CN117696149B - Soybean grinding equipment for dairy product processing - Google Patents

Abstract

The invention discloses soybean grinding equipment for processing dairy products, and particularly relates to the technical field of dairy product grinding, wherein a guide rectangular frame is fixed at the center point position of the top end of a grinding platform, a linkage screw is rotationally connected inside the guide rectangular frame through a bearing, and a linkage turning mechanism is arranged on the outer wall of the linkage screw; the linkage direction-changing mechanism comprises a thread lantern ring which is arranged on the outer wall of the linkage screw in a threaded manner. According to the soybean milk product grinding device, the linkage turning mechanism and the grinding turning assembly are adopted to start the grinding motor to drive the linkage screw to rotate forward in the guide rectangular frame, the bottom end of the vertical sleeve joint block is contacted with the bottom end of the inner wall on the soybean carrying case, so that soybean in the soybean carrying case can be dispersed into a gap between the grinding toothed plate and the grinding toothed frame plate to move left for grinding, the grinding motor is started again to drive the linkage screw to rotate reversely, the soybean grinding mobility is greatly improved, multi-station left-right reciprocating flow grinding is realized, and the soybean milk product grinding efficiency is greatly improved.

Description

Soybean grinding equipment for dairy product processing

Technical Field

The invention relates to the technical field of dairy product grinding processing, in particular to soybean grinding equipment for dairy product processing.

Background

The soybean milk is the most common beverage in life of people, and is a milky-white to yellowish emulsion product with good extraction property after soybean is ground, and soybean is crushed and ground by grinding equipment in the grinding process to release nutrient components, so that necessary raw materials are provided for subsequent processing.

In the technology of the disclosure, the patent of Chinese patent publication No. CN211216819U discloses a soybean grinding device for producing and processing dairy products, and the soybean grinding device is matched with an impact mechanism through a second grinding mechanism, so that the effects of high grinding efficiency and good grinding effect are realized, the grinding time is greatly shortened, and the soybean can be ground completely through two grinding procedures, and the whole device is provided with only one driving motor, so that the energy consumption is greatly reduced, and the economic cost of manufacturers is reduced; the soybean grinding apparatus has the following problems;

In the grinding process of soybean, the grinding equipment needs to rotationally grind and contact the soybean during the processing, and the rotation process needs to realize rotational grinding towards a single direction to finish crushing and grinding, the direction of a soybean discharge space for single-direction contact grinding is not changed, multi-station turning grinding flow is difficult to realize, the soybean grinding discharge mobility is poor, the soybean dairy product grinding efficiency is greatly reduced, and the soybean grinding equipment for dairy product processing is needed.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides soybean grinding equipment for processing dairy products.

In order to achieve the above purpose, the present invention provides the following technical solutions: the soybean grinding equipment for processing the dairy products comprises a grinding platform, a guide rectangular frame and a linkage screw rod, wherein the guide rectangular frame is fixed at the center point position of the top end of the grinding platform, the linkage screw rod is rotationally connected inside the guide rectangular frame through a bearing, and a linkage turning mechanism is arranged on the outer wall of the linkage screw rod; the linkage direction changing mechanism comprises a threaded lantern ring which is arranged on the outer wall of the linkage screw in a threaded manner;

The top end of the guide rectangular frame is fixedly connected with a grinding motor for driving the linkage screw rod to rotate, and the output end of the grinding motor is in concentric transmission connection with the top end of the linkage screw rod; the outer wall of the threaded lantern ring is provided with a plurality of concave supporting blocks which are distributed at equal intervals in a circular ring, the inner wall of each concave supporting block is welded with a supporting rotating shaft, the outer wall of each supporting rotating shaft is provided with a hinged loop bar, the inner wall of each hinged loop bar is provided with a connecting shaft rod close to the bottom end position of the hinged loop bar, and one end part of each connecting shaft rod is fixedly connected with a concave connecting block; the bottom of spill connecting block is installed and is ground the diversion subassembly, the vertical sliding connection of screw thread lantern ring inner wall and direction rectangular frame outer wall, the outer wall of direction rectangular frame is polished the processing of polishing, connect the axostylus axostyle and support and all rotate with articulated loop bar between being connected, articulated loop bar rotates with spill supporting shoe and spill connecting block inner wall respectively and is connected.

Preferably, the grinding direction-changing assembly comprises a rectangular frame plate fixedly arranged at the bottom end of the concave connecting block, a sleeve-joint sliding block and a guide sliding rod are sequentially arranged in the rectangular frame plate from outside to inside, the guide sliding rod and the rectangular frame plate are fixedly welded, one side of the bottom end of the sleeve-joint sliding block is fixedly connected with a vertical sleeve-joint block, the inner wall of the vertical sleeve-joint block penetrates through a guide vertical rod in sliding connection, and a soybean container is welded at the bottom end of the guide vertical rod; the bottom end of the soybean holding box is integrally formed with a grinding tooth frame plate through die casting, the bottom end of the grinding tooth frame plate is sequentially and fixedly connected with a plurality of grinding upper teeth from left to right, the grinding tooth plate is arranged below the grinding upper teeth, the top end of the grinding tooth plate is sequentially and fixedly connected with a plurality of grinding lower teeth from right to left, the grinding lower teeth and the grinding upper teeth are used for grinding broken soybeans, a discharge hole for discharging soybean slurry is formed between two adjacent grinding lower teeth, a material pouring box is welded on the outer wall of the grinding toothed plate, and two discharge baffles are fixedly connected to the bottom end of the material pouring box; one side of the outer wall of the pouring box is provided with a vertical direction changing component, one end part of the guide sliding rod penetrates through the sleeve connecting sliding block, and the sleeve connecting sliding block is respectively connected with the guide sliding rod and the rectangular frame plate in a horizontal sliding manner; the concave connecting blocks and the rectangular frame plates are in sliding connection with the soybean containing boxes, a supporting column and a mounting chassis are sequentially arranged below the grinding platform from top to bottom, inclined brackets fixedly connected with the mounting chassis are arranged on two sides of the supporting column, and a discharge inclined plate is welded at the top end of each inclined bracket; the support columns are integrally formed with the mounting chassis and the grinding platform through die casting respectively.

According to the technical scheme, when grinding is used, the grinding motor drives the linkage screw rod to positively rotate in the guide moment frame, the threaded lantern ring vertically slides downwards along the guide moment frame under the action of threads, the concave supporting block drives the supporting rotating shaft to enable the hinged sleeve rod to downwards move, the bottom of the hinged sleeve rod simultaneously carries the connecting shaft rod to enable the concave connecting block to downwards move, the concave connecting block drives the rectangular frame plate to downwards move, the guide sliding rod enables the sleeving sliding block to downwards move, the sleeving sliding block can enable the vertical sleeving block to downwards move along the guide vertical rod, when the bottom end of the vertical sleeving block contacts with the bottom end of the inner wall on the soybean container, the vertical sleeving block can be enabled to extrude the guide vertical rod, the soybean container drives the grinding toothed frame plate to enable the grinding upper teeth to leftwards move, the grinding toothed frame plate enables a plurality of grinding upper teeth to leftwards move with the grinding lower teeth to realize left-moving crushing grinding, and then the controller drives the grinding motor to drive the linkage screw rod to reversely rotate, and the soybean container can continuously drive the grinding upper teeth to rightwards move to grind.

Preferably, the vertical direction changing assembly comprises a controller arranged on one side of the outer wall of the pouring box; the automatic feeding device is characterized in that two vertical guide plates fixedly connected with the pouring box are arranged above the controller, two connecting support blocks are welded at the top end of one of the vertical guide plates, and transverse guide plates are fixedly connected at the top end of each connecting support block; the inner wall of the transverse guide plate is provided with a transverse direction changing component; the soybean bearing box comprises a soybean bearing box body, and is characterized in that sliding support posts are welded at the front and rear sides of the soybean bearing box body, sliding sleeves are connected to the outer walls of the sliding support posts in a sliding mode, limiting rings fixedly connected with the sliding sleeves are arranged at the front and rear sides of the vertical guide plates, vertical deflection grooves for guiding the sliding sleeves to reciprocate up and down are formed in the vertical guide plates, the limiting rings are symmetrically arranged relative to the vertical guide plates, the limiting rings are connected with the vertical guide plates in a sliding mode, and one ends of the sliding sleeves penetrate through the vertical guide plates and are connected in a sliding mode.

According to the technical scheme, when the soybean containing box is used for grinding, the sliding support column is driven by the soybean containing box to move leftwards, the sliding support column drives the sliding sleeve to move leftwards along the vertical deflection groove, the sliding sleeve can realize lower and upper reciprocating deflection, the two limiting rings can slide on the vertical guide plate, the sliding sleeve drives the sliding support column to move downwards and upwards, the sliding support column drives the soybean containing box to move downwards and upwards, the guide vertical rod vertically slides along the inner wall of the vertical sleeving block, the grinding lower tooth soybean containing box can drive the L-shaped sleeving block to move vertically along the outer wall of the linkage sliding column, the soybean containing box drives the grinding tooth frame plate to enable a plurality of grinding upper teeth to move downwards and upwards, and vertical direction-changing grinding can be carried out between the grinding upper teeth and the grinding lower teeth.

Preferably, the transverse direction changing component comprises a transverse position changing groove formed in the inner wall of the transverse guide plate; the inner wall of the transverse shifting groove penetrates through a linked sliding column in sliding connection, the transverse shifting groove is used for guiding the linked sliding column to reciprocate back and forth, and the top end and the bottom end of the transverse guide plate are respectively provided with a limiting slip ring fixedly connected with the outer wall of the linked sliding column; the bottom welding of linkage traveller has the cross section shape to establish to hexagonal spacing branch ring, the outer wall of linkage traveller just is located spacing branch ring top position and is connected with L shape cover joint block, the equal fixedly connected with in top bottom of L shape cover joint block connects the sliding ring, two connect the sliding ring inner wall all with the vertical sliding connection of linkage traveller outer wall, pass through bolt fixed connection between L shape cover joint block and the soybean carrier box, two spacing sliding ring sets up with transverse guide plate symmetry, and two spacing sliding ring all with transverse guide plate horizontal sliding connection, L shape cover joint block and vertical sliding connection are run through to the bottom of linkage traveller.

According to the technical scheme, when the soybean containing box is ground and used, the L-shaped sleeving blocks are driven to move leftwards, the two connecting sliding rings enable the linkage sliding columns to move leftwards, the linkage sliding columns drive the two limiting sliding rings to slide on the transverse guide plates, the linkage sliding columns continue to move backwards after moving forwards in the transverse shifting grooves, the L-shaped sleeving blocks enable the two connecting sliding rings to reciprocate forwards and backwards, the soybean containing box drives the sliding support to reciprocate forwards and backwards in the sliding sleeve, the sleeving sliding blocks can reciprocate forwards and backwards along the outer walls of the guide sliding rods, the soybean containing box drives the plurality of grinding upper teeth to reciprocate forwards and backwards, the grinding upper teeth can reciprocate forwards and backwards with the grinding toothed plates, ground soybean milk is discharged to the top end of the discharging inclined plates along the discharging holes, and the ground soybean milk is limited to be discharged downwards through the two discharging baffles.

The invention has the technical effects and advantages that:

According to the soybean milk grinder, the linkage turning mechanism and the grinding turning assembly are adopted to start the grinding motor to drive the linkage screw to rotate forward in the guide rectangular frame, the three concave supporting blocks synchronously move downwards, the bottom of the hinged sleeve rod simultaneously carries the connecting shaft rod to enable the concave connecting block to move downwards, the bottom end of the vertical sleeve block contacts the bottom end of the inner wall on the soybean carrying case, so that soybean in the soybean carrying case can be dispersed into a gap between the grinding toothed plate and the grinding toothed frame plate to move left for grinding, the grinding motor is started to drive the linkage screw to rotate reversely, the grinding toothed plate and the grinding toothed frame plate can move right for grinding the soybean, the left and right reciprocating turning grinding of the soybean can be realized by multiple stations, the discharge space orientation is changed, the soybean grinding fluidity is greatly improved, the left and right reciprocating flow grinding of multiple stations is realized, and the soybean milk product grinding efficiency is greatly improved;

According to the soybean grinding device, when the soybean carrying case can reciprocate left and right through the vertical direction changing assembly, the sliding support column drives the sliding sleeve to move leftwards along the vertical deflection groove, the sliding sleeve can realize reciprocating deflection downwards and upwards, the sliding sleeve drives the two limiting rings to slide on the vertical guide plates, the sliding support column drives the soybean carrying case to reciprocate upwards and downwards, the soybean carrying case drives the grinding toothed frame plate to reciprocate downwards and upwards, so that reciprocating direction changing grinding of soybean downwards and upwards can be synchronously realized, the grinding vertical grinding mobility of soybean is effectively improved, and the grinding efficiency of soybean dairy products is greatly improved;

according to the soybean milk grinder, when the soybean holding box moves left and right in a reciprocating manner by utilizing the transverse direction changing assembly, the soybean holding box drives the L-shaped sleeving blocks to move left, the linkage slide column drives the two limiting slide rings to slide on the transverse guide plates, meanwhile, the linkage slide column moves forwards and backwards in the transverse position changing groove, the limiting rings drive the L-shaped sleeving blocks to enable the two connecting slide rings to move forwards and backwards in a reciprocating manner, the soybean holding box drives the plurality of upper grinding teeth to move forwards and backwards in a reciprocating manner, the upper grinding teeth can move forwards and backwards in a reciprocating manner with the grinding toothed plates to grind broken soybeans, the soybean at a plurality of stations is subjected to reciprocating direction changing grinding in a reciprocating manner in a synchronous manner, the grinding position changing space is changed, the grinding discharge mobility is greatly improved, and the grinding efficiency of soybean milk products is improved;

The soybean polishing device has the advantages that the multiple functions are mutually influenced, firstly, the soybean is subjected to left-right reciprocating direction-changing polishing through multiple stations, meanwhile, the soybean is subjected to lower-upper reciprocating direction-changing polishing through multiple stations synchronously, meanwhile, the soybean is subjected to front-back reciprocating direction-changing polishing through multiple stations synchronously, the soybean polishing flow discharging efficiency is greatly improved, and therefore the soybean dairy product polishing efficiency is greatly improved.

Drawings

Fig. 1 is a schematic diagram of the whole structure of a soybean grinding device for processing dairy products.

Fig. 2 is a schematic vertical sectional structure of a soybean grinding device for processing dairy products.

Fig. 3 is a schematic view of a vertical section cut-off partial structure of the joint of the support shaft and the hinge loop.

Fig. 4 is an enlarged schematic view of the structure of fig. 2a according to the present invention.

Fig. 5 is a schematic view of a vertical cross-section structure of a connection between a grinding toothed plate and a grinding lower tooth according to the present invention.

Fig. 6 is a schematic diagram of a front view structure of a joint between a vertical guide plate and a pouring box.

Fig. 7 is a schematic view of a truncated partial structure of a connection part of a vertical guide plate and a connection support block.

Fig. 8 is a schematic top view of the connection between the sliding pillar and the soybean containing box.

The reference numerals are: 1. a grinding platform; 2. a guide rectangular frame; 3. a linkage screw; 4. a threaded collar; 5. a grinding motor; 6. a concave support block; 7. supporting a rotating shaft; 8. a hinged loop bar; 9. a connecting shaft lever; 10. a concave connecting block; 11. a rectangular frame plate; 12. a guide slide bar; 13. sleeving a sliding block; 14. a vertical sleeve joint block; 15. a guide vertical rod; 16. a soybean containing box; 17. grinding the gear frame plate; 18. grinding the upper teeth; 19. grinding the toothed plate; 20. grinding the lower teeth; 21. a discharge hole; 22. pouring box; 23. a discharging baffle; 24. a support column; 25. installing a chassis; 26. a tilting bracket; 27. a discharge sloping plate; 28. a controller; 29. a vertical guide plate; 30. connecting the support blocks; 31. a transverse guide plate; 32. a sliding pillar; 33. a sliding sleeve; 34. a limiting ring; 35. a vertical deflection groove; 36. a transverse shifting groove; 37. a linkage slide column; 38. a limiting slip ring; 39. l-shaped sleeve joint blocks; 40. connecting a slip ring; 41. and a limit support ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

1-8, A soybean grinding device for dairy product processing is provided with a linkage turning mechanism, a grinding turning component, a vertical turning component and a horizontal turning component, wherein the arrangement of each mechanism and component can synchronously turn and grind at multiple stations, the soybean grinding flow discharging efficiency is greatly improved, therefore, the soybean grinding efficiency is greatly improved, and the specific structures of each mechanism and component are as follows:

When the device is used in the embodiment, as shown in figures 1-4, the linkage steering mechanism comprises a threaded collar 4 which is arranged on the outer wall of the linkage screw 3 in a threaded manner; the top end of the guide rectangular frame 2 is fixedly connected with a grinding motor 5 for driving the linkage screw 3 to rotate, and the output end of the grinding motor 5 is in concentric transmission connection with the top end of the linkage screw 3; the outer wall of the threaded lantern ring 4 is provided with a plurality of concave supporting blocks 6 which are distributed at equal intervals in a circular ring, the inner wall of each concave supporting block 6 is welded with a supporting rotating shaft 7, the outer wall of each supporting rotating shaft 7 is provided with a hinged sleeve rod 8, the inner wall of each hinged sleeve rod 8 is provided with a connecting shaft rod 9 close to the bottom end position of the hinged sleeve rod 8, and one end part of each connecting shaft rod 9 is fixedly connected with a concave connecting block 10; the bottom end of the concave connecting block 10 is provided with a grinding direction-changing assembly.

When the grinding turning assembly is used in the embodiment, as shown in fig. 4-6, the grinding turning assembly comprises a rectangular frame plate 11 fixedly arranged at the bottom end of a concave connecting block 10, a sleeve joint sliding block 13 and a guide sliding rod 12 are sequentially arranged inside the rectangular frame plate 11 from outside to inside, the guide sliding rod 12 is fixedly welded with the rectangular frame plate 11, one side of the bottom end of the sleeve joint sliding block 13 is fixedly connected with a vertical sleeve joint block 14, the inner wall of the vertical sleeve joint block 14 penetrates through a guide vertical rod 15 in sliding connection, and a soybean containing box 16 is welded at the bottom end of the guide vertical rod 15; the bottom end of the soybean holding box 16 is integrally formed with a grinding tooth frame plate 17 through die casting, the bottom end of the grinding tooth frame plate 17 is sequentially and fixedly connected with a plurality of grinding upper teeth 18 from left to right, a grinding tooth plate 19 is arranged below the grinding upper teeth 18, the top end of the grinding tooth plate 19 is sequentially and fixedly connected with a plurality of grinding lower teeth 20 from right to left, the grinding lower teeth 20 and the grinding upper teeth 18 are used for grinding broken soybean, a discharge hole 21 for discharging soybean slurry is formed between every two adjacent grinding lower teeth 20, a pouring box 22 is welded on the outer wall of the grinding tooth plate 19, two discharge baffles 23 are fixedly connected to the bottom end of the pouring box 22, a vertical direction changing component is arranged on one side of the outer wall of the pouring box 22, one end of a guide sliding rod 12 penetrates through a sleeve sliding block 13, and the sleeve sliding block 13 is respectively connected with the guide sliding rod 12 and the rectangular frame plate 11 in a horizontal sliding manner; the concave connecting block 10 and the rectangular frame plate 11 are both in sliding connection with the soybean containing box 16;

When the soybean milk grinder is used, the concave connecting block 10 drives the rectangular frame plate 11 to move downwards, the rectangular frame plate 11 drives the guide sliding rod 12 to enable the sleeving sliding block 13 to move downwards, the sleeving sliding block 13 can enable the vertical sleeving block 14 to move downwards along the guide vertical rod 15, the vertical sleeving block 14 can enable the vertical sleeving block 14 to extrude the guide vertical rod 15, the guide vertical rod 15 drives the soybean containing box 16 to move horizontally, soybeans inside the soybean containing box 16 are dispersed into gaps between the grinding toothed plate 19 and the grinding toothed frame plate 17, meanwhile, the grinding toothed frame plate 17 enables a plurality of grinding upper teeth 18 to move left with the grinding lower teeth 20 to be crushed and ground, soybean milk is downwards discharged into a gap between two discharging baffles 23 along the pouring box 22 through the discharging holes 21, the soybean milk is limited to be discharged downwards through the two discharging baffles 23, and the soybean milk is ground in a turning mode.

When the grinding platform is used in the embodiment, as shown in fig. 1, a support column 24 and a mounting chassis 25 are sequentially arranged below the grinding platform 1 from top to bottom, two sides of the support column 24 are respectively provided with an inclined bracket 26 fixedly connected with the mounting chassis 25, and the top end of each inclined bracket 26 is welded with a discharge inclined plate 27; the support column 24 is integrally formed with the installation chassis 25 and the grinding platform 1 through die casting respectively, so that underground embedded holes can be conveniently driven into according to round holes in the installation chassis 25, the installation chassis 25 is fixedly installed by inserting expansion bolts, the installation chassis 25 can provide supporting force for the support column 24, the grinding platform 1 plays a supporting role on the guide moment frame 2, and three soybeans are placed in the three soybean holding boxes 16 to be foamed, so that the soybean holding effect is realized.

In use of this embodiment, as shown in FIGS. 6-8, the vertical direction changing assembly includes a controller 28 disposed on one side of the outer wall of the dump box 22; the upper part of the controller 28 is provided with two vertical guide plates 29 fixedly connected with the pouring box 22, two connecting support blocks 30 are welded at the top end of one of the vertical guide plates 29, and a transverse guide plate 31 is fixedly connected at the top end of the connecting support block 30; the inner wall of the transverse guide plate 31 is provided with a transverse direction changing component; the front and back of soybean holding case 16 all welds the slip pillar 32, the outer wall sliding connection of slip pillar 32 has slip sleeve 33, the front and back of vertical deflector 29 all is equipped with the spacing ring 34 with slip sleeve 33 fixed connection, vertical deflection groove 35 that is used for guiding slip sleeve 33 reciprocating motion about the inside of vertical deflector 29 is seted up, two spacing rings 34 set up about vertical deflector 29 symmetry, two spacing rings 34 all with vertical deflector 29 sliding connection, slip sleeve 33 one end runs through vertical deflector 29 and sliding connection.

When the embodiment is used, as shown in fig. 6-7, the transverse direction changing component comprises a transverse position changing groove 36 formed on the inner wall of the transverse guide plate 31; the inner wall of the transverse shifting groove 36 is penetrated by a linked sliding column 37 in sliding connection, the transverse shifting groove 36 is used for guiding the linked sliding column 37 to reciprocate back and forth, and the top and bottom ends of the transverse guide plates 31 are respectively provided with a limiting slip ring 38 fixedly connected with the outer wall of the linked sliding column 37; the bottom welding of linkage traveller 37 has the spacing branch ring 41 that the cross section shape was established to the hexagon, the outer wall of linkage traveller 37 just is located spacing branch ring 41 top position and is connected with L shape socket joint piece 39, the top bottom of L shape socket joint piece 39 is all fixedly connected with connection sliding ring 40, two connection sliding ring 40 inner walls all with the vertical sliding connection of linkage traveller 37 outer wall, pass through bolt fixed connection between L shape socket joint piece 39 and the soybean containing box 16, two spacing sliding rings 38 set up about transverse guide plate 31 symmetry, and two spacing sliding rings 38 all with transverse guide plate 31 horizontal sliding connection, the bottom of linkage traveller 37 runs through L shape socket joint piece 39 and vertical sliding connection.

The soybean grinding equipment for processing the dairy product comprises the following use method:

Firstly, when the grinding machine is used for grinding preparation, an operator places a mounting chassis 25 at the ground position of a dairy product processing factory, drives underground embedded holes according to round holes in the mounting chassis 25, inserts expansion bolts to fix the mounting chassis 25, the mounting chassis 25 can provide supporting force for a supporting column 24, the supporting column 24 provides supporting force for a grinding platform 1, meanwhile, the grinding platform 1 plays a supporting role for a guiding rectangular frame 2, and then three soybean bearing boxes 16 are internally provided with foamed soybeans, and the depth of the foamed soybeans is three quarters;

Secondly, when the multi-station synchronous grinding is performed, the grinding motor 5 is started by the controller 28 to drive the linkage screw 3 to rotate positively in the guide rectangular frame 2, the linkage screw 3 drives the thread lantern ring 4 to slide vertically downwards along the guide rectangular frame 2 under the action of threads, meanwhile, the thread lantern ring 4 can drive the three concave support blocks 6 to move downwards synchronously, the concave support blocks 6 drive the support rotating shafts 7 to enable the hinged sleeve rods 8 to move downwards, meanwhile, the hinged sleeve rods 8 rotate on the outer walls of the support rotating shafts 7 and the inner walls of the concave support blocks 6, the bottoms of the hinged sleeve rods 8 simultaneously carry the connecting shaft rods 9 to enable the concave connecting blocks 10 to move downwards, the concave connecting blocks 10 drive the rectangular frame plates 11 to move downwards, the rectangular frame plates 11 drive the guide sliding rods 12 to enable the sleeving sliding blocks 13 to move downwards, the sleeving sliding blocks 13 can enable the vertical sleeving blocks 14 to move downwards along the guide vertical rods 15, when the bottom end of the vertical sleeving block 14 contacts with the bottom end of the inner wall on the soybean containing box 16, the vertical sleeving block 14 can extrude the guide vertical rod 15, the guide vertical rod 15 drives the soybean containing box 16 to horizontally move, the soybean containing box 16 drives the grinding tooth frame plate 17 to enable the grinding upper teeth 18 to move leftwards, soybean in the soybean containing box 16 is dispersed into a gap between the grinding tooth plate 19 and the grinding tooth frame plate 17, the grinding tooth frame plate 17 enables a plurality of grinding upper teeth 18 to move leftwards to be crushed and ground with the grinding lower teeth 20, the controller 28 drives the grinding motor 5 to drive the linkage screw rod 3 to reversely rotate, the linkage screw rod 3 drives the thread lantern ring 4 to continuously move upwards under the action of threads, so that the soybean containing box 16 can continuously drive the grinding upper teeth 18 to move rightwards, the grinding upper teeth 18 and the grinding tooth plate 19 move rightwards to contact to grind crushed soybean, the plurality of grinding upper teeth 18 can realize left and right reciprocating turning grinding at the top of the plurality of grinding lower teeth 20;

Meanwhile, when the soybean containing box 16 can reciprocate left and right, the soybean containing box 16 drives the sliding support columns 32 to move left, the sliding support columns 32 drive the sliding sleeves 33 to move left along the vertical deflection grooves 35, the sliding sleeves 33 can realize lower and upper reciprocating deflection, the sliding sleeves 33 drive the two limiting rings 34 to slide on the vertical guide plates 29, the sliding sleeves 33 drive the sliding support columns 32 to reciprocate downwards, the sliding support columns 32 drive the soybean containing box 16 to reciprocate upwards and downwards, the soybean containing box 16 drives the guide vertical rods 15 to vertically slide along the inner walls of the vertical sleeving blocks 14, the grinding lower teeth 20 and the soybean containing box 16 can drive the L-shaped sleeving blocks 39 to vertically move along the outer walls of the linkage sliding columns 37, the soybean containing box 16 drives the grinding tooth frame plates 17 to reciprocate downwards a plurality of grinding upper teeth 18, the grinding upper teeth 18 and the grinding lower teeth 20 can vertically reciprocate upwards and downwards, and simultaneously realize lower reciprocating movement along with the left and right reciprocating movement of the soybean containing box 16;

Meanwhile, when the soybean containing box 16 is transversely turned back and forth, the soybean containing box 16 drives the L-shaped sleeve joint block 39 to move leftwards when the soybean containing box 16 is in left and right reciprocating movement, the L-shaped sleeve joint block 39 drives the two connecting slip rings 40 to enable the linkage slip columns 37 to move leftwards, the linkage slip columns 37 drive the two limiting slip rings 38 to slide on the transverse guide plates 31, meanwhile, the linkage slip columns 37 continue to move backwards after moving forwards and backwards in the transverse shifting grooves 36, the limiting rings 34 drive the L-shaped sleeve joint block 39 to enable the two connecting slip rings 40 to reciprocate back and forth, meanwhile, the soybean containing box 16 can realize the back and forth reciprocating movement, the soybean containing box 16 drives the sliding support columns 32 to reciprocate back and forth in the sliding sleeve 33, simultaneously, the soybean bearing box 16 drives the guide vertical rod 15 to enable the vertical sleeving block 14 to drive the sleeving sliding block 13 to reciprocate back and forth, the sleeving sliding block 13 can reciprocate back and forth along the outer wall of the guide sliding rod 12, the soybean bearing box 16 drives the plurality of grinding upper teeth 18 to reciprocate back and forth, the grinding upper teeth 18 can reciprocate back and forth with the grinding toothed plate 19 to grind broken soybean, the ground soybean milk is discharged to the top end of the discharge inclined plate 27 along the discharge hole 21, the discharge baffle 23 limits the lower discharge of the soybean milk, meanwhile, the installation chassis 25 provides supporting force for the two inclined brackets 26, the inclined brackets 26 provide supporting force for the discharge inclined plate 27, and after soybean grinding is completed, the soybean milk and milk are mixed to form soybean milk to be continuously processed.

The details not described in detail in the specification belong to the prior art known to those skilled in the art, and model parameters of each electric appliance are not specifically limited, and conventional equipment is used.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (8)

1. The utility model provides a soybean grinding equipment for dairy products processing, includes grinding platform (1) and direction rectangular frame (2) and linkage screw rod (3), direction rectangular frame (2) are fixed in grinding platform (1) top centre of a circle point position, linkage screw rod (3) are rotated through the bearing and are connected inside direction rectangular frame (2), its characterized in that: the outer wall of the linkage screw (3) is provided with a linkage turning mechanism;

The linkage turning mechanism comprises a thread collar (4) which is arranged on the outer wall of the linkage screw (3) in a threaded manner;

The top end of the guide rectangular frame (2) is fixedly connected with a grinding motor (5) for driving the linkage screw (3) to rotate, and the output end of the grinding motor (5) is in concentric transmission connection with the top end of the linkage screw (3);

The outer wall of the threaded lantern ring (4) is provided with a plurality of concave supporting blocks (6) in an equidistant distribution and fixedly connected with a circular ring, the inner wall of each concave supporting block (6) is welded with a supporting rotating shaft (7), the outer wall of each supporting rotating shaft (7) is provided with a hinged sleeve rod (8), the inner wall of each hinged sleeve rod (8) is provided with a connecting shaft rod (9) close to the bottom end position of the corresponding hinged sleeve rod, and one end part of each connecting shaft rod (9) is fixedly connected with a concave connecting block (10); the utility model discloses a grinding device, including a concave connecting block (10), a grinding direction changing component is installed to the bottom of concave connecting block (10), grind direction changing component including fixed mounting rectangle framed plate (11) in concave connecting block (10) bottom rectangle framed plate's (11) inside from outside to interior is equipped with in proper order and cup joints slider (13) and direction slide bar (12), just welded fastening between direction slide bar (12) and rectangle framed plate (11), cup joint slider (13) bottom one side fixedly connected with vertical cup joint piece (14), the inner wall of vertical cup joint piece (14) runs through guiding montant (15) of sliding connection the welding of the bottom of guiding montant (15) has soybean carrier case (16), the bottom of soybean carrier case (16) has grinding tooth framed plate (17) through die-casting integrated into one piece, the bottom of grinding tooth framed plate (17) from left to right is fixedly connected with a plurality of grinding tooth (18) in proper order grind tooth plate (19) in the below of grinding tooth plate (19), the top of grinding tooth plate (19) is from right to left fixedly connected with a plurality of tooth (20) in proper order, grinding tooth (20) and grinding tooth (20) are arranged in the row of grinding tooth plate (20) and grinding tooth (20) are arranged between two adjacent soybean paste grinding material row (20), the bottom end of the material pouring box (22) is fixedly connected with two material discharging baffles (23); a vertical direction changing component is arranged on one side of the outer wall of the material pouring box (22), and the vertical direction changing component comprises a controller (28) arranged on one side of the outer wall of the material pouring box (22); the automatic feeding device is characterized in that vertical guide plates (29) fixedly connected with the pouring box (22) are arranged above the controller (28), the number of the vertical guide plates (29) is two, two connecting support blocks (30) are welded at the top end of one of the vertical guide plates (29), and transverse guide plates (31) are fixedly connected at the top ends of the connecting support blocks (30); the inner wall of the transverse guide plate (31) is provided with a transverse direction changing component; the soybean containing box is characterized in that sliding support posts (32) are welded at the front and rear sides of the soybean containing box (16), sliding sleeves (33) are connected to the outer walls of the sliding support posts (32) in a sliding mode, limiting rings (34) fixedly connected with the sliding sleeves (33) are arranged at the front and rear sides of the vertical guide plates (29), and vertical deflection grooves (35) used for guiding the sliding sleeves (33) to reciprocate up and down are formed in the vertical guide plates (29).

2. A soybean grinding apparatus for processing dairy products according to claim 1, wherein: the inner wall of the threaded collar (4) is vertically connected with the outer wall of the guide rectangular frame (2) in a sliding manner, and the outer wall of the guide rectangular frame (2) is polished.

3. A soybean grinding apparatus for processing dairy products according to claim 1, wherein: the connecting shaft rod (9) and the supporting rotating shaft (7) are both in rotary connection with the hinged sleeve rod (8), and the hinged sleeve rod (8) is respectively in rotary connection with the inner walls of the concave supporting block (6) and the concave connecting block (10).

4. A soybean grinding apparatus for processing dairy products according to claim 1, wherein: one end part of the guide slide bar (12) penetrates through the sleeve-joint slide block (13), and the sleeve-joint slide block (13) is respectively connected with the guide slide bar (12) and the rectangular frame plate (11) in a horizontal sliding manner;

The concave connecting block (10) and the rectangular frame plate (11) are both in sliding connection with the soybean containing box (16).

5. A soybean grinding apparatus for processing dairy products according to claim 1, wherein: a supporting column (24) and a mounting chassis (25) are sequentially arranged below the grinding platform (1) from top to bottom, two sides of the supporting column (24) are respectively provided with an inclined bracket (26) fixedly connected with the mounting chassis (25), and the top end of each inclined bracket (26) is welded with a discharge inclined plate (27);

The support columns (24) are integrally formed with the mounting chassis (25) and the grinding platform (1) through die casting.

6. A soybean grinding apparatus for processing dairy products according to claim 1, wherein: the two limiting rings (34) are symmetrically arranged about the vertical guide plate (29), the two limiting rings (34) are both in sliding connection with the vertical guide plate (29), and one end of the sliding sleeve (33) penetrates through the vertical guide plate (29) and is in sliding connection.

7. A soybean grinding apparatus for processing dairy products according to claim 1, wherein: the transverse direction changing component comprises a transverse position changing groove (36) formed in the inner wall of the transverse guide plate (31);

The inner wall of the transverse shifting groove (36) is penetrated by a linkage slide column (37) in sliding connection, the transverse shifting groove (36) is used for guiding the linkage slide column (37) to reciprocate back and forth, and the top and bottom ends of the transverse guide plates (31) are respectively provided with a limiting slip ring (38) fixedly connected with the outer wall of the linkage slide column (37);

The bottom welding of linkage traveller (37) has cross section shape to establish into spacing branch ring (41) of hexagon, the outer wall of linkage traveller (37) just is located spacing branch ring (41) top position and is connected with L shape bridging piece (39), the equal fixedly connected with in top bottom of L shape bridging piece (39) is connected sliding ring (40), two connect sliding ring (40) inner wall all with the vertical sliding connection of linkage traveller (37) outer wall, pass through bolt fixed connection between L shape bridging piece (39) and soybean containing box (16).

8. The soybean grinding apparatus for processing dairy products according to claim 7, wherein: the two limiting slip rings (38) are symmetrically arranged relative to the transverse guide plate (31), the two limiting slip rings (38) are horizontally and slidably connected with the transverse guide plate (31), and the bottom ends of the linkage sliding columns (37) penetrate through the L-shaped sleeve joint blocks (39) and are vertically and slidably connected.