CN108740032B - Soymilk processing device - Google Patents

Abstract

The invention provides a soymilk processing device which comprises a support, wherein a deslagging box is arranged at the top of the support, a grinding box is welded at the top of the deslagging box, a transverse plate is fixedly connected to the right side of the support, a separation box is arranged at the top of the transverse plate, a suction pump is arranged at the right side of the deslagging box, a liquid inlet of the suction pump is communicated with the deslagging box through a liquid discharge pipe, and a deslagging device, a grinding device and a separation device are respectively arranged inside the deslagging box, the grinding box and the separation box. This soybean milk processingequipment only needs just can realize grinding the decline of part in the grinding device and the rotation carries out the beans and pulverizes through a power supply, and the consumption of electric power is little, and is with low costs to the thick liquid that oozes at the sediment in-process can not flow at will, and it is steady smooth and easy to flow, and the phenomenon that the infiltration hole blockked up can not appear in the separation process simultaneously, has guaranteed the integrality of separation work, and separation efficiency is high, convenient and practical, facilitate promotion and use.

Description

Soymilk processing device

Technical Field

The invention relates to the technical field of soymilk processing, in particular to a soymilk processing device.

Background

The soybean milk is milky-white to faint-yellow milky liquid product with good extraction property after grinding soybeans, most of the conventional soybean milk firstly crushes beans, then filters bean dregs in the crushed substances, and then separates the liquid after filtering. However, most of the existing grinding devices are composed of an air cylinder and a grinding machine head, the grinding machine head is composed of a motor and a grinding machine head, the air cylinder is installed at the top of a grinding box, the motor is installed at the output end position of an air pump, the air cylinder stops when moving to a proper position, and the motor works to drive the grinding machine head to work for grinding, so that a large amount of electric power is required to be supplied by a user, and the cost is high; and most of the current separating devices penetrate through the filter screen from top to bottom when the soymilk is separated, so that the sediment is separated from the soymilk part, but the separation mode is easy to cause that the sediment is dried because the soymilk part leaks to cause that the leakage hole is covered, so that the separation operation cannot be carried out.

Disclosure of Invention

The invention aims to solve the problems and designs a soybean milk processing device.

The technical scheme of the invention for realizing the aim is as follows: the soymilk processing device comprises a support, wherein a deslagging box is installed at the top of the support, a grinding box is welded at the top of the deslagging box, a transverse plate is fixedly connected to the right side of the support, a separating box is placed at the top of the transverse plate, an absorption pump is installed at the right side of the deslagging box, a liquid inlet of the absorption pump is communicated with the deslagging box through a liquid discharge pipe, a liquid outlet of the absorption pump is communicated with the separating box through a conducting pipe, a liquid suction pump is welded at the top of the separating box, a water inlet of the liquid suction pump is communicated with the inside of the separating box through a suction pipe, a water outlet of the liquid suction pump is provided with a discharge pipe, a clamping seat is fixedly connected to the left side of the grinding box, an inlet hopper is installed on the clamping seat, a hose is arranged at the bottom of the inlet hopper, one end, far away from the inlet hopper, penetrates into the grinding box, a first leak hole is formed in the bottom of the grinding box, a second leak hole is formed in the top of the deslagging box and corresponds to the position of the first leak hole, the slag discharging device, the crushing device and the separating device are respectively arranged in the slag discharging box, the crushing box and the separating box.

In one aspect of the invention, the grinding device comprises a lower grinding head arranged at the center of the bottom of the inner wall of a grinding box, an upper grinding head matched with the lower grinding head for grinding together, a threaded column connected with the top of the upper grinding head, a rotating pipe sleeved on the surface of the threaded column and a motor connected with the rotating pipe through a belt, wherein an inner circular ring is sleeved at the bottom of the outer surface of the rotating pipe, an outer circular ring is arranged on the outer surface of the inner circular ring, a gap is reserved between the outer circular ring and the inner circular ring, a steel ball is arranged in the gap, two sides of the outer circular ring are connected with the inner wall of the grinding box through fixing rods, a sleeve is welded at the top of the inner wall of the grinding box, a first spring is arranged in the sleeve, a sliding block is arranged in the sleeve in a sliding manner, a door-shaped frame is welded at the top of the sleeve, a connecting rod penetrates through the door-shaped frame, a baffle is welded at the bottom of the connecting rod, and the top of the baffle is contacted with the top of the inner wall of the door-shaped frame, the top of the connecting rod is connected with the bottom of the first spring.

Further, go up the top of rolling the head and use the screw thread post to be equipped with interior plectane as the centre of a circle, be equipped with outer plectane in the top of rolling the head and the outside that is located interior plectane at last, and leave a collection beans groove between interior plectane and the outer plectane, at last rolling the head and seted up the feed opening, and the opening part at feed opening top is located the regional in collection beans groove, collection beans inslot portion is the slope form, and the minimum and the feed opening contact of slope, and the hose is kept away from the one end that gets into the fill and is located the inside in collection beans groove, is provided with the kelly at the surface of hose, the draw-in groove has been seted up to the bottom of kelly, and the inside of excircle integrated circuit board at the draw-in groove, circular bayonet socket has been seted up to the surface of outer plectane, and the draw-in groove is provided with the fixture block on pressing close to the inner wall of outer plectane, and the fixture block is located the inside of circular bayonet socket.

Furthermore, the bottom of the two sides of the inner wall of the sleeve pipe is provided with a sliding groove, sliding rods are welded on the two sides of each sliding block and are located inside the sliding grooves, and a touch sensor is mounted at the top of the inner wall of each sliding groove and is electrically connected with the motor.

In one aspect of the invention, the slag discharging device comprises a conical funnel, a processing pipe connected with a discharge port of the funnel, a triangular block welded at the bottom of the inner wall of the slag discharging box, and an arc outer cover connected between the triangular block and the funnel, wherein one end of the liquid discharging pipe far away from the suction pump is positioned in an area between the outer cover and the processing pipe, the bottom of the processing pipe is inclined, grooves are formed on the surface of the processing pipe at equal intervals, liquid discharging holes are formed in the inner wall of the grooves and are vertically arranged at equal intervals, a transverse groove is transversely formed in the triangular block, a slag discharging hole is formed in the bottom of the transverse groove, the bottom of the processing pipe corresponds to the slag discharging hole, the slag discharging pipe is arranged in the slag discharging hole, a stop block slides in the transverse groove, the top of the stop block is inclined, and the inclined plane of the stop block and the inclined plane of the triangular block are positioned on the same straight line, the utility model discloses a slag discharging box, including dustcoat, slag discharging pipe, handle, dustcoat, the straight line that the dustcoat bottom constitutes closely laminates with the inclined plane of triangle piece, the slag discharging pipe is sheltered from to the bottom of dog, is connected with the stay cord in one side of dog, and the one end that the dog was kept away from to the stay cord is worn out slag discharging box and is twined at the middle part of handle, slag discharging box's the outside and the position that corresponds the stay cord are equipped with two bases, and the handle card is connected with the second spring on two bases between one side that the dog is close to the stay cord and slag discharging box inner wall.

Furthermore, the bottom of the inner wall of the transverse groove is provided with a blind hole, the bottom of the stop block is welded with a moving rod, and the bottom of the moving rod slides in the blind hole.

In one aspect of the invention, the separating device comprises a partition board capable of sliding up and down, a seepage hole is formed in the partition board, sliding cavities are formed in the shells on two sides of the separating box, two ends of the partition board penetrate into the sliding cavities, a vertical rod is fixedly connected to the top of the partition board positioned in the sliding cavities, an arc-shaped groove seat is welded on the inner wall of each sliding cavity, a sealing box is embedded in the top of one side of the vertical rod, a third spring is connected to the inner wall of the sealing box, one end, away from the sealing box, of the third spring is welded with a limiting plate, one side, away from the third spring, of the limiting plate is connected with a pulley rod of a pulley, the roller part of the pulley is positioned outside the sealing box, the roller part of the pulley is in contact with the center of the arc-shaped groove on the arc-shaped groove seat, an iron block is welded at the bottom of the partition board positioned in the sliding cavities, one end, away from the pump, of the conducting tube is positioned at the bottom of the partition board, and one end of the extraction pipe, which is far away from the liquid extraction pump, is positioned at the top of the partition plate.

The soymilk processing device manufactured by the technical scheme of the invention effectively drives the grinding head to move downwards and rotate when in a proper position to grind the soybeans in the working process of the forward and reverse rotating motor, has small power consumption and low cost, does not flow the slurry leaked out at will in the deslagging process, flows stably and smoothly, does not cause seepage hole blockage due to dried sediment in the separation process, ensures the integrity of the separation work, has high separation efficiency, and is convenient and practical.

Drawings

FIG. 1 is a schematic view showing the construction of the soybean milk processing apparatus of the present invention;

FIG. 2 is a schematic view of the internal structure of the grinding box according to the present invention;

FIG. 3 is a schematic view of the internal structure of the deslagging box of the invention;

FIG. 4 is a schematic view showing the internal structure of the separation tank according to the present invention;

FIG. 5 is an enlarged view of a portion A of FIG. 2;

FIG. 6 is an enlarged view of a portion B of FIG. 2;

FIG. 7 is an enlarged view of a portion C of FIG. 4;

FIG. 8 is a schematic view of the structure of a process tube according to the present invention;

FIG. 9 is a cross-sectional view of the construction of the triangular block of the present invention;

fig. 10 is a structural plan view of the upper roller head of the present invention.

In the figure: 1 support, 2 slag discharge boxes, 3 grinding boxes, 4 transverse plates, 5 separating boxes, 6 suction pumps, 7 liquid discharge pipes, 8 conducting pipes, 9 liquid suction pumps, 10 extraction pipes, 11 discharge pipes, 12 clamping seats, 13 inlet hoppers, 14 hoses, 15 first leakage holes, 16 second leakage holes, 17 lower grinding heads, 18 upper grinding heads, 19 threaded columns, 20 rotating pipes, 21 belts, 22 forward and reverse rotating motors, 23 outer circular rings, 24 inner circular rings, 25 steel balls, 26 fixing rods, 27 sleeves, 28 first springs, 29 sliding blocks, 30 door-shaped frames, 31 connecting rods, 32 baffles, 33 funnels, 34 processing pipes, 35 triangular blocks, 36 outer covers, 37 grooves, 38 liquid discharge holes, 39 transverse grooves, 40 slag discharge holes, 41 slag discharge pipes, 42 stoppers, 43 pull ropes, 44 handles, 45 bases, 46 second springs, 47 partition plates, 49 vertical rods, 50 arc-shaped groove seats, 51 third springs, 53 limit plates, 54 pulleys, 55 iron blocks, 52 third springs, 55 vertical rods, sealing plates, 50 arc-shaped groove seats, 56 inner circular plate, 57 outer circular plate, 58 bean collecting groove, 59 feed opening, 60 clamping rod, 61 clamping groove, 62 circular clamping opening, 63 clamping block, 64 sliding groove, 65 sliding rod and 66 touch sensor, 67 blind hole and 68 moving rod 69 penetration hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a soymilk processing device, which comprises a support 1, wherein the top of the support 1 is provided with a deslagging box 2, the top of the deslagging box 2 is welded with a grinding box 3, the right side of the support 1 is connected with a transverse plate 4, the top of the transverse plate 4 is provided with a separating box 5, the right side of the deslagging box 2 is provided with an absorption pump 6, a liquid inlet of the absorption pump 6 is communicated with the deslagging box 2 through a liquid discharge pipe 7, a liquid outlet of the absorption pump 6 is communicated with the separating box 5 through a conducting pipe 8, the top of the separating box 5 is welded with a liquid pump 9, a water inlet of the liquid pump 9 is communicated with the inside of the separating box 5 through an extraction pipe 10, a water outlet of the liquid pump 9 is provided with a discharge pipe 11, the left side of the grinding box 3 is fixedly connected with a clamping seat 12, an inlet hopper 13 is arranged on the clamping seat 12, the bottom of the inlet hopper 13 is provided with a hose 14, and one end of the hose 14, which is far away from the inlet hopper 13, penetrates into the grinding box 3, the bottom of the crushing box 3 is provided with a first leak hole 15, the top of the deslagging box 2 is provided with a second leak hole 16 corresponding to the first leak hole 15, and the deslagging box 2, the crushing box 3 and the separating box 5 are respectively internally provided with a deslagging device, a crushing device and a separating device.

The using method comprises the following steps: the soaked beans flow into the grinding box 3 through the inlet hopper 13 and the hose 14, the beans are ground by the grinding device in the grinding box 3, the ground beans flow into the slag discharge box 2 through the first leakage hole 15 and the second leakage hole 16, the bean dregs and the serous fluid are separated by the slag discharge device in the slag discharge box 2, the separated serous fluid is conveyed into the separation box 5 through the suction pump 6, the liquid discharge pipe 7 and the conduction pipe 8, the serous fluid is separated by the separation device in the separation box 5, and the separated soymilk is pumped out from the separation box 5 through the suction pipe 10, the liquid suction pump 9 and the discharge pipe 11.

The grinding device comprises a lower grinding head 17 arranged at the center of the bottom of the inner wall of the grinding box 3, an upper grinding head 18 matched with the lower grinding head 17 for grinding together, a threaded column 19 connected with the top of the upper grinding head 18, a rotating pipe 20 sleeved on the surface of the threaded column 19 and a forward and reverse motor 22 connected with the rotating pipe 20 through a belt 21, wherein the bottom of the outer surface of the rotating pipe 20 is sleeved with an inner circular ring 24, the outer surface of the inner circular ring 24 is provided with an outer circular ring 23, a gap is reserved between the outer circular ring 23 and the inner circular ring 24, a steel ball 25 is arranged in the gap, two sides of the outer circular ring 23 are connected with the inner wall of the grinding box 3 through fixing rods 26, the top of the inner wall of the grinding box 3 is welded with a sleeve 27, a first spring 28 is arranged inside the sleeve 27, a sliding block 29 slides inside the sleeve 27, a door-shaped frame 30 is welded on the top of the sliding block 29, a connecting rod 31 is inserted on the door-shaped frame 30, the bottom of the connecting rod 31 is welded with the baffle 32, the top of the baffle 32 is contacted with the top of the inner wall of the door-shaped frame 30, the top of the connecting rod 31 is connected with the bottom of the first spring 28, the bottoms of the two sides of the inner wall of the sleeve 27 are provided with sliding grooves 64, the two sides of the sliding block 29 are welded with sliding rods 65, the sliding rods 65 are positioned inside the sliding grooves 64, the top of the inner wall of the sliding grooves 64 is provided with a touch sensor 66, the touch sensor 66 is electrically connected with the forward and reverse rotating motor 22, and when the sliding block 29 slides downwards to be separated from the sleeve 27, the size of a gap between the upper grinding head 18 and the lower grinding head 17 is the same as that of beans; go up the top of roller head 18 and use screw post 19 to be equipped with interior plectane 56 as the centre of a circle, last roller head 18 top and be located the outside of plectane 56 and be equipped with outer plectane 57, and leave album beans groove 58 between interior plectane 56 and the outer plectane 57, seted up feed opening 59 on last roller head 18, and the opening part at feed opening 59 top is located the regional of album beans groove 58, album beans groove 58 is inside to be the slope form, and the minimum of slope contacts with feed opening 59, and the one end that gets away from into fill 13 of hose 14 is located the inside of album beans groove 58, is provided with kelly 60 at the surface of hose 14, draw-in groove 61 has been seted up to the bottom of kelly 60, and outer plectane 57 card is in the inside of draw-in groove 61, circular bayonet 62 has been seted up to the surface of outer plectane 57, and is provided with fixture block 63 on the inner wall of draw-in groove 61 outer plectane 57, and fixture block 63 is located the inside of circular bayonet 62.

The control mode of the forward and reverse rotating motor 22 and the collision sensor 66 adopts the current common control mode.

The grinding flow of the grinding device is as follows: the rotating pipe 20 is driven to rotate by the belt 21 during the rotation of the forward and reverse rotating motor 22, the threaded column 19 is driven to rotate along with the rotating pipe 20 during the rotation of the rotating pipe 20, because the sliding block 29 at the top of the threaded column 19 is positioned inside the sleeve 27 before grinding, when the rotating pipe 20 rotates, the threaded column 19 moves vertically downwards, when the sliding block 29 is separated from the sleeve 27, the threaded column 19 rotates along with the inertia of the rotating pipe 20, the upper grinding head 18 at the bottom of the threaded column rotates, beans flowing out of the hose 14 fall into a bean collecting groove 58 formed by the outer circular plate 57 and the inner circular plate 56 at the top of the upper grinding head 18, the beans inside the bean collecting groove 58 automatically move towards the direction of a discharging port 59 due to gravity, and then flow to the area between the upper grinding head 18 and the lower grinding head 17, and the beans are ground by the upper grinding head 18 and the lower grinding head 17.

In the invention, the grinding device can realize the descending and the rotation of the upper grinding head 18 only by a positive and negative rotating motor 22, thereby reducing the input of electric power and the addition of power sources, having low cost and being convenient for popularization and use.

In the grinding device of the present invention, the threaded post 19 is engaged with the first spring 28 via the sliding block 29, the sliding rod 65, the sliding slot 64, the baffle 32, the connecting rod 31, the rotating tube 20 rotates when the forward and reverse motor 22 rotates, the sliding block 29 only moves downwards due to the restriction of the sliding rod 65 and the sliding slot 64, the threaded post 19 rotates with the rotating tube 20 when the sliding block 29 slides out of the sliding slot 64, the gate 30 on the top of the sliding block 29 rotates with the connecting rod 31 as the base point during the rotation of the threaded post 19, all the threaded posts 19 have a force of moving downwards due to the rotation of the rotating tube 20, so the sliding block 29 does not move upwards due to the elastic force of the first spring 28, when the bean grinding is completed, the forward and reverse motor 22 rotates in the reverse direction of the previous movement, the threaded post 19 rotates with the rotating tube 20, and the first spring 28 applies an upward pulling force to the threaded post 19, the threaded column 19 is enabled to rotate upwards to move, when the sliding rod 65 moves to the position of the sliding groove 64, the threaded column 19 moves upwards vertically, when the touch sensor 66 is in contact with the sliding rod 65, the forward and reverse rotating motor 22 stops, the vertical movement and the rotation of the upper grinding head 18 are stably completed, and the movement process is stable and smooth.

According to the grinding device, the clamping rod 60 at the bottom of the hose 14 is clamped on the outer circular plate 57, the circular ring bayonet 62 is formed in the outer surface of the outer circular plate 57, the clamping block 63 is arranged on the clamping rod 60, the clamping block 63 is clamped inside the circular ring bayonet 62, the hose 14 cannot rotate along with the outer circular plate 57, the hose 14 is prevented from being separated from the bean collecting groove 58 due to the rotation of the upper grinding head 18, the hose 14 is guaranteed to be clamped on the circular bayonet 62 on the outer circular plate 57 when the upper grinding head 18 rotates, beans are promoted to stably flow into the bean collecting groove 58 formed by the matching of the outer circular plate 57 and the inner circular plate 56 on the top of the upper grinding head 18, and the reliability is high.

In the grinding device, the rotating pipe 20 is arranged on the inner wall of the inner circular ring 24, the inner circular ring 24 is arranged inside the outer circular ring 23, and the steel ball 25 is arranged between the inner circular ring 24 and the outer circular ring 23, so that the inner circular ring 24 can be effectively ensured to rotate freely and rotate quickly inside the outer circular ring 23.

The slag discharging device comprises a conical funnel 33, a processing pipe 34 connected with a discharge hole of the funnel 33, a triangular block 35 welded at the bottom of the inner wall of the slag discharging box 2, and an arc-shaped outer cover 36 connected between the triangular block 35 and the funnel 33, one end of the liquid discharge pipe 7 far away from the suction pump 6 is positioned in the outer cover 36 and the area between the processing pipe 34, the bottom of the processing pipe 34 is inclined, grooves 37 are equidistantly arranged on the surface of the processing pipe 34, liquid discharge holes 38 are equidistantly arranged in the vertical direction on the inner wall of the grooves 37, transverse grooves 39 are transversely arranged in the triangular block 35, slag discharge holes 40 are arranged at the bottoms of the transverse grooves 39, the bottom of the processing pipe 34 corresponds to the slag discharge holes 40, the slag discharge pipe 41 is arranged in the slag discharge holes 40, the bottom of the slag discharge pipe 41 penetrates out of the slag discharging box 2, a stop block 42 slides in the transverse grooves 39, and the top of the stop block 42 is inclined, and the inclined plane of dog 42 and the inclined plane of triangle piece 35 are located same straight line, and blind hole 67 has been seted up to the bottom of transverse groove 39 inner wall, and has welded carriage release lever 68 in the bottom of dog 42, and the bottom of carriage release lever 68 slides in the inside of blind hole 67, the straight line that constitutes in the dustcoat 36 bottom closely laminates with the inclined plane of triangle piece 35, slag discharge pipe 41 is sheltered from to the bottom of dog 42, is connected with stay cord 43 in one side of dog 42, and the one end that the dog 42 was kept away from to stay cord 43 is worn out slag discharge box 2 and is twined in the middle part of handle 44, slag discharge box 2's the outside and the position that corresponds stay cord 43 are equipped with two bases 45, and handle 44 card is connected with second spring 46 on two bases 45 between dog 42 one side that is close to stay cord 43 and slag discharge box 2 inner wall.

The slag discharge flow of the slag discharge device is as follows: the ground beans flow into the funnel 33 through the first and second orifices 15 and 16, the beans in the funnel 33 flow into the processing pipe 34, the slurry in the bean flows out of the processing pipe 34 through the drain pipe 7, the slurry out of the processing pipe 34 flows along the groove 37 to the inclined surface of the triangular block 35, the slurry flows into the separating box 5 through the drain pipe 7 and the suction pump 6, when the handle 44 is pulled after the bean slurry in the batch is discharged, the stopper 42 is driven to move towards the handle 44 through the pull rope 43 during the pulling of the handle 44, so that the processing pipe 34 is communicated with the slag discharge pipe 41 in the slag discharge hole 40, and the bean dregs fall down out of the slag discharge box 2 due to the influence of the self gravity.

In the invention, the slurry of the slag discharging device only flows in the groove 37, and the slurry cannot flow at will on the outer wall of the processing pipe 34 when being discharged, so that the phenomenon of slow downward flow of the slurry caused by random flow is avoided, the rapid flow of the slurry from the outer wall of the processing pipe 34 to the triangular block 35 is effectively accelerated, the appearance is attractive, the speed is high, and the flow is stable and smooth.

The arc-shaped outer cover 36 is arranged in the slag discharging device, when the slurry sprayed out of the processing pipe 34 is overlarge, the slurry can be sprayed onto the inner wall of the outer cover 36, the slurry can slide downwards onto the triangular block 35 along with the inner wall of the outer cover 36, the sprayed slurry is effectively collected, and meanwhile, the complex cleaning operation and the strong applicability of the slurry sprayed onto the inner wall of the slag discharging box 2 are avoided.

The separating device comprises a separating plate 47 capable of sliding up and down, a seepage hole 69 is formed in the separating plate 47, sliding cavities are formed in the shells on the two sides of the separating box 5, the two ends of the separating plate 47 penetrate into the sliding cavities, a vertical rod 49 is fixedly connected to the top of the separating plate 47 in the sliding cavities, an arc-shaped groove seat 50 is welded to the inner wall of each sliding cavity, a sealing box 51 is embedded to the top of one side of the vertical rod 49, a third spring 52 is connected to the inner wall of the sealing box 51, one end, away from the sealing box 51, of the third spring 52 is welded to a limiting plate 53, one side, away from the third spring 52, of the limiting plate 53 is connected to a pulley rod of a pulley 54, the roller part of the pulley 54 is located outside the sealing box 51, the roller part of the pulley 54 is in contact with the center of an arc-shaped groove on the arc-shaped groove seat 50, an iron block 55 is welded to the bottom of the separating plate 47 in the sliding cavity, one end, away from the suction pump 6, of the conducting pipe 8 is located at the bottom of the separating plate 47, the end of the withdrawal pipe 10 remote from the withdrawal pump 9 is located at the top of the partition 47.

The separation flow of the separation device is as follows: the slurry flowing in from the conduction pipe 8 flows to the bottom of the partition plate 47, the flowing slurry adds the pushing force of upward movement to the partition plate 47 to drive the partition plate 47 to move upwards, the third spring 52 inside the sealing box 51 retracts in the upward movement process of the partition plate 47, the weight of the iron block 55 and the elastic force of the third spring 52 drive the partition plate 47 to move downwards, the partition plate 47 can press the slurry in the downward movement process, so that the soybean milk part in the slurry is driven to permeate into the top of the partition plate 47 from the seepage holes 69 on the partition plate 47, when the soybean milk part in the slurry permeates into the top of the partition plate 47, the pushing force generated by the slurry flow slowly disappears, at the moment, the partition plate 47 returns to the original position, and the soybean milk permeated from the top of the partition plate 47 is pumped out by the liquid pump 9.

In the invention, the sediment in the slurry of the separation device only settles to the bottom inside the separation box 5, the phenomenon that the sediment blocks the seepage holes 69 on the partition plate 47 can not occur, and meanwhile, the seepage of the soymilk part adopts gravity extrusion, thus accelerating the water outlet speed of the soymilk and improving the yield efficiency of the soymilk.

In the separating device of the invention, the third spring 52 contracts or recovers because the thrust at the bottom of the partition plate 47 is generated or disappears, so that the pulley 54 slides in the arc-shaped groove on the arc-shaped groove seat 50, the sliding friction during sliding can hinder the contraction or recovery of the third spring 52, thereby avoiding the damage of the internal structure of the third spring 52 caused by the contraction or too fast recovery of the third spring, having high protection capability, simultaneously playing a role in buffering the up-and-down movement of the partition plate 47, avoiding the sediment breakage caused by the too fast sliding of the partition plate 47 from penetrating into the top of the partition plate 47 along with the soybean milk part, and being stable and reliable.

To sum up, this soybean milk processingequipment only needs just can realize going up among the grinding device through a power supply and pulverize partly decline and rotatory bean and pulverize, and the consumption of electric power is little, and is with low costs to the thick liquid that oozes at the row sediment in-process can not flow at will, and it is steady smooth and easy to flow, can not appear the phenomenon that infiltration hole 69 blockked up simultaneously in the separation process, has guaranteed the integrality of separation work, and separation efficiency is high, convenient and practical, facilitate promotion and use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides a soybean milk processingequipment, includes support (1), its characterized in that: the slag discharging box (2) is installed at the top of the support (1), the crushing box (3) is welded at the top of the slag discharging box (2), the transverse plate (4) is connected to the right side of the support (1), the separating box (5) is placed at the top of the transverse plate (4), the suction pump (6) is installed at the right side of the slag discharging box (2), a liquid inlet of the suction pump (6) is communicated with the slag discharging box (2) through a liquid discharge pipe (7), a liquid outlet of the suction pump (6) is communicated with the separating box (5) through a conducting pipe (8), a liquid pump (9) is welded at the top of the separating box (5), a water inlet of the liquid pump (9) is communicated with the inside of the separating box (5) through a suction pipe (10), a discharge pipe (11) is arranged at a water outlet of the liquid pump (9), a clamping seat (12) is fixedly connected to the left side of the crushing box (3), and an entering hopper (13) is installed on the clamping seat (12), a hose (14) is arranged at the bottom of the inlet hopper (13), one end, far away from the inlet hopper (13), of the hose (14) penetrates into the crushing box (3), a first leakage hole (15) is formed in the bottom of the crushing box (3), a second leakage hole (16) is formed in the top of the slag discharging box (2) and corresponds to the first leakage hole (15), and a slag discharging device, a crushing device and a separating device are respectively arranged inside the slag discharging box (2), the crushing box (3) and the separating box (5);

the grinding device comprises a lower grinding head (17) arranged at the center of the bottom of the inner wall of a grinding box (3), an upper grinding head (18) matched with the lower grinding head (17) for grinding, a threaded column (19) connected with the top of the upper grinding head (18), a rotating pipe (20) sleeved on the surface of the threaded column (19) and a forward and reverse motor (22) connected with the rotating pipe (20) through a belt (21), wherein an inner circular ring (24) is sleeved at the bottom of the outer surface of the rotating pipe (20), an outer circular ring (23) is arranged on the outer surface of the inner circular ring (24), a gap is reserved between the outer circular ring (23) and the inner circular ring (24), steel balls (25) are arranged in the gap, two sides of the outer circular ring (23) are connected with the inner wall of the grinding box (3) through fixing rods (26), a sleeve (27) is welded at the top of the inner wall of the grinding box (3), and a first spring (28) is arranged inside the sleeve (27), a sliding block (29) slides in the sleeve (27), a door-shaped frame (30) is welded on the top of the sliding block (29), a connecting rod (31) is inserted in the door-shaped frame (30), a baffle (32) is welded on the bottom of the connecting rod (31), the top of the baffle (32) is in contact with the top of the inner wall of the door-shaped frame (30), the top of the connecting rod (31) is connected with the bottom of a first spring (28), and when the sliding block (29) slides downwards to be separated from the sleeve (27), the size of a gap between an upper rolling head (18) and a lower rolling head (17) is the same as that of a bean;

the slag discharging device comprises a conical funnel (33), a processing pipe (34) connected with a discharge port of the funnel (33), a triangular block (35) welded at the bottom of the inner wall of the slag discharging box (2), and an arc-shaped outer cover (36) connected between the triangular block (35) and the funnel (33), wherein one end of a drain pipe (7) far away from the suction pump (6) is positioned in an area between the outer cover (36) and the processing pipe (34), the bottom of the processing pipe (34) is in an inclined shape, grooves (37) are formed in the surface of the processing pipe (34) at equal intervals, drain holes (38) which are vertically arranged at equal intervals are formed in the inner wall of each groove (37), a transverse groove (39) is transversely formed in the inner part of the triangular block (35), a slag discharging hole (40) is formed in the bottom of the transverse groove (39), the bottom of the processing pipe (34) corresponds to the slag discharging hole (40), and a slag discharging pipe (41) is arranged in the inner part of the slag discharging hole (40), the bottom of the slag discharging pipe (41) penetrates through the slag discharging box (2), a stop block (42) slides in the transverse groove (39), the top of the block (42) is inclined, the inclined plane of the block (42) and the inclined plane of the triangular block (35) are positioned on the same straight line, the straight line formed by the bottom of the outer cover (36) is tightly attached to the inclined plane of the triangular block (35), the bottom of the stop block (42) shields the slag discharge pipe (41), one side of the block (42) is connected with a pull rope (43), one end of the pull rope (43) far away from the block (42) penetrates through the slag discharging box (2) and is wound at the middle part of the handle (44), two bases (45) are arranged at the outer side of the slag discharging box (2) and corresponding to the pull rope (43), the handle (44) is clamped on the two bases (45), a second spring (46) is connected between one side of the stop block (42) close to the pull rope (43) and the inner wall of the slag discharging box (2);

the separating device comprises a separating plate (47) capable of sliding up and down, a seepage hole (69) is formed in the separating plate (47), a sliding cavity is formed in the shell on the two sides of the separating box (5), the two ends of the separating plate (47) penetrate into the sliding cavity, a vertical rod (49) is fixedly connected to the top of the separating plate (47) in the sliding cavity, an arc-shaped groove seat (50) is welded to the inner wall of the sliding cavity, a sealing box (51) is embedded in the top of one side of the vertical rod (49), a third spring (52) is connected to the inner wall of the sealing box (51), one end, far away from the sealing box (51), of the third spring (52) is welded to a limiting plate (53), one side, far away from the third spring (52), of the limiting plate (53) is connected to a pulley rod of a pulley (54), the roller part of the pulley (54) is located outside the sealing box (51), and the roller part of the pulley (54) is in contact with the center of the arc-shaped groove on the arc-shaped groove seat (50), an iron block (55) is welded at the bottom of the partition plate (47) positioned in the sliding cavity, one end of the conduction pipe (8) far away from the suction pump (6) is positioned at the bottom of the partition plate (47), and one end of the extraction pipe (10) far away from the liquid extraction pump (9) is positioned at the top of the partition plate (47);

the bean curd machine is characterized in that an inner circular plate (56) is arranged at the top of the upper grinding head (18) by taking a threaded column (19) as a circle center, an outer circular plate (57) is arranged at the top of the upper grinding head (18) and positioned outside the inner circular plate (56), a bean collecting groove (58) is reserved between the inner circular plate (56) and the outer circular plate (57), a feed opening (59) is formed in the upper grinding head (18), an opening at the top of the feed opening (59) is positioned in the area of the bean collecting groove (58), the interior of the bean collecting groove (58) is inclined, the lowest point of the inclination is contacted with the feed opening (59), one end, far away from the hopper (13), of the hose (14) is positioned in the bean collecting groove (58), a clamping rod (60) is arranged on the outer surface of the hose (14), a clamping groove (61) is formed in the bottom of the clamping rod (60), the outer circular clamping groove (57) is clamped in the clamping groove (61), and a circular clamping opening (62) is formed in the outer surface of the outer circular plate (57), a clamping block (63) is arranged on the inner wall of the clamping groove (61) close to the outer circular plate (57), and the clamping block (63) is positioned inside the circular bayonet (62);

the bottom of the two sides of the inner wall of the sleeve (27) is provided with sliding grooves (64), sliding rods (65) are welded on the two sides of the sliding block (29), the sliding rods (65) are located inside the sliding grooves (64), the top of the inner wall of the sliding grooves (64) is provided with a touch sensor (66), and the touch sensor (66) is electrically connected with the forward and reverse rotating motor (22);

the bottom of the inner wall of the transverse groove (39) is provided with a blind hole (67), the bottom of the stop block (42) is welded with a moving rod (68), and the bottom of the moving rod (68) slides in the blind hole (67).

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