CN219609739U - Egg twisting machine and shaft blind box - Google Patents

Abstract

The utility model discloses an egg twisting machine and a shaft blind box. The egg twisting machine comprises a shell, a driving shaft, a rotating body and a twisted egg; the driving shaft is arranged on the shell in a telescopic way, the rotating body is arranged in the shell, the driving shaft is in transmission connection with the rotating body, and the rotating body can be driven to rotate when the driving shaft is contracted inwards in the shell; a poking piece is arranged on the periphery of the rotating body; the twisted eggs are positioned in the shell and are placed on the supporting plate; the shell is provided with a twisting egg outlet, and the poking piece can poke the twisting egg and fall out of the twisting egg outlet when rotating along with the rotating body. The egg twisting machine adopts the shaft body structural design, has smart structure and low space occupation rate, and can push the twisted eggs to fall out in a key pressing mode of the shaft body, thereby having high interestingness. The shaft blind box is based on the egg twisting machine, wherein the key shaft body is arranged in the egg twisting machine, so that the collection of the miniature key shaft body can be realized.

Description

Egg twisting machine and shaft blind box

Technical Field

The utility model relates to the technical field of egg twisting machines, in particular to a blind box of an egg twisting machine and a shaft body.

Background

As the twisting egg machine is used as sales equipment, different surprise can be brought to consumers due to high randomness of products in the twisting egg. In addition, the product can be sold in the selling process, and meanwhile, the game fun is brought to consumers.

At present, the existing egg twisting machine is generally designed into a game machine mode, and is large in size and high in space occupation rate. Further, the conventional egg twisting machine is generally of a spring-driven type or a direct rotary-disk driven type, and the egg twisting machine has a relatively slow drop-out manner, and is relatively low in game play and generated game excitement. In addition, conventional egg twisting machines are generally used to sell snack foods, toys, etc., and have fewer eggs for storage purposes.

Disclosure of Invention

The utility model aims to solve the problems of large space occupation rate, traditional driving mode and low interestingness of the existing egg twisting machine, and provides an egg twisting machine. This turn round egg machine adopts push type screw drive, can impel the turn round egg to fall out fast through the mode of pressing, improves the recreation enjoyment in the use, and whole turn round egg machine adopts the design of axle style, and space occupancy is low.

The utility model further provides a blind shaft box aiming at the problem of low storage of the twisted egg products of the conventional egg twisting machine. The miniature key shaft body is arranged in the torsion egg in the shaft body blind box, so that the miniature key shaft body can be stored.

The aim of the utility model is achieved by the following technical scheme.

A twisting egg machine comprises a shell, a driving shaft, a rotating body and a twisting egg;

the driving shaft is arranged on the shell in a telescopic way, the rotating body is arranged in the shell, the driving shaft is in transmission connection with the rotating body, and the rotating body can be driven to rotate when the driving shaft is contracted inwards in the shell; the periphery of the rotating body is provided with a poking piece which can rotate along with the rotating body; the twisted eggs are positioned in the shell and are placed on the supporting plate; the twisting egg is located in the rotation circumference range of the poking plate, a twisting egg outlet is formed in the shell, and the poking plate can poke the twisting egg and fall out of the twisting egg outlet when rotating.

In a preferred embodiment, the driving shaft is provided with a screw part, the screw part is screwed with and penetrates through the rotating body, and the screw part can drive the rotating body to rotate in a screw mode when the driving shaft moves along the axial direction.

In a further preferred embodiment, the rotating body comprises a rotating block and a poking plate; the rotating block is arranged in the shifting plate, the screw rod part is in threaded connection with the rotating block, and a limiting groove is formed in the shifting plate;

the periphery of the rotating block is movably connected with a rotating pusher dog which can rotate along with the rotating block; the rotary pusher dog is clamped with the limiting groove in a first rotary direction, and the clamping is released in a second rotary direction; when the driving shaft is retracted towards the shell, the rotating block and the limiting groove drive the shifting plate to rotate in a first rotating direction through clamping action; the poking piece is connected with the periphery of the poking plate; when the driving shaft extends outwards from the shell, the rotating block and the limiting groove are in clamping connection in the second rotating direction.

In a further preferred embodiment, the rotating finger is rotatably connected to the rotating block, and a plurality of rotating fingers are uniformly connected to the rotating block.

In a preferred embodiment, a first return spring is provided, which is capable of elastically driving the drive shaft retracted into the housing to be outwardly extended and returned.

In a preferred embodiment, the rotary body is arranged on the support plate via a bearing freely rotatable support.

In a preferred embodiment, a twisting egg groove is formed in the supporting plate, the twisting egg groove corresponds to the twisting egg outlet, and the twisting egg is stirred on the supporting plate to fall from the twisting egg groove to the twisting egg outlet to fall out.

In a further preferred embodiment, a drawing plate is arranged at the twisting egg groove; the drawing plate comprises a blocking part for blocking the egg twisting groove and a drawing rod part with one end connected with the blocking part and the other end extending out of the shell; the outer end of the drawing rod part is connected with a drawing plate buckle.

In a further preferred embodiment, the drawer plate buckle is pivotally connected to the outer end of the drawer rod portion; and the outer end of the drawing rod part is provided with a first horizontal positioning part, the drawing plate buckle is provided with a second horizontal positioning part corresponding to the first horizontal positioning part, and the drawing plate buckle can keep relative positions with the drawing rod part through positioning cooperation of the second horizontal positioning part and the first horizontal positioning part.

In a still further preferred embodiment, a second return spring is provided; the second return spring can elastically drive the drawing plate drawn out of the shell to retract and return.

In a preferred embodiment, the egg twisting machine of any of the above, the housing has a plurality of eggs twisted therein.

In a preferred embodiment, the egg twisting machine of any one of the above claims, wherein a drawer for holding the twisted eggs is provided on the housing corresponding to the twisted eggs outlet.

A blind shaft box based on the egg twisting machine, wherein a key shaft is arranged in the egg twisting machine.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

the whole egg twisting machine adopts the shaft body structural design, so that the whole egg twisting machine has a smart structure and low space occupation rate; and the button pressing mode of the shaft body is used for promoting the torsion egg to fall out, so that the pressure release effect can be achieved in the pressing process, and the interestingness is improved.

The driving shaft is in spiral connection with the rotating body, particularly in one-way clutch connection, the rotating body is spirally driven to rotate when the driving shaft is pressed to shrink inwards, further a poking piece on the rotating body pokes the twisted egg to fall out, the driving shaft is separated from the rotating body in a mutual power manner when the driving shaft stretches out of the driving shaft to reset, the rotating body keeps a relative position, the twisted egg is not poked out, and the one-way driving requirement that the driving shaft is pressed to prompt the twisted egg to fall out is met.

The shaft blind box is based on the egg twisting machine, wherein miniature key shaft bodies are arranged in the egg twisting machine, and the key shaft bodies arranged in different egg twisting machines can be different, so that the miniature key shaft bodies can be stored.

Drawings

FIG. 1 is a schematic cross-sectional view of an egg twisting machine according to the present utility model in an exemplary embodiment;

FIG. 2 is a schematic view of an exploded structure of the egg twisting machine according to the present utility model in an embodiment;

FIG. 3 is a schematic diagram of an assembled structure of a driving shaft and a rotating block;

FIG. 4 is a schematic diagram of an assembly structure of a rotating block and a toggle plate;

FIG. 5 is a schematic cross-sectional view of a twisted egg suction plate supported at a twisted egg groove;

FIG. 6 is a schematic view of a combined use of a support plate, a twisted egg, and a suction plate;

FIG. 7 is a schematic view of an assembled structure of the drawer plate on the support plate;

FIG. 8 is a schematic diagram of an assembled structure of a drawer plate fastener and a drawer plate;

fig. 9 is a schematic diagram of an assembled structure of a twisted egg with a key shaft.

The drawings are marked: 1-shell, 101-upper cover, 102-base, 1021-egg twisting outlet, 2-driving shaft, 201-screw tooth, 3-button, 4-first reset spring, 5-rotator, 51-pulling plate, 511-limit groove, 52-pulling plate cover, 53-rotating block, 531-rotating tooth, 54-rotating pulling claw, 55-pulling plate, 6-bearing, 7-supporting plate, 701-supporting and positioning groove, 702-egg twisting groove, 703-spring buckle, 8-pulling plate, 801-blocking part, 802-pulling rod part, 803-rotating hole, 804-fixed column, 9-pulling plate buckle, 901-rotating column, 902-fixed hole, 10-pulling plate cover, 11-second reset spring, 12-egg twisting, 121-upper shell, 122-lower shell, 13-key shaft body, 14-drawer, 15-drawer handle and 16-anti-skid pad.

Detailed Description

The technical scheme of the present utility model is described in further detail below with reference to specific examples and drawings, but the scope and embodiments of the present utility model are not limited thereto.

In the description of the specific embodiments, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "left", "right", "top", "bottom", etc., are directions or positional relationships based on those shown in the drawings, or directions or positional relationships in which the inventive product is conventionally put when used, and terms such as "first", "second", etc., are merely for convenience of distinction, only for convenience of description and simplicity of description, and do not indicate or imply that the structures or elements to be referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the utility model, nor should they be construed as indicating or suggesting relative importance.

Unless specifically stated or limited otherwise, the terms "mounted," "configured," "connected," "secured," and the like should be construed broadly, as they may be either fixedly connected, detachably connected, or integrally formed; may be a mechanical connection; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Example 1

Referring to fig. 1 and 2, the egg twisting machine of the present utility model includes a housing 1, a driving shaft 2, a rotating body 5, and a twisting egg 12.

Wherein the drive shaft 2 is telescopically arranged on the housing 1. Specifically, the housing 1 is composed of an upper cover 101 and a base 102, the upper cover 101 is fastened and mounted on the base 102, and a housing accommodating cavity is formed inside the fastened upper cover 101. The driving shaft 2 extends into the housing accommodating cavity from the upper cover 101, and the outer end of the driving shaft is positioned outside the upper cover 101, so that the driving shaft can relatively move to retract into or extend out of the housing accommodating cavity.

The rotating body 5 is arranged in the shell 1, and the rotating body 5 can freely rotate relative to the shell 1; the drive shaft 2 is connected to the rotary body 5 in a transmission manner, and the rotary body 5 can be driven to rotate when the drive shaft 2 is retracted into the housing 1. In some preferred embodiments, the drive shaft 2 has an axially extending screw portion thereon, the outer circumference of which is axially provided with screw teeth 201. The screw portion of the drive shaft 2 is axially screwed through the rotary body 5, and when the drive shaft 2 moves in the axial direction, the screw portion of the drive shaft 2 can screw-drive the rotary body 5 to rotate around the drive shaft 2 by the screw driving action.

In some preferred embodiments, the upper cover 101 and the base 102 of the housing 1 are spaced apart by the support plate 7, wherein the upper cover 101 is fixedly snap-fitted to the top of the support plate 7 and the base 102 is fixedly snap-fitted to the bottom of the support plate 7. In a preferred embodiment, the support plate 7 is provided with a support positioning groove 701, and the rotating body 5 is rotatably supported by the bearing 6 on the support plate 7.

In addition, a poking plate 55 is arranged on the periphery of the rotating body 5, wherein one end of the head of the poking plate 55 is connected to the rotating body 5, and the other end is a fan blade tail which extends radially outwards and away from the rotating body 5; when the rotary body 5 rotates, the dial 55 can rotate together with the rotary body 5. While the eggs 12 are located in the shell 1 and placed on the support plate 7, in particular the eggs 12 are freely placed in the cavity between the upper cover 101 and the support plate 7 and supported on the support plate 7. Further, the egg 12 is located within the rotation circumference of the paddle 55, and the housing 1 is provided with an egg outlet 1021. When the driving shaft 2 drives the rotating body 5 to rotate and drives the poking piece 55 to rotate, the rotating poking piece 55 can poke the twisted egg 12, and the poked twisted egg 12 falls out from the twisted egg outlet 1021.

Wherein, the supporting plate 7 is provided with a twisting egg groove 702. The egg twisting groove 702 can accommodate the egg 12 to pass through, and the egg twisting groove 702 is specifically disposed on a track along which the egg 12 moves along with the paddle 55 and moves circumferentially around the rotator 5. The egg twisting outlet 1021 is specifically formed on the base 102 of the housing 1, the egg twisting groove 702 corresponds to the egg twisting outlet 1021, and when the egg twisting 12 is pushed on the supporting plate 7 and moves along with the pulling piece 55 around the circumference of the rotating body 5 to the egg twisting groove 702, the egg twisting 12 falls from the egg twisting groove 702 to the egg twisting outlet 1021 under the action of gravity and falls out.

In another preferred embodiment, a one-way clutch driving is provided between the screw portion of the driving shaft 2 and the rotating body 5, so that the driving shaft 2 is only pressed to retract toward the housing 1 or extend toward the outside of the housing 1, the rotating body 5 is driven to rotate the dial 55 in the first rotation direction, and the driving shaft 2 is not driven to rotate the dial 55 in the second rotation direction when the driving shaft 2 extends toward the outside of the housing 1 to reset or retract toward the housing 1.

As some embodiments, when the driving shaft 2 is pressed to retract toward the housing 1, the rotating body 5 is driven by a screw to rotate anticlockwise, the rotating body 5 drives the poking plate 55 to rotate synchronously to poke the twisted egg 12, and when the driving shaft 2 extends toward the housing 1 to reset, the rotating body 5 cannot drive the poking plate 55 to rotate synchronously, and the poking plate 55 is static relative to the driving shaft 2.

Specifically, referring to fig. 2 and 3, the rotary body 5 includes a rotary block 53 and a dial 51.

Wherein, a rotating block accommodating groove is formed on the poking plate 51, the rotating block 53 is arranged in the rotating block accommodating groove of the poking plate 51 and is sealed by adopting the poking plate cover 52, the screw rod part of the driving shaft 2 is coaxially screwed and penetrates through the rotating block 53, as shown in fig. 3, a screwed through hole is formed in the middle part of the rotating block 53, rotating teeth 531 matched with the screw rod part of the driving shaft 2 are convexly arranged on the inner wall of the screwed through hole, and when the driving shaft 2 moves along the axial direction, the rotating block 53 can be driven to rotate through the interaction of the screw rod teeth 201 on the driving shaft 2 and the rotating teeth 531.

Bearings 6 are respectively sleeved and assembled between the poking plate cover 52 and the screw part of the driving shaft 2 and between the poking plate 51 and the screw part of the driving shaft 2. And the pulling piece 55 is connected and arranged on the periphery of the pulling plate 51, wherein the pulling piece 55 and the pulling plate 51 can be connected by riveting or fixedly connected by glue.

In addition, a limiting groove 511 is formed on the inner wall of the rotating block accommodating groove of the poking plate 51. Referring to fig. 4, a rotary finger 54 capable of rotating with the rotary block 53 is movably connected to the outer periphery of the rotary block 53; the limiting groove 511 is a one-way clamping limiting groove, and the outer end of the rotary finger 54 is provided with a clamping part correspondingly adapted to the limiting groove 511.

By the arrangement, the rotary pusher dog 54 is clamped with the limiting groove 511 in the first rotary direction, and the rotary pusher dog 54 is clamped with the limiting groove 511 and then is locked with the rotary block 53 in a limiting way in the reverse direction, and the rotary pusher dog 54 is unlocked with the limiting groove 511 in the second rotary direction. Or, a plurality of rotary pawls 54 are uniformly distributed and connected on the periphery of the rotary block 53, wherein the rotary pawls 54 are movably connected with the rotary block 53, the plurality of rotary pawls 54 are simultaneously clamped with the plurality of limiting grooves 511 on the shifting plate 51 in the first rotation direction, when the plurality of rotary pawls 54 synchronously rotate along the first rotation direction, the rotary block 53 and the shifting plate 51 can be kept relatively clamped and fixed by being synchronously clamped with the plurality of limiting grooves 511, and the plurality of rotary pawls 54 synchronously rotate along the second rotation direction and are released from being clamped with the limiting grooves 511. Specifically, the first direction of rotation may be a counter-clockwise direction of rotation, and the second direction of rotation may be a clockwise direction.

Therefore, when the driving shaft 2 is pressed by an external force to retract toward the housing 1, the driving shaft 2 is in spiral transmission to drive the rotating block 53 to rotate, and the rotating block 53 and the limiting groove 511 drive the poking plate 51 to rotate in the first rotation direction through the clamping action to drive the poking plate 55 to rotate and poke the twisted egg 12. When the driving shaft 2 extends outwards from the housing 1, the rotating block 53 and the limiting groove 511 are released from the clamping connection in the second rotating direction, and the rotating block 53 rotates but cannot drive the poking plate 51 to rotate, and cannot drive the poking plate 55 to synchronously rotate so as to poke the twisted egg 12.

Thus, the egg twisting machine can output the twisted egg 12 only when the drive shaft 2 is pressed, but the twisted egg 12 is not output when the drive shaft 2 is reset by ascending.

In a further preferred embodiment, referring again to fig. 1 and 2, a first return spring 4 is provided, which first return spring 4 is capable of elastically driving the drive shaft 2 retracted into the housing 1 to be outwardly protruded for return. Specifically, the first return spring 4 is sleeved on the screw portion of the driving shaft 2, and both ends thereof are respectively abutted against the root portion of the screw portion of the driving shaft 2 and the outer top portion of the dial cover 52 of the rotating body 5. When the driving shaft 2 is pressed by external force to shrink inwards towards the shell 1, the first reset spring 4 is compressed and stores elastic potential energy, and the driving shaft 2 drives the poking plate 51 and the poking plate 55 to rotate through the rotating block 53 so as to poke the twisted egg 12; when the external force is released, the first return spring 4 releases elastic potential energy to drive the driving shaft 2 to extend out of the shell 1, and the driving shaft 2 drives the rotating block 53 to rotate, the rotating block 53 is separated from the poking plate 51 in a power manner, and the poking plate 51 and the poking plate 55 are kept stationary and cannot rotate and poke the twisted eggs 12.

A button 3 is provided on the outside of the drive shaft 2, and an external force applied can be transmitted to the drive shaft 2 through the button 3, thereby facilitating the pressing drive of the drive shaft 2.

In another preferred embodiment, referring to fig. 5, a pulling plate 8 is disposed at the egg twisting groove 702, the pulling plate 8 is specifically arranged at the bottom of the egg twisting groove 702, and can hold and shield the eggs 12 that are pushed to the egg twisting groove 702 by the pulling plate 55 and are ready to drop, and after the pulling plate 8 is pulled out from the egg twisting groove 702, the eggs 12 can drop from the egg twisting groove 702.

Specifically, referring to fig. 6 and 7, the drawing plate 8 includes a blocking portion 801 and a drawing rod portion 802. Wherein, the blocking part 801 is correspondingly positioned at the lower part of the egg twisting groove 702 when in arrangement, and the blocking part 801 has the shape similar to the egg twisting groove 702 and can shield the egg twisting groove 702; the pull rod 802 of the pull plate 8 is mounted on the support plate 7 through a pull plate cover 10, one end of the pull rod 802 is connected with the blocking portion 801, the other end extends out of the housing 1, and a pull plate buckle 9 is connected with the outer end of the pull rod 802. When external force acts on the pulling plate buckle 9 to pull the pulling plate 8 outwards, the blocking part 801 of the pulling plate 8 can be separated from the bottom of the egg twisting groove 702, so that the shielding of the egg twisting groove 702 is relieved, and the egg 12 can fall from the egg twisting groove 702.

In a preferred embodiment, referring to fig. 8, the drawer buckle 9 is pivotally connected to the outer end of the drawer stem 802. Specifically, a rotation hole 803 is provided at an end of the pull rod 802, and the pull plate buckle 9 has a rotation column 901 pivotally coupled to the rotation hole 803, and the pull plate buckle 9 is pivotally coupled to the pull rod 802 by the assembly of the rotation column 901 on the rotation hole 803. When the plate pulling buckle 9 is not used, the plate pulling buckle 9 can be vertically and freely downwards pressed close to the shell 1, so that the whole egg twisting machine is attractive and does not occupy space; when the drawing plate 8 is required to be pulled, the drawing plate buckle 9 can be pulled up to horizontally draw the drawing plate 8.

Further, a first horizontal positioning portion is provided at the outer end of the pull rod 802, a second horizontal positioning portion corresponding to the first horizontal positioning portion is provided on the pull plate buckle 9, and the pull plate buckle 9 can maintain a relative position with the pull rod 802 through positioning cooperation of the second horizontal positioning portion and the first horizontal positioning portion. Specifically, the first horizontal positioning portion is optional but not limited to the fixing column 804, and the second horizontal positioning portion is an adaptive fixing hole 902, when the drawer plate buckle 9 is pulled up to be horizontal, the fixing column 804 is clamped into the fixing hole 902, so that the drawer plate buckle 9 can be kept horizontally positioned, and the drawer plate buckle 9 can be conveniently applied with force to horizontally pull the drawer plate 8.

A second return spring 11 is also provided, which second return spring 11 can elastically drive the drawer plate 8 pulled out of the housing 1 into the housing 1. Specifically, as shown in fig. 7 and 8, the supporting plate 7 is provided with a spring buckle 703, the pull rod portion 802 of the pull plate 8 is provided with a avoiding groove corresponding to the spring buckle 703, one end of the second return spring 11 is abutted or clamped on the spring buckle 703, and the other end is abutted on the avoiding groove of the pull rod portion 802. When the drawing plate 8 is pulled out of the shell 1 by external force, the second reset spring 11 is compressed and stores elastic potential energy, and after the shielding of the drawing plate 8 is released, the torsion egg 12 falls from the torsion egg groove 702; when the external force is released, the second return spring 11 releases the elastic potential energy to act on the pull rod portion 802 of the pull plate 8, so as to drive the pull plate 8 to retract toward the housing 1.

In other preferred embodiments, a plurality of eggs 12 may be placed simultaneously inside the shell 1, and different articles may be placed inside each egg 12, and the plurality of eggs 12 may be sequentially plucked and sequentially dropped from the egg groove 702 to the egg outlet 1021, or may be randomly plucked and sequentially dropped from the egg groove 702 to the egg outlet 1021.

In addition, the bottom of the base 102 of the casing 1 may be provided with a non-slip mat 16 to prevent the egg twisting machine from sliding when the driving shaft 2 is pressed, thereby improving the use stability. In the embodiment shown, one anti-slip pad 16 is provided at each of the four bottom corners of the base 102 of the housing 1, so that the base 102 is kept stationary in use while the egg twisting machine is prevented from slipping.

Example two

In the egg twisting machine of the present embodiment, as shown in fig. 1 and 2, a drawer 14 is provided on the housing 1 corresponding to the egg twisting outlet 1021.

Specifically, a drawer accommodating groove corresponding to the twisted egg outlet 1021 is provided at the outer bottom of the base 102, the drawer 14 is drawably provided in the drawer accommodating groove, and the drawer 14 is provided with a drawer handle 15. After the drawer 14 is pushed into the drawer accommodating groove, the drawer is corresponding to the torsion egg outlet 1021, and the torsion eggs 12 falling out of the torsion egg outlet 1021 can directly fall into the drawer 14 to be accommodated, so that the falling torsion eggs 12 are prevented from rolling out and falling out; when the user takes out the twisted egg 12, the drawer 14 can be pulled out by the drawer handle 15 to take out the twisted egg 12.

Example III

The blind shaft box of the present utility model is based on the egg twisting machine of the first or second embodiment, wherein, as shown in fig. 9, the key shaft body 13 is disposed in the egg twisting machine 12, and the key shaft body 13 is specifically a miniature key shaft body.

Specifically, the egg 12 includes an upper housing 121 and a lower housing 122 that are mutually matched, wherein the upper housing 121 and the lower housing 122 may be mutually buckled or screwed, and an accommodating cavity is formed inside the mutually matched upper housing 121 and lower housing 122 to accommodate the miniature key shaft body 13. When the twisted egg 12 is obtained, the obtained twisted egg 12 is provided with the miniature key shaft body 13, and the key shaft body 13 can be stored.

Moreover, for a plurality of the twisted eggs 12, the key shaft bodies 13 placed in different twisted eggs 12 can be different, thereby meeting the fun of the game, and realizing the collection of different key shaft bodies 13 with higher interest.

The above embodiments are merely preferred embodiments of the present utility model and only the technical solutions of the present utility model have been described in further detail, but the above description is illustrative, not exhaustive, and is not limited to the disclosed embodiments, the scope and implementation of the present utility model are not limited thereto, and any changes, combinations, deletions, substitutions or modifications made without departing from the spirit and principles of the present utility model are included in the scope of the present utility model.

Claims (12)

1. The egg twisting machine is characterized by comprising a shell, a driving shaft, a rotating body and a twisted egg;

the driving shaft is arranged on the shell in a telescopic way, the rotating body is arranged in the shell, the driving shaft is in transmission connection with the rotating body, and the rotating body can be driven to rotate when the driving shaft is contracted inwards in the shell; the periphery of the rotating body is provided with a poking piece which can rotate along with the rotating body; the twisted eggs are positioned in the shell and are placed on the supporting plate; the twisting egg is located in the rotation circumference range of the poking plate, a twisting egg outlet is formed in the shell, and the poking plate can poke the twisting egg and fall out of the twisting egg outlet when rotating.

2. The egg twisting machine of claim 1, wherein the drive shaft has a screw portion thereon, the screw portion being threadably connected to and penetrating the rotating body, the screw portion being capable of helically driving the rotating body to rotate when the drive shaft is axially moved.

3. The egg twisting machine of claim 2, wherein the rotating body comprises a rotating block and a poking plate; the rotating block is arranged in the shifting plate, the screw rod part is in threaded connection with the rotating block, and a limiting groove is formed in the shifting plate;

the rotating block is provided with a rotating pusher dog which can rotate along with the rotating block; the rotary pusher dog is clamped with the limiting groove in a first rotary direction, and the clamping is released in a second rotary direction; when the driving shaft is retracted towards the shell, the rotating block and the limiting groove drive the shifting plate to rotate in a first rotating direction through clamping action; the poking piece is connected with the periphery of the poking plate; when the driving shaft extends outwards from the shell, the rotating block and the limiting groove are in clamping connection in the second rotating direction.

4. A twisting egg machine according to claim 3, wherein the rotary fingers are rotatably connected to the rotary block, and a plurality of the rotary fingers are uniformly connected to the rotary block.

5. The egg twisting machine of claim 1, wherein a first return spring is provided, said first return spring being capable of resiliently urging said drive shaft inwardly retracted into said housing to extend outwardly for return.

6. The egg twisting machine of claim 1, wherein the rotating body is disposed on the support plate via a bearing freely rotatable support.

7. The egg twisting machine of claim 1, wherein the support plate is provided with a twisting egg groove, the twisting egg groove corresponds to the twisting egg outlet, and the twisting egg is stirred on the support plate to fall from the twisting egg groove to the twisting egg outlet and fall out.

8. The egg twisting machine of claim 7, wherein a suction plate is arranged at the egg twisting groove; the drawing plate comprises a blocking part for blocking the egg twisting groove and a drawing rod part with one end connected with the blocking part and the other end extending out of the shell; the outer end of the drawing rod part is connected with a drawing plate buckle.

9. The egg twisting machine of claim 8, wherein the pulling plate clasp is pivotally connected to the outer end of the pulling rod portion; and the outer end of the drawing rod part is provided with a first horizontal positioning part, the drawing plate buckle is provided with a second horizontal positioning part corresponding to the first horizontal positioning part, and the drawing plate buckle can keep relative positions with the drawing rod part through positioning cooperation of the second horizontal positioning part and the first horizontal positioning part.

10. The egg twisting machine of claim 8, wherein a second return spring is provided; the second return spring can elastically drive the drawing plate drawn out of the shell to retract and return.

11. The egg twisting machine according to any one of claims 1-10, wherein a drawer for holding the twisted eggs is provided on the housing in correspondence to the twisted egg outlet.

12. A blind shaft box, characterized in that the egg twisting machine is based on any one of claims 1-11, and a key shaft body is arranged in the egg twisting machine.