CN218315389U - Filter pressing device for fruit juice production - Google Patents

Abstract

The utility model discloses a filter pressing device is used in fruit juice production belongs to fruit juice production technical field, including the support frame, support frame top one side fixed mounting has the crossbearer, and support frame top opposite side elastic connection has the press box, and the inside squeezing mechanism that can make the fruit go out the juice fast that is provided with of press box. The utility model discloses a squeezing mechanism, two garrulous material rollers are the antiport each other under the effect of its supporting motor, extrude the press mill to the fruit of process, carry out preliminary smashing to the fruit, extrude out partial fruit juice, later servo motor B drives the high-speed rotation of shell that grinds outward, make tooth A and tooth B constantly running-in, carry out the secondary grinding with the fruit residue of process, extrude out its inside most fruit juice, vibrating motor drives the press box and shakes from top to bottom, shake the fruit residue of its inner wall adhesion inside to the gauze bag, furthest has guaranteed the juice rate of fruit.

Description

Filter pressing device for fruit juice production

Technical Field

The utility model belongs to the technical field of the fruit juice production, specifically be a filter pressing device is used in fruit juice production.

Background

The fruit juice is obtained by crushing, squeezing and filtering fruits.

Wherein, through the retrieval discovery, there is a patent number CN202022658324.8, discloses a pomace filter equipment for fruit juice beverage production, including the rose box, the rose box outside is provided with driving motor, and the driving motor outside is provided with the motor case, and motor case and dust screen cooperation installation simultaneously, the feed inlet has been seted up on the rose box top, has shield and pivot through the setting, so be convenient for put in the back through the feed inlet with the pulp that needs processing, close the shield rotation through the pivot, can play dustproof effect to the rose box inside, avoid outside dust entering rose box interior influence fruit juice's health in the production process, through filter screen and the first block that sets up, be convenient for smash pulp through the hob with pulp juice through the pulp like this, fruit juice can filter the pomace through the filter screen, the pomace that produces can fall into the pomace discharge gate through the propulsion of hob, after production is accomplished simultaneously, can wash through the very convenient dismantlement filter screen of first block, through the pomace piece and the second block piece that sets up, be convenient for through the pomace that filters, the pomace that falls into the below can collect the pomace, the advantage that the pomace that can utilize in the jam collection.

However, the research shows that: the device is only smashed pulp through the hob, realizes the purpose of squeezing juice, but hob crushed aggregates effect is limited, can't thoroughly separate out the inside fruit juice of pulp, has reduced the juice rate of pulp, and in addition, the device separates pulp and fruit juice through the filter screen, but does not have the structure of mediation filter screen filtration pore, causes the filter screen filtration pore to block up easily, has reduced filtration efficiency, consequently provides a novel device and solves this problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems, the filter pressing device for producing the fruit juice is provided.

The utility model adopts the technical scheme as follows: a filter pressing device for fruit juice production comprises a support frame, wherein a cross frame is fixedly arranged on one side above the support frame, and a squeezing box is elastically connected to the other side above the support frame;

the inside squeezing mechanism that can make fruit go out juice fast that is provided with of press box, the crossbearer below is provided with the filter pressing mechanism who makes fruit juice and fruit residue quickly separating.

Wherein, press box outside one side fixed mounting has vibrating motor, squeezing mechanism includes crushed aggregates roller, support, outer mill shell, interior grinding roller and servo motor B, press box inside is close to pan feeding mouth department and rotates through the motor symmetry and is connected with the crushed aggregates roller, and two mutual interlocks of crushed aggregates roller, the inside fixed mounting of press box has the support, support top center department fixed mounting has interior grinding roller, the outside nested rotation of interior grinding roller is connected with outer mill shell, and outer mill shell passes through the bearing and is connected with the rotate bracket, and outer mill shell inner wall is provided with a plurality of teeth A, and the outside of interior grinding roller is provided with a plurality of teeth B, and teeth A and the mutual interlock of teeth B, press box internally mounted has servo motor B, and servo motor B connecting axle passes through the chain and is connected with outer mill shell transmission, there is the gauze bag in the press box exit through staple bolt swing joint.

Wherein, filter-pressing mechanism includes servo electric jar, connecting plate, pressure grinder and servo motor A, servo electric jar is installed to the crossbearer below, the terminal fixed mounting of servo electric jar has the connecting plate, connecting plate below one side is rotated through the carousel and is connected with the pressure grinder, servo motor A is installed to connecting plate below opposite side, and servo motor A connecting axle passes through the chain and is connected with the transmission of pressure grinder, there is a juice groove of collection through slide rail sliding connection in the support frame below, and the support frame surface corresponds the department with a juice groove of collection and is provided with the small opening, the support frame top corresponds the embedding with the pressure grinder and is provided with the pressure filter tank, and the filter tank bottom is provided with the sieve mesh, the press incasement portion corresponds a fixed mounting with the crushed aggregates roller and has the drainage groove, and drainage groove exit corresponds with outer mill shell entrance.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, through squeezing mechanism, two garrulous material rollers do the antiport each other under the effect of its supporting motor, extrude the press-grinding to the fruit of process, carry out preliminary smashing to the fruit, extrude out partial fruit juice, later servo motor B drives the high-speed rotation of shell that grinds outward, make tooth A and tooth B constantly running-in, carry out the secondary grinding with the fruit residue of process, extrude out its inside most fruit juice, vibrating motor drives the press box and shakes from top to bottom, shake the fruit residue of its inner wall adhesion inside to the yarn sack, furthest has guaranteed the juice rate of fruit.

2. The utility model discloses in, through filter-pressing mechanism, the staff unloads the gauze bag from the press box exit, and put into it to filter-pressing inslot portion, later with gauze bag sack folding seal, servo electric cylinder is reciprocal flexible, it constantly beats on the gauze bag that is equipped with the fruit residue to drive the press-grinding hammer, separate its inside remaining fruit juice, after a period, servo electric cylinder drives the press-grinding hammer top on the gauze bag, servo motor A drives the reciprocal rotation of press-grinding hammer, grind the inside fruit residue of gauze bag, extrude fruit juice from gauze bag inside, and the filtration efficiency is improved, and simultaneously the gauze bag can intercept the fruit residue completely, and the filter effect is better.

Drawings

FIG. 1 is a schematic diagram of a partial three-dimensional structure of the present invention;

FIG. 2 is a schematic diagram of the side section structure of the utility model;

fig. 3 is an enlarged schematic diagram of a structure at a in fig. 2 according to the present invention;

FIG. 4 is a schematic sketch of the partial three-dimensional structure of the outer grinding shell and the inner grinding roll in the utility model;

FIG. 5 is a schematic diagram of the partial three-dimensional structure of the medium-pressure grinding hammer of the present invention;

FIG. 6 is the schematic diagram of the local three-dimensional structure of the middle drainage groove.

The labels in the figure are: 1. a support frame; 101. a cross frame; 1011. a servo electric cylinder; 102. a connecting plate; 1021. pressing a grinding hammer; 1022. a servo motor A; 2. a press box; 201. a vibration motor; 202. a crushing roller; 2021. a drainage groove; 203. a support; 2031. grinding the shell; 2032. an inner grinding roller; 2033. a servo motor B; 204. a gauze bag.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses in:

referring to fig. 1-6, a filter pressing device for fruit juice production comprises a support frame 1, a cross frame 101 is fixedly arranged on one side above the support frame 1, and a squeezing box 2 is elastically connected to the other side above the support frame 1;

the inside squeezing mechanism that can make the fruit go out the juice fast that is provided with of press box 2, the crossbearer 101 below is provided with the filter pressing mechanism that makes fruit juice and fruit residue rapid segregation.

Referring to fig. 1-4, further, a vibration motor 201 is fixedly installed on one side of the outside of the press box 2, the press mechanism includes a material crushing roller 202, a support 203, an outer grinding shell 2031, an inner grinding roller 2032 and a servo motor B2033, the inside of the press box 2 near a material inlet is symmetrically and rotatably connected with the material crushing roller 202 through a motor, the two material crushing rollers 202 are mutually engaged, the inside of the press box 2 is fixedly installed with the support 203, an inner grinding roller 2032 is fixedly installed at the center above the support 203, the outside of the inner grinding roller 2032 is connected with the outer grinding shell 2031 in an embedded and rotatable manner, the outer grinding shell 2031 is rotatably connected with the support 203 through a bearing, the inner wall of the outer grinding shell 2031 is provided with a plurality of teeth a, the outside of the inner grinding roller 2032 is provided with a plurality of teeth B, the teeth a servo motor B2033 is installed inside the press box 2, the servo motor B2033 is in a transmission connection with the outer grinding shell 2031 through a chain, and the bag outlet of the press box 2 is connected with a movable yarn bag 204 through a hoop;

the staff overlaps clean gauze bag 204 sack in press box 2 exit, and fix gauze bag 204 in press box 2 exit through the staple bolt, later the staff pours clean fruit into to press box 2 inside from the entrance, two shredded materials rollers 202 are the antiport each other under the effect of its supporting motor, extrude the pressure mill to the fruit of passing through, carry out preliminary crushing to the fruit, extrude out partial fruit juice, later through shredded materials roller 202 preliminary crushing fruit residue from outer grinding shell 2031 entrance drop to the crack between outer grinding shell 2031 and the interior grinding roller 2032, servo motor B2033 drives outer grinding shell 2031 high-speed rotation, make tooth A and tooth B constantly running-in, carry out the secondary grinding with the fruit residue that passes through, extrude its inside most fruit juice, through shredded materials roller 202 and outer grinding shell 2031 pressure mill fruit residue and fruit juice bag 204 in, part sees through gauze bag 204 hole outflow, vibrating motor 201 drives case 2 from top to bottom, vibrate the fruit bag that the adhesion of the yarn wall 204 in it to the inside to press the fruit residue of fruit bag 204.

Referring to fig. 2 and 5, further, the filter pressing mechanism comprises a servo electric cylinder 1011, a connecting plate 102, a pressing hammer 1021 and a servo motor a1022, the servo electric cylinder 1011 is installed below the cross frame 101, the connecting plate 102 is fixedly installed at the tail end of the servo electric cylinder 1011, one side below the connecting plate 102 is rotatably connected with the pressing hammer 1021 through a turntable, the servo motor a1022 is installed at the other side below the connecting plate 102, a connecting shaft of the servo motor a1022 is in transmission connection with the pressing hammer 1021 through a chain, a juice collecting groove is connected below the support frame 1 through a sliding rail in a sliding manner, a leak hole is formed in the position, corresponding to the juice collecting groove, of the surface of the support frame 1, a pressing filter groove is embedded in the position, corresponding to the pressing hammer 1021, above the support frame 1, and a sieve mesh is formed in the bottom of the filter groove;

part of fruit juice flows out through the yarn holes of the gauze bag 204 and then flows into the juice collecting groove from the weep holes on the surface of the support frame 1, then workers assist in opening the anchor ear, the gauze bag 204 is detached from the outlet of the squeezing box 2 and is placed into the filter pressing groove, then the bag opening of the gauze bag 204 is folded and sealed, then the servo electric cylinder 1011 stretches and retracts in a reciprocating mode to drive the pressing and grinding hammer 1021 to continuously beat on the gauze bag 204 filled with fruit residues, the residual fruit juice in the interior of the gauze bag is separated, after a period of time, the servo electric cylinder 1011 drives the pressing and grinding hammer 1021 to push against the gauze bag 204, the servo motor A1022 drives the pressing and grinding hammer 1021 to rotate in a reciprocating mode to grind the fruit residues in the gauze bag 204, and in the reciprocating mode, the squeezed fruit juice flows into the juice collecting groove from the sieve holes at the bottom of the filter pressing groove, and in the reciprocating mode, and the juice outlet rate of the fruits is guaranteed to the maximum extent.

Referring to fig. 2 and 6, further, a drainage groove 2021 is fixedly installed inside the press box 2 corresponding to the crushing roller 202, an outlet of the drainage groove 2021 corresponds to an inlet of the outer grinding shell 2031, and the drainage groove 2021 drains the fruit residues and the fruit juice primarily squeezed by the crushing roller 202 into a gap between the outer grinding shell 2031 and the inner grinding roller 2032.

Referring to fig. 2 and 3, further, the servo electric cylinder 1011, the servo motor a1022, the vibration motor 201, the motor on the crushing roller 202 side, and the servo motor B2033 are electrically connected to an external power source through a control panel.

The working principle is as follows: firstly, a clean gauze bag 204 is sleeved at the outlet of the press box 2 by a worker, the gauze bag 204 is fixed at the outlet of the press box 2 through a hoop, then clean fruits are poured into the press box 2 from the inlet by the worker, the two crushing rollers 202 rotate in opposite directions under the action of a motor matched with the two crushing rollers 202, the passing fruits are extruded and pressed and ground, the fruits are preliminarily crushed, partial fruit juice is extruded out, then fruit residues preliminarily crushed by the crushing rollers 202 fall into a gap between the outer grinding shell 2031 and the inner grinding roller 2032 from the inlet of the outer grinding shell 2031, the outer grinding shell 2031 is driven by the servo motor B3 to rotate at a high speed, the teeth A and the teeth B are continuously ground, the passing fruit residues are secondarily ground, most of the fruit juice in the fruit residues is extruded out, the fruit residues and the fruit juice pressed and ground by the crushing rollers 202 and the outer grinding shell 2031 fall into the gauze bag 204, part of fruit juice flows out through the yarn holes of the gauze bag 204 and then flows into the juice collecting tank from the weep holes on the surface of the support frame 1, then the vibration motor 201 drives the press box 2 to vibrate up and down, fruit residues adhered to the inner wall of the press box are vibrated down to the interior of the gauze bag 204, finally a worker assists in opening the anchor ear, the gauze bag 204 is detached from the outlet of the press box 2 and is put into the filter pressing tank, then the bag opening of the gauze bag 204 is folded and sealed, then the servo electric cylinder 1011 stretches and retracts in a reciprocating way to drive the press hammer 1021 to continuously hammer on the gauze bag 204 filled with the fruit residues, the residual fruit juice in the gauze bag is separated, after a period of time, the servo electric cylinder drives the press hammer 1021 to prop against the gauze bag 204, the servo motor A drives the press hammer 1021 to rotate in a reciprocating way to grind the fruit residues in the gauze bag 204, and then the process is repeated in such a way, the squeezed fruit juice 1022 flows into the juice collecting tank from the sieve holes at the bottom of the tank, the fruit juice extraction rate is ensured to the maximum extent by reciprocating in the way.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a filter pressing device is used in fruit juice production, includes support frame (1), its characterized in that: a transverse frame (101) is fixedly arranged on one side above the supporting frame (1), and the other side above the supporting frame (1) is elastically connected with a squeezing box (2);

the inside squeezing mechanism that can make the fruit go out the juice fast that is provided with of press box (2), crossbearer (101) below is provided with the filter pressing mechanism that makes fruit juice and fruit residue quickly separating.

2. A filter-pressing device for juice production as defined in claim 1, wherein: and a vibration motor (201) is fixedly mounted on one side of the outer part of the squeezing box (2).

3. A filter-pressing device for fruit juice production as claimed in claim 1, wherein: the squeezing mechanism comprises a crushing roller (202), a bracket (203), an outer grinding shell (2031), an inner grinding roller (2032) and a servo motor B (2033);

squeeze case (2) inside and be close to pan feeding mouth department and rotate through the motor symmetry and be connected with bits of broken glass roller (202), and two bits of broken glass roller (202) interlock each other, squeeze case (2) inside fixed mounting have support (203), support (203) top center department fixed mounting has interior grinding roller (2032), interior grinding roller (2032) outside nested rotation is connected with outer grinding shell (2031), and outer grinding shell (2031) rotates through bearing and support (203) and is connected, and outer grinding shell (2031) inner wall is provided with a plurality of tooth A, and interior grinding roller (2032) outside is provided with a plurality of tooth B, and tooth A and tooth B interlock each other, squeeze case (2) internally mounted has servo motor B (2033), and servo motor B (2033) connecting axle passes through the chain and is connected with outer grinding shell (2031) transmission.

4. A filter-pressing device for juice production as defined in claim 2, wherein: the outlet of the squeezing box (2) is movably connected with a gauze bag (204) through a hoop.

5. A filter-pressing device for juice production as defined in claim 1, wherein: the filter pressing mechanism comprises a servo electric cylinder (1011), a connecting plate (102), a pressing hammer (1021) and a servo motor A (1022);

the servo electric cylinder (1011) is installed below the transverse frame (101), a connecting plate (102) is fixedly installed at the tail end of the servo electric cylinder (1011), a pressure grinding hammer (1021) is connected to one side below the connecting plate (102) in a rotating mode through a turntable, a servo motor A (1022) is installed on the other side below the connecting plate (102), and a connecting shaft of the servo motor A (1022) is in transmission connection with the pressure grinding hammer (1021) through a chain.

6. A filter-pressing device for fruit juice production as claimed in claim 1, wherein: support frame (1) below has a juice collecting tank through slide rail sliding connection, and support frame (1) surface is provided with the small opening with juice collecting tank department of corresponding, support frame (1) top is provided with presses the filter pressing tank with pressing the embedding of rubbing hammer (1021) department of corresponding, and the filter pressing tank bottom is provided with the sieve mesh.

7. A filter-pressing device for fruit juice production as claimed in claim 1, wherein: and a drainage groove (2021) is fixedly arranged at the position, corresponding to the material crushing roller (202), in the squeezing box (2), and the outlet of the drainage groove (2021) corresponds to the inlet of the outer grinding shell (2031).

Images