 2-a supporting plate, 3-an object placing block, 4-an installation frame, 5-a mounting plate, 6-a shaping mechanism, 61-a first servo motor, 62-a chain transmission set, 63-a sliding block, 64-a first transmission plate, 65-a first transmission rod, 66-a shaping frame, 67-a connecting rod, 68-a slotted plate, 7-a die-casting forming mechanism, 71-a second servo motor, 72-a crank connecting rod, 73-a second transmission plate, 74-a third transmission plate, 75-a pressing plate, 8-a switching mechanism, 81-a switching plate, 82-a first rack, 83-a first gear, 84-a second gear, 85-a third gear, 86-a spring, 87-a supporting rod sleeve and 88-a second transmission rod, 89-one-way clutch, 810-fourth gear, 811-second rack, 9-push plate, 10-material frame and 11-valve.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a die-casting forming device is used in processing of distiller's yeast, as shown in fig. 1-5 and fig. 7, including bottom plate 1, backup pad 2, put thing piece 3, installing frame 4, mounting panel 5, forming mechanism 6 and die-casting forming mechanism 7, the left and right sides at bottom plate 1 top all is connected with backup pad 2, 1 top of bottom plate in the right side backup pad 2 right side is connected with puts thing piece 3, be connected with installing frame 4 between the medial surface of two backup pads 2, the top of right side backup pad 2 is connected with mounting panel 5, put thing piece 3, mounting panel 5 and installing frame 4 three between install forming mechanism 6, the last die-casting forming mechanism 7 that installs of forming mechanism 6.

Shaping mechanism 6 is including first servo motor 61, chain drive group 62, slider 63, first drive plate 64, first drive rod 65, shaping frame 66, connecting rod 67 and fluting board 68, put 3 tops on the thing piece and install first servo motor 61, the last rotation type of mounting panel 5 is connected with chain drive group 62, first servo motor 61 is connected with the transmission of chain drive group 62, the front and back both sides at mounting frame 4 top all are connected with fluting board 68, fluting board 68 is all interior sliding connection has connecting rod 67, be connected with shaping frame 66 between two connecting rods 67, shaping frame 66 right flank is connected with two first drive rods 65, two first drive rods 65 longitudinal symmetry, be connected with first drive plate 64 between the right-hand member of two first drive rods 65, sliding connection has slider 63 in the first drive plate 64, the right flank of slider 63 is connected with the chain of chain drive group 62.

Die-casting forming mechanism 7 is including second servo motor 71, crank connecting rod 72, second driving plate 73, third driving plate 74 and clamp plate 75, second servo motor 71 is installed to the design frame 66 right flank of first driving rod 65 upside, the output shaft of second servo motor 71 is connected with crank connecting rod 72 through the shaft coupling rotary type, crank connecting rod 72 passes design frame 66, sliding connection has clamp plate 75 in the design frame 66, clamp plate 75 top is connected with third driving plate 74, third driving plate 74 top is connected with second driving plate 73, second driving plate 73 and crank connecting rod 72 sliding connection.

When the distiller's yeast grains are die-cast into distiller's yeast blocks, a supporting block is placed on the bottom plate 1 below the shaping frame 66, then more distiller's yeast grains are poured on the supporting block, the first servo motor 61 is started to rotate, the first servo motor 61 rotates to enable the chain transmission set 62 to rotate, the chain transmission set 62 rotates to enable the first transmission plate 64 to reciprocate downwards and upwards through the sliding block 63, the first transmission plate 64 reciprocates downwards and upwards through the first transmission rod 65 to enable the shaping frame 66 to reciprocate downwards and upwards, and the shaping frame 66 reciprocates downwards and upwards to drive components on the shaping frame to reciprocate downwards and upwards. When the shaping frame 66 moves downwards, the second servo motor 71 is started to rotate the crank connecting rod 72, the crank connecting rod 72 rotates to enable the third transmission plate 74 to reciprocate downwards and upwards through the second transmission plate 73, and the third transmission plate 74 reciprocates downwards and upwards to drive the pressing plate 75 to reciprocate downwards and upwards. The pressing plate 75 reciprocates downwards and upwards to match with the shaping frame 66, so that the distiller's yeast grains on the supporting block can be die-cast and molded, and the distiller's yeast grains are die-cast into distiller's yeast blocks. And after the distiller's yeast grains are die-cast into the distiller's yeast blocks, taking the distiller's yeast blocks off the supporting blocks, pouring the distiller's yeast grains again, repeating the process, repeatedly carrying out die-casting forming work, and after the die-casting forming work is finished, closing the first servo motor 61 and the second servo motor 71.

Example 2

On the basis of embodiment 1, as shown in fig. 1-2 and fig. 5-7, the present invention further includes a switch mechanism 8, the switch mechanism 8 includes a switch plate 81, a first rack 82, a first gear 83, a second gear 84, a third gear 85, springs 86, a support rod sleeve 87, a second transmission rod 88, a one-way clutch 89, a fourth gear 810 and a second rack 811, two switch plates 81 are slidably connected to the top of the bottom plate 1 between the two support plates 2, the two switch plates 81 are symmetrical in front and back, the springs 86 are connected between the two switch plates 81 and the adjacent support plates 2, the number of the springs 86 is 4, the first rack 82 is arranged on the front side of the top of the switch plate 81, the first gear 83 is rotatably connected to the front side of the mounting frame 4, the first gear 83 is engaged with the first rack 82 on the left side, the second gear 84 is rotatably connected to the front side of the mounting frame 4 on the right side of the first gear 83, the second gear 84 is respectively meshed with the first gear 83 and the first rack 82 on the right side, the top of the mounting frame 4 on the right side of the front side slotted plate 68 is connected with a supporting rod sleeve 87, a second transmission rod 88 is connected in the supporting rod sleeve 87 in a rotating mode, the front end of the second transmission rod 88 is connected with a third gear 85, the third gear 85 is meshed with the second gear 84, the rear end of the second transmission rod 88 is connected with a one-way clutch 89, the one-way clutch 89 is connected with a fourth gear 810, the front side of the right side face of the shaping frame 66 is connected with a second rack 811, and the second rack 811 is meshed with the fourth gear 810.

Initially, the two switch plates 81 are in contact; more grains of koji can be poured into the two switch plates 81 so that the reciprocating movement of the pressing plate 75 downwards and upwards can die-cast the grains of koji in the two switch plates 81 into koji blocks. The downward and upward reciprocating movement of the sizing frame 66 drives the downward and upward reciprocating movement of the second rack 811, the downward movement of the second rack 811 causes the counterclockwise rotation of the fourth gear 810, and the second transmission rod 88 does not rotate due to the one-way clutch 89. The second rack 811 moves upward to rotate the fourth gear 810 clockwise, the fourth gear 810 rotates clockwise to rotate the second transmission rod 88 clockwise, the second transmission rod 88 rotates clockwise to rotate the third gear 85 clockwise, the third gear 85 rotates clockwise to rotate the second gear 84 counterclockwise, and the second gear 84 rotates counterclockwise to move the right first rack 82 rightward. The second gear 84 rotates the first gear 83 clockwise counterclockwise, and the first gear 83 rotates clockwise to move the left first rack 82 leftward; this causes the two switch plates 81 to separate from each other, with the spring 86 compressing, and the koji blocks falling onto the base plate 1. When the second rack 811 moves upward to be out of engagement with the fourth gear 810, the switch plate 81 can be reset to be in contact again by the spring 86.

Example 3

On the basis of embodiment 2, as shown in fig. 1, the switch further includes a push plate 9, and the push plate 9 is connected to the lower portion of the inner side surface of the right switch plate 81.

The switch board 81 on the right side moves rightwards and leftwards to drive the push plate 9 to move rightwards and leftwards, the push plate 9 moves leftwards to push the distiller's yeast blocks on the bottom plate 1 leftwards, and the distiller's yeast blocks slide off from the bottom plate 1 along with the distiller's yeast blocks.

On the basis of the embodiment 2, as shown in fig. 7, the device further comprises a material frame 10 and a valve 11, the material frame 10 is connected to the upper portion of the left side surface of the shaping frame 66 in an embedded manner, and the valve 11 is arranged on the material frame 10.

A large amount of distiller's yeast grains can be poured into the material frame 10, the valve 11 is opened, the distiller's yeast grains in the material frame 10 fall into the switch plate 81, and the valve 11 is closed after a proper amount of distiller's yeast grains fall into the switch plate 81.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. The utility model provides a die-casting forming device is used in processing of distiller's yeast which characterized in that includes:

the two sides of the bottom plate (1) are connected with supporting plates (2);

the article placing block (3) is connected to one side, close to one of the supporting plates (2), of the bottom plate (1);

the mounting frame (4) is connected between the supporting plates (2);

the mounting plate (5) is connected to one of the support plates (2);

the shaping mechanism (6) is arranged among the object placing block (3), the mounting plate (5) and the mounting frame (4);

the die-casting forming mechanism (7) is arranged on the shaping mechanism (6).

2. The die-casting molding device for koji processing according to claim 1, wherein the setting mechanism (6) comprises:

the first servo motor (61), install the first servo motor (61) on putting the thing piece (3);

the chain transmission set (62) is rotationally connected to the mounting plate (5), and the first servo motor (61) is in transmission connection with the chain transmission set (62);

the two sides of the top of the mounting frame (4) are both connected with a slotted plate (68);

the connecting rod (67) is connected with the slotted plate (68) in a sliding manner;

the shaping frames (66) are connected between the connecting rods (67);

one side of the shaping frame (66) is connected with the first transmission rod (65);

a first transmission plate (64), wherein the first transmission plate (64) is connected to the first transmission rod (65);

the sliding block (63) is connected to the first transmission plate (64) in a sliding mode, and the sliding block (63) is connected with a chain of the chain transmission set (62).

3. The die-casting molding apparatus for koji processing according to claim 2, wherein the die-casting molding mechanism (7) comprises:

a second servo motor (71), wherein the second servo motor (71) is arranged on one side of the shaping frame (66) close to the first transmission rod (65);

the crank connecting rod (72) is rotationally connected to the second servo motor (71), and the crank connecting rod (72) penetrates through the shaping frame (66);

the pressing plate (75) is connected with the shaping frame (66) in an inward sliding manner;

the third transmission plate (74) is connected to the pressure plate (75);

the second transmission plate (73) is connected to the third transmission plate (74), and the second transmission plate (73) is connected with the crank connecting rod (72) in a sliding mode.

4. The die-casting molding apparatus for koji processing according to claim 3, further comprising: a switch mechanism (8), the switch mechanism (8) comprising:

the switch plate (81) is connected to one side, close to the support plate (2), of the bottom plate (1) in a sliding mode;

the spring (86) is connected between the switch plate (81) and the support plate (2);

the switch board (81) is connected with a first rack (82);

the first gear (83) is rotatably connected to one side of the mounting frame (4), and the first gear (83) is meshed with the first rack (82) on one side;

the second gear (84) is rotatably connected to one side, close to the first gear (83), of the mounting frame (4), and the second gear (84) is meshed with the first gear (83) and the first rack (82) on the other side respectively;

the supporting rod sleeve (87) is connected to one side, close to one of the slotted plates (68), of the end part of the mounting frame (4);

the second transmission rod (88) is rotatably connected to the support rod sleeve (87);

one end of the second transmission rod (88) is connected with the third gear (85), and the third gear (85) is meshed with the second gear (84);

the other end of the second transmission rod (88) is connected with the one-way clutch (89);

a fourth gear (810), the one-way clutch (89) is connected with the fourth gear (810);

and one side of the shaping frame (66) close to the support rod sleeve (87) is connected with a second rack (811), and the second rack (811) is meshed with a fourth gear (810).

5. The die-casting molding apparatus for koji processing according to claim 4, further comprising:

the push plate (9) is connected between the push plate (9) and the switch plate (81) on one side.

6. The die-casting molding apparatus for koji processing according to claim 5, further comprising:

the other side of the shaping frame (66) is connected with the material frame (10);

the valve (11) is arranged on the material frame (10).

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