CN111838526B - Cross shaping device for rice cracker for food processing - Google Patents

Abstract

The invention relates to a cross molding device, in particular to a rice cracker cross molding device for food processing. The invention provides a rice cracker cross modeling device for food processing, which does not need to manually twist rice cracker to perform cross modeling and does not need to manually cut rice cracker. The invention provides a rice cracker cross modeling device for food processing, which comprises: a first mounting plate is connected to one side of the bottom plate; the other side of the bottom plate is connected with a second mounting plate; the second mounting plate is provided with the rice cracker; the first mounting plate is provided with a crossing mechanism; the clamping mechanism is arranged at the top of the bottom plate. The clamping mechanism can clamp the rice cracker, the crossing mechanism can twist the rice cracker to shape the rice cracker in a crossing way, and the dividing mechanism can cut the rice cracker to cut the rice cracker, so that the effects of needing no manual twisting of the rice cracker to shape the rice cracker in a crossing way and needing no manual cutting of the rice cracker are achieved.

Description

Cross shaping device for rice cracker for food processing

Technical Field

The invention relates to a cross molding device, in particular to a rice cracker cross molding device for food processing.

Background

The rice cracker is a snack made of rice as a main raw material, in order to make the appearance of the rice cracker more attractive, improve sales volume of the rice cracker, twist the rice cracker to make the rice cracker cross and shape, at present, it is generally that the manual operation twists the rice cracker to make the rice cracker cross and shape, then the manual operation uses scissors to cut off the rice cracker, so the operation is complicated, and the labor capacity of workers is large.

Therefore, there is a need to develop a rice cracker cross-shaping device for food processing, which does not need to manually twist rice cracker to carry out cross shaping and manually cut rice cracker.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of cross modeling by manually twisting rice cracker and manually cutting rice cracker, and provides a rice cracker cross modeling device for food processing without manually twisting rice cracker and manually cutting rice cracker.

(2) Technical proposal

In order to solve the technical problems, the invention provides a rice cracker cross modeling device for food processing, comprising: a first mounting plate is connected to one side of the bottom plate; the other side of the bottom plate is connected with a second mounting plate; the second mounting plate is provided with the rice cracker; the first mounting plate is provided with a crossing mechanism; the clamping mechanism is arranged at the top of the bottom plate.

Preferably, the crossing mechanism comprises: the cylinder is arranged on the first mounting plate; the first transmission rod is connected with the cylinder, and a rotary groove is formed in the first transmission rod; the middle part of the bottom plate is fixedly connected with a guide rod which is positioned in the rotary groove.

Preferably, the clamping mechanism comprises: the other side of the bottom plate is connected with a first L-shaped connecting plate; the pressing plate is connected with two pressing plates in a sliding manner on the first L-shaped connecting plate; the first spring is connected between the pressing plate and the first L-shaped connecting plate; the sliding block is connected to one of the pressing plates in a sliding manner; the sliding block is connected with the first connecting plate; the support rod is connected to one side of the first connecting plate and is in contact fit with the pressing plate; the second connecting plate is connected with the other side of the first connecting plate and is connected with the bottom plate in a sliding manner; the hollow pipe is connected to the first transmission rod; the hollow pipe is connected with two clamping plates in a sliding manner; and a second spring is connected between the clamping plate and the hollow tube.

Preferably, the device further comprises a dividing mechanism, the dividing mechanism comprising: the guide plate is connected to one side, far away from the first L-shaped connecting plate, of the bottom plate; the guide plate is internally connected with a second L-shaped connecting plate in a sliding manner, and the second L-shaped connecting plate is connected with the second connecting plate; the rack is connected with the second L-shaped connecting plate; the third spring is connected between the second L-shaped connecting plate and the second mounting plate; the outer wall of the rice cracker is connected with the guide circular tube; the first guide sleeve is connected to one side, close to the rack, of the bottom plate; the upper part of the first guide sleeve is rotatably connected with a second transmission rod; the second transmission rod is connected with a dividing knife; the lower part of the first guide sleeve is connected with the second guide sleeve; the second guide sleeve is rotationally connected with the third transmission rod; the belt transmission group is connected between the third transmission rod and the second transmission rod; the bottom plate is connected with the first guide sleeve in a rotary mode; bevel gears are connected to the end part of the fourth transmission rod and the third transmission rod, and the two bevel gears are meshed; the one-way clutch is connected with the fourth transmission rod; the one-way clutch is connected with a transmission gear which is meshed with the rack.

Preferably, the method further comprises: the support plate is connected with the guide round tube.

(3) Advantageous effects

The clamping mechanism can clamp the rice cracker, the crossing mechanism can twist the rice cracker to shape the rice cracker in a crossing way, and the dividing mechanism can cut the rice cracker to cut the rice cracker, so that the effects of cross shape without manually twisting the rice cracker and shearing the rice cracker by manual operation are achieved, and the aim of reducing the labor capacity of workers is achieved.

Drawings

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

Fig. 2 is an enlarged view of the invention at a.

Fig. 3 is a schematic perspective view of the dividing mechanism of the present invention.

Fig. 4 is an enlarged view of the invention at B.

The marks in the drawings are: 1-bottom plate, 2-first mounting plate, 3-second mounting plate, 4-meter fruit machine, 5-cross mechanism, 51-cylinder, 52-first transmission rod, 53-rotary groove, 54-guide rod, 6-clamping mechanism, 61-first L-shaped connecting plate, 62-first spring, 63-clamp plate, 64-stay rod, 65-first connecting plate, 66-slide block, 67-second connecting plate, 68-clamp plate, 69-hollow tube, 610-second spring, 7-splitting mechanism, 71-second L-shaped connecting plate, 72-guide plate, 73-rack, 74-third spring, 75-guiding circular tube, 76-first guide sleeve, 77-second transmission rod, 78-splitting knife, 79-belt transmission group, 710-second guide sleeve, 711-third transmission rod, 712-bevel gear, 713-fourth transmission rod, 714-one-way clutch, 715-transmission gear, 8-support plate.

Detailed Description

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

Example 1

The utility model provides a rice cracker cross modeling device for food processing, as shown in fig. 1-3, including bottom plate 1, first mounting panel 2, second mounting panel 3, rice cracker 4, cross mechanism 5 and clamping mechanism 6, bottom plate 1 top left side is connected with first mounting panel 2, and bottom plate 1 top right side is connected with second mounting panel 3, installs rice cracker 4 on the second mounting panel 3, is equipped with cross mechanism 5 on the first mounting panel 2, and bottom plate 1 top is equipped with clamping mechanism 6.

The crossing mechanism 5 comprises an air cylinder 51, a first transmission rod 52 and a guide rod 54, the air cylinder 51 is arranged on the right side face of the first mounting plate 2, the first transmission rod 52 is connected to the air cylinder 51, a rotary groove 53 is formed in the first transmission rod 52, the guide rod 54 is fixedly connected to the middle of the top of the bottom plate 1, and the upper part of the guide rod 54 is positioned in the rotary groove 53.

The clamping mechanism 6 comprises a first L-shaped connecting plate 61, a first spring 62, a pressing plate 63, a supporting rod 64, a first connecting plate 65, a sliding block 66, a second connecting plate 67, clamping plates 68, a hollow tube 69 and a second spring 610, wherein two first L-shaped connecting plates 61 are connected to the rear side of the top of the bottom plate 1, two pressing plates 63 are connected between the inner side surfaces of the first L-shaped connecting plates 61 in a sliding mode, the two pressing plates 63 are vertically symmetrical, a first spring 62 is connected between the pressing plates 63 and the first L-shaped connecting plates 61, a sliding block 66 is connected to the lower pressing plates 63 in a sliding mode, a first connecting plate 65 is connected to the top of the sliding block 66, the supporting rod 64 is connected to the right side surface of the first connecting plate 65, the supporting rod 64 is in contact fit with the pressing plates 63, the left side surface of the first connecting plate 65 is connected with the second connecting plate 67, the second connecting plate 67 is connected with the bottom plate 1 in a sliding mode, the right end of the first driving rod 52 is connected with the hollow tube 69, two clamping plates 68 are connected to the inner side surfaces of the hollow tube 69 in a sliding mode, the two clamping plates 68 are vertically symmetrical, the clamping plates 68 are located on the right side of the second connecting plates 67, and the second springs 610 are connected between the clamping plates 68 and the hollow tube 69.

When the rice cracker is to be made, the rice cracker is poured into the rice cracker machine 4, initially, the first spring 62 is in a compressed state, then the cylinder 51 is started to enable the first transmission rod 52 to move rightwards, the first transmission rod 52 moves rightwards to drive the parts on the first transmission rod 52 to move rightwards, and after the clamping plate 68 at the lower side moves rightwards to be in contact with the supporting rod 64, the clamping plate 68 continues to move rightwards to push the supporting rod 64 to move rightwards, and the supporting rod 64 moves rightwards to drive the first connecting plate 65 and the second connecting plate 67 to move rightwards. When the stay 64 moves rightward out of contact with the pressing plates 63, the pressing plates 63 can be brought close to each other by the first springs 62, the pressing plates 63 can be brought close to each other, the clamping plates 68 can be brought close to each other, and the second springs 610 are compressed. When the two clamping plates 68 move rightwards to the proper position, the rice cracker 4 is started, the rice cracker 4 can extrude rice cracker, the two clamping plates 68 are close to each other to clamp the extruded rice cracker, then the air cylinder 51 is started to enable the first transmission rod 52 to move leftwards for resetting, the first transmission rod 52 moves leftwards for resetting to drive the two clamping plates 68 to move leftwards, and due to the arrangement of the guide rod 54 and the rotating groove 53, the first transmission rod 52 can rotate when moving, the first transmission rod 52 moves to drive the two clamping plates 68 to rotate, and the rotation of the two clamping plates 68 can twist the rice cracker to enable the rice cracker to cross to be molded. After the rice cracker 4 extrudes the rice cracker with proper length, the rice cracker 4 is closed, and then the rice cracker is manually sheared. When the lower clamping plate 68 moves leftwards to be in contact with the second connecting plate 67, the lower clamping plate 68 continues to move leftwards to push the second connecting plate 67 to move leftwards, the second connecting plate 67 moves leftwards to drive the first connecting plate 65 to move leftwards, the first connecting plate 65 moves leftwards to drive the stay bar 64 to move leftwards, and when the stay bar 64 moves leftwards to be in contact with the pressing plates 63, the stay bar 64 moves leftwards to separate the two pressing plates 63 from each other, and the first spring 62 compresses accordingly. After the two pressing plates 63 are separated from each other, the two clamping plates 68 can be separated from each other under the action of the second spring 610 to loosen the rice cracker, then the rice cracker can be removed from the clamping plates 68, and when the first transmission rod 52 is reset, the air cylinder 51 is closed. The above operation is repeated, the rice cracker can be repeatedly made, and the rice cracker is crossed for shaping. So the clamping mechanism 6 of this device can press from both sides rice cracker clamp, and the cross mechanism 5 can twist the rice cracker and make rice cracker alternately model to need not artifical manual twist rice cracker and alternately model.

Example 2

On the basis of the embodiment 1, as shown in fig. 3-4, the utility model also comprises a dividing mechanism 7, the dividing mechanism 7 comprises a second L-shaped connecting plate 71, a guide plate 72, a rack 73, a third spring 74, a guide circular tube 75, a first guide sleeve 76, a second transmission rod 77, a dividing knife 78, a belt transmission group 79, a second guide sleeve 710, a third transmission rod 711, a bevel gear 712, a fourth transmission rod 713, a one-way clutch 714 and a transmission gear 715, the front side of the front part of the bottom plate 1 is connected with the guide plate 72, the second L-shaped connecting plate 71 is connected with the lower part of the second connecting plate 67 in a sliding manner, a rack 73 is connected on the second L-shaped connecting plate 71, a third spring 74 is connected between the second L-shaped connecting plate 71 and the second mounting plate 3, the outer wall of the rice cracker 4 is connected with the guide circular tube 75, the top of the bottom plate 1 at the rear side of the rack 73 is connected with a first guide sleeve 76, the upper part of the first guide sleeve 76 is rotationally connected with a second transmission rod 77, the right end of the second transmission rod 77 is connected with a dividing knife 78, the lower part of the first guide sleeve 76 is connected with a second guide sleeve 710, the second guide sleeve 710 is rotationally connected with a third transmission rod 711, a belt transmission group 79 is connected between the third transmission rod 711 and the second transmission rod 77, the top of the bottom plate 1 at the front side of the first guide sleeve 76 is rotationally connected with a fourth transmission rod 713, the top end of the fourth transmission rod 713 and the third transmission rod 711 are both connected with bevel gears 712, the two bevel gears 712 are meshed, the lower part of the fourth transmission rod 713 is connected with a one-way clutch 714, the one-way clutch 714 is connected with a transmission gear 715, and the transmission gear 715 is meshed with the rack 73.

The second connection plate 67 moves rightwards and leftwards to drive the second L-shaped connection plate 71 to move rightwards and leftwards, the second L-shaped connection plate 71 moves rightwards and leftwards to drive the rack 73 to move rightwards and leftwards, the rack 73 moves leftwards to enable the transmission gear 715 to rotate, the transmission gear 715 rotates to drive the fourth transmission rod 713 to rotate, the fourth transmission rod 713 rotates to enable the third transmission rod 711 to rotate through the bevel gear 712, the third transmission rod 711 rotates to enable the second transmission rod 77 to rotate through the belt transmission set 79, the second transmission rod 77 rotates to drive the dividing knife 78 to rotate, the dividing knife 78 rotates to cut rice fruits, and the rice fruits are cut off, so that manual cutting of the rice fruits is not needed. The fourth transmission rod 713 is not rotated when the rack 73 is rightward due to the one-way clutch 714, so that the dividing knife 78 is not rotated.

Example 3

On the basis of the embodiment 2, as shown in fig. 1 and 3, the guide round tube further comprises a supporting plate 8, and the inner wall of the rear side of the guide round tube 75 is connected with the supporting plate 8.

The rice cracker can be supported by the supporting plate 8, and the rice cracker is prevented from falling onto the bottom plate 1.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (2)

1. A rice cracker cross-molding apparatus for food processing comprising:

a first mounting plate (2) is connected to one side of the bottom plate (1);

the second mounting plate (3) is connected with the other side of the bottom plate (1) and the second mounting plate (3);

the rice cracker machine (4) is arranged on the second mounting plate (3);

the first mounting plate (2) is provided with the crossing mechanism (5);

the clamping mechanism (6) is arranged at the top of the bottom plate (1);

the crossing mechanism (5) comprises:

a cylinder (51), the cylinder (51) being mounted on the first mounting plate (2);

the first transmission rod (52) is connected with the air cylinder (51), and the first transmission rod (52) is provided with a rotary groove (53);

the guide rod (54) is fixedly connected with the guide rod (54) at the middle part of the bottom plate (1), and the guide rod (54) is positioned in the rotary groove (53);

the clamping mechanism (6) comprises:

the other side of the bottom plate (1) is connected with a first L-shaped connecting plate (61);

the pressing plate (63) is connected with the two pressing plates (63) on the first L-shaped connecting plate (61) in a sliding manner;

a first spring (62), wherein the first spring (62) is connected between the pressing plate (63) and the first L-shaped connecting plate (61);

a slide block (66), wherein one pressing plate (63) is connected with the slide block (66) in a sliding way;

the first connecting plate (65), the first connecting plate (65) is connected to the sliding block (66);

a stay bar (64), one side of the first connecting plate (65) is connected with the stay bar (64), and the stay bar (64) is in contact fit with the pressing plate (63);

the second connecting plate (67), the second connecting plate (67) is connected to another side of the first connecting plate (65), the second connecting plate (67) is connected with the bottom plate (1) in a sliding mode;

a hollow pipe (69), the first transmission rod (52) is connected with the hollow pipe (69);

the clamping plate (68), the hollow tube (69) is connected with two clamping plates (68) in a sliding way;

a second spring (610), wherein the second spring (610) is connected between the clamping plate (68) and the hollow tube (69);

also comprises a dividing mechanism (7), wherein the dividing mechanism (7) comprises:

a guide plate (72), wherein one side of the bottom plate (1) far away from the first L-shaped connecting plate (61) is connected with the guide plate (72);

the second L-shaped connecting plate (71), the second L-shaped connecting plate (71) is connected in the guide plate (72) in a sliding manner, and the second L-shaped connecting plate (71) is connected with the second connecting plate (67);

the rack (73) is connected with the second L-shaped connecting plate (71);

a third spring (74), wherein the third spring (74) is connected between the second L-shaped connecting plate (71) and the second mounting plate (3);

the outer wall of the rice cracker (4) is connected with the guide circular tube (75);

the first guide sleeve (76) is connected with one side, close to the rack (73), of the bottom plate (1);

the second transmission rod (77) is rotatably connected with the upper part of the first guide sleeve (76);

the second transmission rod (77) is connected with a dividing knife (78);

the lower part of the first guide sleeve (76) is connected with the second guide sleeve (710);

the third transmission rod (711), the second guide sleeve (710) is rotationally connected with the third transmission rod (711);

a belt transmission group (79), wherein the belt transmission group (79) is connected between the third transmission rod (711) and the second transmission rod (77);

a fourth transmission rod (713), wherein one side of the bottom plate (1) close to the first guide sleeve (76) is rotatably connected with the fourth transmission rod (713);

bevel gears (712), wherein the end part of the fourth transmission rod (713) and the third transmission rod (711) are connected with the bevel gears (712), and the two bevel gears (712) are meshed;

a one-way clutch (714), and the one-way clutch (714) is connected to the fourth transmission rod (713);

and a transmission gear (715), wherein the unidirectional clutch (714) is connected with the transmission gear (715), and the transmission gear (715) is meshed with the rack (73).

2. The rice cracker cross-molding apparatus for food processing of claim 1, further comprising:

the supporting plate (8) is connected with the guiding round tube (75).