CN212546694U - Vegetable twisting machine - Google Patents

Abstract

The utility model discloses a hank dish machine presses down a section of thick bamboo through last lower, and then makes the telescopic internal thread drive transmission rotor of drive rotate, and the transmission rotor passes through tooth interlock drive transfer line, and the transfer line further drives power take off, and power take off redrives and changes the sword rotation. The device drives the movable blade to rotate through manual operation, and the hand does not need to do circular motion, only needs to do up-and-down linear motion, and can be pressed by the body, so that the operation is simple and labor-saving.

Description

Vegetable twisting machine

Technical Field

The utility model relates to a kitchen utensil, concretely relates to hank dish machine.

Background

When cooking in a kitchen, vegetables and stuffing are often needed to be cut, and if the vegetables are cut and the stuffing is cut by a kitchen knife, the operation is time-consuming and labor-consuming. Utility model CN205568790U discloses a hank dish machine, through the handle rotation and through gear drive, drive the helical blade in the barrel and rotate, accomplish vegetables and cutting to the bits of broken glass in to the barrel. When the vegetable twisting machine is used, a hand rotates in a horizontal plane along with the handle, the action amplitude is large, the arm swings along with the handle, and the operation is still laboursome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hank dish machine, the device move the blade rotation through manual driving band to circular motion need not be done to the people hand, only need linear motion from top to bottom, and can be with the help of health overdraft, easy operation and laborsaving.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a vegetable twisting machine comprises a container and a container cover, wherein a rotary knife is arranged in the container, a driving mechanism is arranged on the container cover, the driving mechanism penetrates through the container cover to be connected with the rotary cutter, the driving mechanism comprises a power output head, a transmission rod and a driving sleeve, one end of the power output head is connected with the rotary cutter, the other end of the power output head is provided with a clamping groove, one end of the transmission rod is a chuck, the other end of the transmission rod is rotatably sleeved with a transmission rotor, the lower end of the transmission rotor is provided with a first latch, a bearing clamping block is fixed on the transmission rod below the transmission rotor, a second clamping tooth is arranged at the upper end of the bearing clamping block, the clamping head is clamped with the clamping groove when rotating in the positive direction and drives the power output head to rotate together, when the transmission rotor rotates in the positive direction, the first latch and the second latch of the bearing fixture block are engaged with each other and drive the transmission rod to rotate together, when the transmission rotor rotates reversely, the first clamping tooth is separated from the second clamping tooth of the bearing clamping block; the transmission rotor is characterized in that a first thread groove is formed in the outer side of the transmission rotor, a second thread groove is formed in the inner side of the driving sleeve, the second thread groove is meshed with the first thread groove when the driving sleeve is pressed downwards, the transmission rotor moves upwards in the driving sleeve, meanwhile, the first clamping tooth is meshed with the second clamping tooth, the transmission rod and the power output head are driven to rotate together, when the driving sleeve ascends, the transmission rotor rotates reversely in the driving sleeve and moves downwards, and meanwhile, the first clamping tooth is separated from the second clamping tooth.

Preferably, the transmission rod is sleeved with a spring, and the upper end of the spring is positioned in an annular blind cavity in the side wall of the driving sleeve.

Preferably, be equipped with the guard shield on the container lid, be equipped with the leading truck in the guard shield, spring, transfer line and drive sleeve are located in the leading truck, have a section of thick bamboo of pressing at the drive sleeve overcoat, press a lower extreme of a section of thick bamboo with the outside wall joint in annular blind chamber.

Preferably, the guide frame comprises a base, two support ribs are arranged on the base, a support ring is arranged at the top of each support rib, the driving sleeve penetrates through the support ring and is provided with a sliding groove in the outer wall, the sliding groove is in sliding clamping connection with the support ribs, a connecting piece is arranged in the protective cover, a connecting groove is arranged on the outer side of each support rib, and the connecting piece is in clamping connection with the connecting groove.

Preferably, a ball bearing is arranged between the power output head and the container cover, the clamping groove of the power output head comprises an annular inclined plane clamping tooth, the clamping head of the transmission rod comprises a transverse clamping rod transversely arranged at the end part of the transmission rod, when the transmission rod rotates forwards, the transverse clamping rod is clamped on the inclined plane clamping tooth and drives the power output head to rotate, and when the transmission rod rotates backwards, the transverse clamping rod moves along the inclined plane of the inclined plane clamping tooth and is separated from the inclined plane clamping tooth.

The utility model discloses in, when the drive sleeve pushes down, second thread groove in it combines together and makes the drive rotor upwards rotate along the drive sleeve inner wall with the first thread groove of drive rotor, the first latch of drive rotor combines together and drives the transfer line and rotate simultaneously downwards with the second latch of accepting the fixture block simultaneously, the dop drive power take off head of transfer line rotates together simultaneously, when the drive sleeve ascends, second thread groove opposite direction in it acts on the first thread groove of drive rotor and makes the drive rotor downwards rotate along the drive sleeve inner wall, because of drive rotor itself receives ascending power, so the first latch of drive rotor breaks away from mutually with the second latch of accepting the fixture block, the transfer line is not exported again in the rotation of drive rotor, the rotary cutter is no longer rotated, the restoration of drive sleeve has been realized like this, then push down the drive rotary cutter once more and rotate.

Drawings

FIG. 1 is a sectional view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the transmission rod of the present invention;

fig. 3 is a schematic structural view of the driving sleeve of the present invention;

fig. 4 is a schematic structural view of the driving rotor of the present invention;

FIG. 5 is a schematic view of the structure of the pressing cylinder of the present invention;

fig. 6 is a schematic view of the protective cover of the present invention;

fig. 7 is a schematic view of the cross-sectional structure of the power take-off head of the present invention;

fig. 8 is a schematic view of the cross-sectional structure of the guide frame of the present invention;

fig. 9 is a structural schematic diagram of the container cover.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

the vegetable twisting machine shown in the attached drawing comprises a container 1 and a container cover 2, wherein a rotary cutter 3 is arranged in the container and comprises a cutter bar 301, a blade 302 is spirally arranged on the cutter bar 301, a cushion core 303 is arranged at the bottom of the container 1, and the cushion core 303 is supported on a groove at the bottom of the cutter bar 301 and is used for supporting the cutter bar 301 to rotate. A polygonal recess 304 is provided in the top of the tool shank 301 for connection to a polygonal plug 411 of the drive output shaft 41 of the drive mechanism 4, so that the drive output shaft 41 rotates the tool shank 301.

The container cover 2 is provided with a groove 201, the center of the groove 201 is provided with an opening 202, a screw hole can be arranged on the opening for installing the shield 8 (the screw hole is not shown in fig. 9), the power output head 41 comprises a polygonal plug 411 at one end, a disc 412 is arranged at the other end, a clamping groove 413 is arranged on the disc 412, a plurality of inclined plane clamping teeth 414 are arranged in the clamping groove 413, the inclined plane clamping teeth 414 are arranged in a ring shape, each inclined plane clamping tooth 414 comprises a vertical surface 415 vertical to the bottom surface of the clamping groove, and an inclined plane 416 obliquely intersected with the vertical surface 415 and the bottom of the. One end of the power output head 41 passes through the opening 202 from the outer side of the cover 2 and extends into the container to be connected with the rotary cutter. A ball bearing is arranged between the power take-off head 41 and the container cover. The driving mechanism 4 further comprises a driving rod 42 and a driving sleeve 43, one end of the driving rod 42 is a clamping head 421, the clamping head 421 can be clamped with the clamping groove 413, and the clamping head 421 can drive the clamping groove and the power output head to rotate together when rotating in the forward direction. In one embodiment, the latch 421 is a transverse bar disposed at one end of the transmission rod, and when the transverse bar rotates forward along with the transmission rod 42, the two ends of the transverse bar are latched on the two vertical faces 415 of the inclined latch 414, so as to drive the latch 413 to rotate together. When the lateral latch is rotated in the reverse direction, it will follow the inclined surface 416 of the inclined latch 414, and thus will disengage from the inclined latch 414 and will not drive the latch to rotate together.

The other end of the transmission rod 42 is sleeved with a transmission rotor 422, the lower end of the transmission rotor 422 is provided with an annular first latch 423, the outer side of the transmission rotor 422 is provided with a first threaded groove 424, the transmission rod 42 is further fixed with a bearing fixture block 425, the bearing fixture block 425 is positioned below the transmission rotor, and the upper end of the transmission rod is provided with an annular second latch 426 for meshing with the first latch 423. A second thread groove 431 is provided on the inner cylindrical wall of the drive sleeve 43, the second thread groove 431 being capable of engaging with the first thread groove 424 and forcing the drive rotor 422 to rotate in the forward direction and to rise along the inner wall of the drive sleeve 43 when the drive sleeve 43 is depressed (in practice the drive rotor is not displaced longitudinally relative to the container lid but the drive sleeve is moved towards the container lid), while the first latch 423 of the drive rotor 422 engages with the second latch 426 of the receiving latch 425 and thereby drives the drive rod to rotate in the forward direction. When the driving sleeve 43 is lifted, the driving rotor is reversely rotated by the opposite acting force and moves downward relative to the inner wall of the driving sleeve 43, but the first latch 423 is separated from the second latch 426 of the receiving latch 425, so that the reverse rotation of the driving rotor 422 is not transmitted to the driving rod 42, and the driving sleeve 43 can be easily pulled up, and then the driving rod 42 is pushed down again to drive the rotary cutter 3 to rotate.

In order to ensure the smoothness of the up-and-down movement of the driving sleeve 43 and support and guide the driving sleeve 43, a guide frame 5 is arranged on the container cover 2, the guide frame 5 comprises a base 501, an opening 502 is reserved in the center of the base 501, two support ribs 503 are upwards connected to two sides of the base 501, and a support ring 504 is connected to the two support ribs 503 at the top. The lower end of the transmission rod 42 is transmitted through the opening 502, the chuck 421 is arranged below the base 501, the lower side surface of the base 501 is provided with a groove 505, the groove 505 covers the disc 412 of the power output head, and the chuck 421 is clamped on the clamping groove 413 in the disc 412. The disc 412 is rotatable within the groove 505. The spring 6 is sleeved outside the transmission rod 42, the spring 6 is positioned inside the two support ribs 503 of the guide frame, the side wall of the end part of the driving sleeve 43 is provided with a blind cavity 435, the outer side of the end part is provided with a sliding groove 436 and a clamping tongue 437, the driving sleeve is positioned in the support ring 504, the end part is positioned below the support ring 504, the sliding groove 436 is clamped on the support rib 503 and can slide on the support rib 503, the driving sleeve 43 is sleeved with a lower pressing barrel 7, the lower end of the lower pressing barrel 7 is provided with a clamping buckle 701, the clamping tongue 437 is clamped on the clamping buckle 701, so that the driving sleeve 43 and the lower pressing barrel 7 are assembled into a whole, when the spring 6 naturally extends, the end part of the driving sleeve 43 approaches the support ring 504 and cannot be separated from the support ring 504, the lower pressing barrel 7 is pressed downwards, the driving sleeve 43 moves downwards together, the transmission rod 42 is driven and drives the rotary knife 3 to rotate, and after the hand is released, the spring, at this time, the transmission rod 42 does not rotate, the rotary cutter 3 does not rotate, then the pressing cylinder 7 is pressed down again by hand, the rotary cutter 3 is driven to rotate repeatedly, in order to facilitate a user to press the pressing cylinder 7 by hand, the pressing block 9 is further installed above the pressing cylinder 7, and the upper surface of the pressing block 9 is a circular arc curved surface.

A protective cover 8 is sleeved outside the guide frame 5, a cover hole 801 is reserved at the top of the protective cover 8 for the downward pressing cylinder to pass through, two parallel connecting strips 802 can be arranged inside the protective cover 8, connecting grooves are formed in the outer sides of the supporting ribs 503 of the guide frame 5, and the two connecting strips 802 are respectively clamped into the connecting grooves, so that the protective cover 8 and the guide frame 5 are fixed.

Above-mentioned drive arrangement presses from top to bottom through the people, can drive rotary cutter 3 and rotate, and the operator can also push down with the help of health pressure, and the operation is more laborsaving relatively, does not need manual operation of this comparison effort of rotation in the horizontal plane, and the hank dish is light laborsaving relatively, experiences and feels better.

The above embodiments are only a few descriptions of the concept and implementation of the present invention, and are not intended to limit the scope of the present invention.

Claims (5)

1. A vegetable twisting machine comprises a container and a container cover, wherein a rotary cutter is arranged in the container, a driving mechanism is arranged on the container cover and penetrates through the container cover to be connected with the rotary cutter, it is characterized in that the driving mechanism comprises a power output head, a transmission rod and a driving sleeve, one end of the power output head is connected with the rotary cutter, the other end is provided with a clamping groove, one end of the transmission rod is a chuck, the other end of the transmission rod is rotatably sleeved with a transmission rotor, the lower end of the transmission rotor is provided with a first latch, a bearing clamping block is fixed on the transmission rod below the transmission rotor, a second clamping tooth is arranged at the upper end of the bearing clamping block, the clamping head is clamped with the clamping groove when rotating in the positive direction and drives the power output head to rotate together, when the transmission rotor rotates in the positive direction, the first latch and the second latch of the bearing fixture block are engaged with each other and drive the transmission rod to rotate together, when the transmission rotor rotates reversely, the first clamping tooth is separated from the second clamping tooth of the bearing clamping block; the transmission rotor is characterized in that a first thread groove is formed in the outer side of the transmission rotor, a second thread groove is formed in the inner side of the driving sleeve, the second thread groove is meshed with the first thread groove when the driving sleeve is pressed downwards, the transmission rotor moves upwards in the driving sleeve, meanwhile, the first clamping tooth is meshed with the second clamping tooth, the transmission rod and the power output head are driven to rotate together, when the driving sleeve ascends, the transmission rotor rotates reversely in the driving sleeve and moves downwards, and meanwhile, the first clamping tooth is separated from the second clamping tooth.

2. A vegetable cutter as claimed in claim 1, characterized in that a spring is sleeved on the transmission rod, and the upper end of the spring is located in an annular blind cavity in the side wall of the driving sleeve.

3. The vegetable cutter as claimed in claim 2, characterized in that a protective cover is arranged on the container cover, a guide frame is arranged in the protective cover, the spring, the transmission rod and the driving sleeve are positioned in the guide frame, a pressing barrel is sleeved outside the driving sleeve, and the lower end of the pressing barrel is clamped with the outer side wall of the annular blind cavity.

4. The vegetable cutter as claimed in claim 3, characterized in that the guide frame comprises a base, two support ribs are arranged on the base, a support ring is arranged on the top of the support ribs, the drive sleeve penetrates through the support ring and is provided with a sliding groove on the outer wall, the sliding groove is slidably clamped on the support ribs, a connecting piece is arranged in the protective cover, a connecting groove is arranged on the outer side of the support ribs, and the connecting piece is clamped in the connecting groove.

5. The vegetable cutter as claimed in claim 4, wherein a ball bearing is provided between the power take-off and the container cover, the engaging groove of the power take-off comprises an annularly-arranged inclined latch, the engaging head of the transmission rod comprises a transverse engaging rod transversely disposed at an end of the transmission rod, the transverse engaging rod engages with the inclined latch to rotate the power take-off when the transmission rod rotates in a forward direction, and the transverse engaging rod moves along an inclined surface of the inclined latch to disengage from the inclined latch when the transmission rod rotates in a reverse direction.

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