阅读说明：本技术 一种大豆蛋白浓缩装置 (Soybean protein concentration device ) 是由 黄雨洋 朱秀清 朱颖 于 2021-01-05 设计创作，主要内容包括：本发明一种大豆蛋白浓缩装置,涉及大豆蛋白浓缩装置领域,包括夹板、槽架、固定轴、轴架、电机一、丝杠一、前架、导杆、拨杆、齿圈、环形槽、拨叉、电机二和齿轮,有益技术效果为能加工出更加精细的浓缩蛋白。所述的夹板设有两个,两个夹板的内端皆转动连接在固定轴上,固定轴固定连接在轴架上,电机一固定连接在轴架上,电机一输出轴固定连接丝杠一,前架与丝杠一螺纹连接,前架滑动连接在导杆上,前架的两端分别固定连接一个拨杆,两个拨杆分别滑动连接在两个槽架内,两个槽架分别固定连接在两个夹板的内端,轴架设置在齿圈上,齿圈上设有环形槽。(The invention discloses a soybean protein concentration device, and relates to the field of soybean protein concentration devices. The soybean protein concentration device comprises two clamping plates, two groove frames, a fixed shaft, a shaft frame, a motor I, a lead screw I, a front frame, a guide rod, shifting rods, a gear ring, an annular groove, a shifting fork, a motor II and a gear. The soybean protein concentration device has the beneficial technical effect that finer concentrated protein can be processed. The inner ends of the two clamping plates are rotationally connected to the fixed shaft, the fixed shaft is fixedly connected to the shaft frame, the motor I is fixedly connected to the shaft frame, an output shaft of the motor I is fixedly connected with the lead screw I, the front frame is in threaded connection with the lead screw I, the front frame is connected to the guide rod in a sliding mode, the two ends of the front frame are each fixedly connected with one shifting rod, the two shifting rods are connected into the two groove frames in a sliding mode respectively, the two groove frames are fixedly connected to the inner ends of the two clamping plates respectively, the shaft frame is arranged on the gear ring, and the annular groove is formed in the gear ring.)

1. The utility model provides a soybean protein enrichment facility, includes splint (1), tank bracket (1-1), fixed axle (1-2), pedestal (1-3), motor (1-4), lead screw (1-5), fore-stock (1-6), guide arm (1-7), driving lever (1-8), ring gear (2), ring channel (2-1), shift fork (2-2), motor two (2-3) and gear (2-4), its characterized in that: the two clamping plates (1) are arranged, the inner ends of the two clamping plates (1) are rotatably connected to a fixed shaft (1-2), the fixed shaft (1-2) is fixedly connected to a shaft bracket (1-3), a motor I (1-4) is fixedly connected to the shaft bracket (1-3), an output shaft of the motor I (1-4) is fixedly connected with a lead screw I (1-5), a front bracket (1-6) is in threaded connection with the lead screw I (1-5), the front bracket (1-6) is in sliding connection with a guide rod (1-7), two ends of the front bracket (1-6) are respectively and fixedly connected with a deflector rod (1-8), the two deflector rods (1-8) are respectively in the two groove brackets (1-1) in sliding connection, the two groove brackets (1-1) are respectively and fixedly connected to the inner ends of the two clamping plates (1), the shaft bracket (1-3) is arranged on the gear ring (2), the gear ring (2) is provided with an annular groove (2-1), two ends of the annular groove (2-1) are respectively movably connected with a shifting fork (2-2), the motor II (2-3) is fixedly connected on the shifting fork (2-2), an output shaft of the motor II (2-3) is fixedly connected with a gear (2-4), and the gear (2-4) is in meshing transmission connection with the gear ring (2).

2. The soy protein concentrating device of claim 1, wherein: the soybean protein concentrating device further comprises a transverse frame (2-5), a screw rod (2-6) and a sliding block (1-9), wherein the transverse frame (2-5) is fixedly connected to the edge position of the gear ring (2), the sliding block (1-9) is slidably connected to the transverse frame (2-5), the sliding block (1-9) is fixedly connected to the lower end of the shaft frame (1-3), the sliding block (1-9) is in threaded connection with the screw rod (2-6), and the screw rod (2-6) is rotatably connected to the transverse frame (2-5).

3. The soy protein concentrating device of claim 2, wherein: the soybean protein concentrating device further comprises wheel grooves (1-10) and rollers (3), a plurality of transverse wheel grooves (1-10) are respectively arranged on the two clamping plates (1), and the rollers (3) are respectively arranged in the wheel grooves (1-10).

4. A soy protein concentration device as claimed in claim 3, wherein: the soybean protein concentrating device also comprises column grooves (1-11), a wheel shaft (3-1), a shaft plate (3-2), a second screw rod (3-3) and a third motor (3-4), wherein the two clamping plates (1) are respectively provided with a vertical column groove (1-11); the column groove (1-11) is communicated with the wheel groove (1-10); two wheel shafts (3-1) are respectively connected in the two column grooves (1-11) in a sliding manner, the two wheel shafts (3-1) are respectively connected on two shaft plates (3-2) in a rotating manner, the two shaft plates (3-2) are respectively connected on two second lead screws (3-3) in a threaded manner, the two second lead screws (3-3) are respectively and fixedly connected at the output ends of two third motors (3-4), and the two third motors (3-4) are respectively and fixedly connected on the two clamping plates (1); the two wheel shafts (3-1) are respectively fixedly connected with a plurality of rollers (3), and the rollers (3) are respectively positioned in the wheel grooves (1-10).

5. The soy protein concentrating device of claim 4, wherein: the soybean protein concentrating device also comprises a cylinder base (4), U-shaped frames (4-1), a bottom plate (4-2), a right side frame (4-3), a screw rod III (4-4), a motor IV (4-5), an external thread cylinder (5), a thread ring (5-1) and a rear frame (5-3), wherein the cylinder base (4) is fixedly connected with the middle parts of the two U-shaped frames (4-1), the bottom plate (4-2) is slidably connected with the right end between the two U-shaped frames (4-1), the right side frame (4-3) is fixedly connected with the right end of the bottom plate (4-2), the right side frame (4-3) is in threaded connection with the screw rod III (4-4), the screw rod III (4-4) is fixedly connected with an output shaft of the motor IV (4-5), the motor IV (4-5) is fixedly connected with the cylinder base (4), the external thread cylinder (5) is arranged on the rear frame (5-3), the rear frame (5-3) is fixedly connected to the U-shaped frame (4-1) at the rear end, and the upper end of the external thread cylinder (5) is in threaded connection with the threaded ring (5-1); two ends of the U-shaped frame (4-1) are respectively fixedly connected to the bottom plate through a long plate; two shifting forks (2-2) are also fixedly connected on the bottom plate.

6. The soy protein concentrating device of claim 5, wherein: the soybean protein concentrating device also comprises a motor five (4-6), a screw rod four (4-7), a left side frame (4-8), a frosted filter disc (4-9), a bottom plate (5-2), an oil cylinder one (5-4), an insert column (6), a top plate (6-1), an oil cylinder two (6-2), a sliding plate (6-3), an oil cylinder three (6-4), a motor six (6-5) and a disc (6-6), wherein the motor five (4-6) is fixedly connected on the U-shaped frame (4-1), an output shaft of the motor five (4-6) is fixedly connected with the screw rod four (4-7), the screw rod four (4-7) is in threaded connection with the left side frame (4-8), the left side frame (4-8) is fixedly connected at the outer end of the frosted filter disc (4-9), the grinding filter disc (4-9) is fixedly connected to the left end between the two U-shaped frames (4-1), the external thread cylinder (5) is fixedly connected to the bottom plate (5-2), the bottom plate (5-2) and the top plate (6-1) are both connected to the frame (5-3) in a sliding mode, the frame (5-3) is fixedly connected with the first oil cylinder (5-4) and the second oil cylinder (6-2), and the telescopic end of the first oil cylinder (5-4) is fixedly connected to the bottom plate (5-2); the telescopic end of the second oil cylinder (6-2) is fixedly connected with a top plate (6-1), a sliding plate (6-3) is slidably connected onto the top plate (6-1), the third oil cylinder (6-4) is fixedly connected onto the top plate (6-1), the telescopic end of the third oil cylinder (6-4) is fixedly connected with the sliding plate (6-3), the sixth motor (6-5) is fixedly connected onto the sliding plate (6-3), an output shaft of the sixth motor (6-5) is fixedly connected with a disc (6-6), and the lower end of the disc (6-6) is fixedly connected with a plurality of inserting columns (6).

7. The soy protein concentrating device of claim 6, wherein: the soybean protein concentrating device also comprises a heating plate (4-10), and the heating plate (4-10) is fixedly connected to the cylinder seat (4).

8. The soy protein concentrating device of claim 7, wherein: the soybean protein concentrating device further comprises box seats (2-7) and box frames (2-8), wherein the box seats (2-7) are placed on the two box frames (2-8), and the two box frames (2-8) are fixedly connected to the two shifting forks (2-2) respectively.

Technical Field

The invention relates to the field of soybean protein concentration devices, in particular to a soybean protein concentration device.

Background

The invention discloses a soybean protein concentrating device with the patent number of CN201811426285.X, the soybean protein concentrating device comprises a bottom frame, wherein a supporting frame is welded on the outer surface of the top end of the bottom frame, which is close to the center, a protection plate is fixedly installed on the outer surface of the supporting frame through bolts, a motor is fixedly installed on one side of the outer surface of the top end of the bottom frame, which is close to the supporting frame, through bolts, and a storage tank is welded on the center of the outer surface of the top end of the supporting frame. According to the soybean protein concentration device, firstly, the heat preservation effect of the storage tank can be improved, meanwhile, the air pressure sensor arranged in the vacuum tank is matched to detect the air pressure in the vacuum tank, whether the surface of the storage tank is deformed or damaged can be detected more timely by detecting the change of the air pressure, and secondly, the connecting plate and the control box can be separated or installed, so that the control box can be conveniently replaced and repaired, a lead entering and exiting the control box can be fixed, a circuit is protected better, and a better use prospect is brought. However, this device does not allow the production of more finely concentrated proteins.

Disclosure of Invention

The invention aims to provide a soybean protein concentrating device, which has the beneficial effect that more refined concentrated protein can be processed.

The purpose of the invention is realized by the following technical scheme:

a soybean protein concentration device comprises two clamping plates, two groove frames, a fixed shaft, a shaft frame, a motor I, a lead screw I, a front frame, a guide rod, a shift rod, a gear ring, a ring groove, a shift fork, a motor II and a gear, wherein the inner ends of the two clamping plates are rotatably connected to the fixed shaft which is fixedly connected to the shaft frame, the motor I is fixedly connected to the shaft frame, an output shaft of the motor I is fixedly connected to the lead screw I, the front frame is in threaded connection with the lead screw I, the front frame is in sliding connection with the guide rod, two ends of the front frame are respectively and fixedly connected with the shift rod, the two shift rods are respectively and slidably connected into the two groove frames, the two groove frames are respectively and fixedly connected to the inner ends of the two clamping plates, the shaft frame is arranged on the gear ring, the ring groove is arranged on the gear ring, two ends of the ring groove, the gear is in meshed transmission connection with the gear ring.

A soybean protein enrichment facility still include crossbearer, screw rod and slider, crossbearer fixed connection is in the border position of ring gear, slider sliding connection is on the crossbearer, slider fixed connection is at the lower extreme of pedestal, slider and screw rod threaded connection, the screw rod rotates to be connected on the crossbearer.

The soybean protein concentrating device further comprises wheel grooves and rollers, a plurality of transverse wheel grooves are formed in the two clamping plates respectively, and a roller is arranged in each wheel groove.

The soybean protein concentrating device also comprises a column groove, a wheel shaft, a shaft plate, a screw rod II and a motor III, wherein the two clamping plates are respectively provided with a vertical column groove; the column groove is communicated with the wheel groove; the two wheel shafts are respectively connected in the two column grooves in a sliding manner, the two wheel shafts are respectively connected on the two shaft plates in a rotating manner, the two shaft plates are respectively connected on the two lead screws II in a threaded manner, the two lead screws II are respectively and fixedly connected to the output ends of the two motors III, and the two motors III are respectively and fixedly connected to the two clamping plates; a plurality of gyro wheels of fixed connection respectively on two shaft, a plurality of gyro wheels are located a plurality of race grooves respectively.

The soybean protein concentration device further comprises a barrel seat, U-shaped frames, a bottom plate, a right frame, a third screw rod, a fourth motor, an external screw thread barrel, a screw thread ring and a rear frame, wherein the barrel seat is fixedly connected to the middle parts of the two U-shaped frames; two ends of the U-shaped frame are fixedly connected to the bottom plate through a long plate respectively; the two shifting forks are also fixedly connected on the bottom plate.

The soybean protein concentrating device further comprises a motor five, a screw rod four, a left side frame, a grinding filter disc, a bottom plate, a first oil cylinder, an insert column, a top plate, a second oil cylinder, a sliding plate, a third oil cylinder, a sixth motor and a circular disc, wherein the motor five is fixedly connected to the U-shaped frame; the telescopic end of the second oil cylinder is fixedly connected with the top plate, the sliding plate is connected to the top plate in a sliding mode, the third oil cylinder is fixedly connected to the top plate, the telescopic end of the third oil cylinder is fixedly connected with the sliding plate, the six motors are fixedly connected to the sliding plate, the output shafts of the six motors are fixedly connected with the discs, and the lower ends of the discs are fixedly connected with a plurality of insertion columns.

The soybean protein concentrating device further comprises a heating plate, and the cylinder seat is fixedly connected with the heating plate.

The soybean protein concentrating device further comprises a box base and box frames, wherein the box base is placed on the two box frames, and the two box frames are fixedly connected to the two shifting forks respectively.

The soybean protein concentrating device has the beneficial effects that:

the soybean protein concentrating device can process more fine concentrated protein. Circular motion is done to two splint for limit is rotatory round the gauze when two splint limits are beaten, thereby to the dregs of beans in the gauze carry out comprehensive abundant beating in the circumferencial direction, and the powder of beating the production passes through the filtration discharge of gauze, makes and has realized the filtration when beating the dregs of beans, has carried out the screening to the protein concentrate and has filtered out. The disc drives the dregs of a bean cake piece rotatory through a plurality of posts of inserting, and the dregs of a bean cake piece is through the contact with dull polish filter disc for the dregs of a bean cake piece is ground into meticulous likepowder, will beat the dregs of a bean cake clout after the screening for the first time and carry out secondary operation, process out more meticulous protein concentrate.

Drawings

FIG. 1 is a first schematic structural diagram of a soy protein concentration device according to the present invention;

FIG. 2 is a schematic view of a soy protein concentration apparatus according to the present invention;

FIG. 3 is a schematic view showing a third embodiment of the soy protein concentration apparatus of the present invention;

FIG. 4 is a schematic view of the splint;

FIG. 5 is a schematic view of a ring gear configuration;

FIG. 6 is a schematic structural view of a roller;

FIG. 7 is a schematic structural view of the cartridge holder;

fig. 8 is a schematic structural view of the externally threaded barrel and the insert post.

In the figure: a splint 1; 1-1 of a slot frame; a fixed shaft 1-2; 1-3 of a shaft bracket; 1-4 of a first motor; 1-5 parts of a first lead screw; 1-6 of a front frame; 1-7 of a guide rod; 1-8 parts of a deflector rod; 1-9 of a slide block; 1-10 of wheel groove; 1-11 of column groove; a ring gear 2; an annular groove 2-1; 2-2 of a shifting fork; 2-3 of a second motor; 2-4 parts of gear; 2-5 of a transverse frame; 2-6 parts of a screw; 2-7 of a box seat; 2-8 parts of box frames; a roller 3; a wheel shaft 3-1; a shaft plate 3-2; 3-3 parts of a second screw rod; 3-4 parts of a motor III; a cylinder base 4; 4-1 of a U-shaped frame; a bottom plate 4-2; 4-3 of a right frame; 4-4 parts of a lead screw; 4-5 of a motor; 4-6 of machine five; 4-7 parts of a screw rod; 4-8 of a left frame; 4-9 parts of a frosted filter disc; 4-10 parts of a heating plate; an externally threaded barrel 5; 5-1 of a threaded ring; a bottom plate 5-2; 5-3 of a rear frame; 5-4 parts of a first oil cylinder; a plug 6; a top plate 6-1; 6-2 parts of a second oil cylinder; 6-3 of a sliding plate; 6-4 parts of an oil cylinder III; 6-5 parts of a motor; and 6-6 disks.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the electrical components that appear in this application all external intercommunication power and control switch when using.

The invention is described in further detail below with reference to figures 1-8 and the detailed description.

The first embodiment is as follows:

the embodiment is described below by combining with figures 1-8, a soy protein concentration device comprises two clamping plates 1, a groove frame 1-1, a fixed shaft 1-2, a shaft frame 1-3, a motor I1-4, a screw rod I1-5, a front frame 1-6, a guide rod 1-7, a deflector rod 1-8, a gear ring 2, an annular groove 2-1, a shifting fork 2-2, a motor II 2-3 and a gear 2-4, wherein the inner ends of the two clamping plates 1 are both rotatably connected to the fixed shaft 1-2, the fixed shaft 1-2 is fixedly connected to the shaft frame 1-3, the motor I1-4 is fixedly connected to the shaft frame 1-3, the output shaft of the motor I1-4 is fixedly connected to the screw rod I1-5, the front frame 1-6 is in threaded connection with the screw rod I1-5, the front frame 1-6 is connected to the guide rod 1-7 in a sliding mode, two ends of the front frame 1-6 are fixedly connected with a driving lever 1-8 respectively, the two driving levers 1-8 are connected in the two groove frames 1-1 in a sliding mode respectively, the two groove frames 1-1 are fixedly connected to the inner ends of the two clamping plates 1 respectively, the shaft frames 1-3 are arranged on the gear ring 2, the gear ring 2 is provided with an annular groove 2-1, two ends of the annular groove 2-1 are movably connected with a shifting fork 2-2 respectively, the motor II 2-3 is fixedly connected to the shifting fork 2-2, an output shaft of the motor II 2-3 is fixedly connected with a gear 2-4, and the gear 2-4 is in meshing transmission connection with. When in use, the bean pulp is wrapped in the gauze and sealed, the gauze wrapping the bean pulp is lifted, so that the bean pulp in the gauze is positioned between the two clamping plates 1, the motor I1-4 is started to drive the front frame 1-6 to move back and forth through the screw I1-5, the front frame 1-6 drives the two deflector rods 1-8 to move back and forth, the two deflector rods 1-8 slide back and forth in the two groove frames 1-1 to drive the two clamping plates 1 to rotate simultaneously, the two clamping plates 1 beat the bean pulp in the gauze continuously, because the bean pulp is positioned in the gauze in a lifted state, the bean pulp can be continuously stirred in the gauze when the two clamping plates 1 are continuously opened and closed for beating, so that the bean pulp can be fully beaten, meanwhile, the motor II 2-3 is started to drive the gear ring 2 to rotate through the gears 2-4, and the gear ring 2 drives the two clamping plates 1 to do circular motion, make 1 limit of two splint beat simultaneously the limit rotatory round the gauze to bean dregs to in the gauze carry out comprehensive abundant the beating in the circumferencial direction, the powder of beating the production passes through the filtration discharge of gauze, makes and has realized the filtration when beating bean dregs, has carried out the screening to protein concentrate and has filtered out.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 8, and the soy protein concentration device further includes a cross frame 2 to 5, a screw 2 to 6, and a slider 1 to 9, the cross frame 2 to 5 is fixedly connected to the edge of the gear ring 2, the slider 1 to 9 is slidably connected to the cross frame 2 to 5, the slider 1 to 9 is fixedly connected to the lower end of the shaft frame 1 to 3, the slider 1 to 9 is in threaded connection with the screw 2 to 6, and the screw 2 to 6 is rotatably connected to the cross frame 2 to 5. The screw rods 2-6 are rotated to drive the sliding blocks 1-9 to move back and forth, and the positions of the sliding blocks 1-9 on the cross frames 2-5 are changed, so that the positions of the two clamping plates 1 are changed, and bean pulp with different weight in the gauze can be beaten.

The third concrete implementation mode:

referring to fig. 1 to 8, the present embodiment will be described, wherein the soy protein concentrating apparatus further comprises a plurality of horizontal grooves 1 to 10 formed in the two clamping plates 1, and a roller 3 disposed in each of the plurality of grooves 1 to 10. The equal protrusion of a plurality of gyro wheels 3 sets up in the rear end face of splint 1 for the rear end face of splint 1 has a plurality of archs, thereby can increase the intensity of beating of two splint 1 to the dregs of beans.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-8, the soybean protein concentrating apparatus further includes column grooves 1-11, a wheel shaft 3-1, a shaft plate 3-2, a second screw rod 3-3 and a third motor 3-4, and two clamping plates 1 are respectively provided with a vertical column groove 1-11; the column grooves 1-11 are communicated with the wheel grooves 1-10; two wheel shafts 3-1 are respectively connected in the two column grooves 1-11 in a sliding manner, the two wheel shafts 3-1 are respectively connected on two shaft plates 3-2 in a rotating manner, the two shaft plates 3-2 are respectively connected on two lead screws 3-3 in a threaded manner, the two lead screws 3-3 are respectively fixedly connected at the output ends of two motors three 3-4, and the two motors three 3-4 are respectively fixedly connected on the two clamping plates 1; the two wheel shafts 3-1 are respectively fixedly connected with a plurality of rollers 3, and the rollers 3 are respectively positioned in the wheel grooves 1-10. When the motor III 3-4 is started, the shaft plate 3-2 is driven to reciprocate through the lead screw II 3-3, the shaft plate 3-2 drives the wheel shaft 3-1 and the rollers 3 to reciprocate, and when the rollers 3 are in contact with the gauze, the rollers 3 roll on the gauze to roll the bean pulp, so that the bean pulp in the gauze is further crushed.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 8, the soy protein concentration apparatus further includes a barrel base 4, U-shaped frames 4-1, a bottom plate 4-2, a right frame 4-3, a screw rod three 4-4, a motor four 4-5, an external thread barrel 5, a thread ring 5-1 and a rear frame 5-3, the barrel base 4 is fixedly connected to the middle of the two U-shaped frames 4-1, the bottom plate 4-2 is slidably connected to the right end between the two U-shaped frames 4-1, the right frame 4-3 is fixedly connected to the right end of the bottom plate 4-2, the right frame 4-3 is in threaded connection with the screw rod three 4-4, the screw rod three 4-4 is fixedly connected to an output shaft of the motor four 4-5, the motor four 4-5 is fixedly connected to the barrel base 4, the external thread barrel 5 is arranged on the rear frame 5-3, the rear frame 5-3 is fixedly connected to the U-shaped frame 4-1 at the rear end, and the upper end of the external thread cylinder 5 is in threaded connection with the threaded ring 5-1; two ends of the U-shaped frame 4-1 are respectively fixedly connected to the bottom plate through a long plate; the two shifting forks 2-2 are also fixedly connected on the bottom plate. At first, the gauze is laid at the upper end of the cylinder base 4, the motor four 4-5 is started to drive the right side frame 4-3 and the bottom plate 4-2 to move leftwards through the lead screw three 4-4, the bottom plate 4-2 moves to the lower end of the cylinder base 4, the lower end of the cylinder base 4 is closed, bean pulp is put into the gauze, the bean pulp falls into the cylinder base 4, the threaded ring 5-1 is screwed down, the end part of the gauze is lifted up to penetrate through the external threaded cylinder 5 from bottom to top, the upper end of the gauze is folded outwards to be attached to the outer circumferential end face of the external threaded cylinder 5, the upper end of the gauze is fixed by screwing the threaded ring 5-1, the bean pulp is put into the gauze and is wrapped by the gauze, and after the bottom plate 4-2 moves rightwards, the bean pulp in the gauze falls into the space between the two clamping plates 1 under the action of gravity to beat; after hammering, bean pulp is pulled into the barrel seat 4, the bottom plate 4-2 is moved to the lower end of the barrel seat 4, the threaded ring 5-1 is screwed down, one corner of the gauze is pulled to draw out the gauze, the bean pulp falls into the barrel seat 4, water is added into the barrel seat 4 to mix the bean pulp and solidify the bean pulp into a column shape, and residual bean pulp remainders after hammering are condensed together to form a bean pulp block, so that subsequent processing and discharging are facilitated.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-8, the soy protein concentrating device further comprises a motor five 4-6, a screw rod four 4-7, a left side frame 4-8, a frosted filter disc 4-9, a bottom plate 5-2, an oil cylinder one 5-4, an inserted column 6, a top plate 6-1, an oil cylinder two 6-2, a sliding plate 6-3, an oil cylinder three 6-4, a motor six 6-5 and a disc 6-6, the motor five 4-6 is fixedly connected to one U-shaped frame 4-1, an output shaft of the motor five 4-6 is fixedly connected with the screw rod four 4-7, the screw rod four 4-7 is in threaded connection with the left side frame 4-8, the left side frame 4-8 is fixedly connected to the outer end of the frosted filter disc 4-9, the frosted filter disc 4-9 is fixedly connected to the left end between the two U-shaped frames 4-1, the external thread cylinder 5 is fixedly connected to the bottom plate 5-2, the bottom plate 5-2 and the top plate 6-1 are both connected to the frame 5-3 in a sliding mode, the frame 5-3 is fixedly connected with the first oil cylinder 5-4 and the second oil cylinder 6-2, and the telescopic end of the first oil cylinder 5-4 is fixedly connected to the bottom plate 5-2; the telescopic end of the second oil cylinder 6-2 is fixedly connected with a top plate 6-1, a sliding plate 6-3 is slidably connected onto the top plate 6-1, the third oil cylinder 6-4 is fixedly connected onto the top plate 6-1, the telescopic end of the third oil cylinder 6-4 is fixedly connected with the sliding plate 6-3, the sixth motor 6-5 is fixedly connected onto the sliding plate 6-3, the output shaft of the sixth motor 6-5 is fixedly connected with a disc 6-6, and the lower end of the disc 6-6 is fixedly connected with a plurality of inserting columns 6. When the bottom plate 4-2 moves rightwards, the motor five 4-6 is started to drive the left frame 4-8 and the frosted filter disc 4-9 to move rightwards through the screw rod four 4-7, the frosted filter disc 4-9 moves to the lower end of the bean pulp block, the oil cylinder one 5-4 is started to drive the 5 to move backwards, the oil cylinder two 6-2 is started to drive the insert column 6 to move to the upper end of the bean pulp block through the top plate 6-1, the oil cylinder three 6-4 is started to drive the plurality of insert columns 6 to move downwards to be inserted into the upper end of the bean pulp block, the motor six 6-5 is started to drive the disc 6-6 to rotate, the disc 6-6 drives the bean pulp block to rotate through the plurality of insert columns 6, the bean pulp block is in contact with the frosted filter disc 4-9, the bean pulp block is ground into fine powder, the insert column 6 and the bean pulp block are driven to move downwards through the oil cylinder three 6-4, until all the soybean meal blocks are ground, so that the soybean meal residual material after primary beating and screening is subjected to secondary processing to obtain a finer protein concentrate.

The seventh embodiment:

the present embodiment will be described with reference to fig. 1 to 8, wherein the soy protein concentration device further comprises heating plates 4 to 10, and the heating plates 4 to 10 are fixedly connected to the barrel base 4. So that the bean pulp blocks are dried and shaped more quickly.

The specific implementation mode is eight:

the present embodiment will be described with reference to fig. 1 to 8, and the soy protein concentration device further includes two cassette holders 2 to 7 and two cassette holders 2 to 8, wherein the two cassette holders 2 to 7 are disposed on the two cassette holders 2 to 8, and the two cassette holders 2 to 8 are respectively and fixedly connected to the two shift forks 2 to 2. The protein concentrate that is sieved falls into the box shelves 2-8 to be collected.

The working principle of the soybean protein concentrating device of the invention is as follows: when the device is used, bean pulp is wrapped in gauze and sealed, the gauze wrapped with the bean pulp is lifted, the bean pulp in the gauze is positioned between two clamping plates 1, a motor I1-4 is started to drive a front frame 1-6 to move back and forth through a lead screw I1-5, the front frame 1-6 drives two deflector rods 1-8 to move back and forth, the two deflector rods 1-8 slide back and forth in the two groove frames 1-1 to drive the two clamping plates 1 to rotate simultaneously, the two clamping plates 1 beat the bean pulp in the gauze continuously, because the bean pulp is positioned in the lifted state in the gauze, the bean pulp can be continuously stirred in the gauze when the two clamping plates 1 are continuously opened and closed for beating, thereby the bean pulp can be fully beaten, meanwhile, a motor II 2-3 is started to drive a gear ring 2 to rotate through gears 2-4, the gear ring 2 drives the two clamping plates 1 to do circular motion, make 1 limit of two splint beat simultaneously the limit rotatory round the gauze to bean dregs to in the gauze carry out comprehensive abundant the beating in the circumferencial direction, the powder of beating the production passes through the filtration discharge of gauze, makes and has realized the filtration when beating bean dregs, has carried out the screening to protein concentrate and has filtered out. The screw rods 2-6 are rotated to drive the sliding blocks 1-9 to move back and forth, and the positions of the sliding blocks 1-9 on the cross frames 2-5 are changed, so that the positions of the two clamping plates 1 are changed, and bean pulp with different weight in the gauze can be beaten. When the motor III 3-4 is started, the shaft plate 3-2 is driven to reciprocate through the lead screw II 3-3, the shaft plate 3-2 drives the wheel shaft 3-1 and the rollers 3 to reciprocate, and when the rollers 3 are in contact with the gauze, the rollers 3 roll on the gauze to roll the bean pulp, so that the bean pulp in the gauze is further crushed. At first, the gauze is laid at the upper end of the cylinder base 4, the motor four 4-5 is started to drive the right side frame 4-3 and the bottom plate 4-2 to move leftwards through the lead screw three 4-4, the bottom plate 4-2 moves to the lower end of the cylinder base 4, the lower end of the cylinder base 4 is closed, bean pulp is put into the gauze, the bean pulp falls into the cylinder base 4, the threaded ring 5-1 is screwed down, the end part of the gauze is lifted up to penetrate through the external threaded cylinder 5 from bottom to top, the upper end of the gauze is folded outwards to be attached to the outer circumferential end face of the external threaded cylinder 5, the upper end of the gauze is fixed by screwing the threaded ring 5-1, the bean pulp is put into the gauze and is wrapped by the gauze, and after the bottom plate 4-2 moves rightwards, the bean pulp in the gauze falls into the space between the two clamping plates 1 under the action of gravity to beat; after hammering, bean pulp is pulled into the barrel seat 4, the bottom plate 4-2 is moved to the lower end of the barrel seat 4, the threaded ring 5-1 is screwed down, one corner of the gauze is pulled to draw out the gauze, the bean pulp falls into the barrel seat 4, water is added into the barrel seat 4 to mix the bean pulp and solidify the bean pulp into a column shape, and residual bean pulp remainders after hammering are condensed together to form a bean pulp block, so that subsequent processing and discharging are facilitated. When the bottom plate 4-2 moves rightwards, the motor five 4-6 is started to drive the left frame 4-8 and the frosted filter disc 4-9 to move rightwards through the screw rod four 4-7, the frosted filter disc 4-9 moves to the lower end of the bean pulp block, the oil cylinder one 5-4 is started to drive the 5 to move backwards, the oil cylinder two 6-2 is started to drive the insert column 6 to move to the upper end of the bean pulp block through the top plate 6-1, the oil cylinder three 6-4 is started to drive the plurality of insert columns 6 to move downwards to be inserted into the upper end of the bean pulp block, the motor six 6-5 is started to drive the disc 6-6 to rotate, the disc 6-6 drives the bean pulp block to rotate through the plurality of insert columns 6, the bean pulp block is in contact with the frosted filter disc 4-9, the bean pulp block is ground into fine powder, the insert column 6 and the bean pulp block are driven to move downwards through the oil cylinder three 6-4, until all the soybean meal blocks are ground, so that the soybean meal residual material after primary beating and screening is subjected to secondary processing to obtain a finer protein concentrate.

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.