CN112841663A - Food processing is with equipment of squeezing juice - Google Patents

Abstract

The invention relates to juicing equipment, in particular to juicing equipment for food processing, which comprises an intermittent input mechanism, a crushing juicing mechanism and a separation output mechanism, wherein the equipment can intermittently input fruits in a conical groove into a crushing barrel, can crush the fruits in the crushing barrel, can input the crushed fruits into a separation box, can separate the separated fruit juice from fruit residues and output the separated fruit juice and fruit residues, the intermittent input mechanism is connected with the crushing juicing mechanism, the crushing juicing mechanism is connected with the separation output mechanism, and the separation output mechanism is connected with the intermittent input mechanism.

Description

Food processing is with equipment of squeezing juice

Technical Field

The invention relates to a juicing device, in particular to a juicing device for food processing.

Background

In the process of fruit juicing, part of processes are often completed by personnel in a matching way, the efficiency is low, but no good juicing equipment exists in the market, so the juicing equipment for food processing is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing juicing equipment for food processing, the equipment can intermittently input fruits in a conical groove into a crushing barrel, the equipment can crush the fruits in the crushing barrel, the equipment can input the crushed fruits into a separation box, and the equipment can separate the separated fruit juice from the fruit residues and output the separated fruit juice and fruit residues.

In order to solve the technical problems, the invention relates to juicing equipment, and particularly relates to juicing equipment for food processing, which comprises an intermittent input mechanism, a crushing juicing mechanism and a separation output mechanism, wherein the equipment can intermittently input fruits in a conical groove into a crushing barrel, can crush the fruits in the crushing barrel, can input the crushed fruits into a separation box, and can separate and output the separated fruit juice from fruit residues.

The intermittent input mechanism is connected with the crushing and juicing mechanism, the crushing and juicing mechanism is connected with the separation output mechanism, and the separation output mechanism is connected with the intermittent input mechanism.

As a further optimization of the technical scheme, the juicing equipment for food processing comprises a motor, a motor shaft, a belt a, a connecting shaft a, a belt b, a connecting shaft b, a belt c, a friction ring, an intermittent input ring, a sealing plate, a conical input block, a crushing box connecting block, a crushing box sealing plate, a belt d, a friction wheel a, a connecting shaft c, a propeller, a drain pipe, an equipment installation box, a conical input groove, an equipment installation plate and an intermittent input ring bearing plate, wherein the motor is connected with the motor shaft, the motor is connected with the equipment installation box, the motor shaft is in friction connection with the belt a, the belt a is in friction connection with the connecting shaft a, the connecting shaft a is in friction connection with the belt b, the connecting shaft a is in friction connection with the equipment installation box bearing, the belt b is in friction connection with the connecting shaft b, the connecting shaft a is in connection with the intermittent input ring bearing plate, a belt b is in friction connection with a friction wheel a, a connecting shaft b is in friction connection with a belt c, the connecting shaft b is connected with an equipment installation box bearing, the connecting shaft b is connected with an intermittent input ring bearing plate bearing, the belt c is in friction connection with a friction ring, the friction ring is connected with an intermittent input ring, the intermittent input ring is connected with a sealing plate, the intermittent input ring is in sliding connection with a conical input block, the intermittent input ring is connected with the equipment installation box bearing, the intermittent input ring is in sliding connection with a conical input groove, the intermittent input ring is connected with the intermittent input ring bearing plate bearing, the conical input block is connected and communicated with a crushing box, the crushing box is connected with a crushing box connecting block, the crushing box is connected with a crushing box sealing plate, the crushing box connecting block is connected with the equipment installation plate, the friction wheel a is in friction connection with a connecting shaft c, the connecting shaft, the drain pipe is connected with the hole on the equipment installation box, and the equipment installation box is connected with the toper input groove, and the equipment installation box is connected with the equipment fixing board, and the equipment installation box is connected with intermittent type input circle bearing plate.

As a further optimization of the technical scheme, the juicing equipment for food processing comprises a crushing juicing mechanism, wherein the crushing juicing mechanism comprises a belt I, a friction wheel I, a connecting shaft I, a screw propeller I, a square input groove, a one-way rotating plate, a spring, a rotation limiting plate, a belt II, a connecting shaft II, a belt III, a friction wheel II, a connecting shaft III, a screw propeller II, a mounting plate a and a separation box, the belt I is in friction connection with the friction wheel I, the belt I is in friction connection with the connecting shaft A, the friction wheel I is connected with the connecting shaft I, the connecting shaft I is connected with the screw propeller I, the connecting shaft I is connected with a crushing box connecting block bearing, the square input groove is hinged with the one-way rotating plate, the square input groove is connected with a square hole in a sealing plate of the crushing box, the square input groove is connected with the square hole in the mounting plate a, the square input, one end of the second belt is in friction connection with the connecting shaft a, the other end of the second belt is in friction connection with the second connecting shaft, the second connecting shaft is in friction connection with the third belt, the second connecting shaft is connected with the separating box bearing, the third belt is in friction connection with the second friction wheel, the second friction wheel is connected with the third connecting shaft, the third connecting shaft is connected with the second propeller, the third connecting shaft is connected with the mounting plate a bearing, and the mounting plate a is connected with the separating box.

As a further optimization of the technical scheme, the juicing equipment for food processing comprises a separation output mechanism, wherein the separation output mechanism comprises an inner sliding limiting plate, an outer sliding limiting plate, a sliding door, a sliding limiting plate, a handle, an output friction wheel a, a transmission shaft a, a connecting belt a, a transmission shaft b, an output friction wheel c, a transmission shaft c, a connecting belt b, a transmission shaft d, a connecting belt c, a scraping plate, a microporous plate, an inclined plate and an output port, the inner sliding limiting plate is connected with the sliding door in a sliding manner, the inner sliding limiting plate is connected with a separation box, the outer sliding limiting plate is connected with the sliding door in a sliding manner, the outer sliding limiting plate is connected with the separation box, the sliding door is connected with the sliding limiting plate, the sliding limiting plate is connected with the handle, the output friction wheel a is connected with the transmission shaft a, the transmission shaft a is in friction connection with the connecting belt a, the transmission shaft a is connected with the separating box bearing, the connecting belt a is in friction connection with the transmission shaft b, the transmission shaft b is connected with the output friction wheel b, the transmission shaft b is connected with the separating box bearing, the output friction wheel b is in friction connection with the output friction wheel c, the output friction wheel c is connected with the transmission shaft c, the transmission shaft c is in friction connection with the connecting belt b, the transmission shaft c is connected with the separating box bearing, the connecting belt b is in friction connection with the transmission shaft d, the transmission shaft d is in friction connection with the connecting belt c, the connecting belt c is connected with the scraper, the scraper is in sliding connection with the microporous plate, the microporous plate is connected with the separating box, the inclined plate is.

As a further optimization of the technical scheme, the juicing equipment for food processing is characterized in that a large number of small holes are arranged between the middle friction ring of the intermittent input ring and the bearing plate of the intermittent input ring.

The juicing equipment for food processing has the beneficial effects that:

the juicing equipment for food processing disclosed by the invention can intermittently input fruits in the conical groove into the crushing barrel, can crush the fruits in the crushing barrel, can input the crushed fruits into the separation box, and can separate the separated fruit juice from the fruit residues and output the separated fruit juice and fruit residues.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a juice extractor for food processing according to the present invention.

Fig. 2 is a first schematic structural diagram of an intermittent input mechanism 1 of the juicing equipment for food processing.

Fig. 3 is a schematic structural diagram of an intermittent input mechanism 1 of the juicing equipment for food processing.

Fig. 4 is a third schematic structural diagram of the intermittent input mechanism 1 of the juicing equipment for food processing.

Fig. 5 is a fourth schematic structural diagram of the intermittent input mechanism 1 of the juicing equipment for food processing.

Fig. 6 is a fifth schematic structural diagram of the intermittent input mechanism 1 of the juicing equipment for food processing.

Fig. 7 is a first structural schematic diagram of a crushing and juicing mechanism 2 of the juicing equipment for food processing.

Fig. 8 is a second structural schematic diagram of the crushing and juicing mechanism 2 of the juicing equipment for food processing.

Fig. 9 is a third schematic structural diagram of the crushing and juicing mechanism 2 of the juicing equipment for food processing.

Fig. 10 is a schematic view showing the construction of a separation tank 2-16 of a juicing apparatus for food processing according to the present invention.

Fig. 11 is a first structural schematic diagram of the separating and outputting mechanism 3 of the juicing equipment for food processing.

Fig. 12 is a second schematic structural diagram of the separating and delivering mechanism 3 of the food processing juice extracting device.

Fig. 13 is a third schematic structural diagram of the separating and delivering mechanism 3 of the juice extracting device for food processing of the present invention.

Fig. 14 is a fourth schematic structural diagram of the separating and delivering mechanism 3 of the juice extracting device for food processing of the present invention.

Fig. 15 is a fifth schematic structural diagram of the separating and delivering mechanism 3 of the juice extracting device for food processing of the present invention.

Fig. 16 is a sixth schematic structural view of the separating and delivering mechanism 3 of the juice extracting device for food processing of the present invention.

Fig. 17 is a seventh structural schematic diagram of the separating and outputting mechanism 3 of the juice extracting device for food processing of the present invention.

In the figure: an intermittent input mechanism 1; a motor 1-1; a motor shaft 1-2; belt a 1-3; connecting shaft a 1-4; belt b 1-5; connecting shaft b 1-6; belt c 1-7; 1-8 parts of friction ring; intermittent input rings 1-9; sealing plates 1-10; tapered input blocks 1-11; 1-12 parts of a crushing box; 1-13 parts of a crushing box connecting block; a crushing box sealing plate 1-14; belt d 1-15; friction wheel a 1-16; connecting shafts c 1-17; 1-18 of a propeller; 1-19 parts of a drain pipe; 1-20 parts of equipment installation box; tapered input slots 1-21; equipment mounting plates 1-22; intermittent input ring bearing plates 1-23; a crushing and juicing mechanism 2; 2-1 of a first belt; 2-2 parts of a first friction wheel; connecting shafts I2-3; 2-4 parts of a propeller I; square input slots 2-5; 2-6 of unidirectional rotating plate; 2-7 of a spring; rotating the limiting plates 2-8; 2-9 parts of a second belt; 2-10 parts of a connecting shaft II; 2-11 parts of a third belt; 2-12 parts of a second friction wheel; connecting shafts III 2-13; 2-14 parts of a second propeller; mounting plate a 2-15; 2-16 of a separation box; a separation output mechanism 3; an inner sliding limiting plate 3-1; an outer sliding limiting plate 3-2; a sliding door 3-3; a slide restricting plate 3-4; 3-5 of a handle; output friction wheel a 3-6; a transmission shaft a 3-7; connecting belts a 3-8; a transmission shaft b 3-9; output friction wheel b 3-10; output friction wheel c 3-11; a drive shaft c 3-12; a connecting belt b 3-13; a drive shaft d 3-14; connecting belts c 3-15; 3-16 parts of a scraper; 3-17 parts of a microporous plate; inclined plates 3-18; and output ports 3-19.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, the present invention relates to a juicing device, and more specifically, to a juicing device for food processing, including an intermittent input mechanism 1, a crushing juicing mechanism 2, and a separation output mechanism 3, the device being capable of intermittently inputting fruit in a conical groove into a crushing barrel, the device being capable of crushing fruit in the crushing barrel, the device being capable of inputting crushed fruit into a separation box, and the device being capable of separating separated fruit juice from fruit pomace and outputting the fruit juice.

The intermittent input mechanism 1 is connected with the crushing and juicing mechanism 2, the crushing and juicing mechanism 2 is connected with the separation and output mechanism 3, and the separation and output mechanism 3 is connected with the intermittent input mechanism 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and the embodiment further describes the embodiment, where the intermittent input mechanism 1 includes a motor 1-1, a motor shaft 1-2, a belt a1-3, a connecting shaft a1-4, a belt b1-5, a connecting shaft b1-6, a belt c1-7, a friction ring 1-8, an intermittent input ring 1-9, a sealing plate 1-10, a tapered input block 1-11, a crushing box 1-12, a crushing box connecting block 1-13, a crushing box sealing plate 1-14, a belt d1-15, a friction wheel a1-16, a connecting shaft c1-17, a propeller 1-18, a friction wheel a crushing box 1-12, a, 1-19 parts of drain pipe, 1-20 parts of equipment installation box, 1-21 parts of conical input groove, 1-22 parts of equipment installation plate, 1-23 parts of intermittent input ring bearing plate, 1-1 parts of motor connected with 1-2 parts of motor shaft, 1-1 parts of motor connected with 1-20 parts of equipment installation box, 1-2 parts of motor shaft connected with 1-3 parts of belt a, 1-3 parts of belt a connected with 1-4 parts of connecting shaft a, 1-4 parts of connecting shaft a connected with 1-5 parts of belt b, 1-4 parts of connecting shaft a connected with d1-15 parts of belt d, 1-4 parts of connecting shaft a connected with 1-20 parts of equipment installation box, b1-5 parts of belt connected with 1-6 parts of connecting shaft b, a1-4 parts of connecting shaft a connected with 1-23 parts of intermittent input ring bearing plate, b1-5 parts of belt b connected with 1-16 parts of, the connecting shaft b1-6 is in friction connection with the belt c1-7, the connecting shaft b1-6 is in bearing connection with the equipment installation box 1-20, the connecting shaft b1-6 is in bearing connection with the intermittent input ring bearing plate 1-23, the belt c1-7 is in friction connection with the friction ring 1-8, the friction ring 1-8 is in bearing connection with the intermittent input ring 1-9, the intermittent input ring 1-9 is in bearing connection with the sealing plate 1-10, the intermittent input ring 1-9 is in sliding connection with the conical input block 1-11, the intermittent input ring 1-9 is in bearing connection with the equipment installation box 1-20, the intermittent input ring 1-9 is in sliding connection with the conical input groove 1-21, the intermittent input ring 1-9 is in bearing connection with the intermittent input ring bearing plate 1-23, the conical input block 1-11 is in connection and communication with the crushing box 1-12, the crushing boxes 1-12 are connected with the crushing box connecting blocks 1-13, the crushing boxes 1-12 are connected with the crushing box sealing plates 1-14, the crushing box connecting blocks 1-13 are connected with the equipment mounting plates 1-22, the friction wheels a1-16 are in friction connection with the connecting shafts c1-17, the connecting shafts c1-17 are connected with the propellers 1-18, the connecting shafts c1-17 are in bearing connection with the equipment mounting boxes 1-20, the drain pipes 1-19 are connected with holes on the equipment mounting boxes 1-20, the equipment mounting boxes 1-20 are connected with the conical input grooves 1-21, the equipment mounting boxes 1-20 are connected with the equipment mounting plates 1-22, the equipment mounting boxes 1-20 are connected with the intermittent input ring bearing plates 1-23, and the equipment can intermittently input fruits in the conical grooves into the crushing barrel, placing fruits to be juiced in a conical input groove 1-21, operating a motor 1-1, operating the motor 1-1 to drive a motor shaft 1-2 to rotate, rotating the motor shaft 1-2 to drive a connecting shaft a1-4 to rotate through a belt a1-3, rotating a connecting shaft a1-4 to drive a connecting shaft b1-6 to rotate through a belt b1-5, rotating a connecting shaft b1-6 to drive another connecting shaft b1-6 to rotate through a belt c1-7, driving a friction ring 1-8 to rotate in the process of moving a belt c1-7, rotating the friction ring 1-8 to drive an intermittent input ring 1-9 to rotate, rotating the intermittent input ring 1-9 under the limitation of an equipment installation box 1-20 and an intermittent input ring bearing plate 1-23, intermittently transmitting the fruits in the conical input groove 1-21 to a conical input block 1-11, in the process of rotating the connecting shaft a1-4 and the connecting shaft b1-6, the friction wheel a1-16 is driven to rotate by the belt b1-5, the friction wheel a1-16 rotates and drives the propeller 1-18 to rotate by the connecting shaft c1-17, when the propeller 1-18 rotates, water in the equipment installation box 1-20 can be discharged through the holes in the intermittent input ring 1-9, the passing fruit can be cleaned, and the fruit is discharged into the crushing box 1-12 through the conical input block 1-11.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and the embodiment further describes the embodiment, wherein the juicing and crushing mechanism 2 comprises a belt one 2-1, a friction wheel one 2-2, a connecting shaft one 2-3, a propeller one 2-4, a square input groove 2-5, a one-way rotating plate 2-6, a spring 2-7, a rotating limit plate 2-8, a belt two 2-9, a connecting shaft two 2-10, a belt three 2-11, a friction wheel two 2-12, a connecting shaft three 2-13, a propeller two 2-14, a mounting plate a2-15, a separation box 2-16, a belt one 2-1 is in friction connection with the friction wheel one 2-2, a first belt 2-1 is in friction connection with a connecting shaft a1-4, a first friction wheel 2-2 is connected with a first connecting shaft 2-3, a first connecting shaft 2-3 is connected with a first propeller 2-4, a first connecting shaft 2-3 is in bearing connection with a connecting block 1-13 of a crushing box, a square input groove 2-5 is hinged with a one-way rotating plate 2-6, a square input groove 2-5 is connected with a square hole on a sealing plate 1-14 of the crushing box, a square input groove 2-5 is connected with a square hole on a mounting plate a2-15, a square input groove 2-5 is connected with a rotating limit plate 2-8, one end of a spring 2-7 is connected with the square input groove 2-5, the other end is connected with the one-way rotating plate 2-6, one end of a second belt 2-9 is in friction, the other end of the fruit crushing device is in friction connection with a second connecting shaft 2-10, the second connecting shaft 2-10 is in friction connection with a third belt 2-11, the second connecting shaft 2-10 is in bearing connection with a second separating box 2-16, the third belt 2-11 is in friction connection with a second friction wheel 2-12, the second friction wheel 2-12 is in friction connection with a third connecting shaft 2-13, the third connecting shaft 2-13 is connected with a second propeller 2-14, the third connecting shaft 2-13 is in bearing connection with an installation plate a2-15, the installation plate a2-15 is connected with the second separating box 2-16, the fruit crushing device can crush fruits in the crushing barrel, the other connecting shaft a1-4 is driven to rotate through the first belt 2-1 when the connecting shaft a1-4 rotates, the first belt 2-1 drives the first connecting shaft a1-4 to rotate through, the first connecting shaft 2-3 rotates to drive the first propeller 2-4 to rotate, the first propeller 2-4 can convey the crushed fruits to the lower side of the equipment when rotating clockwise, the fruits can be completely crushed, the first propeller 2-4 also adsorbs air to the square input groove 2-5 by the colleagues when rotating, the one-way rotating plate 2-6 in the square input groove 2-5 can be in close contact with the rotating limiting plate 2-8, the adsorbed force acts on the conical input block 1-11 at the moment, the fruits in the conical groove are intermittently input into the crushing barrel, the equipment can input the crushed fruits into the separating box, the motor 1-1 rotates reversely, the first propeller 2-4 blows air into the square input groove 2-5, and the one-way rotating plate 2-6 is not in contact with the rotating limiting plate 2-8 at the moment, the one-way rotating plate 2-6 can automatically reset under the action of the spring 2-7, the crushed fruit is conveyed into the separating box 2-16 through the square input groove 2-5, the connecting shaft a1-4 is driven to rotate by the belt 2-9, the connecting shaft II 2-10 is driven to rotate by the belt III 2-11, the connecting shaft III 2-13 is driven to rotate by the friction wheel II 2-12 when the belt III 2-11 rotates, the connecting shaft III 2-13 is driven to rotate by the screw propeller II 2-14, and the screw propeller II 2-14 generates adsorption force on the square input groove 2-5 when rotating, so that the crushed fruit is beneficially input into the separating box.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and is further described in the present embodiment, where the separation output mechanism 3 includes an inner slide limit plate 3-1, an outer slide limit plate 3-2, a slide door 3-3, a slide limit plate 3-4, a handle 3-5, an output friction wheel a3-6, a transmission shaft a3-7, a connecting belt a3-8, a transmission shaft b3-9, an output friction wheel b3-10, an output friction wheel c3-11, a transmission shaft c3-12, a connecting belt b3-13, a transmission shaft d3-14, a connecting belt c3-15, a scraper 3-16, a micro-plate 3-17, a micro plate 3-17, and, 3-18 parts of inclined plate, 3-19 parts of output port, 3-1 parts of inner sliding limit plate connected with sliding door 3-3 in sliding mode, 3-1 parts of inner sliding limit plate connected with separating box 2-16, 3-2 parts of outer sliding limit plate connected with sliding door 3-3, 3-2 parts of outer sliding limit plate connected with separating box 2-16, 3-3 parts of sliding door connected with 3-4 parts of sliding limit plate, 3-3 parts of sliding door connected with separating box 2-16 in sliding mode, 3-3 parts of sliding door connected with output friction wheel a3-6 in sliding mode, 3-4 parts of sliding limit plate connected with handle 3-5, output friction wheel a3-6 connected with 3-7 parts of transmission shaft a3-7 connected with connecting belt a3-8 in friction mode, a3-7 connected with separating box 2-16 in bearing mode, a connecting belt a3-8 is in frictional connection with a transmission shaft b3-9, a transmission shaft b3-9 is in frictional connection with an output friction wheel b3-10, a transmission shaft b3-9 is in bearing connection with a separation box 2-16, an output friction wheel b3-10 is in frictional connection with an output friction wheel c3-11, an output friction wheel c3-11 is in frictional connection with a transmission shaft c3-12, a transmission shaft c3-12 is in frictional connection with a connecting belt b3-13, a transmission shaft c3-12 is in bearing connection with a separation box 2-16, a connecting belt b3-13 is in frictional connection with a transmission shaft d3-14, a transmission shaft d3-14 is in frictional connection with a connecting belt c3-15, a connecting belt c3-15 is in connection with a scraper 3-16, a scraper 3-16 is in sliding connection with a micropore plate 3-17, a micropore plate 3-17 is in, the inclined plates 3-18 are connected with the separating box 2-16, the output ports 3-19 are opened on the separating box 2-16, the device can separate the separated fruit juice from the fruit residues and output the fruit juice, the crushed fruit enters the separating box 2-16 and passes through the small holes on the micropore plates 3-17, the fruit juice leaks onto the inclined plates 3-18 and is output through the output ports 3-19 under the action of the inclined plates 3-18, when the fruit juice completely leaks onto the inclined plates 3-18, the handles 3-5 are pulled upwards, the handles 3-5 move through the sliding limiting plates 3-4 to drive the sliding doors 3-3 to slide upwards, the sliding doors 3-3 move to drive the output friction wheels a3-6 to rotate, the output friction wheels a3-6 rotate through the transmission shafts a3-7 and the connecting belts a3-8 to drive the transmission shafts b3-9 to rotate, the transmission shaft b3-9 drives the transmission shaft c3-12 to rotate through the output friction wheel b3-10 and the output friction wheel c3-11, the transmission shaft c3-12 rotates and drives the transmission shaft d3-14 to rotate through the connecting belt b3-13, the transmission shaft d3-14 rotates and drives the other transmission shaft d3-14 to rotate through the connecting belt c3-15, the scraper 3-16 is driven to move towards the direction of the sliding door 3-3 simultaneously when the connecting belt c3-15 moves, the residual fruit residues on the micro-porous plate 3-17 are conveyed towards the direction of the sliding door 3-3 when the scraper 3-16 moves, and the fruit residues are gradually conveyed out of the equipment along with the opening of the sliding door 3-3.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and further described in the present embodiment, in which a large number of small holes are arranged between the intermediate friction ring 1-8 of the intermittent input ring 1-9 and the axial bearing plate 1-23 of the intermittent input ring.

The working principle of the device is as follows: the equipment can intermittently input fruits in the conical groove into the crushing barrel, the fruits to be squeezed are placed in the conical input groove 1-21, the motor 1-1 works to drive the motor shaft 1-2 to rotate, the motor shaft 1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the connecting shaft b1-6 to rotate through the belt b1-5, the connecting shaft b1-6 rotates to drive the other connecting shaft b1-6 to rotate through the belt c1-7, the friction ring 1-8 is driven to rotate in the process of the movement of the belt c1-7, the friction ring 1-8 rotates to drive the intermittent input ring 1-9 to rotate, the intermittent input ring 1-9 rotates under the limitation of the equipment installation box 1-20 and the intermittent input ring bearing plate 1-23, intermittently conveying the fruits in the conical input grooves 1-21 to the conical input blocks 1-11, driving the friction wheels a1-16 to rotate by the belts b1-5 in the rotating process of the connecting shaft a1-4 and the connecting shaft b1-6, driving the propellers 1-18 to rotate by the rotating friction wheels a1-16 through the connecting shaft c1-17, discharging the water in the equipment installation boxes 1-20 through the holes on the intermittent input rings 1-9 when the propellers 1-18 rotate, cleaning the passing fruits, discharging the water into the crushing boxes 1-12 through the conical input blocks 1-11, crushing the fruits in the crushing barrels by the equipment, driving the other connecting shaft a1-4 to rotate by the belts one 2-1 when the connecting shaft a1-4 rotates, driving the belts one 2-2 to 3 to rotate by the friction wheels one 2-2 when the belts one 2-1 moves, the first connecting shaft 2-3 rotates to drive the first propeller 2-4 to rotate, the first propeller 2-4 can convey the crushed fruits to the lower side of the equipment when rotating clockwise, the fruits can be completely crushed, the first propeller 2-4 also adsorbs air to the square input groove 2-5 by the colleagues when rotating, the one-way rotating plate 2-6 in the square input groove 2-5 can be in close contact with the rotating limiting plate 2-8, the adsorbed force acts on the conical input block 1-11 at the moment, the fruits in the conical groove are intermittently input into the crushing barrel, the equipment can input the crushed fruits into the separating box, the motor 1-1 rotates reversely, the first propeller 2-4 blows air into the square input groove 2-5, and the one-way rotating plate 2-6 is not in contact with the rotating limiting plate 2-8 at the moment, the unidirectional rotating plate 2-6 can automatically reset under the action of the spring 2-7, the crushed fruit is conveyed into the separation box 2-16 through the square input groove 2-5, the connecting shaft a1-4 is driven to rotate by the belt 2-9, the connecting shaft II 2-10 is driven to rotate by the belt III 2-11, the connecting shaft III 2-13 is driven to rotate by the friction wheel II 2-12 when the belt III 2-11 rotates, the connecting shaft III 2-13 is driven to rotate to drive the propeller II 2-14 to rotate, the propeller II 2-14 generates adsorption force on the square input groove 2-5 when rotating, the crushed fruit is beneficially input into the separation box, the device can separate the separated fruit juice from the fruit residues and output the device, the crushed fruits entering the separation box 2-16 pass through small holes on the microporous plate 3-17, the fruit juice is leaked to the inclined plate 3-18 and is output through the output port 3-19 under the action of the inclined plate 3-18, when the fruit juice is completely leaked to the inclined plate 3-18, the handle 3-5 is pulled upwards, the handle 3-5 moves to drive the sliding door 3-3 to slide upwards through the sliding limiting plate 3-4, the sliding door 3-3 drives the output friction wheel a3-6 to rotate when moving, the output friction wheel a3-6 rotates to drive the transmission shaft b3-9 to rotate through the transmission shaft a3-7 and the connecting belt a3-8, the transmission shaft b3-9 drives the transmission shaft c3-12 to rotate through the output friction wheel b3-10 and the output friction wheel c3-11, the transmission shaft c3-12 rotates to drive the transmission shaft d3-14 to rotate through the connecting belt b3-13, the transmission shaft d3-14 rotates to drive the other transmission shaft d3-14 to rotate through the connecting belt c3-15, the scraping plates 3-16 are driven to move towards the direction of the sliding door 3-3 when the connecting belt c3-15 moves, the fruit residues left on the micro-porous plates 3-17 are conveyed towards the direction of the sliding door 3-3 when the scraping plates 3-16 move, and the fruit residues are gradually conveyed out of the equipment along with the opening of the sliding door 3-3.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a juicing equipment for food processing, includes intermittent type formula input mechanism (1), broken juicing mechanism (2), separation output mechanism (3), its characterized in that: the intermittent input mechanism (1) is connected with the crushing and juicing mechanism (2), the crushing and juicing mechanism (2) is connected with the separation output mechanism (3), and the separation output mechanism (3) is connected with the intermittent input mechanism (1).

2. The juicing apparatus for food processing as claimed in claim 1, wherein: the intermittent input mechanism (1) comprises a motor (1-1), a motor shaft (1-2), a belt a (1-3), a connecting shaft a (1-4), a belt b (1-5), a connecting shaft b (1-6), a belt c (1-7), friction rings (1-8), intermittent input rings (1-9), sealing plates (1-10), a conical input block (1-11), a crushing box (1-12), a crushing box connecting block (1-13), a crushing box sealing plate (1-14), a belt d (1-15), friction wheels a (1-16), a connecting shaft c (1-17), a propeller (1-18), a drain pipe (1-19), an equipment mounting box (1-20), a conical input groove (1-21), The device comprises a device mounting plate (1-22) and an intermittent input ring bearing plate (1-23), wherein the motor (1-1) is connected with a motor shaft (1-2), the motor (1-1) is connected with a device mounting box (1-20), the motor shaft (1-2) is in friction connection with a belt a (1-3), the belt a (1-3) is in friction connection with a connecting shaft a (1-4), the connecting shaft a (1-4) is in friction connection with a belt b (1-5), the connecting shaft a (1-4) is in friction connection with a belt d (1-15), the connecting shaft a (1-4) is in bearing connection with the device mounting box (1-20), the belt b (1-5) is in friction connection with the connecting shaft b (1-6), the connecting shaft a (1-4) is in bearing connection with the intermittent input ring bearing plate (1-23), a belt b (1-5) is in friction connection with a friction wheel a (1-16), a connecting shaft b (1-6) is in friction connection with a belt c (1-7), the connecting shaft b (1-6) is in bearing connection with an equipment installation box (1-20), the connecting shaft b (1-6) is in bearing connection with an intermittent input ring bearing plate (1-23), the belt c (1-7) is in friction connection with a friction ring (1-8), the friction ring (1-8) is connected with an intermittent input ring (1-9), the intermittent input ring (1-9) is connected with a sealing plate (1-10), the intermittent input ring (1-9) is in sliding connection with a conical input block (1-11), the intermittent input ring (1-9) is in bearing connection with the equipment installation box (1-20), the intermittent input ring (1-9) is in sliding connection with a conical input groove (1-21), the intermittent input ring (1-9) is in bearing connection with an intermittent input ring bearing plate (1-23), the conical input block (1-11) is connected and communicated with a crushing box (1-12), the crushing box (1-12) is connected with a crushing box connecting block (1-13), the crushing box (1-12) is connected with a crushing box sealing plate (1-14), the crushing box connecting block (1-13) is connected with an equipment mounting plate (1-22), a friction wheel a (1-16) is in friction connection with a connecting shaft c (1-17), the connecting shaft c (1-17) is connected with a propeller (1-18), the connecting shaft c (1-17) is in bearing connection with the equipment mounting box (1-20), a drain pipe (1-19) is connected with a hole on the equipment mounting box (1-20), the equipment mounting box (1-20) is connected with a conical input groove (1-21), the equipment installation box (1-20) is connected with the equipment installation plate (1-22), and the equipment installation box (1-20) is connected with the intermittent input ring bearing plate (1-23).

3. The juicing apparatus for food processing as claimed in claim 1, wherein: the crushing and juicing mechanism (2) comprises a first belt (2-1), a first friction wheel (2-2), a first connecting shaft (2-3), a first screw propeller (2-4), a square input groove (2-5), a one-way rotating plate (2-6), a spring (2-7), a rotating limiting plate (2-8), a second belt (2-9), a second connecting shaft (2-10), a third belt (2-11), a second friction wheel (2-12), a third connecting shaft (2-13), a second screw propeller (2-14), a mounting plate a (2-15) and a separating box (2-16), wherein the first belt (2-1) is in friction connection with the first friction wheel (2-2), and the first belt (2-1) is in friction connection with the connecting shaft a (1-4), the friction wheel I (2-2) is connected with the connecting shaft I (2-3), the connecting shaft I (2-3) is connected with the propeller I (2-4), the connecting shaft I (2-3) is connected with a crushing box connecting block (1-13) through a bearing, the square input groove (2-5) is hinged with the one-way rotating plate (2-6), the square input groove (2-5) is connected with a square hole in a crushing box sealing plate (1-14), the square input groove (2-5) is connected with a square hole in a mounting plate a (2-15), the square input groove (2-5) is connected with a rotating limiting plate (2-8), one end of the spring (2-7) is connected with the square input groove (2-5) while the other end is connected with the one-way rotating plate (2-6), one end of the belt II (2-9) is connected with the one-way rotating plate a (1-4) through friction, the other end of the connecting shaft is in friction connection with a second connecting shaft (2-10), the second connecting shaft (2-10) is in friction connection with a third belt (2-11), the second connecting shaft (2-10) is in bearing connection with a second separating box (2-16), the third belt (2-11) is in friction connection with a second friction wheel (2-12), the second friction wheel (2-12) is connected with a third connecting shaft (2-13), the third connecting shaft (2-13) is connected with a second propeller (2-14), the third connecting shaft (2-13) is in bearing connection with an installation plate a (2-15), and the installation plate a (2-15) is connected with the separating box (2-16).

4. The juicing apparatus for food processing as claimed in claim 1, wherein: the separation output mechanism (3) comprises an inner sliding limiting plate (3-1), an outer sliding limiting plate (3-2), a sliding door (3-3), a sliding limiting plate (3-4), a handle (3-5), an output friction wheel a (3-6), a transmission shaft a (3-7), a connecting belt a (3-8), a transmission shaft b (3-9), an output friction wheel b (3-10), an output friction wheel c (3-11), a transmission shaft c (3-12), a connecting belt b (3-13), a transmission shaft d (3-14), a connecting belt c (3-15), a scraping plate (3-16), a micropore plate (3-17), an inclined plate (3-18) and an output port (3-19), wherein the inner sliding limiting plate (3-1) is in sliding connection with the sliding door (3-3), the inner sliding limiting plate (3-1) is connected with the separating box (2-16), the outer sliding limiting plate (3-2) is connected with the sliding door (3-3) in a sliding manner, the outer sliding limiting plate (3-2) is connected with the separating box (2-16), the sliding door (3-3) is connected with the sliding limiting plate (3-4), the sliding door (3-3) is connected with the separating box (2-16) in a sliding manner, the sliding door (3-3) is connected with the output friction wheel a (3-6) in a sliding manner, the sliding limiting plate (3-4) is connected with the handle (3-5), the output friction wheel a (3-6) is connected with the transmission shaft a (3-7), the transmission shaft a (3-7) is connected with the connecting belt a (3-8) in a friction manner, the transmission shaft a (3-7) is connected with the separating box (2-16) in a bearing manner, the connecting belt a (3-8) is in friction connection with the transmission shaft b (3-9), the transmission shaft b (3-9) is connected with the output friction wheel b (3-10), the transmission shaft b (3-9) is in bearing connection with the separating box (2-16), the output friction wheel b (3-10) is in friction connection with the output friction wheel c (3-11), the output friction wheel c (3-11) is connected with the transmission shaft c (3-12), the transmission shaft c (3-12) is in friction connection with the connecting belt b (3-13), the transmission shaft c (3-12) is in bearing connection with the separating box (2-16), the connecting belt b (3-13) is in friction connection with the transmission shaft d (3-14), the transmission shaft d (3-14) is in friction connection with the connecting belt c (3-15), the connecting belts c (3-15) are connected with the scrapers (3-16), the scrapers (3-16) are connected with the microporous plates (3-17) in a sliding mode, the microporous plates (3-17) are connected with the separation boxes (2-16), the inclined plates (3-18) are connected with the separation boxes (2-16), and the output ports (3-19) are formed in the separation boxes (2-16).

5. The juicing apparatus for food processing as claimed in claim 1, wherein: a large number of small holes are arranged between the friction ring (1-8) in the middle of the intermittent input ring (1-9) and the bearing plate (1-23) of the intermittent input ring.

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