CN210989603U - Manual noni fruit pulp squeezing device - Google Patents

Abstract

The utility model provides a manual noni fruit pulp squeezing device, which relates to the technical field of fruit processing and comprises a shell, wherein the end part of a reamer shaft is connected with a flying disc, the flying disc is provided with a groove which is coaxial with the flying disc, the inner wall of the groove is provided with pawl grooves which are rotationally symmetrical, and the groove is internally provided with a turntable; when the rest needs to be stopped in the manual rotation process, although the rotating disc immediately stops rotating at the moment, the flying disc can continue to rotate under the action of inertia force, the pawl cannot limit the counterclockwise rotation of the flying disc through the matching action of the pawl and the pawl groove, the smooth continuous rotation of the flying disc under the action of the inertia force is ensured, the flying disc which continues to rotate along with the inertia force drives the reamer shaft and the reamer blades to continue to rotate, and therefore the reamer blades can continue to extrude noni pulp within one end time when the manual rotation stops, the use efficiency of the manual force is improved, and the purpose of saving labor is achieved on the whole.

Description

Manual noni fruit pulp squeezing device

Technical Field

The utility model relates to a fruit processing technology field specifically is a manual formula noni fruit thick liquid squeezes device.

Background

Noni fruit is the fruit of morinda citrifolia, which has a composition rich in somatic cells of the human body and a body-building effect, and a manual noni pulp squeezing device is also popular in the market for the requirements of portability, use in a non-electric place, convenience in maintenance, physical exercise and the like.

Through search, a manual residue and juice separation type juicer is disclosed in Chinese patent with an authorization publication number of CN 24578957. One end of a juicing barrel of the juicing body is connected with the spiral cover in a reverse thread mode, a reamer shaft at one end of a spiral compression rod on the juicing body is sleeved with a hole on the juicing barrel, and the other end of the spiral compression rod is placed on the inner surface of the spiral cover; the juice barrel of the juice extracting body is provided with a juice outlet hole for flowing out juice, and the spiral cover is provided with a residue outlet hole for discharging residues.

However, in the above technical solution, the reamer shaft is rotated only when the handle body is manually swung, and when the handle body is manually stopped to swing, the reamer shaft is immediately stopped, which wastes the use of the reamer shaft and the inertia force of the reamer blades, and thus the structure is not labor-saving overall.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a manual formula noni fruit thick liquid squeezes device, aim at solving among the prior art and stop shaking to the handle body when the manpower, then the reamer axle also can be immediate stops, has wasted the use of reamer axle and reamer blade inertia force, therefore the structure is laborsaving problem inadequately on the whole.

In order to achieve the above purpose, the utility model adopts the following technical scheme: manual noni fruit pulp squeezes device includes the shell, sets up cover net in the shell, set up in the cover net and rotate the reamer axle that sets up, shaping reamer blade on the reamer axle, with the row miscellaneous pipe of the inside switch-on of cover net and with the play thick liquid pipe of the fruit pulp cavity switch-on between shell and the cover net with the shell, the end connection of reamer axle has the frisbee, sets up the recess with the coaxial setting of frisbee on the frisbee, and the pawl groove that rotational symmetry set up is seted up to the inner wall of recess, be equipped with the carousel in the recess, and the eccentric department of terminal surface of carousel rotates installs the pawl that can insert the pawl inslot, and the pawl still resets through elasticity and is connected with the carousel, still including being used for the rotatory manual drive mechanism of drive carousel.

The manual driving mechanism comprises a rotating shaft connected with the rotating disc, a driven bevel gear connected with the rotating shaft, a driving bevel gear in meshed connection with the driven bevel gear, a crank rod connected with the driving bevel gear and a handle body installed on the crank rod, the shell is connected with a cover body covering the flying disc and the rotating disc, and the crank rod is installed on the cover body in a rotating mode.

The shell is provided with a feeding hole.

A material guide plate with an inclined upper end connected with the shell and an inclined lower end connected with the top end of the cover net is arranged under the feeding hole.

The shell is hinged with a cover plate which can rotate relative to the feed inlet and can cover the feed inlet.

The bottom of the shell is in a convex shape.

The bottom of the shell is provided with a base.

The base is connected with the shell through a height adjusting mechanism.

The height adjusting mechanism comprises a hollow cylinder connected with the base, a jackscrew installed on the hollow cylinder and a movable rod inserted into the hollow cylinder and connected with the shell.

The utility model has the advantages that:

1. when the rest needs to be stopped in the manual rotation process, although the rotary disc immediately stops rotating at the moment, the flying disc can continuously rotate under the action of inertia force, the pawl cannot limit the counterclockwise rotation of the flying disc through the matching action of the pawl and the pawl groove, the smooth continuous rotation of the flying disc under the action of the inertia force is ensured, and the flying disc continuously rotating along with the inertia force drives the reamer shaft and the reamer blades to continuously rotate, so that the reamer blades can continuously extrude noni pulp within one time when the manual rotation stops, the use efficiency of the manual force is improved, and the aim of saving labor is fulfilled on the whole;

2. the noni pulp enters the shell through the feed inlet and falls on the guide plate, and the noni pulp sliding along the guide plate can conveniently enter the cover net;

3. the height of the shell relative to the base can be adjusted by unscrewing the jackscrew, so that the height of the pulp outlet pipe can be adjusted, and the pulp outlet pipe can be suitable for containers such as cups with different sizes.

Drawings

FIG. 1 is a front view of an embodiment of a manual Morinda citrifolia pulp extraction device.

Fig. 2 is a sectional view taken along line a-a of fig. 1.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1 and 2, a manual noni pulp squeezing device comprises a shell 1, a cover net 13 arranged in the shell 1, a reamer shaft 2 arranged in the cover net 13 and rotatably arranged with the shell 1, reamer blades 3 formed on the reamer shaft 2, a trash discharge pipe 17 communicated with the inside of the cover net 13, and a pulp outlet pipe 18 communicated with a pulp chamber 101 between the shell 1 and the cover net 13; in the prior art, after noni pulp is put into the cover net 13, the reamer shaft 2 rotates when the handle body is shaken by manpower, and the like, so that the reamer blades 3 rotate to extrude the noni pulp to finish the purpose of juicing the noni pulp, fruit pulp enters the fruit pulp chamber 101 through the cover net 13, the fruit pulp can be discharged through the pulp outlet pipe 18, the fruit pulp can be discharged, a valve on the impurity discharge pipe 17 can be opened, and the remaining impurities can be discharged through the impurity discharge pipe 17.

The utility model discloses an especially important in the utility model, the end connection of reamer axle 2 has flying disc 4, has seted up on flying disc 4 with flying disc 4 coaxial arrangement's recess 401, and the inner wall of recess 401 has seted up the pawl groove 402 that rotational symmetry set up, be equipped with carousel 9 in the recess 401, and the terminal surface eccentric department of carousel 9 is rotated and is installed the pawl 7 that can insert in pawl groove 402, and pawl 7 still is connected with carousel 9 through elasticity restoring piece 8, still includes manual drive mechanism 5 that is used for driving carousel 9 rotatory; the manual driving mechanism 5 is rotated by manpower rapidly to rotate the rotary disc 9, as shown in fig. 2, the rotary disc 9 is rotated counterclockwise, the pawl 7 is clamped into the pawl groove 402, so that the flying disc 4 is driven to rotate counterclockwise, when the rest is required to be stopped in the manual rotation process, although the rotary disc 9 stops rotating immediately, the flying disc 4 continues to rotate due to the action of inertia force, through the cooperation effect of the pawl 7 and the pawl groove 402, the pawl 7 cannot limit the counterclockwise rotation of the flying disc 4, so that the flying disc 4 can continue to rotate due to the inertia force, the flying disc 4 which continues to rotate along with the inertia force drives the reamer shaft 2 and the reamer blades 3 to continue to rotate, and the reamer blades 3 can continue to extrude noni pulp within one end time when the manpower stops, thereby improving the use efficiency of the manpower, thereby achieving the aim of saving labor on the whole.

Specifically, the manual driving mechanism 5 comprises a rotating shaft 10 connected with the rotating disc 9, a driven bevel gear 51 connected with the rotating shaft 10, a driving bevel gear 52 in meshed connection with the driven bevel gear 51, a crank rod 53 connected with the driving bevel gear 52 and a handle body 54 arranged on the crank rod 53, the housing 1 is connected with a cover body 19 covering the flying disc 4 and the rotating disc 9, and the crank rod 53 is rotatably arranged on the cover body 19; the crank lever 53 is rotated by the hand holding the handle body 54, and the rotation of the drive bevel gear 52 rotates the driven bevel gear 51, thereby rotating the rotary shaft 10 and rotating the rotary table 9.

In order to enable the noni pulp to conveniently enter the cover net 13, a feed inlet 11 is further formed in the shell 1, and a material guide plate 14 with an inclined upper end connected with the shell 1 and an inclined lower end connected with the top end of the cover net 13 is arranged right below the feed inlet 11; the noni pulp enters the casing 1 through the feed inlet 11 and falls on the guide plate 14, and the noni pulp sliding along the guide plate 14 can conveniently enter the cover net 13.

In order to prevent the pulp and the like from being splashed to the outside, a cover plate 12 which can rotate relative to the feeding port 11 and cover the feeding port 11 is further hinged on the housing 1, and the cover plate 12 is covered in the process of squeezing the noni pulp.

In order to facilitate the discharge of the pulp through the pulp outlet pipe 18 and the discharge of impurities through the impurity discharge pipe 17, the bottom of the housing 1 is preferably convex.

In order to enable containers such as cups with different sizes to be placed at the lower part of the pulp outlet pipe 18, the bottom of the shell 1 is provided with a base 15, the base 15 is connected with the shell 1 through a height adjusting mechanism 16, and specifically, the height adjusting mechanism 16 comprises a hollow cylinder 161 connected with the base 15, a jackscrew 163 arranged on the hollow cylinder 161 and a moving rod 162 inserted into the hollow cylinder 161 and connected with the shell 1; the height of the shell 1 relative to the base 15 can be adjusted by unscrewing the jackscrew 163, so that the height of the pulp outlet pipe 18 can be adjusted, and the pulp outlet pipe 18 can be suitable for containers such as cups with different sizes.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (9)

1. A manual noni fruit pulp squeezing device comprises a shell (1), a cover net (13) arranged in the shell (1), a reamer shaft (2) arranged in the cover net (13) and rotationally arranged with the shell (1), reamer blades (3) formed on the reamer shaft (2), a trash pipe (17) communicated with the inside of the cover net (13) and a pulp outlet pipe (18) communicated with a fruit pulp chamber (101) between the shell (1) and the cover net (13), and is characterized in that the end part of the reamer shaft (2) is connected with a flying disc (4), the flying disc (4) is provided with a groove (401) coaxially arranged with the flying disc (4), the inner wall of the groove (401) is provided with pawl grooves (402) rotationally and symmetrically arranged, a rotary disc (9) is arranged in the groove (401), and a pawl (7) capable of being inserted into the pawl groove (402) is rotationally arranged at the eccentric position of the end surface of the rotary disc (9), the pawl (7) is also connected with the rotary table (9) through an elastic reset piece (8), and further comprises a manual driving mechanism (5) for driving the rotary table (9) to rotate.

2. A manual morinda citrifolia pulp extracting apparatus according to claim 1, wherein the manual driving mechanism (5) comprises a rotation shaft (10) connected to the rotation plate (9), a driven bevel gear (51) connected to the rotation shaft (10), a driving bevel gear (52) engaged with the driven bevel gear (51), a crank lever (53) connected to the driving bevel gear (52), and a handle body (54) installed on the crank lever (53), the housing (1) is connected to a cover body (19) covering the flying disc (4) and the rotation plate (9), and the crank lever (53) is rotatably installed on the cover body (19).

3. The manual noni pulp extracting device according to claim 1, wherein the housing (1) is provided with a feed opening (11).

4. A manual morinda citrifolia pulp extracting apparatus according to claim 3, wherein a material guide plate (14) having an inclined upper end connected to the housing (1) and an inclined lower end connected to the top end of the cover net (13) is provided right under the feed inlet (11).

5. A manual morinda citrifolia pulp extraction device according to claim 3, wherein the housing (1) is hinged with a cover plate (12) which is rotatable with respect to the feed opening (11) and covers the feed opening (11).

6. A manual noni pulp extraction device according to claim 1, wherein the bottom of the housing (1) is convex in shape.

7. A manual Morinda citrifolia pulp extraction device according to any of the claims 1-6, wherein the bottom of the housing (1) is provided with a base (15).

8. A manual noni pulp extraction device according to claim 7, wherein the base (15) is connected to the housing (1) by a height adjustment mechanism (16).

9. A manual noni pulp extracting device according to claim 8, wherein the height adjusting mechanism (16) includes a hollow cylinder (161) connected to the base (15), a jack screw (163) installed on the hollow cylinder (161), and a moving bar (162) inserted into the hollow cylinder (161) and connected to the housing (1).

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