CN210055755U - Food processor and base thereof - Google Patents

Abstract

The utility model provides a cooking machine and base thereof belongs to cooking processing tool technical field. The food processor base comprises a body, a pull rope, a flywheel, a transmission shaft and a cutter; the pull rope drives the transmission shaft arranged in the body; the transmission shaft and the flywheel are linked with the cutter. The food processor comprises a food processing cup and a food processor base, and the cutter is arranged in the bottom of the food processing cup; the cutter passes through arrange the cup with arrange the quick-witted base connection. The pull rope is pulled rapidly, and the pull rope drives the flywheel and the cutter through the transmission shaft, so that the cutter can rotate at 1 w-2 w/min. After the pull rope stops pulling, because the flywheel still rotates at a high speed, and the flywheel, the transmission shaft and the cutter are linked, the kinetic energy of the flywheel is continuously converted and transmitted to the cutter, so that the cutter continuously rotates, namely, the cutter can still rotate for a certain time after the driving of the pull rope is manually stopped.

Description

Food processor and base thereof

Technical Field

The utility model relates to a cooking machining tool especially indicates a cooking machine and base thereof.

Background

The food processer is a household and commercial food processing tool commonly used, can improve the quality of life of people, and improves the processing and treating efficiency of food materials. The drive mode of current cooking machine divide into:

1) the electric machine works by driving a cutter to rotate at a high speed by a motor to process food. The disadvantages are large noise, large overall shape and high cost. In addition, it cannot be used outdoors without an ac power supply.

2) The working principle of the manual operation is that the cutter is driven to rotate manually. The defects are that the cutter is stopped by hands, the rotating speed of the cutter is low, namely, the efficiency is low and the processing effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the food processor is designed to be driven by hand and can still rotate a cutter for a certain time after the driving is stopped.

In order to solve the technical problem, the utility model discloses a technical scheme be: a base of a material processor comprises a body, a pull rope, a flywheel, a transmission shaft and a cutter; the pull rope drives the transmission shaft arranged in the body; the transmission shaft and the flywheel are linked with the cutter.

Further, the device comprises a winding frame and a tension spring; the pull rope drives the transmission shaft through the winding frame and compresses the tension spring; the tension spring drives the winding frame to recover the pull rope by restoring the deformation.

The winding frame is provided with a tray for supporting the clutch block; one side of the clutch block is provided with a first disc-shaped ratchet wheel matched with the transmission shaft sleeve structure, the other side of the clutch block is provided with a second disc-shaped ratchet wheel matched with the tray structure and a limiting bulge, and the limiting bulge is arranged on the gear tooth edge of the second disc-shaped ratchet wheel; after the clutch block climbs through the gear teeth of the second disc-shaped ratchet wheel to enable the first disc-shaped ratchet wheel to be connected with the transmission shaft sleeve, the bobbin tray pushes the clutch block to rotate through the limiting protrusion, and the clutch block drives the transmission shaft sleeve.

Further, the clutch block comprises a spring, the compressed spring is arranged in a cavity of the transmission shaft sleeve, and the spring pushes the clutch block to return to the bobbin tray.

The flywheel fixing device further comprises a rotating disc fixing frame, the flywheel is fixed on the transmission shaft, and the rotating disc fixing frame fixes the flywheel through the transmission shaft; the transmission shaft is provided with a driving wheel, and the driving wheel is connected with the cutter through a disc-shaped ratchet wheel structure.

The flywheel further comprises two bearings, wherein the bearings are sleeved on the transmission shaft and are respectively positioned on two sides of the flywheel; the rotating disc fixing frame fixes the transmission shaft through the bearing.

The winding device further comprises a tension spring fixing frame, wherein the tension spring fixing frame is a disc with a cylinder at the center, and the winding frame is inserted on the cylinder; one end of the tension spring is fixed on the edge of the disc, and the other end of the tension spring is clamped in the middle of the bottom of the winding frame and fixed on the cylinder; the slightly compressed tension spring is wound at the bottom of the winding frame in a snail-shaped ring shape; and a baffle is arranged on the winding frame between the pull rope and the tension spring.

Further, the handle comprises a copper lining and a handle, wherein the copper lining is connected with the transmission shaft through a threaded structure; a groove is formed in the center of the driving wheel, and the copper lining is arranged in the groove; the handle is connected with the pull rope.

A food processor comprises a food processing cup and a food processor base, wherein a cutter is arranged in the bottom of the food processing cup; the cutter passes through arrange the cup with arrange the quick-witted base connection.

Furthermore, the cutter adopts a- 'type cutter or a V-type cutter or a cutter consisting of two-' type cutters with high and low positions.

The beneficial effects of the utility model reside in that: the pull rope is pulled rapidly, and the pull rope drives the flywheel and the cutter through the transmission shaft, so that the cutter can rotate at 1 w-2 w/min. After the pull rope stops pulling, because the flywheel still rotates at a high speed, and the flywheel, the transmission shaft and the cutter are linked, the kinetic energy of the flywheel is continuously converted and transmitted to the cutter, so that the cutter continuously rotates, namely, the cutter can still rotate for a certain time after the driving of the pull rope is manually stopped.

Drawings

The following detailed description of the specific structure of the present invention with reference to the accompanying drawings

Fig. 1 is a sectional view of the structure of a material processor base according to the present invention.

Fig. 2 is an exploded view of the structure of the base of the material handling machine of the present invention.

Fig. 3 is the utility model discloses a tension spring and bobbin connection schematic diagram of cooking machine base.

Fig. 4 is the utility model discloses a tension spring and extension spring mount connection schematic diagram of cooking machine base.

Fig. 5 is a three-dimensional structure diagram of the bobbin of the base of the material handling machine of the present invention.

Fig. 6 is a three-dimensional structure diagram of a clutch block of a material processor base.

Fig. 7 is the utility model discloses a cooking machine structure cross-sectional view of containing fruit cooking cup.

Fig. 8 is a sectional view of the structure of the food processor containing the conditioning cup of the present invention.

Fig. 9 is a sectional view of the structure of the food processor containing the bean grinding cup of the utility model.

The food processing cup comprises a body 1, a flywheel 2, a transmission shaft 3, a transmission shaft sleeve 4, a clutch block 5, a first disc-shaped ratchet wheel 501, a second disc-shaped ratchet wheel 502, a limiting bulge 503, a bobbin 6, a tray 601, a baffle 602, a driving wheel 7, a copper lining 8, a tension spring 9, a tension spring fixing frame 10, a cylinder 1001, a bearing 11, a rotating disc fixing frame 12, a spring 13, a gasket 14, a handle 15, a cutter 16 and a cooking cup 17.

Detailed Description

The utility model discloses the most crucial design lies in: the transmission shaft is driven by the pull rope, and the transmission shaft, the flywheel and the cutter are linked. The kinetic energy of the flywheel continues to drive the cutter to work through the transmission shaft.

For the purpose of explaining the feasibility of the concept, the technical contents, the structural features, the objects and the effects of the present invention will be described in detail below, and will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 6, a material handling machine base includes a body 1, a pull rope, a flywheel 2, a transmission shaft 3 and a cutter 16; the pull rope drives the transmission shaft 3 arranged in the body 1; the transmission shaft 3 and the flywheel 2 are linked with the cutter 16.

From the above description, the beneficial effects of the present invention are: the pull rope is pulled rapidly, the pull rope drives the flywheel 2 and the cutter 16 through the transmission shaft 3, and the cutter 16 can rotate at 1 w-2 w/min. After the pull rope stops pulling, because the flywheel 2 still rotates at a high speed, and the flywheel 2, the transmission shaft 3 and the cutter 16 are linked, the kinetic energy of the flywheel 2 is continuously converted and transmitted to the cutter 16, so that the cutter 16 continuously rotates, namely, the cutter 16 can still rotate for a certain time after the drive of the pull rope is manually stopped.

Further, the winding frame 6 and the tension spring 9 are included; the pull rope drives the transmission shaft 3 through the winding frame 6 and compresses the tension spring 9; the tension spring 9 drives the winding frame 6 to recover the pull rope by restoring deformation. The pull rope is wound on the winding frame 6, when the pull rope is pulled, the winding frame 6 rapidly rotates, and the tension spring 9 is compressed; after the pull rope is loosened, the tension spring 9 drives the winding frame 6 to recover the pull rope through restoring deformation. Reciprocating like this, can drive transmission shaft 3 through constantly pulling the stay cord and rotate.

Further, the winding device comprises a clutch block 5, a transmission shaft sleeve 4 is arranged on the transmission shaft 3, and a tray 601 for supporting the clutch block 5 is arranged on the winding frame 6; one side of the clutch block 5 is provided with a first disc-shaped ratchet wheel 501 matched with the structure of the driving shaft sleeve 4, the other side of the clutch block is provided with a second disc-shaped ratchet wheel 502 matched with the structure of the tray 601 and a limiting bulge 503, and the limiting bulge 503 is arranged on the gear tooth edge of the second disc-shaped ratchet wheel 502; after the clutch block 5 ascends through the gear teeth of the second disc-shaped ratchet 502 to enable the first disc-shaped ratchet 501 to be connected with the transmission shaft sleeve 4, the tray 601 of the bobbin 6 pushes the clutch block 5 to rotate through the limiting protrusion 503, and the clutch block 5 drives the transmission shaft sleeve 4. The tray 601 of the bobbin 6 supports and fixes the clutch block 5, and makes the clutch block move up and down on the tray 601 through the second disc-shaped ratchet structure, so as to realize the combination and separation of the clutch block 5 and the driving shaft sleeve 4. Spacing protruding structure can let separation and reunion piece 5 single fixed after climbing completion, lets separation and reunion piece 5 continue to rotate along with bobbin 6, nevertheless no longer fixes separation and reunion piece 5 when bobbin 6 antiport, lets separation and reunion piece 5 light on returning tray 601 on the contrary. The first disc-shaped ratchet structure can easily realize connection and separation between the clutch block 5 and the transmission shaft sleeve 4. Under the action of gravity, when the tension spring 9 pushes the bobbin 6 to recover the pull rope, the clutch block 5 falls back on the tray 601 of the bobbin 6 to enable the first disc-shaped ratchet wheel to be separated from the transmission shaft sleeve 4, so that the reverse rotation of the bobbin 6 cannot interfere with the rotation of the transmission shaft 3, and the pull rope can be conveniently pulled to drive the transmission shaft 3 again.

When the pull rope is pulled, the bobbin 6 rotates, the clutch block 5 ascends on the tray 601 through the second disc-shaped ratchet structure to the protrusion on the tray 601 to clamp the limiting protrusion 503 on the clutch block 5, at the moment, the clutch block 5 is connected with the transmission shaft sleeve 4 through the first disc-shaped ratchet structure, and then the bobbin 6, the clutch block 5 and the transmission shaft sleeve 4 synchronously rotate. When the pull rope is loosened, the clutch block 5 descends and falls back onto the tray 601 through the second disc-shaped ratchet structure, at the moment, the clutch block 5 is separated from the transmission shaft sleeve 4, and the motion states of the clutch block 5 and the winding frame 6 do not influence the transmission shaft sleeve 4 any more. By so repeatedly pulling and releasing the pull cord, clutch block 5 is so repeatedly engaged and disengaged with outdrive 4 that cutter 16 is constantly powered.

Since the kinetic energy of the rotation of the flywheel 2 is supplied to the cutter 16 so that the cutter 16 is still rotated for a certain time after the pull cord is released, the cutter 16 can be kept rotated at all times by only intermittently pulling the pull cord.

Further, a spring 13 is included, the compressed spring 13 is arranged in the cavity of the driving shaft sleeve 4, and the spring 13 pushes the clutch block 5 to return to the tray 601 of the bobbin 6. The insufficient gravity of the clutch block 5 is supplemented by the driving force of the spring 13, so that the clutch block 5 can stably fall back on the tray 601, and the first disc-shaped ratchet 501 is ensured to be rapidly separated from the transmission shaft sleeve 4.

Further, the flywheel driving device comprises a rotating disc fixing frame 12, the flywheel 2 is fixed on the transmission shaft 3, and the rotating disc fixing frame 12 fixes the flywheel 2 through the transmission shaft 3; the transmission shaft 3 is provided with a driving wheel 7, and the driving wheel 7 is connected with the cutter 16 through a disc-shaped ratchet wheel structure. The driving wheel 7 is provided with a disc-shaped ratchet wheel structure, so that the cutter 16 can be conveniently connected and driven, and the cutter 16 can be conveniently disassembled and assembled. The flywheel 2 is fixed on the transmission shaft 3, so that the flywheel 2 and the transmission shaft 3 can be conveniently linked; the rotating disc fixing frame 12 fixes the flywheel 2 through the transmission shaft 3, so that the flywheel 2 can rotate stably.

Further, the flywheel comprises two bearings 11, wherein the bearings 11 are sleeved on the transmission shaft 3 and are respectively positioned on two sides of the flywheel 2; the rotating disc fixing frame 12 fixes the transmission shaft 3 through the bearing 11. The bearing 11 is arranged to reduce the friction between the transmission shaft 3 and the rotating disc fixing frame 12 during transmission, and reduce energy loss. Both sides of the flywheel 2 are provided with a bearing 11, so that the flywheel 2 is more stable when rotating.

Further, the tension spring winding device comprises a tension spring fixing frame 10, wherein the tension spring fixing frame 10 is a disc with a cylinder 1001 at the center, and the winding frame 6 is inserted on the cylinder 1001; one end of the tension spring 9 is fixed on the edge of the disc, and the other end of the tension spring is clamped in the middle of the bottom of the bobbin 6 and fixed on the cylinder 1001; the slightly compressed tension spring 9 is wound at the bottom of the winding frame 6 in a snail-shaped ring shape; a baffle 602 is arranged on the bobbin 6 between the pull rope and the tension spring 9. The tension spring fixing frame 10 fixes the bobbin 6 through the cylinder 1001, and the top end of the cylinder 1001 is fixed through the gasket 14 and the screw, so that the bobbin 6 cannot be separated from the tension spring fixing frame 10 in the rotating process, and the bobbin 6 can stably rotate. The tension spring 9 is fixed, and is convenient to be pushed by the winding frame 6 to deform. The tension spring 9 coiled in a snail-shaped manner under the bobbin 6 can increase the length in a limited space, i.e. the deformable length, so that the tension spring 9 can support the total acting force of the bobbin 6 on the tension spring 9 when the stay cord pulls the bobbin 6. The tension spring 9 is slightly compressed and installed, so that when the tension spring 9 deforms, the deformation track is not easy to deviate. The setting of baffle 602 can prevent that extension spring 9 from taking place deformation in the vertical direction on the one hand, and on the other hand makes extension spring 9 and stay cord noninterference each other.

Further, the device comprises a copper lining 8 and a handle 15, wherein the copper lining 8 is connected with the transmission shaft 3 through a threaded structure; a groove is formed in the center of the driving wheel 7, and the copper lining 8 is arranged in the groove; the handle 15 is connected with the pull rope. Through set up groove structure on driving wheel 7, it is convenient transmission shaft 3 passes through copper lining 8 with driving wheel 7 is connected. The handle 15 is provided to facilitate pulling of the pull cord. Set up a handle screens in body 1 outside, when conveniently accomodating, handle 15 and body 1 combine together for the cooking machine base is more pleasing to the eye.

Referring to fig. 7 to 9, a food processor includes a food processing cup 17 and a base of the food processor, wherein a cutter 16 is disposed in the bottom of the food processing cup 17; the cutter 16 through arrange the cup 17 with arrange the machine base connection. The cutter 16 is arranged in the cooking cup 17, so that cooking and processing are facilitated. Be provided with assorted cooking cup screens between cooking cup 17 and the body 1, do benefit to through being connected with of cooking cup 17 and body 1 the drive of transmission shaft 3 cutter 16 still is favorable to selecting for use different cutters to cooperate and use same cooking machine base according to the demand, obtains different cooking processing modes.

Further, the tool 16 is a- "type tool or a" V "type tool or a tool composed of two-" type tools with different heights. The-' shaped knife is beneficial to grinding hard grains similar to beans and is matched with a bean grinding cooking cup for use; the V-shaped knife is beneficial to processing fruits, such as melons, vegetables and the like and is matched with a fruit cooking cup for use; adopt two "one" type cutters, divide the height to set up in the cup, be favorable to stirring to mix, the cooperation is taked care cup and is used. According to the characteristics of various cutters and processing, a matched fruit juice cooking cup or a bean grinding cooking cup or a conditioning cooking cup is selected.

In the actual product production, a cooking machine base can be equipped with juice cooking cup, grind beans cooking cup, nurse the cooking cup and sell as whole set of product.

To sum up, the utility model provides a pair of material processor base, through pulling the stay cord rapidly, the stay cord passes through transmission shaft drive flywheel and cutter, makes the cutter per minute can reach 1w ~ 2w and changes. After the pull rope stops pulling, because the flywheel still rotates at a high speed, and the flywheel, the transmission shaft and the cutter are linked, the kinetic energy of the flywheel is continuously converted and transmitted to the cutter, so that the cutter continuously rotates, namely, the cutter can still rotate for a certain time after the driving of the pull rope is manually stopped. The tension spring pushes the winding frame to have the function of recovering the pull rope by restoring the deformation. Through the disc ratchet structure and the limiting bulge of the clutch block, the bobbin can drive the transmission shaft through driving the clutch block, and the rotation of the transmission shaft can not be interfered when the bobbin is recovered. The driving wheel drives the cutter through a disc-shaped ratchet structure, so that on one hand, stable power can be provided, and on the other hand, the cutter is convenient to detach and connect. Set up the sword type of difference in cooking cup of different shapes and size, satisfy the processing demand of different cuisines. The cooking cup is connected with the cooking machine base body through the clamping position, the assembly and the disassembly are convenient, and the driving wheel is more firmly connected with the cutter. The food processor base and the food processing cup are combined to form a complete food processor.

The first … … and the second … … are only used for name differentiation and do not represent how different the importance and position of the two are.

Here, the upper, lower, left, right, front, and rear represent only relative positions thereof and do not represent absolute positions thereof.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A base of a material processor is characterized by comprising a body, a pull rope, a flywheel, a transmission shaft and a cutter; the pull rope drives the transmission shaft arranged in the body; the transmission shaft and the flywheel are linked with the cutter.

2. The processor base of claim 1, comprising a bobbin and a tension spring; the pull rope drives the transmission shaft through the winding frame and compresses the tension spring; the tension spring drives the winding frame to recover the pull rope by restoring the deformation.

3. The food processor base of claim 2, comprising a clutch block, wherein a driving shaft sleeve is arranged on the driving shaft, and a tray for supporting the clutch block is arranged on the bobbin; one side of the clutch block is provided with a first disc-shaped ratchet wheel matched with the transmission shaft sleeve structure, the other side of the clutch block is provided with a second disc-shaped ratchet wheel matched with the tray structure and a limiting bulge, and the limiting bulge is arranged on the gear tooth edge of the second disc-shaped ratchet wheel; after the clutch block climbs through the gear teeth of the second disc-shaped ratchet wheel to enable the first disc-shaped ratchet wheel to be connected with the transmission shaft sleeve, the bobbin tray pushes the clutch block to rotate through the limiting protrusion, and the clutch block drives the transmission shaft sleeve.

4. The food processor base of claim 3, comprising a spring, wherein the spring is disposed in a cavity of the outdrive in compression, the spring urging the clutch block back onto the bobbin tray.

5. The food processor base of claim 4, comprising a rotating disc holder, wherein the flywheel is fixed on the transmission shaft, and the rotating disc holder fixes the flywheel through the transmission shaft; the transmission shaft is provided with a driving wheel, and the driving wheel is connected with the cutter through a disc-shaped ratchet wheel structure.

6. The food processor base of claim 5, comprising two bearings, wherein the bearings are sleeved on the transmission shaft and are respectively positioned at two sides of the flywheel; the rotating disc fixing frame fixes the transmission shaft through the bearing.

7. The processor base of claim 6, comprising a tension spring fixing frame, wherein the tension spring fixing frame is a disk with a cylinder at the center, and the winding frame is inserted on the cylinder; one end of the tension spring is fixed on the edge of the disc, and the other end of the tension spring is clamped in the middle of the bottom of the winding frame and fixed on the cylinder; the slightly compressed tension spring is wound at the bottom of the winding frame in a snail-shaped ring shape; and a baffle is arranged on the winding frame between the pull rope and the tension spring.

8. The food processor base of claim 7, comprising a copper lining and a handle, wherein the copper lining is connected with the transmission shaft through a threaded structure; a groove is formed in the center of the driving wheel, and the copper lining is arranged in the groove; the handle is connected with the pull rope.

9. A food processor, comprising the food processor base as claimed in any one of claims 1 to 8, further comprising a food processing cup, wherein the cutter is arranged in the bottom of the food processing cup; the cutter passes through arrange the cup with arrange the quick-witted base connection.

10. The food processor as claimed in claim 9, wherein the cutter is a "" cutter or a "V" cutter or a cutter composed of two "" cutters with different heights.

Images