CN220045710U - Dough box output device - Google Patents

Abstract

The utility model relates to the technical field of automatic cooking devices, in particular to a dough box output device, which comprises a storage device, a pushing device and an output device; the storage device comprises a storage cabinet provided with a supporting bottom wall, and the supporting bottom wall is provided with a bottom wall gap; the pushing device comprises a pushing piece with horizontal linear power, and the pushing piece comprises a low-level surface, a pushing surface and a high-level surface; the output device comprises a turnover device and an output piece provided with a bearing part, the turnover device is provided with rotary power, and the output piece is fixedly connected with the turnover device; the pushing-out piece is opposite to the bottom wall gap, and the output piece can be opposite to the pushing-out piece. The utility model can turn over and output the cooked wheaten food in the stacked noodle boxes.

Description

Dough box output device

Technical Field

The utility model relates to the technical field of automatic cooking devices, in particular to a dough box output device.

Background

In an automatic noodle cooking device, pasta such as noodles contained in a noodle box needs to be automatically put into a cooking container. Conventionally, after a single dough box (the bottom end of which is fixed to a conveyor belt) is conveyed to a cooking container by the conveyor belt, dough such as noodles is poured out. When the quantity of cooked wheaten food is long, a longer conveyer belt needs to be prepared, the cost is high, and the occupied space is large.

Disclosure of Invention

It is an object of the present utility model to solve or mitigate the first technical problem described above.

The utility model adopts the means that the dough box output device comprises a storage device, a pushing device and an output device; the storage device comprises a storage cabinet provided with a supporting bottom wall, and the supporting bottom wall is provided with a bottom wall gap; the pushing device comprises a pushing piece with horizontal linear power, and the pushing piece comprises a low-level surface, a pushing surface and a high-level surface; the output device comprises a turnover device and an output piece provided with a bearing part, the turnover device is provided with rotary power, and the output piece is fixedly connected with the turnover device; the pushing-out piece is opposite to the bottom wall gap, and the output piece can be opposite to the pushing-out piece.

The utility model has the effect that wheaten food and the like in the stacked noodle boxes can be overturned and output.

According to a further technical scheme, the pushing device further comprises a lifting plate and a pushing cylinder arranged on the lifting plate, and the output end of the pushing cylinder is fixedly connected with the pushing piece; the lifting plate is provided with lifting power.

The face box can be made to be put on the supporting bottom wall lightly, and the damage caused by the impact of the supporting bottom wall on the face box is prevented.

Further technical scheme, output device still includes the carrier, and turning device includes articulated pole and the rotation power spare of being connected with articulated pole, and articulated pole is articulated with the carrier.

According to a further technical scheme, the rotary power part is a gear, the output device also comprises a rack and a turnover cylinder, the rack is meshed with the gear, the turnover cylinder is arranged on the carrier, the output end of the turnover cylinder is connected with the rack,

under the premise of enabling the turnover device to rotate rapidly, the rotation angle of the turnover device can be controlled accurately through the stroke of the turnover cylinder.

According to a further technical scheme, the inner cavity of the storage cabinet can accommodate a plurality of rows of stacked noodle boxes; the output device also comprises a bracket and a traversing device, and the carrier is connected with the traversing device and has traversing power.

The cost can be reduced.

According to a further technical scheme, the output device further comprises a face box discharging piece with linear power, and at least part of the face box discharging piece can be opposite to the notch.

The dough box ejector can push out the empty dough box; the dough and the like in the stacked dough boxes can be continuously turned over and output.

Further technical scheme, the inside wall of output piece is provided with the shell fragment.

Can prevent the noodle box from being thrown out.

In summary, the utility model can achieve the following technical effects,

1} can turn over and output cooked wheaten food and the like in the stacked noodle boxes.

2 can make the face box lightly put on the supporting diapire, prevent the face box by supporting diapire striking and damage.

3 the face box ejector can push out an empty face box; the dough and the like in the stacked dough boxes can be continuously turned over and output.

Drawings

Fig. 1 is a schematic perspective view of a facial box output device according to an embodiment of the present utility model.

Fig. 2 is a schematic perspective view of a face box output device according to an embodiment of the present utility model; the cabinet door 119 is in an open state.

Fig. 3 is a schematic perspective view of the output device 3 of the embodiment of the present utility model; the timing belt is not shown.

Fig. 4 is a schematic perspective view of the output device 3 of the embodiment of the present utility model; the timing belt is not shown.

Fig. 5 is a partial perspective view of the output device 3 of the embodiment of the present utility model; the timing belt is not shown.

Fig. 6 is a perspective view of the ejector 21 according to the embodiment of the present utility model.

Fig. 7 is a schematic top view of a face-box output device according to an embodiment of the present utility model.

Fig. 8 is a schematic diagram of a section SEC 1.

FIG. 9 is a schematic diagram of detail DTL1; arrow-ARR 1 indicates the direction in which the ejector 21 pushes the face pack 9 to the output member 31; arrow two ARR2 indicates the direction in which the output member 31 turns the face box 9.

Arrow one ARR1; arrow two ARR2; section one SEC1; detail one DTL1; a storage device 1; a storage cabinet 11; a support bottom wall 111; a bottom wall gap 112; a cabinet door 119; a pushing-out device 2; a push-out member 21; a low level surface 211; an extraction face 212; a high level surface 213; a push-out cylinder 219; a lifting plate 22; a lifting cylinder 229; an output device 3; an output member 31; a support portion 311; a spring piece 312; a flipping device 32; a hinge lever 321; a rotary power member 322; a rack 323; a reversing cylinder 324; a carrier 33; a synchronous belt clip 339; a dough box ejector 34; a ejector power device 341; a traversing device 38; a timing pulley 381; a synchronous belt motor 382; a bracket 39; a guide rail 391; a collection container 4; face box 9.

Detailed Description

Specific embodiments of the present utility model will be described below with reference to the drawings.

As a specific embodiment, the dough box output device of the embodiment of the present utility model includes a storage device 1, a push-out device 2, and an output device 3.

The storage device 1 comprises a storage cabinet 11 provided with a supporting bottom wall 111, the supporting bottom wall 111 being provided with a bottom wall gap 112.

The ejector device 2 includes an ejector 21 having a horizontal linear power, and the ejector 21 includes a low-level surface 211, an ejector surface 212, and a high-level surface 213.

The output device 3 includes a turning device 32 and an output member 31 provided with a support portion 311, the turning device 32 is provided with a rotation power, and the output member 31 is fixedly connected to the turning device 32.

The ejector 21 faces the bottom wall gap 112, in other words, the ejector 21 can pass through the bottom wall gap 112 when moving horizontally and linearly.

The output element 31 can be directly opposite to the ejector element 21, in other words, the ejector element 21 can move horizontally in a straight line so that the dough box 9 can be pushed onto the output element 31 by the ejector surface 212. Of course, in the embodiment in which the output member 31 is movable along the guide rail 391, the output member 31 may be moved and then the ejector 21 may be moved.

The working principle is that the stacked face boxes 9 are placed in the storage cabinet 11, and the face box 9 of the lowest layer is supported by the support bottom wall 111.

The pushing member 21 moves linearly horizontally, and in this process, the lower surface 211 supports the bottom surface of the lowermost cassette 9, and the pushing surface 212 pushes the side surface of the lowermost cassette 9 and pushes the lowermost cassette 9 onto the supporting portion 311 of the output member 31. The second lower face box 9 is supported by the upper face 213 in the process.

Afterwards, the turnover device 32 drives the output piece 31 to turn over, so that the dough box on the output piece 31 turns over to enable the cooked wheaten food and the like (not shown in the drawing) in the dough box 9 to be poured into a cooking container (not shown in the drawing) for cooking.

The ejector 21 is then reset, and the second lower cassette 9 falls down to the lowest cassette 9 on the support bottom wall 111.

As can be seen from the above, the dough box output device of the present utility model can invert and output the dough and the like in the stacked dough boxes 9.

As one specific embodiment, the ejector device 2 further includes a lifter plate 22 and an ejector cylinder 219 disposed on the lifter plate 22, wherein an output end of the ejector cylinder 219 is fixedly connected to the ejector 21 so that the ejector 21 has horizontal linear power; the lifter plate 22 is provided with lifting power, such as by lifting cylinders 229. In the process of resetting the push-out piece 21, the lifting plate 22 drives the push-out piece 21 to descend so that the second lower face box 9 is lightly placed on the supporting bottom wall 111, and then the push-out piece 21 moves horizontally and linearly; in other words, the face box 9 can be made to rest lightly on the support bottom wall 111, preventing the face box 9 from being damaged by being bumped by the support bottom wall 111.

As one of the specific embodiments, the output device 3 further includes a carrier 33, and the turning device 32 includes a hinge rod 321 and a rotary power member 322 connected to the hinge rod 321, where the hinge rod 321 is hinged to the carrier 33. The rotary power member 322 is configured to have rotary power, and is, for example, a motor.

As one specific embodiment, the rotary power member 322 is a gear, and the output device 3 further includes a rack 323 and an overturning cylinder 324, the rack 323 is meshed with the gear, the overturning cylinder 324 is disposed on the carrier 33, and the output end is connected with the rack 323, so that the rack 323 is driven by the overturning cylinder 324 to have linear power. The rotation angle of the turning device 32 can be easily and accurately controlled by the stroke of the turning cylinder 324 on the premise that the turning device 32 is rotated rapidly.

As one specific embodiment, the inner cavity of the storage cabinet 11 can accommodate a plurality of rows of stacked face boxes 9; the output device 3 further includes a bracket 39 and a traversing device 38, and the carrier 33 is connected to the traversing device 38 and has traversing power. The traversing means a direction perpendicular to the direction of linear movement of the push-out member 21 in the horizontal plane. For example, the traversing device 38 is a synchronous belt (not shown in the drawings), the synchronous belt is fixedly connected with the carrier 33 through a synchronous belt clip 339 on the carrier 33, the synchronous belt bypasses the synchronous pulleys 381, and at least one of the synchronous pulleys 381 is driven by a synchronous belt motor 382 to have rotation power, so that the synchronous belt is driven to drive the carrier 33 to move. Typically, the support 39 is provided with a guide rail 391, and the carrier 33 is slidably coupled in a straight line to the support 39 by means of a slider cooperating with the guide rail 391. The output device 3 does not need to be provided for each row of face boxes 9, and the cost can be reduced. A plurality of different pasta may be stored simultaneously, for example 4 rows of 4 may be stored, with the pasta being selected for cooking by traversing means 38.

As a specific embodiment, the output device 3 further includes a face-box discharging member 34 having a linear power, and the output member 31 is provided with a notch (not shown in the drawing), and as shown in fig. 3, at least part of the face-box discharging member 34 can face the notch. The cartridge ejector 34 is driven by the ejector power device 341 to have linear power. The overturning device 32 drives the dough box 9 to overturn, and the dough and the like in the dough box are poured out and reset, and the dough box discharging piece 34 can push out the empty dough box 9, for example, into the collecting container 4; the dough and the like in the stacked dough boxes 9 can be continuously turned over and output.

As one of the specific embodiments, the inner side wall of the output member 31 is provided with a spring plate 312. The face box 9 can be prevented from being thrown out.

The term is used as in the present utility model: first, second, etc. do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

The term is used as in the present utility model: one, etc. do not represent a limitation of quantity, but rather represent the presence of at least one of the mentioned objects.

The term indicating azimuth or position is used as in the present utility model: top, bottom, side, longitudinal, lateral, middle, center, outer, inner, horizontal, vertical, left, right, above, below, etc., are meant to reflect relative positions, not absolute positions.

The term as used in the present utility model: rough, global, approximate, close, etc., are defined terms that indicate that a feature is present but that a certain deviation is allowed. The amount of tolerance to a certain deviation may vary depending on the particular context; for example, specific contexts that may depend upon for dimensional deviations include, but are not limited to, national standards for dimensional tolerances.

Claims (7)

1. A dough box output device, which comprises a storage device (1), a push-out device (2) and an output device (3);

the storage device is characterized in that the storage device (1) comprises a storage cabinet (11) provided with a supporting bottom wall (111), and the supporting bottom wall (111) is provided with a bottom wall gap (112); the ejector device (2) comprises an ejector (21) with horizontal linear power, and the ejector (21) comprises a low-level surface (211), an ejector surface (212) and a high-level surface (213); the output device (3) comprises a turnover device (32) and an output piece (31) provided with a bearing part (311), the turnover device (32) is provided with rotary power, and the output piece (31) is fixedly connected with the turnover device (32); the ejector (21) faces the bottom wall gap (112), and the output member (31) can face the ejector (21).

2. The dough box output device according to claim 1, wherein the pushing device (2) further comprises a lifting plate (22) and a pushing cylinder (219) arranged on the lifting plate (22), and the output end of the pushing cylinder (219) is fixedly connected with the pushing piece (21); the lifting plate (22) has lifting power.

3. The dough output device according to claim 1, characterized in that the output device (3) further comprises a carrier (33), the turning device (32) comprises a hinge rod (321) and a rotary power member (322) connected with the hinge rod (321), and the hinge rod (321) is hinged with the carrier (33).

4. A dough box output device according to claim 3, characterized in that the rotary power member (322) is a gear, the output device (3) further comprises a rack (323) and a turning cylinder (324), the rack (323) is meshed with the gear, the turning cylinder (324) is arranged on the carrier (33) and the output end is connected with the rack (323).

5. The dough box output device according to claim 1, characterized in that the inner cavity of the storage cabinet (11) can accommodate a plurality of rows of stacked dough boxes (9); the output device (3) further comprises a bracket (39) and a traversing device (38), and the carrier (33) is connected with the traversing device (38) and has traversing power.

6. The dough output device according to claim 5, characterized in that the output device (3) further comprises a dough discharge member (34) with linear power, the output member (31) is provided with a notch, and at least part of the dough discharge member (34) can face the notch.

7. The dough box output device according to claim 6, wherein the inner side wall of the output piece (31) is provided with a spring piece (312).