CN111956048A

CN111956048A - Quick juicer

Info

Publication number: CN111956048A
Application number: CN202010911633.3A
Authority: CN
Inventors: 李明悦
Original assignee: Individual
Current assignee: Zou Youming
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2020-11-20
Anticipated expiration: 2040-09-02
Also published as: CN111956048B

Abstract

The invention provides a quick juice extractor which comprises two hemispherical scraping heads and a driving shaft connected with the two scraping heads, the center of the inner side of the scraping head is connected with the end part of the driving shaft, the driving shaft is provided with a rocker arm for adjusting the rotation angle of the scraping blade, the driving shaft comprises two parts which rotate reversely and respectively drive the two scraping heads to rotate reversely, the scraping sheet is provided with contact fins which are arranged along the rotating circumference of the scraping head, the contact fins are internally provided with optical sensors, the optical sensor controls the driving shaft to rotate reversely after the contact fin contacts a preset color, in the invention, the forward and backward movement of the whole device can be controlled by controlling the rotation direction of the two driving shafts which rotate in opposite directions, the forward and backward movement of the whole device can continuously cut and smash the watermelon, and finally, the watermelon juice can be directly and rapidly formed in the watermelon.

Description

Quick juicer

Technical Field

The invention relates to the field of juicing machinery, in particular to a rapid melon juicer.

Background

The watermelon juice is a juice product material obtained by taking watermelon as a raw material through physical methods such as squeezing, centrifuging, extracting and the like, and has the effect of relieving summer heat. The taste is fresh, sweet and fine, the mouth feel is better after icing, and the taste is favored by people in summer. Before juicing, watermelon is required to be decomposed into small pieces, peeled and then put into a juicer to be juiced. The traditional juicing method has the defects that the juicing efficiency is not high, juice overflows in the watermelon decomposition process, corresponding tools need to be cleaned, and the like.

Disclosure of Invention

In order to solve the above problems, it is an object of the present invention to provide a quick juicer that can quickly and safely juice watermelons.

The technical scheme adopted by the invention for solving the technical problems is as follows:

this quick juice extractor includes that two hemispheres cut the head and connect two the drive shaft of cutting the head constitutes, the inboard center of cutting the head is connected the tip of drive shaft, it comprises the scraping piece more than two to cut the head, be provided with the adjustment in the drive shaft cut the rocking arm of scraping piece turned angle, the drive shaft includes antiport two parts, drives two respectively cut the head antiport, antiport two antiport cut the advancing direction of head unanimously, be provided with the edge on the scraping piece cut the contact fin that the head rotated circumference and arranged, be provided with the optical sensing ware in the contact fin, the optical sensing ware is contacted predetermined colour back control drive shaft antiport at the contact fin.

Preferably, the optical sensor comprises a transparent sheet arranged on the contact fins and an optical fiber connected with the transparent sheet, a light source is arranged in the transparent sheet, the optical fiber is connected with a color sensing control module, and the color sensing control module controls the driving shaft to rotate reversely after sensing a preset color.

Preferably, the cutting blades are coaxially disposed on both portions of the driving shaft.

Preferably, an angle control part for adjusting the space included angle of the two parts is arranged between the two parts of the driving shaft.

Preferably, a track control module provided with a gyroscope is arranged in the angle control part, and the track control module analyzes the motion track acquired by the gyroscope and controls the advancing direction of the scraping head by adjusting the included angle between the two parts of the driving shaft, so that the whole device advances to the whole inner part of the watermelon according to a progressive track.

Preferably, the driving shaft may be provided in a telescopic shape.

The invention has the advantages that:

the rotation directions of the two driving shafts which rotate reversely can control the forward and backward movement of the whole device, when the whole device moves to the inner edge of the watermelon according to one direction, the contact fins detect the color of the boundary of the skin and the flesh of the watermelon, the driving shafts respectively rotate reversely, the whole device is pushed reversely until the contact fins contact the color of the boundary of the skin and the flesh of the watermelon again, the whole device is pushed reversely again, the forward and backward movement of the whole device can continuously cut and smash the watermelon inside, and finally, the watermelon juice is directly formed inside the watermelon.

Drawings

Fig. 1 is a schematic front view of a first embodiment of the juice extractor.

Fig. 2 is a schematic top view of the scraping head of the quick juicer.

Fig. 3 is a front view showing a transverse structure of the scraping head of the quick juicer.

Figure 4 is a schematic view of the structure and a-a cut view of the contact fin of the present rapid juicer.

Fig. 5 is a schematic front view of the second embodiment of the juice extractor.

Figure 6 is a schematic view of the two angle control parts of the embodiment of the quick juicer for changing the angles.

Fig. 7 is a schematic front cross-sectional view of a second scraping head of the embodiment of the rapid juicer.

Fig. 8 is a schematic view of the operation of the instant rapid juicer.

Detailed Description

The invention is further illustrated with reference to the following figures and examples:

the first embodiment is as follows:

in this embodiment, referring to fig. 1 to 4, the fast juicer includes two hemispherical scraping heads and a driving shaft 200 connecting the two scraping heads, the center of the inner side of the scraping heads is connected to the end of the driving shaft 200, the scraping heads are composed of six scraping blades 100, a rocker 110 for adjusting the rotation angle of the scraping blades 100 is disposed on the driving shaft 200, the rocker 110 changes the shape of the scraping blades 100 from hemispherical to propeller shape by swinging, the driving shaft 200 includes two parts rotating in opposite directions, respectively drives the two scraping heads to rotate in opposite directions, the two scraping heads rotating in opposite directions have the same propelling direction, that is, the two scraping heads rotating in opposite directions have the same propelling direction in the liquid, the scraping blades 100 are provided with contact fins 310 circumferentially arranged along the rotation direction of the scraping heads, the contact fins 310 are provided with optical sensors, the optical sensor controls the driving shaft 200 to rotate reversely after the contact fins 310 contact a predetermined color, which is the color of the boundary between the flesh and the skin of the watermelon 10 after the cover is opened, referring to fig. 8.

The optical sensor comprises a transparent sheet 320 arranged on the contact fins 310 and an optical fiber 340 connected with the transparent sheet 320, wherein a light source is arranged in the transparent sheet 320, the optical fiber 340 is connected with a color sensing control module, and the color sensing control module controls the driving shaft 200 to rotate reversely after sensing a preset color.

The color detected by the optical sensor can also be set according to the color set by the user, for example, the color of the boundary line of the skin and meat which can be eaten by the user is set by touching the skin and meat of the watermelon with the touch fin 310 after the watermelon is opened.

Example two:

referring to fig. 2 to 7, in addition to the first embodiment, the following structural features are added, and a cutting blade 400 is coaxially disposed on two portions of the driving shaft 200.

An angle control part 210 for adjusting the space included angle of the two parts is arranged between the two parts of the driving shaft 200, and the angle control part 210 uses a traditional spherical steering engine with an angle sensor.

The angle control part 210 is internally provided with a track control module provided with a gyroscope, the track control module analyzes the motion track acquired by the gyroscope, and controls the advancing direction of the scraping head by adjusting the included angle of the two parts of the driving shaft 200, so that the whole device advances to the whole interior of the watermelon 10 according to the progressive track, namely at least 6 points are randomly sampled in the spherical space of the watermelon 10, namely six points, namely front, back, left, right, upper and lower points in the watermelon 10 are sampled, a preliminary model in the watermelon 10 is formed, and then the interior of the watermelon 10 is cut according to the reciprocating track from top to bottom or from front to back or from left to right, and the track control mode is realized by simply stacking the program control modes of the existing sweeper.

In other embodiments, the drive shaft (200) may be telescopically arranged such that the entire device 20 can be compressed into a spherical shape for easy storage.

The operation process of the quick juicer comprises the following steps:

referring to fig. 8, the top of the watermelon 10 is opened with a hole suitable for being plugged into the whole device 20, the whole device 20 is plugged, the driving shaft 200 rotates in opposite directions to drive the two scraping heads to rotate in opposite directions, respectively, the driving shaft 200 rotates in opposite directions by controlling the rotating directions of the two driving shafts 200 rotating in opposite directions to control the advancing and retreating of the whole device 20, when the whole device 20 moves to the inner edge of the watermelon in one direction, the contact fins 310 detect the color of the boundary line of the watermelon skin and flesh, respectively, the driving shaft 200 rotates in opposite directions, the whole device 20 advances in opposite directions until the contact fins 310 contact the color of the boundary line of the watermelon skin and flesh again, and the solid-liquid mixture 11 broken in the watermelon is always non-uniform, so the advancing path of the whole device 20 is random, and the advancing and retreating of the whole device 20 can continuously cut in the watermelon 10, Breaking and directly forming watermelon juice in the watermelon.

The invention is not to be considered as limited to the particular embodiments shown, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a quick juice extractor which characterized in that: including two hemispherical scraping head and connect two drive shaft (200) of scraping the head constitute, the inboard center of scraping the head is connected the tip of drive shaft (200), it comprises scraping doctor-bar (100) more than two to scrape the head, be provided with the adjustment on drive shaft (200) scrape rocking arm (110) of doctor-bar (100) turned angle, drive shaft (200) include antiport two parts, drive two respectively scrape the head antiport, antiport two the propulsion direction of scraping the head is unanimous, it follows to be provided with on scraping doctor-bar (100) it rotates contact fin (310) that circumference was arranged to scrape the head, be provided with the optical sensing ware in contact fin (310), the optical sensing ware is at contact fin (310) control drive shaft (200) antiport after contact preset colour.

2. A quick juicer according to claim 1 wherein: the optical sensor comprises a transparent sheet (320) arranged on a contact fin (310) and an optical fiber (340) connected with the transparent sheet (320), wherein a light source is arranged in the transparent sheet (320), the optical fiber (340) is connected with a color sensing control module, and the color sensing control module controls a driving shaft (200) to rotate reversely after sensing a preset color.

3. A quick juicer according to claim 1 wherein: the cutting blades (400) are coaxially disposed on both portions of the driving shaft (200).

4. A quick juicer according to claim 1 wherein: an angle control part (210) for adjusting the space included angle of the two parts is arranged between the two parts of the driving shaft (200).

5. A quick juicer according to claim 4 wherein: and a track control module provided with a gyroscope is arranged in the angle control part (210), and the track control module controls the advancing direction of the scraping head by analyzing the motion track acquired by the gyroscope and adjusting the included angle of the two parts of the driving shaft (200), so that the whole device advances to the whole inner part of the watermelon (10) according to the progressive track.

6. A quick juicer according to any one of claims 1 to 6 wherein: the drive shaft (200) is provided in a telescopic shape.