CN112826306B - Wind-force triggers fruit and squeezes juice processing apparatus - Google Patents

Abstract

The invention relates to a juicing device, in particular to a wind-force-triggered fruit juicing treatment device which comprises a fruit pretreatment mechanism, a cleaning and extruding mechanism and an auxiliary recovery mechanism, wherein the device can clean fruit impurities in the conveying process, can utilize the reverse driving force of wind force to complete power conversion, can utilize the same water source to complete cleaning of fruits and discharge of fruit waste residues, can carry out juicing, can accelerate the waste residues and prevent blockage, the fruit pretreatment mechanism is connected with the cleaning and extruding mechanism, and the fruit pretreatment mechanism is connected with the auxiliary recovery mechanism.

Description

Wind-force triggers fruit and squeezes juice processing apparatus

Technical Field

The invention relates to a juicing device, in particular to a wind-force-triggered fruit juicing processing device.

Background

In the industrial juicing process, fruits need to be conveyed, dedusted, washed and juiced, the traditional process needs to be completed by different devices through different procedures in the fruit cleaning and juicing process, the efficiency is low, the time is wasted in the transfer process, the fruit residue is easy to block, and the wind power triggering fruit juicing treatment device is designed.

Disclosure of Invention

The technical problem mainly solved by the invention is to provide a wind-triggered fruit juicing treatment device, which can be used for cleaning fruit impurities in the conveying process, can be used for completing power conversion by using a reverse driving force of wind power, can be used for cleaning fruits and discharging fruit waste residues by using the same water source, can be used for juicing, and can be used for accelerating the waste residues to prevent blockage.

In order to solve the technical problem, the invention relates to a juicing device, in particular to a wind-triggered fruit juicing treatment device which comprises a fruit pretreatment mechanism, a cleaning extrusion mechanism and an auxiliary recovery mechanism, wherein the device can clean fruit impurities in the conveying process, can utilize the reverse driving force of wind power to complete power conversion, can utilize the same water source to complete the cleaning of fruits and the discharge of fruit waste residues, can carry out juicing, can accelerate the waste residues, and can prevent blockage.

The fruit pretreatment mechanism is connected with the cleaning and extruding mechanism, and the fruit pretreatment mechanism is connected with the auxiliary recovery mechanism.

As a further optimization of the technical scheme, the fruit pretreatment mechanism of the wind-force-triggered fruit juicing treatment device comprises a base, supporting legs, an upper platform, a through groove, a through hole, supporting legs, a gear shaft, a belt pulley, a belt, an air supply pipe, a conveying frame, an output pipe, a head roller with a groove, a conveying belt, a collecting air box, a middle conveying roller with a groove, a tail conveying roller with a groove, a supporting seat, a supporting bearing seat, a fixed air outlet box, a belt pulley I, a belt I, a spring, a shaft with a protrusion, a bearing seat, a belt II, a belt pulley II, a connecting rod, a limiting disc, a plug, a socket, a belt shaft driving disc, a coupling, a motor, a bearing seat I, a through groove I, a belt pulley III, a bearing seat II, a connecting shaft, a collecting air cavity, an air port, a sliding seat, a rotating disc, an air hole, a wind wheel, a pulley with a seat, a head rod with a limiting block, and a reset spring, A rotating belt pulley, a conveying belt pulley, a switching groove, a base is connected with supporting legs, the supporting legs are connected with an upper platform, the upper platform is provided with through grooves and through holes, the supporting legs are connected with the upper platform, the supporting legs are connected with a conveying frame, a gear shaft is connected with the belt pulley, the belt pulley is in friction connection with the belt pulley, the belt is in friction connection with the conveying belt pulley, the conveying belt pulley is connected with a head roller with grooves, an upper air pipe is connected with a supporting seat, the upper air pipe is connected and communicated with a fixed air outlet box, the conveying frame is connected with the upper platform, the conveying frame is in friction connection with the head roller with grooves, an output pipe is connected and communicated with a collecting air box, the collecting air box is connected with the conveying frame, the conveying belt is in friction connection with the head roller with grooves, a conveying roller with grooves is in rotation connection with the conveying frame, the conveying roller with grooves is in friction connection with the conveying belt, and the conveying roller with grooves at the tail is in rotation connection with the conveying frame, the tail grooved conveying roller is connected with a conveying belt in a friction way, the supporting seat is connected with an upper platform, the supporting seat is connected with a fixed air outlet box, the supporting bearing seat is connected with a gear shaft in a rotation way, the supporting bearing seat is connected with the upper platform, a belt pulley I is connected with the gear shaft, the belt pulley I is connected with a belt I in a friction way, a spring is sleeved on a belt protruding shaft, the bearing seat is connected with the upper platform, a belt II is connected with a belt pulley II in a friction way, the belt pulley II is connected with a connecting rod, the belt pulley II is connected with the bearing seat in a rotation way, the connecting rod is connected with a belt shaft driving disc, a limiting disc is connected with the belt protruding shaft, the limiting disc is contacted with the belt pulley II, a plug is arranged on the belt protruding shaft, a socket is connected with the belt shaft driving disc, the belt shaft driving disc is connected with the bearing seat I in a rotation way, the belt shaft driving disc is connected with a motor through a coupler, the motor is connected with the bearing seat I, the bearing seat is connected with the upper platform through a groove I, a belt II penetrates through the through groove I, the belt II is in frictional connection with a belt pulley III, the belt pulley III is connected with a connecting shaft, the connecting shaft is in rotational connection with a bearing seat II, the bearing seat II is connected with an upper platform, a collecting air cavity is arranged on a collecting air box, an air port is arranged on an output pipe, a sliding seat is in sliding connection with a fixed air outlet box, the sliding seat is in rotational connection with a rotating disc, an air hole is formed in the rotating disc, a wind wheel is connected with the rotating disc, the rotating disc is in frictional connection with a belt seat pulley, the belt seat pulley is connected with a belt limiting head rod, a reset spring is sleeved on the belt limiting head rod, two ends of the reset spring are respectively connected with the belt seat pulley and the bearing seat, the rotating belt pulley is in rotational connection with the bearing seat, the rotating belt pulley is in frictional connection with the belt I, a switching groove is arranged on the belt pulley II, the switching groove is in sliding connection with a belt protruding shaft, and two ends of the spring are respectively connected with the belt pulley II and the wind wheel, the shaft with the bulge is connected with the rotating disc.

As a further optimization of the technical scheme, the cleaning and extruding mechanism of the wind-triggered fruit juicing treatment device comprises a residue output pipeline, a connecting pipeline, a drawing pipeline, a hydraulic cylinder frame, a hydraulic cylinder, a bent arm support, a friction disk, a water inlet pipe, a feed hopper, a water outlet pipe, a juicing box, a shaft-driven juicing seat, a protrusion seat, an output seat with an inner cavity, a sliding rod, a reset spring I, a cam matching seat, a coupling I, a shaft-driven cam, a cooling bellows, an accelerating air pipe, a cooling wind wheel, a pulley seat, a shaft-driven pulley, a rod with a protrusion, a reset spring II, a fruit juice output pipe, an air inlet cylinder, an air outlet I, a juicing driving motor, a juicing bearing seat, an extruding cavity, a juice outlet, a piston with an inclined surface, an inner impeller, an inner piston, a pressurizing port, a waste liquid outlet, a piston rod, an extruding seat groove, a matching hole and a driving arc protrusion, wherein the residue output pipeline is connected with a base, residue output pipeline links to each other and communicates with the connecting tube, residue output pipeline links to each other and communicates with the pull pipeline, the pull pipeline links to each other with the hydraulic cylinder frame, the hydraulic cylinder frame links to each other with the pneumatic cylinder, the pneumatic cylinder links to each other with the piston rod, piston rod and pull pipeline sliding connection, the piston rod links to each other with the inner piston, inner piston and pull pipeline sliding connection, the curved boom supports and links to each other with the upper mounting plate, the curved boom supports and links to each other with the friction disk, the inlet tube links to each other and communicates with the feeder hopper, the feeder hopper links to each other and communicates with the outlet pipe, the outlet pipe links to each other and communicates with the output seat of taking the cavity. The belt-shaft rotating juicing seat is connected with a juicing box in a rotating way, the belt-shaft rotating juicing seat is provided with a bulge seat, the slide rod is connected with the belt-shaft rotating juicing seat in a sliding way, a reset spring I is sleeved on the slide rod, two ends of the reset spring I are respectively connected with the belt-shaft inner cavity output seat and a cam matching seat, the cam matching seat is contacted with a belt-shaft cam, the belt-shaft cam is connected with a coupling I, the coupling I is connected with a connecting shaft, a cooling air box is connected with the belt-shaft inner cavity output seat, the belt-shaft cam is connected with a cooling air box in a rotating way, the belt-shaft cam is connected with the belt-shaft inner cavity output seat in a rotating way, the cooling air box is connected with an accelerating air pipe, the accelerating air pipe penetrates into a residue output pipeline, a cooling air wheel is connected with a belt-shaft pulley, the belt-shaft pulley is connected with a pulley seat in a rotating way, and the pulley seat is connected with a belt bulge rod, a reset spring II is sleeved on the rod with the bulge, two ends of the reset spring II are respectively connected on the pulley seat and the bulge seat, a fruit juice output pipe passes through the air inlet cylinder, an air opening I is arranged on the air inlet cylinder, the air inlet cylinder is connected and communicated with the cooling air box, the juicing driving motor is connected with the rotary juicing seat with the shaft, the squeezing cavity is arranged on the rotary juicing seat with the shaft, the juice outlet hole is arranged on the rotary juicing seat with the shaft, the squeezing cavity is communicated with the juice outlet hole, the piston with the inclined surface is connected with the output seat with the inner cavity in a sliding way, the piston with the inclined surface is connected with the slide rod, the inner impeller is connected with the cam with the shaft, the inner impeller is arranged in the cooling air box, the pressurizing opening is arranged on the accelerating air pipe, the waste liquid outlet is arranged on the residue output pipeline, the rotary juicing seat with the shaft is provided with a squeezing seat groove, the squeezing seat is connected with the rod with the bulge seat in a sliding way, the squeezing seat is arranged on the rotary juicing seat with the bulge seat, matching holes are arranged on the rotary juicing seat with the bulge seat, take protruding pole and mating holes sliding connection, the protruding setting of drive circular arc is on the friction disk, takes inner chamber output socket to pass from passing through the groove, takes inner chamber output socket to link to each other with the upper mounting plate, and the fruit juice output tube passes from the clearing hole, and the fruit juice output tube links to each other with the upper mounting plate, and the driving motor that squeezes juice links to each other with the juice extraction box, and the fruit juice output tube links to each other and communicates with the juice extraction box.

As a further optimization of the technical scheme, the auxiliary recovery mechanism of the wind-triggered fruit juicing treatment device comprises a support leg with a seat, a collection box, a shell, a coupler III, a motor I, a circulating pipe outlet, a feed inlet, an inlet box, a spiral shaft, a waste outlet, a scraping blade, an air hole I, a partition plate, a bevel gear II, a bevel gear III, an inner bearing seat and a transmission shaft with a wind wheel, wherein the support leg with the seat is connected with an upper platform, the support leg with the seat is connected with the collection box, the collection box is connected and communicated with the shell, the shell is connected with the motor I, the motor I is connected with the transmission shaft with the wind wheel through the coupler III, the shell is connected and communicated with the circulating pipe, the circulating pipe is connected with a conveying frame, the circulating pipe outlet is arranged on the circulating pipe, the feed inlet box is communicated with the air hole, the inlet box is connected with an output pipe, and the spiral shaft is rotatably connected with the inlet box, the spiral shaft is provided with a scraping blade, the partition plate is connected with the inlet box, the waste outlet is arranged on the inlet box, the air hole I is formed in the partition plate, the spiral shaft is rotatably connected with the partition plate, the spiral shaft is connected with the bevel gear II, the bevel gear II is meshed with the bevel gear III, the bevel gear III is connected with the transmission shaft with the wind wheel, the transmission shaft with the wind wheel is rotatably connected with the inner bearing seat, and the inner bearing seat is connected with the shell.

As a further optimization of the technical scheme, when the plug and the socket of the wind-triggered fruit juicing processing device are connected, the power supply of the motor I is connected.

The wind-triggered fruit juicing treatment device has the beneficial effects that:

according to the wind-triggered fruit juicing treatment device, impurities of fruits can be cleaned in the conveying process, the device can utilize the reverse driving force of wind to complete power conversion, the device can utilize the same water source to complete fruit cleaning and fruit waste residue discharge, the device can be used for juicing, and the device can accelerate waste residues and prevent blockage.

Drawings

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

Fig. 1 is a schematic structural diagram of a fruit juicing processing device triggered by wind power.

Fig. 2 is a schematic structural diagram of a fruit juicing processing device triggered by wind power.

Fig. 3 is a schematic structural diagram III of a wind-triggered fruit juicing processing device of the invention.

Fig. 4 is a schematic structural diagram of a fruit juice processing device triggered by wind power according to the fourth embodiment of the invention.

Fig. 5 is a schematic structural diagram of a fruit juice processing device triggered by wind power.

Fig. 6 is a first structural schematic diagram of a fruit pretreatment mechanism 1 of a wind-force-triggered fruit juicing treatment device.

Fig. 7 is a schematic structural diagram of a fruit pretreatment mechanism 1 of a wind-triggered fruit juicing treatment device of the invention.

Fig. 8 is a schematic structural diagram three of a fruit pretreatment mechanism 1 of a wind-triggered fruit juicing treatment device.

Fig. 9 is a fourth schematic structural diagram of a fruit pretreatment mechanism 1 of the wind-triggered fruit juicing treatment device.

Fig. 10 is a first structural schematic diagram of a cleaning and squeezing mechanism 2 of the wind-force-triggered fruit juicing processing device.

Fig. 11 is a second schematic structural diagram of the cleaning and squeezing mechanism 2 of the wind-activated fruit juicing processing device of the invention.

Fig. 12 is a third schematic structural diagram of the cleaning and squeezing mechanism 2 of the wind-activated fruit juicing processing device.

Fig. 13 is a fourth schematic structural diagram of the cleaning and squeezing mechanism 2 of the wind-force triggered fruit juicing processing device.

Fig. 14 is a fifth structural schematic diagram of the cleaning and squeezing mechanism 2 of the wind-force triggered fruit juicing processing device.

Fig. 15 is a schematic structural diagram of the auxiliary recovery mechanism 3 of the wind-activated fruit juice processing device according to the first embodiment of the present invention.

Fig. 16 is a schematic structural diagram of an auxiliary recovery mechanism 3 of the fruit juice processing device triggered by wind power.

In the figure: a fruit pretreatment mechanism 1; a base 1-1; 1-2 of supporting legs; 1-3 of an upper platform; through slots 1-4; through holes 1-5; 1-6 of support legs; gear shafts 1 to 7; 1-8 of belt pulleys; 1-9 parts of a belt; 1-10 parts of an upper air pipe; conveying frames 1-11; an output pipe 1-12; grooved head rollers 1-13; conveyor belts 1-14; collecting an air box 1-15; middle grooved conveying roller 1-16; tail grooved conveying roller 1-17; 1-18 parts of a supporting seat; support bearing blocks 1-19; fixing an air outlet box 1-20; pulley I1-21; belts I1-22; springs 1-23; 1-24 with a protruding shaft; bearing seats 1-25; belt II 1-26; pulley II 1-27; connecting rods 1-28; 1-29 of a limiting disc; 1-30 parts of plug; sockets 1-31; belt shaft driving disks 1-32; 1-33 of a coupler; motors 1-34; bearing seats I1-35; through slots I1-36; pulley III 1-37; bearing seats II 1-38; connecting shafts 1-39; 1-40 of a collecting air cavity; tuyere 1-41; 1-42 of a sliding seat; turn discs 1-43; 1-44 of air holes; 1-45 parts of wind wheel; pulley 1-46 with seat; 1-47 with limit head rod; 1-48 of a return spring; rotating the belt pulleys 1-49; 1-50 parts of a conveying belt pulley; switching slots 1-51; cleaning the extrusion mechanism 2; a residue output pipeline 2-1; connecting the pipelines 2-2; 2-3 of a drawing pipeline; 2-4 of a hydraulic cylinder frame; 2-5 of a hydraulic cylinder; the bent arm supports 2-6; 2-7 of friction disc; 2-8 parts of a water inlet pipe; 2-9 parts of a feed hopper; 2-10 parts of a water outlet pipe; 2-11 parts of a juicing box; 2-12 of a rotary juicing seat with a shaft; 2-13 parts of a boss; an output base 2-14 with an inner cavity; 2-15 parts of a slide bar; a return spring I2-16; 2-17 of cam matching seat; a coupler I2-18; 2-19 of cam with shaft; 2-20 of a cooling air box; 2-21 of an accelerating air pipe; 2-22 of cooling wind wheel; 2-23 pulley blocks; pulley 2-24 with shaft; 2-25 parts of a rod with a bulge; a return spring II 2-26; 2-27 parts of a fruit juice output pipe; 2-28 of an air inlet drum; tuyere I2-29; 2-30 of a juicing driving motor; 2-31 parts of juicing bearing seat; 2-32 parts of extrusion cavity; 2-33 of juice outlet; pistons 2-34 with inclined planes; 2-35 parts of an inner impeller; 2-36 of inner piston; 2-37 of a pressurizing port; 2-38 parts of waste liquid outlet; a piston rod 2-39; 2-40 parts of an extrusion seat groove; 2-41 parts of extrusion seat; matching holes 2-42; driving the arc bulge 2-43; an auxiliary recovery mechanism 3; a support leg with a seat 3-1; a collection box 3-2; 3-3 of a shell; a coupler III 3-4; motor I3-5; a circulation pipe 3-6; an outlet 3-7 of the circulation pipe; a feed inlet is 3-8; entering a box 3-9; 3-10 parts of a spiral shaft; 3-11 parts of a waste outlet; 3-12 of scraping blades; air holes I3-13; 3-14 parts of a partition board; bevel gears II 3-15; bevel gears III 3-16; 3-17 parts of an inner bearing seat; with wind wheel transmission shafts 3-18.

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, and fig. 16, the invention relates to a juicing device, and more specifically, to a wind-triggered fruit juicing treatment device, which comprises a fruit pretreatment mechanism 1, a cleaning squeezing mechanism 2, and an auxiliary recovery mechanism 3, and can clean impurities of fruits during transportation, and can use reverse driving force of wind power to complete power conversion, and can use the same water source to complete cleaning of fruits and discharge of fruit waste residues, and can perform juicing, and can accelerate waste residues to prevent blockage.

Fruit pretreatment mechanism 1 link to each other with washing extrusion mechanism 2, fruit pretreatment mechanism 1 links to each other with supplementary recovery mechanism 3.

The second embodiment is as follows:

the embodiment will be described with reference to FIGS. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 and 16. the embodiment is further described, wherein the fruit pretreatment mechanism 1 comprises a base 1-1, legs 1-2, an upper platform 1-3, through grooves 1-4, through holes 1-5, support legs 1-6, gear shafts 1-7, pulleys 1-8, belts 1-9, air supply pipes 1-10, conveying frames 1-11, output pipes 1-12, grooved head rollers 1-13, conveying belts 1-14, collecting bellows 1-15, middle grooved conveying rollers 1-16, tail grooved conveying rollers 1-17, supporting seats 1-18, a pressure-adjustable air supply pipe, a pressure-adjustable air supply pipe, and a pressure-adjustable air supply pipe 1-19 parts of supporting bearing seat, 1-20 parts of fixed air outlet box, I1-21 parts of belt pulley, I1-22 parts of belt, 1-23 parts of spring, 1-24 parts of shaft with protrusion, 1-25 parts of bearing seat, II1-26 parts of belt, II1-27 parts of belt pulley, 1-28 parts of connecting rod, 1-29 parts of limiting disc, 1-30 parts of plug, 1-31 parts of socket, 1-32 parts of driving disc with shaft, 1-33 parts of coupling, 1-34 parts of motor, I1-35 parts of bearing seat, 1-36 parts of through groove I1, III1-37 parts of belt pulley, II1-38 parts of bearing seat, 1-39 parts of connecting shaft, 1-40 parts of air collecting cavity, 1-41 parts of air port, 1-42 parts of sliding seat, 1-43 parts of rotating disc, 1-44 parts of air hole, 1-45 parts of wind wheel, 1-46 parts of pulley with seat, 1-47 parts of rod with limiting head, 1-48 of a reset spring, 1-49 of a rotating belt pulley, 1-50 of a conveying belt pulley and 1-51 of a switching groove, wherein a base 1-1 is connected with a supporting leg 1-2, the supporting leg 1-2 is connected with an upper platform 1-3, the upper platform 1-3 is provided with a through groove 1-4 and a through hole 1-5, a supporting leg 1-6 of a bracket is connected with the upper platform 1-3, the supporting leg 1-6 of the bracket is connected with a conveying frame 1-11, a gear shaft 1-7 is connected with a belt pulley 1-8, the belt pulley 1-8 is in friction connection with a belt 1-9, the belt 1-9 is in friction connection with the conveying belt pulley 1-50, the conveying belt pulley 1-50 is connected with a roller 1-13 with a head part with a groove, and an air supply pipe 1-10 is connected with a supporting seat 1-18, an upper air pipe 1-10 is connected and communicated with a fixed air outlet box 1-20, a conveying frame 1-11 is connected with an upper platform 1-3, the conveying frame 1-11 is rotationally connected with a head roller 1-13 with a groove, an output pipe 1-12 is connected and communicated with a collection air box 1-15, the collection air box 1-15 is connected with the conveying frame 1-11, a conveyer belt 1-14 is connected with the head roller 1-13 with a groove in a friction way, a middle conveying roller 1-16 with a groove is rotationally connected with the conveying frame 1-11, the middle conveying roller 1-16 with a groove is connected with the conveyer belt 1-14 in a friction way, a tail conveying roller 1-17 with a groove is rotationally connected with the conveying frame 1-11, the tail conveying roller 1-17 with a conveyer belt 1-14 in a friction way, a supporting seat 1-18 is connected with the upper platform 1-3, the supporting seat 1-18 is connected with the fixed air outlet box 1-20, the supporting bearing seat 1-19 is rotationally connected with the gear shaft 1-7, the supporting bearing seat 1-19 is connected with the upper platform 1-3, the belt pulley I1-21 is connected with the gear shaft 1-7, the belt pulley I1-21 is frictionally connected with the belt I1-22, the spring 1-23 is sleeved on the shaft with the lug boss 1-24, the bearing seat 1-25 is connected with the upper platform 1-3, the belt II1-26 is frictionally connected with the belt pulley II1-27, the belt pulley II1-27 is connected with the connecting rod 1-28, the belt pulley II1-27 is rotationally connected with the bearing seat 1-25, the connecting rod 1-28 is connected with the driving plate 1-32 with the shaft, the limiting disc 1-29 is connected with the shaft with the lug boss 1-24, the limiting disc 1-29 is contacted with the belt pulley II1-27, the plug 1-30 is arranged on the shaft 1-24 with the bulge, the socket 1-31 is connected with the driving disc 1-32 with the shaft, the driving disc 1-32 with the shaft is rotationally connected with the bearing seat I1-35, the driving disc 1-32 with the shaft is connected with the motor 1-34 through the shaft coupling 1-33, the motor 1-34 is connected with the bearing seat I1-35, the bearing seat I1-35 is connected with the upper platform 1-3 and is arranged on the upper platform through the groove I1-36, the belt II1-26 passes through the groove I1-36, the belt II1-26 is frictionally connected with the belt pulley III1-37, the belt pulley III1-37 is connected with the connecting shaft 1-39, the connecting shaft 1-39 is rotationally connected with the bearing seat II1-38, the bearing seat II1-38 is connected with the upper platform 1-3, the collection air cavity 1-40 is arranged on the collection air box 1-15, the air ports 1-41 are arranged on the output pipe 1-12, the sliding seats 1-42 are connected with the fixed air outlet box 1-20 in a sliding manner, the sliding seats 1-42 are connected with the rotating discs 1-43 in a rotating manner, the rotating discs 1-43 are provided with air holes 1-44, the wind wheels 1-45 are connected with the rotating discs 1-43, the rotating discs 1-43 are connected with the pulleys 1-46 with seats in a friction manner, the pulleys 1-46 with seats are connected with the head rods 1-47 with limit positions, the return springs 1-48 are sleeved on the head rods 1-47 with limit positions, two ends of the return springs 1-48 are respectively connected with the pulleys 1-46 with seats and the bearing seats 1-25, the rotating belt pulleys 1-49 are connected with the bearing seats 1-25 in a rotating manner, the rotating belt pulleys 1-49 are connected with the belts I1-22 in a friction manner, the switching grooves 1-51 are arranged on the belt pulleys II1-27, the switching groove 1-51 is connected with the shaft with the bulge 1-24 in a sliding way, two ends of the spring 1-23 are respectively connected with the belt pulley II1-27 and the wind wheel 1-45, and the shaft with the bulge 1-24 is connected with the rotating disc 1-43.

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. the embodiment further describes the embodiment, and the cleaning and squeezing mechanism 2 comprises a residue output pipe 2-1, a connecting pipe 2-2, a drawing pipe 2-3, a hydraulic cylinder frame 2-4, a hydraulic cylinder 2-5, a bent arm support 2-6, a friction disc 2-7, a water inlet pipe 2-8, a feed hopper 2-9, a water outlet pipe 2-10, a juice box 2-11, a shaft-containing rotating juice extracting base 2-12, a convex base 2-13, an output base 2-14 with an inner cavity, a slide rod 2-15, a return spring I2-16, a cam matching base 2-17, A coupler I2-18, a cam with a shaft 2-19, a cooling bellows 2-20, an accelerating air pipe 2-21, a cooling wind wheel 2-22, a pulley seat 2-23, a pulley with a shaft 2-24, a rod with a bulge 2-25, a reset spring II2-26, a fruit juice output pipe 2-27, an air inlet barrel 2-28, an air port I2-29, a juice squeezing drive motor 2-30, a juice bearing seat 2-31, a squeezing cavity 2-32, a juice outlet 2-33, a piston with a slope 2-34, an inner impeller 2-35, an inner piston 2-36, a pressurizing port 2-37, a waste liquid outlet 2-38, a piston rod 2-39, a squeezing seat groove 2-40, a squeezing seat 2-41, a matching hole 2-42, a driving arc bulge 2-43, a residue output pipeline 2-1 connected with a base 1-1, the residue output pipeline 2-1 is connected and communicated with a connecting pipeline 2-2, the residue output pipeline 2-1 is connected and communicated with a drawing pipeline 2-3, the drawing pipeline 2-3 is connected with a hydraulic cylinder frame 2-4, the hydraulic cylinder frame 2-4 is connected with a hydraulic cylinder 2-5, the hydraulic cylinder 2-5 is connected with a piston rod 2-39, the piston rod 2-39 is connected with the drawing pipeline 2-3 in a sliding way, the piston rod 2-39 is connected with an inner piston 2-36, the inner piston 2-36 is connected with the drawing pipeline 2-3 in a sliding way, a bent arm support 2-6 is connected with an upper platform 1-3, the bent arm support 2-6 is connected with a friction disk 2-7, a water inlet pipe 2-8 is connected and communicated with a feed hopper 2-9, the feed hopper 2-9 is connected and communicated with a water outlet pipe 2-10, the water outlet pipe 2-10 is connected and communicated with the output base 2-14 with the inner cavity. An output base 2-14 with an inner cavity is connected and communicated with a juicing box 2-11, a feed hopper 2-9 is connected and communicated with the juicing box 2-11, a rotary juicing base 2-12 with a shaft is rotationally connected with a juicing bearing base 2-31 arranged on the juicing box 2-11, a convex base 2-13 is arranged on the rotary juicing base 2-12 with the shaft, a sliding rod 2-15 is slidably connected with the output base 2-14 with the inner cavity, a return spring I2-16 is sleeved on the sliding rod 2-15, two ends of the return spring I2-16 are respectively connected with the output base 2-14 with the inner cavity and a cam matching base 2-17, the cam matching base 2-17 is contacted with a cam 2-19 with the shaft, the cam 2-19 with the shaft is connected with a coupling I2-18, the coupling I2-18 is connected with a connecting shaft 1-39, a cooling air box 2-20 is connected with an output base 2-14 with an inner cavity, a cam 2-19 with a shaft is rotationally connected with the cooling air box 2-20, the cam 2-19 with the shaft is rotationally connected with the output base 2-14 with the inner cavity, the cooling air box 2-20 is connected and communicated with an accelerating air pipe 2-21, the accelerating air pipe 2-21 penetrates into a residue output pipeline 2-1, a cooling wind wheel 2-22 is connected with a pulley 2-24 with the shaft, the pulley 2-24 with the shaft is rotationally connected with a pulley base 2-23, the pulley base 2-23 is connected with a rod 2-25 with a bulge, a return spring II2-26 is sleeved on the rod 2-25 with the bulge, two ends of the return spring II2-26 are respectively connected with the pulley base 2-23 and the bulge base 2-13, a fruit juice output pipe 2-27 penetrates through an air inlet cylinder 2-28, an air inlet I2-29 is arranged on an air inlet barrel 2-28, the air inlet barrel 2-28 is connected and communicated with a cooling air box 2-20, a juicing driving motor 2-30 is connected with a rotary juicing seat 2-12 with a shaft, a squeezing cavity 2-32 is arranged on the rotary juicing seat 2-12 with the shaft, a juice outlet 2-33 is arranged on the rotary juicing seat 2-12 with the shaft, the squeezing cavity 2-32 is communicated with the juice outlet 2-33, a piston 2-34 with a bevel is connected with an output seat 2-14 with the inner cavity in a sliding way, the piston 2-34 with the bevel is connected with a sliding rod 2-15, an inner impeller 2-35 is connected with a cam 2-19 with the shaft, the inner impeller 2-35 is arranged in the cooling air box 2-20, a pressurizing port 2-37 is arranged on an accelerating air pipe 2-21, a waste liquid outlet 2-38 is arranged on a residue output pipeline 2-1, the juice extracting base 2-12 with the shaft is provided with an extracting base groove 2-40, the extracting base 2-41 is connected with a rod 2-25 with a bulge, the extracting base 2-41 is connected with the extracting base groove 2-40 in a sliding way, the extracting base 2-12 with the shaft and the bulge base 2-13 are both provided with a matching hole 2-42, the rod 2-25 with the bulge is connected with the matching hole 2-42 in a sliding way, a driving arc bulge 2-43 is arranged on a friction disc 2-7, an output base 2-14 with an inner cavity passes through a groove 1-4, the output base 2-14 with the inner cavity is connected with an upper platform 1-3, a juice output pipe 2-27 passes through a hole 1-5, the juice output pipe 2-27 is connected with the upper platform 1-3, a juice extracting driving motor 2-30 is connected with a juice extracting box 2-11, the fruit juice output pipe 2-27 is connected and communicated with the juice box 2-11, the fruit falls into the feed hopper 2-9 after being conveyed, the water entering from the water inlet pipe 2-8 can clean the fruit, then the fruit is discharged into the inner cavity output seat 2-14 from the water outlet pipe 2-10, the juice driving motor 2-30 can drive the juice squeezing seat 2-12 with the shaft to rotate when running, the rotation direction of the juice squeezing seat 2-12 with the shaft rotation is anticlockwise seen from the friction disk 2-7 to the juice box 2-11, the fruit can continuously fall into the squeezing cavity 2-32 at the feed hopper 2-9 when the juice squeezing seat 2-12 with the shaft rotation rotates, and then the fruit moves to the communication position of the fruit juice output pipe 2-27 and the juice box 2-11 along with the rotating squeezing cavity 2-32, in the process, the juice squeezing seat 2-12 with the shaft can drive the shaft with the protrusion 2-25 to move circularly when rotating, the shaft with the protrusion 2-25 can drive the shaft with the shaft pulley 2-24 to move circularly, the shaft with the shaft pulley 2-24 can rotate relative to the friction disc 2-7 in the process of the circular motion of the shaft with the shaft pulley 2-24, the shaft with the shaft pulley 2-24 can drive the cooling wind wheel 2-22 to rotate, so that the air flow of the space where the device is located is enhanced, the temperature is reduced, the phenomenon that the temperature is overhigh during the juice squeezing process and the quality of fruit juice is influenced is prevented, when the shaft with the shaft pulley 2-24 is supported by the driving arc protrusion 2-43, the shaft with the shaft pulley 2-24 can drive the squeezing seat 2-41 to move through the shaft with the protrusion 2-25, and the squeezing seat 2-41 can squeeze the fruit in the squeezing cavity 2-32, therefore, fruits are squeezed, the juice outlet holes 2-33 are just communicated with the juice outlet pipe 2-27, so that juice can flow out of the juice outlet pipe 2-27 to be squeezed, the rest peel scraps can rotate with the belt shaft to continue rotating the juice squeezing seat 2-12, when the squeezing cavity 2-32 with the existence of waste residues rotates to be vertically downward communicated with the belt inner cavity output seat 2-14, the belt pulley II1-27 can drive the belt pulley III1-37 to rotate through the belt II1-26 when rotating, the belt pulley III1-37 can drive the connecting shaft 1-39 to rotate, the connecting shaft 1-39 can drive the coupling I2-18 to rotate, the coupling I2-18 can drive the belt shaft cam 2-19 to rotate, the belt shaft cam 2-19 can drive the cam matching seat 2-17 to reciprocate up and down through the matching with the reset spring I2-16, the cam matching seat 2-17 can drive the pistons 2-34 with the inclined planes to reciprocate up and down through the slide rods 2-15, the inclined planes of the pistons 2-34 with the inclined planes are helpful for water conveyed by the water outlet pipes 2-10 to flow, and meanwhile, when the pistons 2-34 with the inclined planes move upwards, the water can be extruded upwards, so that the water is flushed into the extrusion cavities 2-32 with waste residues, so that the waste residues in the extrusion cavities 2-32 can be washed away, when the pistons 2-34 with the inclined planes return downwards, the waste residues and the water flow into the residue output pipeline 2-1 from the connecting pipeline 2-2 and then are discharged from the waste liquid outlet 2-38 together, when the cams 2-19 with the shafts rotate, the inner impellers 2-35 can be driven to rotate, wind power can be formed by the rotation of the inner impellers 2-35, and the flow direction of the wind enters the cooling air boxes 2-20 from the air ports I2-29, the process can cool the fruit juice flowing through the fruit juice output pipe 2-27 of the air inlet cylinder 2-28, thereby further ensuring that the fruit juice is not deteriorated by heat, and the air continuously flows, enters the accelerating air pipe 2-21 and then is discharged from the pressurizing port 2-37, so that the water and the waste residue which are about to flow out from the waste liquid outlet 2-38 can be accelerated, and the occurrence of blockage can be prevented.

The fourth concrete implementation mode:

the embodiment is described below by combining with figures 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 and 16. the embodiment is further described, and the embodiment comprises an auxiliary recovery mechanism 3 comprising a support leg with a seat 3-1, a collection box 3-2, a shell 3-3, a coupler III3-4, a motor I3-5, a circulation pipe 3-6, a circulation pipe outlet 3-7, a feed inlet 3-8, an inlet box 3-9, a spiral shaft 3-10, a waste outlet 3-11, a scraping blade 3-12, an air hole I3-13, a partition plate 3-14, a bevel gear II3-15, a bevel gear III3-16, an inner bearing seat 3-17 and a transmission shaft with a wind wheel 3-18, wherein the support leg with a seat 3-1 is connected with an upper platform 1-3, the landing leg 3-1 with a seat is connected with the collecting box 3-2, the collecting box 3-2 is connected and communicated with the outer shell 3-3, the outer shell 3-3 is connected with the motor I3-5, the motor I3-5 is connected with the transmission shaft 3-18 with the wind wheel through the coupler III3-4, the outer shell 3-3 is connected and communicated with the circulating pipe 3-6, the circulating pipe 3-6 is connected with the conveying frame 1-11, the circulating pipe 3-6 is provided with a circulating pipe outlet 3-7, the feed inlet 3-8 is arranged on the inlet box 3-9, the feed inlet 3-8 is communicated with the tuyere 1-41, the inlet box 3-9 is connected with the outlet pipe 1-12, the spiral shaft 3-10 is rotationally connected with the inlet box 3-9, the spiral shaft 3-10 is provided with the scraping blade 3-12, the partition boards 3-14 are connected with the inlet box 3-9, the waste material outlet 3-11 is arranged on the inlet box 3-9, the air hole I3-13 is arranged on the partition boards 3-14, the spiral shaft 3-10 is rotationally connected with the partition boards 3-14, the spiral shaft 3-10 is connected with the bevel gear II3-15, the bevel gear II3-15 is meshed with the bevel gear III3-16, the bevel gear III3-16 is connected with the transmission shaft 3-18 with the wind wheel, the transmission shaft 3-18 with the wind wheel is rotationally connected with the inner bearing seat 3-17, the inner bearing seat 3-17 is connected with the shell 3-3, the device uses the water pipe 2-8 which is externally connected with water continuously adding, the motors 1-34 operate to drive the couplers 1-33 to rotate, the couplers 1-33 drive the driving disc with the shaft 1-32 to rotate, the belt shaft driving disc 1-32 can drive the belt pulley II1-27 to rotate through the connecting rod 1-28, the belt pulley II1-27 can drive the belt convex shaft 1-24 to rotate, the belt convex shaft 1-24 can drive the rotary disc 1-43 to rotate, the rotary disc 1-43 can drive the wind wheel 1-45 to rotate, the wind wheel 1-45 can rotate to form wind power, the blowing direction of the wind is that the wind is blown to the wind holes 1-44 from the side of the bearing seat 1-25 and then blown upwards from the upper wind pipe 1-10 along the fixed wind box 1-20, thus the wind wheel 1-45 can form reverse driving force when forming the wind power, thereby the rotary disc 1-43 can move towards the direction close to the bearing seat 1-25, the pulley 1-46 with the seat is extruded by the rotary disc 1-43 when the rotary disc 1-43 is not hindered to move, so that the pulley 1-46 with seat moves along with the rotating disc 1-43 while rotating, when the pulley of the pulley 1-46 with seat contacts the rotating pulley 1-49, when the pulley of the pulley 1-46 with seat drives the rotating pulley 1-49 to rotate, the rotating pulley 1-49 drives the pulley I1-21 to rotate through the belt I1-22, the pulley I1-21 drives the gear shaft 1-7 to rotate, the gear shaft 1-7 drives the pulley 1-8 to rotate, the pulley 1-8 drives the conveying pulley 1-50 to rotate through the belt 1-9, the conveying pulley 1-50 drives the roller 1-13 with head to rotate, the rotating direction of the roller 1-13 with head is counterclockwise as seen from the pulley 1-8 to the output pipe 1-12, the conveyer belts 1-14 are driven to move, so that fruits placed on one side of the tail grooved conveyer roller 1-17 move towards the grooved head roller 1-13, the wind power is switched on firstly, so that the upward wind power is formed in the upper wind pipes 1-10 before the fruits are conveyed, the fruits cannot be missed, all the fruits passing over the upper wind pipes 1-10 are blown by the wind power, so that all soil, waste leaves and the like doped in the fruits are blown upwards to achieve the cleaning effect, the rotating discs 1-43 can drive the plugs 1-30 to move through the shafts with the protrusions 1-24 when sliding, the plugs 1-30 can be inserted into the sockets 1-31, at the moment, the power of the motor I3-5 is switched on to start operation, the motor I3-5 can drive the coupler III3-4 to rotate, the coupler III3-4 can drive the transmission shaft 3-18 with the wind wheel to rotate, the transmission shaft 3-18 with the wind wheel can form upward wind power, the wind pressure can form negative pressure at the position of the collection wind cavity 1-40, so as to form upward attraction to impurities below, so as to form a superposition effect with the upward wind power formed by the upper wind pipe 1-10, so as to form better cleaning effect, the impurities can enter the output pipe 1-12 along the collection wind box 1-15, then enter the inlet box 3-9 along the output pipe 1-12, the transmission shaft 3-18 with the wind wheel can drive the bevel gear III3-16 to rotate when rotating, the bevel gear III3-16 can drive the bevel gear II3-15 to rotate, the bevel gear II3-15 can drive the spiral shaft 3-10 to rotate, the spiral shaft 3-10 can drive the impurities to move towards the waste outlet 3-11, thus, the impurities can better move towards the direction of the waste material outlet 3-11 along with the wind power, when the impurities move to the partition plates 3-14, the impurities with light weight and continuous movement along with the wind can be attached to the partition plates 3-14, the spiral shaft 3-10 can drive the scraping blades 3-12 to rotate when rotating, the scraping blades 3-12 can scrape the light impurities and throw the light impurities out of the waste material outlet 3-11, the impurities can be collected by a collecting box externally connected to the waste material outlet 3-11, the impurities can fall into the collecting box, the wind enters the shell 3-3 from the wind hole I3-13 and then blows out from the circulating pipe 3-7 along the circulating pipe 3-6, the blown wind is clean, the wind blown out from the circulating pipe outlet 3-7 and the wind formed by the rotation of the wind wheel 1-45 form a circulation, and the wind circularly flows, the additive effect is formed, the wind power is increased, and impurities in the wind are filtered by the wind holes I3-13 in the circulation process, so that the air can be purified integrally.

The fifth concrete implementation mode:

the present embodiment will be 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, and fig. 16, and the present embodiment further describes the first embodiment in which the power supply of the motor I3-5 is turned on when the plug 1-30 and the socket 1-31 are turned on.

The working principle of the device is as follows: the device can finish cleaning fruit impurities in the conveying process, the device can finish power conversion by utilizing reverse driving force of wind power, a water pipe capable of continuously adding water is externally connected to a front water pipe 2-8, a motor 1-34 operates to drive a coupler 1-33 to rotate, the coupler 1-33 can drive a belt shaft driving disc 1-32 to rotate, the belt shaft driving disc 1-32 can drive a belt pulley II1-27 to rotate through a connecting rod 1-28, the belt pulley II1-27 can drive a belt convex shaft 1-24 to rotate, the belt convex shaft 1-24 can drive a rotating disc 1-43 to rotate, the rotating disc 1-43 can drive a wind wheel 1-45 to rotate, the wind wheel 1-45 rotates to form wind power, and the blowing direction of the wind is that the wind is blown to a wind hole 1-44 from the side of a bearing seat 1-25 and then the wind outlet 1-20 is fixed along the wind pipe 1-45 from an upper wind pipe 1 10 blows upwards, so that when wind power is generated by the wind wheels 1-45, a reverse driving force is generated, so that the rotating rotary disc 1-43 moves towards the bearing seat 1-25, the pulley 1-46 with the seat is extruded by the rotary disc 1-43 while the pulley 1-43 does not obstruct the movement of the rotary disc 1-43, so that the pulley 1-46 with the seat moves along with the movement of the rotary disc 1-43 while rotating, when the pulley of the pulley 1-46 with the seat is contacted with the rotating pulley 1-49, the pulley 1-46 with the seat drives the rotating pulley 1-49 to rotate, the rotating pulley 1-49 drives the pulley I1-21 to rotate through the belt I1-22, and the pulley I1-21 drives the gear shaft 1-7 to rotate, the gear shaft 1-7 can drive the belt pulleys 1-8 to rotate, the belt pulleys 1-8 can drive the conveying belt pulleys 1-50 to rotate through the belts 1-9, the conveying belt pulleys 1-50 can drive the grooved head roller 1-13 to rotate, the rotating direction of the grooved head roller 1-13 is anticlockwise seen from the belt pulleys 1-8 to the output pipe 1-12, so that the conveying belts 1-14 can be driven to move, fruits placed on one side of the grooved conveying roller 1-17 at the tail part move towards the grooved head roller 1-13, the wind power is switched on the premise that wind power is formed at first, so that the upper wind pipes 1-10 form upward wind power before the fruits are conveyed, the fruits cannot be missed, and all the fruits passing over the upper wind pipes 1-10 can be blown by the wind power, therefore, soil, waste leaves and the like doped in fruits are all blown upwards to achieve the cleaning effect, the rotating discs 1-43 can drive the plugs 1-30 to move through the shafts 1-24 with the bulges when sliding, the plugs 1-30 can be inserted into the sockets 1-31, at the moment, the motor I3-5 starts to operate after the power supply is switched on, the motor I3-5 can drive the coupler III3-4 to rotate, the coupler III3-4 can drive the transmission shafts 3-18 with the wind wheels to rotate, the transmission shafts 3-18 with the wind wheels can form upward wind power, the wind power can form negative pressure at the positions of the collecting wind cavities 1-40, so that upward attraction is formed on impurities below, a superposition effect is formed with the upward wind power formed by the upper wind pipes 1-10, a better cleaning effect is formed, and the impurities can enter the output pipes 1-12 along the collecting wind boxes 1-15, then enters an inlet box 3-9 along an output pipe 1-12, a transmission shaft 3-18 with a wind wheel drives a bevel gear III3-16 to rotate when rotating, a bevel gear III3-16 drives a bevel gear II3-15 to rotate, a bevel gear II3-15 drives a screw shaft 3-10 to rotate, the screw shaft 3-10 drives impurities to move towards a waste material outlet 3-11, so that the impurities can better move towards the waste material outlet 3-11 along with wind power, when moving to a partition plate 3-14, the impurities with light weight and continuing to move along with the wind can be attached to the partition plate 3-14, the screw shaft 3-10 drives a scraping blade 3-12 to rotate when rotating, the scraping blade 3-12 can scrape the light impurities to throw out from the waste material outlet 3-11, the waste material outlet 3-11 can be externally connected with a collecting box for collection, so that impurities fall into the collecting box, wind enters the shell 3-3 from the wind hole I3-13 and then is blown out from the circulating pipe outlet 3-7 along the circulating pipe 3-6, the blown wind is clean at the moment, the wind blown out from the circulating pipe outlet 3-7 and wind formed by rotation of the wind wheel 1-45 form a circulation, and the wind circularly flows to form a superposition effect, so that the wind power is increased, and simultaneously, the impurities are filtered by the wind hole I3-13 in the circulation process of the wind, so that the whole air can be purified; the device can utilize the same water source to complete the cleaning of fruits and the discharge of fruit waste residues, the device can carry out juicing, the fruits can fall into a feed hopper 2-9 after being conveyed, the fruits can be cleaned by water entering from a water inlet pipe 2-8 and then discharged into an inner cavity output seat 2-14 from a water outlet pipe 2-10, a juicing driving motor 2-30 can drive a shaft-driven juicing seat 2-12 to rotate when running, the rotating direction of the shaft-driven juicing seat 2-12 is anticlockwise seen from a friction disk 2-7 to a juicing box 2-11, the fruits can continuously fall into an extrusion cavity 2-32 at the feed hopper 2-9 when the shaft-driven juicing seat 2-12 rotates, and then move to the communication part between a fruit juice output pipe 2-27 and the juicing box 2-11 along with the rotating extrusion cavity 2-32, in the process, the juice squeezing seat 2-12 with the shaft can drive the shaft with the protrusion 2-25 to move circularly when rotating, the shaft with the protrusion 2-25 can drive the shaft with the shaft pulley 2-24 to move circularly, the shaft with the shaft pulley 2-24 can rotate relative to the friction disc 2-7 in the process of the circular motion of the shaft with the shaft pulley 2-24, the shaft with the shaft pulley 2-24 can drive the cooling wind wheel 2-22 to rotate, so that the air flow of the space where the device is located is enhanced, the temperature is reduced, the phenomenon that the temperature is overhigh during the juice squeezing process and the quality of fruit juice is influenced is prevented, when the shaft with the shaft pulley 2-24 is supported by the driving arc protrusion 2-43, the shaft with the shaft pulley 2-24 can drive the squeezing seat 2-41 to move through the shaft with the protrusion 2-25, and the squeezing seat 2-41 can squeeze the fruit in the squeezing cavity 2-32, therefore, fruits are squeezed, the juice outlet holes 2-33 are just communicated with the juice outlet pipe 2-27, so that juice can flow out of the juice outlet pipe 2-27 to be squeezed, the rest peel scraps can rotate with the belt shaft to continue rotating the juice squeezing seat 2-12, when the squeezing cavity 2-32 with the existence of waste residues rotates to be vertically downward communicated with the belt inner cavity output seat 2-14, the belt pulley II1-27 can drive the belt pulley III1-37 to rotate through the belt II1-26 when rotating, the belt pulley III1-37 can drive the connecting shaft 1-39 to rotate, the connecting shaft 1-39 can drive the coupling I2-18 to rotate, the coupling I2-18 can drive the belt shaft cam 2-19 to rotate, the belt shaft cam 2-19 can drive the cam matching seat 2-17 to reciprocate up and down through the matching with the reset spring I2-16, the cam matching seat 2-17 can drive the pistons 2-34 with the inclined surfaces to reciprocate up and down through the slide rods 2-15, the inclined surfaces of the pistons 2-34 with the inclined surfaces are beneficial to flowing of water conveyed by the water outlet pipes 2-10, and meanwhile, when the pistons 2-34 with the inclined surfaces move upwards, the water can be extruded upwards, so that the water is flushed into the extrusion cavities 2-32 with waste residues, the waste residues in the extrusion cavities 2-32 can be washed away, and when the pistons 2-34 with the inclined surfaces reset downwards, the waste residues and the water can flow into the residue output pipeline 2-1 from the connecting pipeline 2-2 and then are discharged from the waste liquid outlets 2-38 together; the device can accelerate waste residues and prevent blockage, the inner impeller 2-35 can be driven to rotate when the cam 2-19 with the shaft rotates, wind power can be formed when the inner impeller 2-35 rotates, the wind enters the cooling air box 2-20 from the air inlet I2-29 in the flow direction, the fruit juice flowing through the fruit juice output pipe 2-27 of the air inlet cylinder 2-28 can be cooled in the process, therefore, the fruit juice is further prevented from being heated and deteriorated, the wind continuously flows, enters the accelerating air pipe 2-21 and then is discharged from the pressurizing port 2-37, the water and the waste residues which are about to flow out from the waste liquid outlet 2-38 can be accelerated, and the blockage can be prevented.

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 (4)

1. The utility model provides a wind-force triggers processing apparatus that fruit squeezed juice, includes fruit pretreatment mechanism (1), washs extrusion mechanism (2), supplementary recovery mechanism (3), its characterized in that: the fruit pretreatment mechanism (1) is connected with the cleaning and extruding mechanism (2), and the fruit pretreatment mechanism (1) is connected with the auxiliary recovery mechanism (3);

the fruit pretreatment mechanism (1) comprises a base (1-1), supporting legs (1-2), an upper platform (1-3), through grooves (1-4), through holes (1-5), support supporting legs (1-6), a gear shaft (1-7), belt pulleys (1-8), belts (1-9), an upper air pipe (1-10), a conveying frame (1-11), an output pipe (1-12), grooved head rollers (1-13), a conveying belt (1-14), collecting air boxes (1-15), middle grooved conveying rollers (1-16), tail grooved conveying rollers (1-17), supporting seats (1-18), supporting bearing seats (1-19), fixed outlet air boxes (1-20), belt pulleys I (1-21), The wind power generation device comprises a belt I (1-22), springs (1-23), a shaft with a protrusion (1-24), bearing seats (1-25), a belt II (1-26), belt pulleys II (1-27), connecting rods (1-28), limiting discs (1-29), plugs (1-30), sockets (1-31), a shaft driving disc (1-32), a shaft coupling (1-33), a motor (1-34), the bearing seats I (1-35), a through groove I (1-36), a belt pulley III (1-37), the bearing seats II (1-38), a connecting shaft (1-39), a collecting wind cavity (1-40), wind ports (1-41), sliding seats (1-42), rotating discs (1-43), wind holes (1-44), wind wheels (1-45), Pulley (1-46) with a seat, a rod (1-47) with a limit head, a reset spring (1-48), a rotating belt pulley (1-49), a conveying belt pulley (1-50) and a switching groove (1-51), wherein the base (1-1) is connected with a support leg (1-2), the support leg (1-2) is connected with an upper platform (1-3), the upper platform (1-3) is provided with a through groove (1-4) and a through hole (1-5), the support leg (1-6) is connected with the upper platform (1-3), the support leg (1-6) is connected with a conveying frame (1-11), a gear shaft (1-7) is connected with the belt pulley (1-8), the belt pulley (1-8) is in friction connection with a belt (1-9), and the belt (1-9) is in friction connection with the conveying belt pulley (1-50), the conveying belt wheels (1-50) are connected with grooved head rollers (1-13), the upper air pipes (1-10) are connected with supporting seats (1-18), the upper air pipes (1-10) are connected and communicated with fixed air outlet boxes (1-20), the conveying frames (1-11) are connected with upper platforms (1-3), the conveying frames (1-11) are rotatably connected with the grooved head rollers (1-13), the output pipes (1-12) are connected and communicated with collecting air boxes (1-15), the collecting air boxes (1-15) are connected with the conveying frames (1-11), the conveying belts (1-14) are in friction connection with the grooved head rollers (1-13), the middle grooved conveying rollers (1-16) are in rotation connection with the conveying frames (1-11), the middle grooved conveying rollers (1-16) are in friction connection with the conveying belts (1-14), a tail grooved conveying roller (1-17) is rotationally connected with a conveying frame (1-11), the tail grooved conveying roller (1-17) is frictionally connected with a conveying belt (1-14), a support seat (1-18) is connected with an upper platform (1-3), the support seat (1-18) is connected with a fixed air outlet box (1-20), a support bearing seat (1-19) is rotationally connected with a gear shaft (1-7), the support bearing seat (1-19) is connected with the upper platform (1-3), a belt pulley I (1-21) is connected with the gear shaft (1-7), the belt pulley I (1-21) is frictionally connected with a belt I (1-22), a spring (1-23) is sleeved on a shaft (1-24) with a bulge, the bearing seat (1-25) is connected with the upper platform (1-3), the belt II (1-26) is in friction connection with the belt pulley II (1-27), the belt pulley II (1-27) is connected with the connecting rod (1-28), the belt pulley II (1-27) is in rotation connection with the bearing seat (1-25), the connecting rod (1-28) is connected with the belt shaft driving disc (1-32), the limiting disc (1-29) is connected with the belt shaft (1-24), the limiting disc (1-29) is in contact with the belt pulley II (1-27), the plug (1-30) is arranged on the belt shaft (1-24), the socket (1-31) is connected with the belt shaft driving disc (1-32), the belt shaft driving disc (1-32) is in rotation connection with the bearing seat I (1-35), the belt shaft driving disc (1-32) is connected with the motor (1-34) through the coupler (1-33), the motor (1-34) is connected with the bearing seat I (1-35), the bearing seat I (1-35) is connected with the upper platform (1-3) and arranged on the upper platform through the groove I (1-36), the belt II (1-26) penetrates through the groove I (1-36), the belt II (1-26) is in friction connection with the belt pulley III (1-37), the belt pulley III (1-37) is connected with the connecting shaft (1-39), the connecting shaft (1-39) is in rotation connection with the bearing seat II (1-38), the bearing seat II (1-38) is connected with the upper platform (1-3), the collecting air cavity (1-40) is arranged on the collecting air box (1-15), the air port (1-41) is arranged on the output pipe (1-12), the sliding seat (1-42) is in sliding connection with the fixed air outlet box (1-20), the sliding seat (1-42) is rotationally connected with the rotating disc (1-43), the rotating disc (1-43) is provided with a wind hole (1-44), the wind wheel (1-45) is connected with the rotating disc (1-43), the rotating disc (1-43) is in frictional connection with the pulley (1-46) with the seat, the pulley (1-46) with the seat is connected with the rod (1-47) with the limiting head, the reset spring (1-48) is sleeved on the rod (1-47) with the limiting head, two ends of the reset spring (1-48) are respectively connected with the pulley (1-46) with the seat and the bearing seat (1-25), the rotating belt pulley (1-49) is rotationally connected with the bearing seat (1-25), the rotating belt pulley (1-49) is in frictional connection with the belt I (1-22), the switching groove (1-51) is arranged on the belt pulley II (1-27), the switching groove (1-51) is connected with the shaft (1-24) with the bulge in a sliding way, two ends of the spring (1-23) are respectively connected with the belt pulley II (1-27) and the wind wheel (1-45), and the shaft (1-24) with the bulge is connected with the rotating disc (1-43).

2. A wind activated fruit juice extraction processing apparatus according to claim 1 wherein: the cleaning and extruding mechanism (2) comprises a residue output pipeline (2-1), a connecting pipeline (2-2), a drawing pipeline (2-3), a hydraulic cylinder frame (2-4), a hydraulic cylinder (2-5), a bent arm support (2-6), a friction disc (2-7), a water inlet pipe (2-8), a feed hopper (2-9), a water outlet pipe (2-10), a juicing box (2-11), a shaft-mounted rotating juicing seat (2-12), a boss (2-13), a cavity-mounted output seat (2-14), a slide rod (2-15), a reset spring I (2-16), a cam matching seat (2-17), a coupler I (2-18), a shaft-mounted cam (2-19), a cooling air box (2-20), an accelerating air pipe (2-21), Cooling wind wheel (2-22), pulley seat (2-23), pulley with shaft (2-24), rod with protrusion (2-25), reset spring II (2-26), fruit juice output pipe (2-27), air inlet cylinder (2-28), air inlet I (2-29), juicing driving motor (2-30), juicing bearing seat (2-31), squeezing cavity (2-32), juice outlet hole (2-33), piston with inclined surface (2-34), inner impeller (2-35), inner piston (2-36), pressure port (2-37), waste liquid outlet (2-38), piston rod (2-39), squeezing seat groove (2-40), squeezing seat (2-41), matching hole (2-42), driving arc protrusion (2-43), the residue output pipeline (2-1) is connected with the base (1-1), the residue output pipeline (2-1) is connected and communicated with the connecting pipeline (2-2), the residue output pipeline (2-1) is connected and communicated with the drawing pipeline (2-3), the drawing pipeline (2-3) is connected with the hydraulic cylinder frame (2-4), the hydraulic cylinder frame (2-4) is connected with the hydraulic cylinder (2-5), the hydraulic cylinder (2-5) is connected with the piston rod (2-39), the piston rod (2-39) is connected with the drawing pipeline (2-3) in a sliding way, the piston rod (2-39) is connected with the inner piston (2-36), the inner piston (2-36) is connected with the drawing pipeline (2-3) in a sliding way, the bent arm support (2-6) is connected with the upper platform (1-3), the bent arm support (2-6) is connected with the friction disc (2-7), the water inlet pipe (2-8) is connected and communicated with the feed hopper (2-9), the feed hopper (2-9) is connected and communicated with the water outlet pipe (2-10), the water outlet pipe (2-10) is connected and communicated with the output base (2-14) with an inner cavity, the output base (2-14) with an inner cavity is connected and communicated with the juicing box (2-11), the feed hopper (2-9) is connected and communicated with the juicing box (2-11), the juicing base (2-12) with a rotating shaft is rotatably connected with the juicing bearing base (2-31) arranged on the juicing box (2-11), the juicing base (2-12) with a rotating shaft is provided with a convex base (2-13), the slide bar (2-15) is slidably connected with the output base (2-14) with an inner cavity, a reset spring I (2-16) is sleeved on the sliding rod (2-15), two ends of the reset spring I (2-16) are respectively connected with an output seat (2-14) with an inner cavity and a cam matching seat (2-17), the cam matching seat (2-17) is contacted with a cam (2-19) with a shaft, the cam (2-19) with a shaft is connected with a coupling I (2-18), the coupling I (2-18) is connected with a connecting shaft (1-39), a cooling air box (2-20) is connected with the output seat (2-14) with an inner cavity, the cam (2-19) with a shaft is rotationally connected with the cooling air box (2-20), the cam (2-19) with a shaft is rotationally connected with the output seat (2-14) with an inner cavity, the cooling air box (2-20) is connected and communicated with an accelerating air pipe (2-21), an accelerating air pipe (2-21) penetrates into the residue output pipeline (2-1), a cooling wind wheel (2-22) is connected with a pulley (2-24) with a shaft, the pulley (2-24) with the shaft is rotationally connected with a pulley seat (2-23), the pulley seat (2-23) is connected with a rod (2-25) with a bulge, a reset spring II (2-26) is sleeved on the rod (2-25) with the bulge, two ends of the reset spring II (2-26) are respectively connected with the pulley seat (2-23) and the bulge seat (2-13), a fruit juice output pipe (2-27) penetrates through an air inlet cylinder (2-28), an air inlet I (2-29) is arranged on the air inlet cylinder (2-28), the air inlet cylinder (2-28) is connected and communicated with a cooling air box (2-20), a juice squeezing driving motor (2-30) is connected with a rotating juice squeezing seat (2-12) with the shaft, the squeezing cavity (2-32) is arranged on the rotary juicing seat (2-12) with the shaft, the juice outlet (2-33) is arranged on the rotary juicing seat (2-12) with the shaft, the squeezing cavity (2-32) is communicated with the juice outlet (2-33), the piston (2-34) with the inclined surface is connected with the output seat (2-14) with the inner cavity in a sliding way, the piston (2-34) with the inclined surface is connected with the sliding rod (2-15), the inner impeller (2-35) is connected with the cam (2-19) with the shaft, the inner impeller (2-35) is arranged in the cooling air box (2-20), the pressurizing opening (2-37) is arranged on the accelerating air pipe (2-21), the waste liquid outlet (2-38) is arranged on the residue output pipeline (2-1), the rotary juicing seat (2-12) with the shaft is provided with a squeezing seat groove (2-40), the squeezing seat (2-41) is connected with the rod with the bulge (2-25), the squeezing seat (2-41) is connected with the groove (2-40) of the squeezing seat in a sliding way, the juicing seat (2-12) with the rotating shaft and the bulge seat (2-13) are both provided with matching holes (2-42), the rod with the bulge (2-25) is connected with the matching holes (2-42) in a sliding way, the driving arc bulge (2-43) is arranged on the friction disk (2-7), the output seat (2-14) with the inner cavity passes through the groove (1-4), the output seat (2-14) with the inner cavity is connected with the upper platform (1-3), the juice output pipe (2-27) passes through the hole (1-5), the juice output pipe (2-27) is connected with the upper platform (1-3), the juicing driving motor (2-30) is connected with the juicing box (2-11), the fruit juice output pipe (2-27) is connected and communicated with the juice extracting box (2-11).

3. A wind activated fruit juice extraction processing apparatus according to claim 2 wherein: the auxiliary recovery mechanism (3) comprises supporting legs with seats (3-1), a collecting box (3-2), a shell (3-3), a coupler III (3-4), a motor I (3-5), a circulating pipe (3-6), a circulating pipe outlet (3-7), a feed inlet (3-8), an inlet box (3-9), a spiral shaft (3-10), a waste material outlet (3-11), scraping blades (3-12), air holes I (3-13), partition plates (3-14), bevel gears II (3-15), bevel gears III (3-16), inner bearing seats (3-17) and transmission shafts (3-18) with wind wheels, wherein the supporting legs with seats (3-1) are connected with the upper platform (1-3), and the supporting legs with seats (3-1) are connected with the collecting box (3-2), the collecting box (3-2) is connected and communicated with the shell (3-3), the shell (3-3) is connected with the motor I (3-5), the motor I (3-5) is connected with the transmission shaft (3-18) with the wind wheel through the shaft coupling III (3-4), the shell (3-3) is connected and communicated with the circulating pipe (3-6), the circulating pipe (3-6) is connected with the conveying frame (1-11), the circulating pipe (3-6) is provided with a circulating pipe outlet (3-7), the feeding port (3-8) is arranged on the inlet box (3-9), the feeding port (3-8) is communicated with the tuyere (1-41), the inlet box (3-9) is connected with the output pipe (1-12), the spiral shaft (3-10) is rotationally connected with the inlet box (3-9), the spiral shaft (3-10) is provided with scraping blades (3-12), partition plates (3-14) are connected with the inlet box (3-9), the waste material outlet (3-11) is arranged on the inlet box (3-9), the air hole I (3-13) is arranged on the partition plates (3-14), the spiral shaft (3-10) is rotatably connected with the partition plates (3-14), the spiral shaft (3-10) is connected with a bevel gear II (3-15), the bevel gear II (3-15) is meshed with a bevel gear III (3-16), the bevel gear III (3-16) is connected with a transmission shaft (3-18) with a wind wheel, the transmission shaft (3-18) with the wind wheel is rotatably connected with an inner bearing seat (3-17), and the inner bearing seat (3-17) is connected with the shell (3-3).

4. A wind activated fruit juice extraction processing apparatus according to claim 3 wherein: when the plug (1-30) is connected with the socket (1-31), the power supply of the motor I (3-5) is connected.

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