JP2020065529A - Closed filtration device - Google Patents

Abstract

To provide closed filtration devices.SOLUTION: The present invention comprises: a main body; a first cavity installed in the body; a first rotating shaft extending in the left and right direction and rotatably installed in the first cavity; a left end of the first rotating shaft connected with a motor installed in the left end wall of the first cavity by a power; a first slide block installed slidably in the first cavity; a second cavity installed in the first slide block; and a spline sleeve rotatably installed in the second cavity, the spline sleeve and the first rotating shaft being connected by a power through a spline, and the device of the present invention being more rational and sophisticated in overall structure, being easy to install, maintain and repair, and also having high reliability of a function.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of food filtration, and more specifically a closed filtration device.

Soymilk contains various nutrients and is a very healthy nutritional drink, but in the process of producing soymilk, okara is always present, affecting the taste of soymilk, thus filtering soymilk, You have to remove the okara from the soy milk, improve the taste of the soy milk,
In the process of filtering the okara, artificial work is required, the polished soy milk is transported back and forth, and the okara is often discarded as a waste, which is not only low in efficiency but also the production effect of the factory. Profit also declined,
Therefore, there is a need to further improve the filtration device in the existing technology, and increase the efficiency of the filtration device.

Chinese Patent Application Publication No. 103191644

The object of the present invention is to provide a closed filtration device, which can solve the above problems in the state of the art.

The present invention is realized through the following technical plan: The closed filtration device according to the present invention includes a main body, a first cavity is installed in the main body, and the first cavity extends left and right in the first cavity. The rotating shaft is rotatably installed, and the left end of the first rotating shaft is power-connected to a motor installed in the left end wall of the first cavity. A slide block is slidably installed, a second cavity is installed in the first slide block, and a spline sleeve is rotatably installed in the second cavity. One rotation shaft is connected by a power by a spline, and a first bevel gear is fixedly mounted on the outer surface of the spline sleeve in the second cavity. A second rotary shaft extending vertically is installed between the first cavity and the second cavity so as to be rotatable, and the second rotary shaft in the second cavity is provided with the first rotary shaft at a bottom end thereof. A second bevel gear that meshes with one bevel gear is fixed, a first gear is fixed at the top end of the second rotating shaft in the first cavity, and a top end wall of the first cavity is fixed. A third cavity is installed therein, and a third rotation shaft extending vertically is installed between the third cavity and the first cavity so as to be rotatable, and the third cavity is installed in the first cavity. A second gear that meshes with the first gear is fixed to the bottom end of the three rotating shafts, and a third bevel gear is fixed to the top end of the third rotating shaft in the third cavity. A fourth rotation that extends back and forth in the third cavity Is rotatably installed, a fourth bevel gear meshing with the third bevel gear is fixedly provided at a rear end of the fourth rotating shaft, and a fifth bevel gear is provided at a front end of the fourth rotating shaft. Is fixed, a polishing cavity is installed in the top end wall of the third cavity, and a fifth rotating shaft extending vertically is installed between the third cavity and the polishing cavity so as to be rotatable. A sixth bevel gear that meshes with the fifth bevel gear is fixedly provided at the bottom end of the fifth rotating shaft in the third cavity, and between the third cavity and the polishing cavity. A sixth rotating shaft extending vertically is rotatably installed, and a seventh bevel gear meshing with the fifth bevel gear is fixedly installed at a bottom end of the sixth rotating shaft in the third cavity. The top end of the sixth rotating shaft in the polishing cavity A lower polishing knife is fixedly mounted, an upper polishing knife is fixedly mounted on the top end of the fifth rotating shaft in the polishing cavity, and a fourth cavity is mounted in the top end wall of the first cavity. Is installed between the first cavity and the fourth cavity so that a seventh rotating shaft extending vertically can be rotated, and a bottom end of the seventh rotating shaft in the first cavity is installed. A third gear that is separated from the engagement with the first gear is fixed to the fourth gear, and an eighth bevel gear is fixed to the top end of the seventh rotating shaft in the fourth cavity. An eighth rotating shaft extending back and forth is installed in the cavity so as to be rotatable, and a ninth bevel gear that meshes with the eighth bevel gear is fixedly installed at a rear end of the eighth rotating shaft. The front end of the eighth rotating shaft is in the front end wall of the fourth cavity. A power supply is connected to a provided pump, a deposit cavity is installed in the right end wall of the fourth cavity, and a first pipe line is installed between the polishing cavity and the pump. A second conduit is installed between the depositing cavity, a fourth gear is fixed at the right end of the first rotating shaft, and a ninth rotating shaft extending left and right in the first cavity. Is installed so that it can rotate, a ring gear is fixedly installed at the left end of the ninth rotating shaft, and a fifth gear is transmission-installed between the ring gear and the fourth gear. A tenth bevel gear is fixedly installed at the right end, and a tenth rotating shaft extending vertically is installed between the first cavity and the fourth cavity so as to be rotatable. There is a front at the bottom end of the tenth rotating shaft An eleventh bevel gear that meshes with a tenth bevel gear is fixed, and a twelfth bevel gear is fixed at the top end of the tenth rotating shaft in the fourth cavity, and the fourth cavity of the fourth cavity is fixed. An eleventh rotating shaft extending in the left and right is installed so as to be rotatable, and an outer surface of the eleventh rotating shaft is fixedly provided with a thirteenth bevel gear that meshes with the twelfth bevel gear. A fourteenth bevel gear is fixedly installed at a right end of the eleventh rotation shaft, a fifth cavity is installed in a bottom end wall of the fourth cavity, and the fourth cavity and the fifth cavity are installed. A twelfth rotating shaft extending vertically is rotatably installed between the four cavities, and a top end of the twelfth rotating shaft in the fourth cavity is engaged with the fourteenth bevel gear. A fifteen bevel gear is fixedly mounted, and the bottom end of the twelfth rotating shaft in the fifth cavity is A sixteenth bevel gear is fixedly installed, a thirteenth rotation shaft extending in the front and rear direction is rotatably installed in the fifth cavity, and the tenth rotation shaft is provided at a rear end of the thirteenth rotation shaft. A seventeen bevel gear that meshes with a six bevel gear is fixed, a rotating plate is fixed at the front end of the thirteenth rotating shaft, and a filtration cavity is installed in the right end wall of the fifth cavity. A third conduit is installed between the filtration cavity and the deposit cavity, a filtration block is installed in the filtration cavity so as to be slidable left and right, and a left and right sides are installed in the filtration cavity. Sliding bezels are installed symmetrically, a first spring is elastically mounted between the left end wall of the bezel and the left end wall of the filtration cavity, and between the filtration cavity and the fifth cavity. A first series of connecting rods is installed, The left end of the connecting rod is fixedly connected to the right end wall of the filtration block, a second connecting rod is installed in the fifth cavity, and the left end of the second connecting rod is the first connecting rod. Of the second connecting rod is connected to the front end wall of the turntable by a hinge, an automatic door opening device is installed in the equipment, the device is a sliding door, Includes rack and ninth gear.

Further technical plan, the eighteenth bevel gear is fixedly installed at the left end of the eleventh rotating shaft, and the fourteenth rotating shaft extending in the front-rear direction is rotatably installed in the fourth cavity. , A nineteenth bevel gear that meshes with the eighteenth bevel gear is fixed to a rear end of the fourteenth rotation shaft, and a twenty bevel gear is fixed to a front end of the fourteenth rotation shaft. A left end of the fifteenth rotation shaft located in the fourth cavity is installed between the fourth cavity and the deposit cavity so that a fifteenth rotation shaft extending left and right can rotate. A twenty-first bevel gear meshing with the twenty-bevel gear is fixedly mounted on the outer periphery of the fifteenth rotating shaft in the deposit cavity, and a stirring blade is fixed on the outer surface of the deposit cavity. It is advantageous to ensure an even mixing of the solution of the Prevented from closing the third conduit, it enhances the utility of the equipment.

Further technical plan, a sixth gear is fixed on the outer surface of the first rotating shaft, a reciprocating lead screw is installed on the right end wall of the first slide block, and a sixth gear is installed on the outer surface of the ninth rotating shaft. A turbine is fixedly installed, a worm extending vertically is installed in the first cavity so as to be rotatable, the worm engages with the turbine, and a first pulley is fixed to a top end of the worm. A sixteenth rotating shaft extending vertically in the first cavity is rotatably installed, and a second pulley is fixedly installed at a top end of the sixteenth rotating shaft. A first belt is installed by transmission between the pulley and the first pulley, and a cam located below the second pulley is fixedly installed on the outer surface of the sixteenth rotating shaft, and the first cavity Some of the second away from engagement with the cam The ride block is installed so that it can slide, the second slide block is installed so that the seventh gear that separates from the engagement with the sixth gear can rotate, and there is a right end wall of the first cavity in the right end wall. A first slide groove is installed, a second spring is elastically provided between a left end wall of the first slide groove and a left end wall of the second slide block, and a rotating block is provided in the first cavity. Is rotatably installed, the rotating block is fixedly provided with an eighth gear separated from the engagement with the seventh gear, and the rotating block is provided with a screw thread engaging with the reciprocating lead screw. It is advantageous to control the sliding of the second slide block to the left and right, thereby controlling the sliding of the first slide block to the left and right. Controls work state of the equipment, enhancing the degree automation of the equipment.

A further technical plan, a soy milk storage cavity is installed in the bottom end wall of the filtration cavity, an Okara storage cavity is installed in the bottom end wall of the filtration cavity, the soy milk storage cavity and the filtration block. Are connected by the fourth conduit, a communication conduit is installed between the Okara storage cavity and the left side of the filtration cavity, and a communication line is installed between the Okara storage cavity and the right side of the filtration cavity. Five pipes are installed, it is advantageous to store the filtered soymilk in different areas, convenient for the next processing, and increase the production effect and profit.

Further technical plan, filters are symmetrically fixed in the left and right end walls of the filtration block, and 15 check valve blocks are symmetrically fixed in the filtration block. A communication cavity is installed in the filtration block, the communication cavity is connected to the fourth conduit, and the polished soymilk on both left and right sides of the filtration block is filtered while the filtration block slides left and right. At the same time, when filtering soymilk on one side, the filtered soymilk is prevented from entering the other side, thus increasing the working efficiency of the equipment.

Further technical plan, a second chute is installed in the top end wall of the fourth cavity, a sliding door is installed in the second chute so that it can slide to the left and right, and a right end of the sliding door. A third spring is elastically mounted between the wall and the right end wall of the second chute, a rack is fixedly mounted on the bottom end wall of the sliding door, and the seventh rotation is located in the fourth cavity. A third pulley is fixedly mounted on the outer surface of the shaft, a seventeenth rotating shaft extending vertically is rotatably installed in the fourth cavity, and a bottom end of the seventeenth rotating shaft is installed at the bottom end of the seventeenth rotating shaft. A fourth pulley is fixed, a second belt is installed by transmission between the fourth pulley and the third pulley, and a twenty-two bevel gear is fixed at the top end of the seventeenth rotating shaft. And stretched back and forth in the fourth cavity The eighteenth rotating shaft is rotatably installed, and the twenty-third bevel gear meshing with the twenty-two bevel gear is fixedly installed at the rear end of the eighteenth rotating shaft. A ninth gear that meshes with the rack is fixed to the front end of the eight-rotation shaft, and it is advantageous to automatically open the sliding door after polishing in the polishing cavity and continue adding beans. Improve the continuous working efficiency.

The beneficial effects of the present invention are as follows: the device of the present invention is more rational and sophisticated in overall structure, easy to install, maintain and repair, reliable in function, and filtered. After the two products are stored in different areas, processed separately, enhance the production effect and profit of the factory, reduce the working cost of the factory, and have the degree of highly efficient automation while the equipment is in use, It has high use and diffusion value.

In order to more clearly describe the technical solution in the embodiments of the present invention or the existing technology, a brief introduction is given below to the accompanying drawings that should be used in the description of the embodiments or the existing technology. It will be understood that the accompanying drawings in the following description are merely some embodiments of the present invention, and based on these accompanying drawings, on the assumption that ordinary engineers in this field do not pay creative labor, The attached figure can be obtained.

FIG. 1 is a schematic top view of the entire structure of the closed filtration device of the present invention; FIG. 2 is a schematic diagram of AA of FIG. 1; FIG. 3 is a schematic diagram of the configuration of BB in FIG. 1; Figure 4 is a schematic diagram of CC of Figure 2; Figure 5 is a schematic diagram of D of Figure 3; FIG. 6 is a schematic configuration diagram of the filtration block of FIG.

All features disclosed in this specification, or all disclosed methods and steps in a process, may be combined in any manner other than mutually exclusive features or steps.

All features disclosed in this invention may be replaced by alternative features having other equivalent or similar purposes, unless specifically stated otherwise. That is, unless stated otherwise, all features are just one example in a series of equivalent or similar features.

In the description of the present invention, it should be understood that “center”, “longitudinal direction”, “horizontal direction”, “length”, “width”, “thickness”, “top”, “bottom”, “front” , “Rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inside”, “outside”, “clockwise”, “counterclockwise”, etc. Is a direction or positional relationship indicated based on FIG. 1, and is only for the purpose of conveniently explaining the present invention and simplifying the description. Should not be implied or implied to be constructed and operated in a particular direction, and thus not to limit the invention.

Other than that, the terms "first" and "second" are used only for the purpose of description, and do not imply a relative importance or an implied amount of technical features indicated. Thus, features that are limited to "first" and "second" can include one or more of those features, either explicitly or implicitly. In the present description, "plurality" means two or more than one, unless expressly limited otherwise.

The present invention will be described in detail below with reference to FIGS.

As shown in FIGS. 1 to 6, the closed filtration apparatus according to the present invention includes a main body 11, a first cavity 201 is installed in the main body 11, and the first cavity 201 extends left and right. The first rotary shaft 52 is rotatably installed, and the left end of the first rotary shaft 52 is power-connected to a motor 49 installed in the left end wall of the first cavity 201, A first slide block 51 is slidably installed in 201, a second cavity 202 is installed in the first slide block 51, and a spline sleeve 50 is rotated in the second cavity 202. Installed so that the spline sleeve 50 and the first rotary shaft 52 are connected by power by a spline, the first bevel gear 48 on the outer surface of the spline sleeve 50 in the second cavity 202. Solid A second rotating shaft 46 extending vertically is installed between the first cavity 201 and the second cavity 202 so as to be rotatable, and the second rotating shaft 46 in the second cavity 202 is installed. A second bevel gear 47 that meshes with the first bevel gear 48 is fixed to the bottom end of the first bevel gear 48, and a first gear 44 is fixed to the top end of the second rotating shaft 46 in the first cavity 201. A third cavity 203 is installed in the top end wall of the first cavity 201, and a third rotating shaft 43 extending vertically is provided between the third cavity 203 and the first cavity 201. Installed so as to be rotatable, a second gear 45 that meshes with the first gear 44 is fixedly installed at the bottom end of the third rotating shaft 43 in the first cavity 201, and the third cavity 203 A third bevel gear 42 is fixedly installed at the top end of the third rotating shaft 43 inside, and A fourth rotating shaft 41 extending back and forth is installed in the cavity 203 so as to be rotatable, and a fourth bevel gear 40 meshing with the third bevel gear 42 is provided at a rear end of the fourth rotating shaft 41. The fifth bevel gear 18 is fixed at the front end of the fourth rotating shaft 41, and the polishing cavity 204 is installed in the top end wall of the third cavity 203. A fifth rotating shaft 13 extending vertically is installed between the polishing cavity 204 and the polishing cavity 204 so that the fifth rotating shaft 13 in the third cavity 203 can be rotated. A sixth bevel gear 19 that meshes with a bevel gear 18 is fixedly installed, and a sixth rotating shaft 16 extending vertically is installed between the third cavity 203 and the polishing cavity 204 so as to be rotatable. At the bottom end of the sixth rotating shaft 16 in the three cavity 203 is the fifth bevel gear 18 and The mating seventh bevel gear 17 is fixed, the lower polishing knife 15 is fixed at the top end of the sixth rotating shaft 16 in the polishing cavity 204, and the fifth polishing knife in the polishing cavity 204 is fixed. An upper polishing knife 14 is fixed to the top end of the rotary shaft 13, a fourth cavity 205 is installed in the top end wall of the first cavity 201, and the first cavity 201 and the fourth cavity 205 are A seventh rotating shaft 75 extending vertically is rotatably installed between the two, and the bottom end of the seventh rotating shaft 75 in the first cavity 201 is engaged with the first gear 44. A third gear 76 apart from is fixed, an eighth bevel gear 74 is fixed at the top end of the seventh rotating shaft 75 in the fourth cavity 205, and in the fourth cavity 205. The eighth rotary shaft 73 extending back and forth is installed so as to be rotatable, and the rear end of the eighth rotary shaft 73 is installed. A pump 33 in which a ninth bevel gear 72 meshing with the eighth bevel gear 74 is fixed to the end, and the front end of the eighth rotating shaft 73 is fixed in the front end wall of the fourth cavity 205. A power storage cavity 206 is installed in the right end wall of the fourth cavity 205, and a first conduit 12 is installed between the polishing cavity 204 and the pump 33. The second conduit 34 is installed between the 33 and the storage cavity 206, the fourth gear 54 is fixedly installed at the right end of the first rotating shaft 52, and the left and right sides are installed in the first cavity 201. The ninth rotating shaft 57 extending to the rotatably installed is rotatably mounted, a ring gear 55 is fixed at the left end of the ninth rotating shaft 57, and a fifth gear is provided between the ring gear 55 and the fourth gear 54. A gear 85 is installed by transmission, and a tenth bevel gear 59 is fixedly installed at the right end of the ninth rotating shaft 57, and the first key is installed. A tenth rotating shaft 61 extending vertically is installed between the bite 201 and the fourth cavity 205 so as to be rotatable, and at the bottom end of the tenth rotating shaft 61 in the first cavity 201. An eleventh bevel gear 60 that meshes with the tenth bevel gear 59 is fixed, and a twelfth bevel gear 69 is fixed at the top end of the tenth rotating shaft 61 in the fourth cavity 205. An eleventh rotating shaft 67 extending left and right is installed in the fourth cavity 205 so as to be rotatable, and an outer surface of the eleventh rotating shaft 67 meshes with the twelfth bevel gear 69. A thirteenth bevel gear 68 is fixed, a fourteenth bevel gear 66 is fixed at the right end of the eleventh rotating shaft 67, and a fifth cavity is provided in the bottom end wall of the fourth cavity 205. 207 is installed, and a twelfth rotating shaft 64 extending vertically is rotatable between the fourth cavity 205 and the fifth cavity 207. Is installed so that the fifteenth bevel gear 65 meshing with the fourteenth bevel gear 66 is fixedly installed at the top end of the twelfth rotating shaft 64 in the fourth cavity 205. A sixteenth bevel gear 63 is fixedly installed at the bottom end of the twelfth rotating shaft 64 in the fifth cavity 207, and a thirteenth rotating shaft 31 extending back and forth is provided in the fifth cavity 207. A rotatably installed, 17th bevel gear 62 that meshes with the 16th bevel gear 63 is fixed at the rear end of the 13th rotating shaft 31, and a front side of the 13th rotating shaft 31. A turntable 30 is fixed to the end, a filtration cavity 208 is installed in the right end wall of the fifth cavity 207, and a third pipe 32 is provided between the filtration cavity 208 and the deposit cavity 206. The filtration block 25 is installed in the filtration cavity 208 so as to be slidable from side to side. A bezel 23 that slides left and right is symmetrically installed in the cavity 208, and a first spring 22 is elastically installed between the left end wall of the bezel 23 and the left end wall of the filtration cavity 208. A first connecting rod 28 is installed between the filtering cavity 208 and the fifth cavity 207, and a left end of the connecting rod 28 is fixedly connected to a right end wall of the filtering block 25. A fifth connecting rod 29 is installed in the fifth cavity 207, the left end of the second connecting rod 29 is hingedly connected to the right end of the first connecting rod 28, and the right end of the second connecting rod 29 is connected. Is hingedly connected to the front end wall of the turntable 30 and an automatic door opening device is installed in the equipment, which includes a sliding door 301, a rack 302 and a ninth gear 303.

As an advantageous example, an eighteenth bevel gear 70 is fixed to the left end of the eleventh rotation shaft 67, and a fourteenth rotation shaft extending in the front and rear direction is provided in the fourth cavity 205. 36 is rotatably installed, and a nineteenth bevel gear 71 that meshes with the eighteenth bevel gear 70 is fixedly installed at the rear end of the fourteenth rotation shaft 36. A twenty bevel gear 35 is fixed to the front end of the, and a fifteenth rotation shaft 38 extending left and right is installed between the fourth cavity 205 and the deposit cavity 206 so as to be rotatable, and A 21st bevel gear 37 that meshes with the 20th bevel gear 35 is fixed to the left end of the 15th rotating shaft 38 in the fourth cavity 205, and is located in the deposit cavity 206. A stirring blade 39 is fixedly provided on the outer surface of the fifteenth rotating shaft 38 to ensure uniform mixing of the solution in the deposit cavity 206. This is advantageous, and at the same time prevents the precipitation of impurities in the solution from blocking the third conduit 32, thereby enhancing the practicality of the equipment.

As an advantageous and example, a sixth gear 53 is fixedly mounted on the outer surface of the first rotary shaft 52, and a reciprocating lead screw 79 is mounted on the right end wall of the first slide block 51. A turbine 56 is fixedly mounted on the outer surface of the ninth rotating shaft 57, and a worm 58 extending vertically is rotatably installed in the first cavity 201, and the worm 58 engages with the turbine 56. A first pulley 86 is fixed to the top end of the worm 58, and a sixteenth rotating shaft 84 extending vertically is installed in the first cavity 201 so as to be rotatable. A second pulley 88 is fixedly installed at the top end of the rotating shaft 84, and a first belt 87 is installed between the second pulley 88 and the first pulley 86 by transmission, and the sixteenth rotating shaft 84 A cam 83 located below the second pulley 88 is fixedly mounted on the outer surface of the first cavity. In the 201, a second slide block 82 which is separated from the engagement with the cam 83 is slidably installed, and a seventh gear which is separated from the engagement with the sixth gear 53 is provided on the second slide block 82. 80 is rotatably installed, a first slide groove 89 is installed in the right end wall of the first cavity 201, the left end wall of the first slide groove 89 and the left side of the second slide block 82. A second spring 90 is elastically provided between the end wall and a rotary block 78 in the first cavity 201 such that the rotary block 78 can rotate, and the rotary block 78 is engaged with the seventh gear 80. The eighth gear 77 which is separated from the joint is fixed, the screw thread 81 which engages with the reciprocating lead screw 79 is fixed in the rotation block 78, and the second slide block 82 slides left and right. Control, and thereby the first slide block It is advantageous to control that the rack 51 slides to the left and right, which controls the working state of the equipment and enhances the degree of automation of the equipment.

As a beneficial and example, a soy milk storage cavity 209 is installed in the bottom end wall of the filtration cavity 208 and an okara storage cavity 210 is installed in the bottom end wall of the filtration cavity 208. The soybean milk storage cavity 209 and the filtration block 25 are connected by the fourth pipe line 26, and a communication pipe line 24 is installed between the Okara storage cavity 210 and the left side of the filtration cavity 208. A fifth conduit 27 is installed between the storage cavity 210 and the right side of the filtration cavity 208, which is advantageous for storing the filtered soymilk in different areas, convenient for the next process, and effective in producing. And increase profits.

As a useful and example, filters 251 are symmetrically fixed in the left and right end walls of the filtration block 25, and there are fifteen check valve blocks 252 in the filtration block 25. Symmetrically fixed, a communication cavity 253 is installed in the filtration block 25, the communication cavity 253 is connected to the fourth conduit 26, and the filtration block 25 slides left and right while the filtration block is slid. It is advantageous to filter the polished soymilk on both the left and right sides of 25, and at the same time, when filtering the soymilk on one side, avoid the filtered soymilk from entering the other side, Improve the work efficiency of the equipment.

As an informative example, a second chute 306 is installed in the top end wall of the fourth cavity 205, and a sliding door 301 is installed in the second chute 306 so that the sliding door 301 can slide left and right. A third spring 305 is elastically mounted between the right end wall of the sliding door 301 and the right end wall of the second chute 306, and a rack 302 is fixedly mounted on the bottom end wall of the sliding door 301. A third pulley 309 is fixedly provided on the outer surface of the seventh rotary shaft 75 in the fourth cavity 205, and a seventeenth rotary shaft 310 extending vertically is provided in the fourth cavity 205. A fourth pulley 307 is fixedly installed at the bottom end of the seventeenth rotating shaft 310, and the second belt 308 is transmitted between the fourth pulley 307 and the third pulley 309. It is installed and has a twenty-two umbrella tooth at the top end of the seventeenth rotating shaft 310. 311 is fixedly installed, the eighteenth rotation shaft 304 extending in the front and rear direction is rotatably installed in the fourth cavity 205, and the twenty-first rotation shaft 304 is provided at the rear end of the twenty-sixth rotation shaft 304. A second bevel gear 312 that meshes with the second bevel gear 311 is fixedly installed, and a ninth gear 303 that meshes with the rack 302 is fixedly installed at the front end of the eighteenth rotating shaft 304, and the polishing cavity 204 It is advantageous to automatically open the sliding door 301 and continue to add the beans after polishing with (1), and enhance the continuous working efficiency of the equipment.

In the initial state of the equipment of the present invention, the first slide block 51 is located to the maximum left of the first cavity 201, the first gear 44 meshes with the second gear 45, the cam 83 is the Disengaged from engagement with the second slide block 82, the seventh gear 80 disengaged from engagement with the sixth gear 53 and the eighth gear 77, and the filtration block 25 maximizes right side of the filtration cavity 208. Located in;

When using the equipment of the present invention, the motor 49 is started, the motor 49 drives and rotates the first rotating shaft 52, the first rotating shaft 52 drives and rotates the spline sleeve 50, The spline sleeve 50 drives and rotates the first bevel gear 48, the first bevel gear 48 drives and rotates the second bevel gear 47, and the second bevel gear 47 drives the second gear 45. The second bevel gear 45 drives and rotates the third bevel gear 42, the third bevel gear 42 drives and rotates the fourth bevel gear 40, and the fourth bevel gear 40 rotates the fifth bevel gear 40. Driving and rotating a bevel gear 18, the fifth bevel gear 18 drives and rotates the seventh bevel gear 17, the seventh bevel gear 17 drives and rotates the lower polishing knife 15, and the fifth bevel The gear 18 drives and rotates the sixth bevel gear 19, and the sixth bevel gear 19 drives and rotates the upper polishing knife 14. The beans in the polishing cavity 204 are sufficiently polished, and at the same time, the first rotating shaft 52 drives and rotates the fourth gear 54, and the fourth gear 54 drives the ring gear 55. The ring gear 55 drives and rotates the ninth rotating shaft 57, the ninth rotating shaft 57 drives and rotates the turbine 56, the turbine 56 drives and rotates the worm 58, and the worm rotates. 58 drives and rotates the first pulley 86, the first pulley 86 drives and rotates the second pulley 88, the second pulley 88 drives and rotates the cam 83, and When the beans inside are completely polished, the cam 83 engages with the second slide block 82, the cam 83 drives the second slide block 82 to slide to the left, and the second slide The block 82 drives the seventh gear 80. Then, the seventh gear 80 meshes with the sixth gear 53 and the eighth gear 77, and the first rotary shaft 52 drives and rotates the sixth gear 53 to rotate the sixth gear 53. Drives and rotates the seventh gear 80, the seventh gear 80 drives and rotates the eighth gear 77, the eighth gear 77 drives and rotates the rotation block 78, the rotation block 78 is When the first slide block 51 is driven and slid to the right, the first gear 44 moves away from the engagement with the second gear 45, and the first gear 44 meshes with the third gear 76, the cam 83 Is separated from the engagement with the second slide block 82, the second slide block 82 slides to the left, the seventh gear 80 is separated from the engagement with the sixth gear 53 and the eighth gear 77, The first gear 44 drives and rotates the seventh rotating shaft 75, and the seventh rotating shaft 75 causes the eighth rotating shaft 75 to rotate. The gear 74 is driven and rotated, the eighth bevel gear 74 drives and rotates the ninth bevel gear 72, the ninth bevel gear 72 drives the pump 33 to start operation, and the pump 33 is the The polished soy milk in the polishing cavity 204 is transported into the depositing cavity 206 via the first conduit 12 and the second conduit 34, and at the same time, the ninth rotating shaft 57 is The tenth bevel gear 59 is driven and rotated, the tenth bevel gear 59 drives and rotates the eleventh bevel gear 60, and the eleventh bevel gear 60 drives and rotates the twelfth bevel gear 69. Then, the twelfth bevel gear 69 drives and rotates the thirteenth bevel gear 68, the thirteenth bevel gear 68 drives and rotates the eleventh rotation shaft 67, and the eleventh rotation shaft. 67 drives and rotates the eighteenth bevel gear 70, the eighteenth bevel gear 70 drives and rotates the nineteenth bevel gear 71, and the nineteenth bevel gear The car 71 drives and rotates the twenty bevel gear 35, the twenty bevel gear 35 drives and rotates the twenty one bevel gear 37, and the twenty one bevel gear 37 causes the tenth bevel gear 37 to rotate. The five rotary shaft 38 is driven and rotated, the fifteenth rotary shaft 38 drives and rotates the stirring blade 39, and the stirring blade 39 ensures that the soymilk in the deposit cavity 206 is always uniformly mixed. To ensure that impurities do not block the third conduit 32, soy milk in the deposit cavity 206 enters the filtration cavity 208 via the third conduit 32, and the eleventh rotation. The shaft 67 drives and rotates the fourteenth bevel gear 66, the fourteenth bevel gear 66 drives and rotates the fifteenth bevel gear 65, and the fifteenth bevel gear 65 causes the sixteenth bevel gear to rotate. The gear 63 is driven and rotated, the sixteenth bevel gear 63 drives and rotates the seventeen bevel gear 62, and the seventeen bevel gear 62 drives the turntable 30. Then, the turntable 30 drives the second connecting rod 29 to slide to the left side, the second connecting rod 29 drives the first series connecting rod 28 to slide to the left side, and the first series connecting rod 28. Is driving the filtration block 25 to slide to the left, the filtration block 25 filters soymilk, soybean milk without impurities after the filtration of the soymilk storage cavity 209 via the fourth conduit 26. Inside, the filtration block 25 drives the bezel 23 to slide to the left, the remaining okara enters the okara storage cavity 210 via the communication conduit 24, and the soybean milk is polished. Distributing to increase product profit.

The beneficial effects of the present invention are as follows: the equipment of the present invention is in an initial state, the first slide block is located at the maximum left side of the first cavity, and the first gear is the second gear. , The cam disengages from engagement with the second slide block, the seventh gear disengages from engagement with the sixth gear and the eighth gear, and the filtration block maximizes the filtration cavity. Located to the right of

When using the equipment of the present invention, the motor is started, the motor drives and rotates the first rotating shaft, the first rotating shaft drives and rotates the spline sleeve, and the spline sleeve is One bevel gear is driven and rotated, the first bevel gear drives and rotates the second bevel gear, the second bevel gear drives and rotates the second gear, and the second gear is the third A bevel gear is driven and rotated, the third bevel gear drives and rotates the fourth bevel gear, the fourth bevel gear drives and rotates the fifth bevel gear, and the fifth bevel gear is the The seventh bevel gear is driven and rotated, the seventh bevel gear drives and rotates the lower polishing knife, the fifth bevel gear drives and rotates the sixth bevel gear, and the sixth bevel gear is the upper one. Drive and rotate the polishing knife, which is in the polishing cavity At the same time, the first rotary shaft drives and rotates the fourth gear, the fourth gear drives and rotates the ring gear, and the ring gear drives and rotates the ninth rotary shaft. The ninth rotation shaft drives and rotates the turbine, the turbine drives and rotates the worm, the worm drives and rotates the first pulley, and the first pulley rotates the second pulley. When the second pulley drives and rotates, the second pulley drives and rotates, and when the beans in the polishing cavity are completely polished, the cam engages with the second slide block and the cam Drives the second slide block to slide to the left, the second slide block drives the seventh gear to slide to the left, and the seventh gear is the sixth gear and the eighth gear. Meshing, the first rotating shaft drives and rotates the sixth gear, the sixth gear drives and rotates the seventh gear, the seventh gear drives and rotates the eighth gear, An eighth gear drives and rotates the rotation block, the rotation block drives the first slide block and slides to the right, the first gear separates from engagement with the second gear, and the first gear Meshes with the third gear, the cam separates from the engagement with the second slide block, the second slide block slides to the left, and the seventh gear with the sixth gear and the eighth gear. Disengaged, the first gear drives and rotates the seventh rotating shaft, the seventh rotating shaft drives and rotates the eighth bevel gear, the eighth bevel gear rotates the ninth bevel gear. Driven and rotated, and the ninth bevel gear drives the pump. The pump moves the soybean milk in the polishing cavity into the depositing cavity through the first line and the second line, at the same time as the ninth rotation. A shaft drives and rotates the tenth bevel gear, the tenth bevel gear drives and rotates the eleventh bevel gear, and the eleventh bevel gear drives and rotates the twelfth bevel gear, The twelfth bevel gear drives and rotates the thirteenth bevel gear, the thirteenth bevel gear drives and rotates the eleventh rotation shaft, and the eleventh rotation shaft has the eighteenth umbrella. The gear is driven and rotated, the eighteenth bevel gear drives and rotates the nineteenth bevel gear, the nineteenth bevel gear drives and rotates the twenty bevel gear, and the twenty-tenth umbrella. A gear drives and rotates the twenty-first bevel gear, and the twenty-first bevel gear drives the fifteenth rotation shaft. The soybean milk in the deposit cavity is always uniformly mixed, and the impurities flow through the third conduit. Avoiding clogging, soy milk in the deposit cavity enters into the filtration cavity by the third conduit, and the eleventh rotation shaft drives and rotates the fourteenth bevel gear, A bevel gear drives and rotates the fifteenth bevel gear, the fifteen bevel gear drives and rotates the sixteenth bevel gear, and the sixteenth bevel gear drives the seventeenth bevel gear. Rotating, the seventeenth bevel gear drives and rotates the turntable, the turntable drives the second connecting rod and slides to the left, and the second connecting rod drives the first series connecting rod. Slide to the left and the first connecting rod drives the filtration block to slide to the left. And the filter block filters the soy milk, and the filtered clean soy milk enters the soy milk storage cavity through the fourth conduit, and the filter block drives the bezel and slides to the left. Then, the remaining okara enters the okara storage cavity via the communication line to dispense the ground soymilk and enhance the profit of the product.

What can be seen from the above detailed analysis is that the filtration block is used to carry out bidirectional filtration to double the filtration efficiency, and the beans are polished by the reverse rotation of the upper and lower polishing knives. The polishing process is more complete and the torques generated by the rotations cancel each other out, extending the service life of the device.

Therefore, the method of this application is more rational and sophisticated in the overall structure, easy to install, maintain and repair, reliable in function, and the two products after filtration are stored in different areas. However, it can be treated separately, enhance the production effect and profit of the factory, reduce the working cost of the factory, and have a high degree of efficient automation while the equipment is in use, and have high usage and diffusion value.

It is clear to a person skilled in the art that the present invention can be modified in various ways without departing from the general spirit and idea of the invention, and all the modifications are within the protection scope of the invention. The protection scheme of the present invention should be based on the claims of the present invention.

Claims (1)

A main body is included, a first cavity is installed in the main body, and a first rotary shaft extending left and right is installed in the first cavity so as to be rotatable, and a left end of the first rotary shaft is A power is connected to a motor installed in a left end wall of the first cavity, a first slide block is installed in the first cavity so as to be slidable, and a first slide block is installed in the first slide block. A second cavity is installed, a spline sleeve is rotatably installed in the second cavity, and the spline sleeve and the first rotating shaft are connected by power by a spline, and the second cavity is installed in the second cavity. A first bevel gear is fixedly mounted on the outer surface of the spline sleeve, and a second rotating shaft extending vertically is provided between the first cavity and the second cavity. A second bevel gear that meshes with the first bevel gear is fixedly installed at the bottom end of the second rotating shaft that is installed so as to be rotatable and that is in the first cavity. A first gear is fixed to the top end of the second rotary shaft, a third cavity is installed in the top end wall of the first cavity, and a third cavity is provided between the third cavity and the first cavity. Is installed so that the third rotating shaft extending vertically can be rotated, the second gear that meshes with the first gear is fixedly installed at the bottom end of the third rotating shaft in the first cavity, A third bevel gear is fixed to the top end of the third rotating shaft in the third cavity, and a fourth rotating shaft extending in the front-rear direction is rotatably installed in the third cavity. , The rear end of the fourth rotating shaft engages with the third bevel gear. A fourth bevel gear is fixed, a fifth bevel gear is fixed at the front end of the fourth rotating shaft, and a polishing cavity is installed in the top end wall of the third cavity. A fifth rotating shaft extending vertically is installed between the cavity and the polishing cavity so as to be rotatable, and the fifth bevel gear is provided at a bottom end of the fifth rotating shaft in the third cavity. A sixth bevel gear meshing with the third bevel gear is fixedly installed, and a sixth rotating shaft extending vertically is rotatably installed between the third cavity and the polishing cavity. A seventh bevel gear meshing with the fifth bevel gear is fixed to the bottom end of the six rotary shaft, and a lower polishing knife is fixed to the top end of the sixth rotary shaft in the polishing cavity. The top of the fifth rotating shaft in the polishing cavity An upper polishing knife is fixedly installed at the end, a fourth cavity is installed in the top end wall of the first cavity, and a seventh cavity extending vertically between the first cavity and the fourth cavity. The rotation shaft is rotatably installed, and the third gear away from the engagement with the first gear is fixedly installed at the bottom end of the seventh rotation shaft in the first cavity, and the fourth cavity. An eighth bevel gear is fixedly attached to the top end of the seventh rotating shaft in the above, and an eighth rotating shaft extending in the front-rear direction is rotatably installed in the fourth cavity. A pump in which a ninth bevel gear meshing with the eighth bevel gear is fixedly mounted at a rear end of the rotating shaft, and a front end of the eighth rotating shaft is fixedly mounted in a front end wall of the fourth cavity. It is connected to the power by and is stored in the right end wall of the fourth cavity. A cavity is installed, a first conduit is installed between the polishing cavity and the pump, a second conduit is installed between the pump and the deposit cavity, and the right side of the first rotating shaft is installed. A fourth gear is fixed to the end, a ninth rotating shaft extending left and right is installed in the first cavity so as to be rotatable, and a ring gear is fixed to the left end of the ninth rotating shaft. A fifth gear is transmission-installed between the ring gear and the fourth gear, and a tenth bevel gear is fixedly installed at a right end of the ninth rotating shaft, and the first cavity and the fourth cavity are provided. A tenth rotating shaft extending vertically is rotatably installed between the tenth rotating shaft and a tenth umbrella that meshes with the tenth bevel gear at the bottom end of the tenth rotating shaft in the first cavity. Before the gear is fixed and in the fourth cavity A twelfth bevel gear is fixed to the top end of the tenth rotating shaft, and an eleventh rotating shaft extending left and right is installed in the fourth cavity so as to be rotatable. A thirteenth bevel gear that meshes with the twelfth bevel gear is fixed to the outer surface of the fourteenth bevel gear, and a fourteenth bevel gear is fixed to the right end of the eleventh rotating shaft. A fifth cavity is installed in the bottom end wall, and a twelfth rotating shaft extending vertically is installed between the fourth cavity and the fifth cavity so as to be rotatable. A fifteenth bevel gear meshing with the fourteenth bevel gear is fixedly installed at a top end of the twelfth rotation shaft inside, and a bottom end of the twelfth rotation shaft inside the fifth cavity. A sixteenth bevel gear is fixedly installed in the fifth cavity, and a thirteenth rotating shaft extending in the front and rear is provided in the fifth cavity. Is installed so that it can rotate, a 17th bevel gear that meshes with the 16th bevel gear is fixedly installed at the rear end of the 13th rotating shaft, and a front end of the 13th rotating shaft is provided. A rotating disk is fixedly installed, a filtration cavity is installed in the right end wall of the fifth cavity, and a third pipe line is installed between the filtration cavity and the deposit cavity. A filtration block is installed so that it can slide to the left and right, and a bezel that slides to the left and right is symmetrically installed in the filtration cavity, and between the left end wall of the bezel and the left end wall of the filtration cavity. A first spring is installed elastically, a first connecting rod is installed between the filtering cavity and the fifth cavity, and a left end of the connecting rod is fixed to a right end wall of the filtering block. Connected to the fifth key A second connecting rod is installed in the bite, a left end of the second connecting rod is connected to a right end of the first connecting rod by a hinge, and a right end of the second connecting rod is a front side of the turntable. It is connected to the end wall by a hinge, an automatic door opening device is installed in the equipment, the device includes a sliding door, a rack and a ninth gear, and the eighteenth umbrella is provided at the left end of the eleventh rotating shaft. A gear is fixedly installed, and a fourteenth rotating shaft extending in the front and rear direction is rotatably installed in the fourth cavity, and the eighteen bevel gear is provided at a rear end of the fourteenth rotating shaft. A nineteenth bevel gear that meshes with the fourteenth bevel gear is fixed, a twenty bevel gear is fixed at the front end of the fourteenth rotating shaft, and extends left and right between the fourth cavity and the deposit cavity. The 15th rotating shaft is installed so that it can rotate and inside the 4th cavity. A twenty-first bevel gear that meshes with the twenty bevel gear is fixed to the left end of the fifteenth rotation shaft, and the outer surface of the fifteenth rotation shaft in the deposit cavity is fixed on the outer surface. A stirring blade is fixed, which is advantageous in ensuring uniform mixing of the solution in the depositing cavity, and at the same time preventing the precipitation of impurities in the solution from blocking the third line, and the practicality of the equipment. A sixth gear is fixedly installed on the outer surface of the first rotating shaft, a reciprocating lead screw is installed on the right end wall of the first slide block, and a turbine is installed on the outer surface of the ninth rotating shaft. And a worm that extends vertically is installed in the first cavity so as to be rotatable, the worm engages with the turbine, and a first pulley is fixed to a top end of the worm. , Inside the first cavity above The sixteenth rotating shaft extending downward is installed so as to be rotatable, a second pulley is fixedly installed at the top end of the sixteenth rotating shaft, and between the second pulley and the first pulley. A first belt is installed by power transmission, a cam located below the second pulley is fixedly provided on an outer surface of the sixteenth rotation shaft, and engagement with the cam is provided in the first cavity. A second slide block that is separated is installed so as to be slidable, and a seventh gear that is separated from the engagement with the sixth gear is installed on the second slide block so that it can rotate, and a right end wall of the first cavity A first slide groove is installed therein, and a second spring is elastically provided between the left end wall of the first slide groove and the left end wall of the second slide block, and is installed in the first cavity. Is installed so that the rotating block can rotate, An eighth gear that is separated from the engagement with the seventh gear is fixed to the rotating block, a screw thread that engages with the reciprocating lead screw is fixed in the rotating block, and the second slide block is It is advantageous to control sliding to the left and right, thereby controlling the sliding of the first slide block to the left and right, thereby controlling the working state of the equipment, and increasing the degree of automation of the equipment, A soy milk storage cavity is installed in the bottom end wall of the filtration cavity, an Okara storage cavity is installed in the bottom end wall of the filtration cavity, and the soy milk storage cavity and the filtration block are connected to the fourth pipe. And a communication conduit is installed between the Okara storage cavity and the left side of the filtration cavity. A fifth conduit is installed between the right side of the filtration cavity, which is advantageous for storing the filtered soymilk in different areas, convenient for the next processing, enhancing the production effect and profit, Filters are symmetrically fixed in the left and right end walls of the filtration block, and 15 check valve blocks are symmetrically fixed in the filtration block. A communication cavity is installed, the communication cavity is connected to the fourth conduit, and it is advantageous to filter the soymilk that has been polished on both the left and right sides of the filtration block while the filtration block slides left and right. Yes, at the same time, when filtering the soymilk on one side, avoid the filtered soymilk from entering the other side, improve the working efficiency of the equipment, in the top end wall of the fourth cavity Second chute installed A sliding door is installed in the second chute so that the sliding door can slide left and right, and a third spring is elastically installed between the right end wall of the sliding door and the right end wall of the second chute. A rack is fixedly mounted on a bottom end wall of the sliding door, a third pulley is fixedly mounted on an outer surface of the seventh rotating shaft in the fourth cavity, and a third pulley is fixed in the fourth cavity. A seventeenth rotating shaft extending vertically is rotatably installed, and a fourth pulley is fixed to a bottom end of the seventeenth rotating shaft, and a fourth pulley is fixed between the fourth pulley and the third pulley. Two belts are installed by power transmission, a twenty-two bevel gear is fixedly installed at the top end of the seventeenth rotating shaft, and an eighteenth rotating shaft extending back and forth can rotate in the fourth cavity. Installed at the rear end of the 18th rotary shaft A twenty-third bevel gear that meshes with the twenty-two bevel gear is fixedly mounted, and a ninth gear that meshes with the rack is fixed at the front end of the eighteenth rotating shaft, and is ground in the polishing cavity. After that, it is advantageous to automatically open the sliding door and continue to add the beans, and to improve the continuous working efficiency of the equipment.

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