JP6771719B2 - Closed filtration device - Google Patents

Description

The present invention takes up the field of food filtration, and specifically is 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 and affects the taste of soymilk, so soymilk is filtered and processed. Okara in soymilk must be removed, improving the taste of soymilk,
The process of filtering okara requires artificial work, transports the polished soymilk back and forth, and the okara is often discarded as waste, which is not only inefficient but also has the effect of factory production. Profit also declines,
Therefore, it is necessary to further improve the filtration device in the existing technology, and the efficiency of the filtration device is increased.

Chinese Patent Application Publication No. 103191644

An object of the present invention provides a closed filtration device, which can solve the problems in the current art described above.

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 a first cavity extending left and right in the first cavity. The rotating shaft is installed so that it can rotate, and the left end of the first rotating shaft is fixedly connected to the output shaft of the motor installed in the left end wall of the first cavity, and is inside the first cavity. The first slide block is installed so that it can slide, a second cavity is installed in the first slide block, and a spline sleeve is installed in the second cavity so that the spline sleeve can rotate. The sleeve and the first rotation shaft are connected by a spline , and a first capsular gear is fixed to the outer surface of the spline sleeve in the second cavity, and the first cavity and the second cavity are connected to each other. A second rotating shaft extending vertically is installed between them so that it can rotate, and a second umbrella gear that meshes with the first umbrella gear is located at the bottom end of the second rotating shaft in the second cavity. The first gear is fixedly installed at the top end of the second rotating shaft in the first cavity, and the third cavity is installed in the top end wall of the first cavity. A third rotating shaft extending vertically is installed between the third cavity and the first cavity so as to be rotatable, and the first is located at the bottom end of the third rotating shaft in the first cavity. A second gear that meshes with the gear is fixed, and a third umbrella gear is fixed at the top end of the third rotating shaft in the third cavity, and extends back and forth in the third cavity. The fourth rotating shaft is installed so that it can rotate, and a fourth umbrella gear that meshes with the third umbrella gear is fixedly installed at the rear end of the fourth rotating shaft, and at the front end of the fourth rotating shaft. Is fixed with a fifth umbrella gear, a polishing cavity is installed in the top end wall of the third cavity, and a fifth rotating shaft extending vertically is provided between the third cavity and the polishing cavity. A sixth umbrella gear that is installed so as to be rotatable and that meshes with the fifth umbrella gear is fixedly installed at the bottom end of the fifth rotating shaft in the third cavity, and the third cavity and the polishing cavity are fixed. A sixth rotating shaft extending vertically is installed between the two so as to be rotatable, and a seventh umbrella that meshes with the fifth umbrella gear is provided at the bottom end of the sixth rotating shaft in the third cavity. The top of the sixth rotating shaft in which the gear is fixed and inside the polishing cavity A lower polishing knife is fixed at the end, an upper polishing knife is fixed at the top end of the fifth rotation shaft in the polishing cavity, and a fourth in the top end wall of the first cavity. A cavity is installed, and a seventh rotating shaft extending up and down is installed between the first cavity and the fourth cavity so as to be rotatable, and the bottom of the seventh rotating shaft in the first cavity. A third gear that can be connected to the first gear is fixedly installed at the end, and the first gear is not connected to the third gear and is located at the top end of the seventh rotating shaft in the fourth cavity. The eighth umbrella gear is fixedly installed, and the eighth rotating shaft extending back and forth is installed in the fourth cavity so as to be able to rotate, and the eighth umbrella gear is installed at the rear end of the eighth rotating shaft. The ninth umbrella gear that meshes with is fixedly connected, and the front end of the eighth rotating shaft is fixedly connected to the power shaft in the pump fixed in the front end wall of the fourth cavity, and the fourth A storage cavity is installed in the right end wall of the cavity, a first conduit is installed between the polishing cavity and the pump, and a second conduit is installed between the pump and the storage cavity. A fourth gear is fixedly installed at the right end of the first rotating shaft, and a ninth rotating shaft extending to the left and right is installed in the first cavity so as to be rotatable, and the ninth rotating shaft is installed. A ring gear is fixedly installed at the left end of the wheel, a fifth gear is transmitted and installed between the ring gear and the fourth gear, and a tenth umbrella gear is fixedly installed at the right end of the ninth rotating shaft. A tenth rotating shaft extending vertically is installed between the first cavity and the fourth cavity so as to be rotatable, and the tenth rotating shaft in the first cavity is located at the bottom end of the tenth rotating shaft. The eleventh umbrella gear that meshes with the ten umbrella gear is fixedly installed, and the twelfth umbrella gear is fixedly installed at the top end of the tenth rotating shaft in the fourth cavity, and in the fourth cavity. The eleventh rotating shaft extending to the left and right is installed so as to be rotatable, and the thirteenth umbrella gear that meshes with the twelfth umbrella gear is fixedly installed on the outer surface of the eleventh rotating shaft. A fourteenth umbrella gear is fixedly installed at the right end of the eleventh rotation shaft, a fifth cavity is installed in the bottom end wall of the fourth cavity, and the fourth cavity and the fifth cavity are connected to each other. The twelfth rotating shaft extending vertically is installed between them so that it can rotate, and the tenth end of the twelfth rotating shaft in the fourth cavity meshes with the fourteenth umbrella gear. Five umbrella gears are fixed A sixteenth umbrella gear is fixedly installed at the bottom end of the twelfth rotating shaft in the fifth cavity, and a thirteenth rotating shaft extending back and forth can rotate in the fifth cavity. A seventeenth umbrella gear that meshes with the sixteenth umbrella gear is fixedly installed at the rear end of the thirteenth rotating shaft, and a turntable is attached to the front end of the thirteenth rotating shaft. It is fixed , a filtration cavity is installed in the left end wall of the fifth cavity, a third conduit is installed between the filtration cavity and the storage cavity, and filtration is performed in the filtration cavity. The block is installed so that it can slide left and right, and a bezel that slides left and right is symmetrically installed in the filtration cavity, and a second bezel is installed between the left end wall of the bezel and the left end wall of the filtration cavity. A spring is installed , a first series of rods is installed between the filtration cavity and the fifth cavity, and the left end of the series of rods is fixedly connected to the right end wall of the filtration block. A second connecting rod is installed in the fifth cavity, the left end of the second connecting rod is connected to the right end of the first series connecting rod by a hinge, and the right end of the second connecting rod is the rotation. A hinged connection to the front end wall of the panel, the closed filtration device of the present invention is equipped with an automatic door opening device, which includes a sliding door, a rack and a ninth gear.

Further technical plan, the eighteenth umbrella gear is fixedly installed at the left end of the eleventh rotating shaft, and the fourteenth rotating shaft extending back and forth is installed in the fourth cavity so that it can rotate. , The nineteenth umbrella gear that meshes with the eighteenth umbrella gear is fixedly installed at the rear end of the fourteenth rotary shaft, and the twenty umbrella gear is fixed at the front end of the fourteenth rotary shaft. It is installed so that the fifteenth rotation shaft extending to the left and right can rotate between the fourth cavity and the storage cavity, and the left end of the fifteenth rotation shaft in the fourth cavity. The 21st umbrella gear that meshes with the 20th umbrella gear is fixedly installed, and a stirring blade is fixedly installed on the outer surface of the 15th rotating shaft in the storage cavity . It is advantageous to ensure equal mixing of the solution in the storage cavity by rotating the stirring blade by the rotation of the five rotation shafts to agitate the solution, while the precipitation of impurities in the solution blocks the third conduit. prevents, Ru enhances the utility of closed filtration device of the present invention.

Further technical plan, the sixth gear is fixed on the outer surface of the first rotating shaft, the reciprocating lead screw is installed on the right end wall of the first slide block, and the outer surface of the ninth rotating shaft is installed. The turbine is fixed, and a worm that extends vertically is installed in the first cavity so that it can rotate, the worm engages with the turbine, and the first pulley is fixed at the top end of the worm. The sixteenth rotating shaft extending vertically is installed in the first cavity so as to be rotatable, and the second pulley is fixedly installed at the top end of the sixteenth rotating shaft. A first belt is installed between the pulley and the first pulley by transmission, and a cam located under the second pulley is fixedly installed on the outer surface of the sixteenth rotation shaft, and the first cavity is formed. A second slide block that can be connected to the cam is installed in the inside so that the second slide block can slide, and the cam is not connected to the second slide block, and when the cam rotates, the second slide block is moved to the left. can pushes to the the second slide block seventh gear that can be concatenated with the sixth gear is installed so that it can rotate, the sixth gear not be connected to the seventh gear, the first A first slide groove is installed in the right end wall of the cavity, and a second spring is installed between the left end wall of the first slide groove and the left end wall of the second slide block. A rotating block is installed in one cavity so that it can rotate, and an eighth gear that can be connected to the seventh gear is fixedly installed in the rotating block, and the seventh gear is not connected to the eighth gear. the inside of the rotating block is threaded fixedly engaging said reciprocating lead screw, rotation of the reciprocating lead screw is advantageous in controlling sliding the said second slide block to the left and right, By sliding the second slide block left and right, the first slide block is slid left and right, and by sliding the first slide block left and right, the working state of the closed filtration device of the present invention is controlled. Ru enhances the degree automated closed filtration device.

Further technical plan, a soymilk 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 soymilk storage cavity and the filtration block. Is connected by a fourth conduit, a communication conduit is installed between the okara storage cavity and the left side of the filtration cavity, and a fifth is provided between the okara storage cavity and the right side of the filtration cavity. line is installed, the fifth line is Ru advantageously der to save soymilk which is filtered in a different region.

Further technical plan, a filter is 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 while the filtration block slides left and right, the polished soymilk on both the left and right sides of the filtration block is filtered. At the same time , when filtering the soymilk on one side, the filtered soymilk is prevented from entering the other side, and the working efficiency of the closed filtration device of the present invention is improved.

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 left and right, and the right end of the sliding door. A third spring is installed between the wall and the right end wall of the second chute, a rack is fixed to the bottom end wall of the sliding door, and the seventh rotating shaft in the fourth cavity. A third pulley is fixedly installed on the outer surface of the door, and a seventeenth rotating shaft extending vertically is installed in the fourth cavity so as to be rotatable, and a thirteenth rotating shaft extends at the bottom end of the seventeenth rotating shaft. The four pulleys are fixed, the second belt is installed between the fourth pulley and the third pulley by transmission, and the 22nd umbrella gear is fixed at the top end of the seventeenth rotating shaft. , The eighteenth rotating shaft extending back and forth is installed in the fourth cavity so as to be rotatable, and the rear end of the eighteenth rotating shaft meshes with the twenty-second umbrella gear. The thirteen umbrella gear is fixed, and the ninth gear that meshes with the rack is fixed at the front end of the eighteenth rotating shaft, and the sliding door can be automatically opened after polishing in the polishing cavity. It is advantageous to continue adding beans and to improve the continuous working efficiency of the closed filtration device of the present invention .

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 that, the two products are stored in different areas and processed separately to increase the production effect and profit of the factory, reduce the working cost of the factory, and the closed filtration device of the present invention is highly efficient automation during use. It has a degree, high use and widespread value.

In order to more clearly explain the examples of the present invention and the technical ideas in the existing technology, a brief introduction is given below to the attached figures that need to be used in the examples and the explanation of the existing technology at a glance. What you can see is that the illustrations in the description below are just some examples of the present invention, and others based on these illustrations, on the premise that ordinary engineers in this area do not pay creative labor. You can get the attached figure.

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

All the features disclosed in the present invention, or all the disclosed methods and steps in the process, can be combined in any manner other than the features or steps that exclude each other.

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

In the description of the present invention, what should be understood is "center", "vertical", "horizontal", "length", "width", "thickness", "top", "bottom", "front". , "Rear", "Left", "Right", "Vertical", "Horizontal", "Top", "Bottom", "Inside", "Outside", "Clockwise", "Counterclockwise" Is the direction or positional relationship indicated with reference to FIG. 1, and is only for the purpose of conveniently explaining the present invention and simplifying the explanation, and the indicated device or component is specified. Must have a direction of, and does not imply or imply that it is constructed and manipulated in a particular direction, and thus does not limit the invention.

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

The present invention will be described in detail with reference to FIGS. 1 to 6 below.

As shown in FIGS. 1 to 6, the closed filtration device according to the present invention includes the main body 11, the first cavity 201 is installed in the main body 11, and the first cavity 201 extends left and right in the first cavity 201. The first rotating shaft 52 is installed so as to be rotatable, and the left end of the first rotating shaft 52 is fixedly connected to the output shaft of the motor 49 installed in the left end wall of the first cavity 201. The first slide block 51 is installed in the first cavity 201 so that it can slide, the second cavity 202 is installed in the first slide block 51, and a spline is installed in the second cavity 202. The sleeve 50 is installed so as to be rotatable, the spline sleeve 50 and the first rotating shaft 52 are connected by a spline , and a first umbrella gear is provided on the outer surface of the spline sleeve 50 in the second cavity 202. 48 is fixed, and 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 umbrella gear 47 that meshes with the first umbrella gear 48 is fixedly installed at the bottom end of the two rotating shafts 46, and a first one is provided at the top end of the second rotating shaft 46 in the first cavity 201. The gear 44 is fixedly fixed, the third cavity 203 is installed in the top end wall of the first cavity 201, and the third cavity extends vertically between the third cavity 203 and the first cavity 201. The rotating shaft 43 is installed so as to be rotatable, and 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. A third umbrella gear 42 is fixedly installed at the top end of the third rotating shaft 43 in the three cavities 203, and a fourth rotating shaft 41 extending back and forth can rotate in the third cavity 203. A fourth umbrella gear 40 that meshes with the third umbrella gear 42 is fixedly installed at the rear end of the fourth rotating shaft 41, and a fifth umbrella gear is fixed at the front end of the fourth rotating shaft 41. 18 is fixed, a polishing cavity 204 is installed in the top end wall of the third cavity 203, and a fifth rotating shaft 13 extending vertically between the third cavity 203 and the polishing cavity 204. Is installed so that it can rotate, and a sixth umbrella gear 19 that meshes with the fifth umbrella gear 18 is fixed at the bottom end of the fifth rotating shaft 13 in the third cavity 203. A sixth rotating shaft 16 extending vertically is installed between the third cavity 203 and the polishing cavity 204 so as to be rotatable, and the sixth rotating shaft 16 in the third cavity 203 is installed. A seventh umbrella gear 17 that meshes with the fifth umbrella gear 18 is fixedly attached to the bottom end of the shaft, and a lower polishing knife 15 is fixedly attached to the top end of the sixth rotating shaft 16 in the polishing cavity 204. An upper polishing knife 14 is fixedly attached to the top end of the fifth rotating shaft 13 in the polishing cavity 204, and a fourth cavity 205 is installed in the top end wall of the first cavity 201. A seventh rotating shaft 75 extending vertically is installed between the first cavity 201 and the fourth cavity 205 so as to be rotatable, and the bottom of the seventh rotating shaft 75 in the first cavity 201. A third gear 76 that can be connected to the first gear 44 is fixedly installed at the end, and the first gear 44 is not connected to the third gear 76, and the seventh rotation is in the fourth cavity 205. An eighth umbrella gear 74 is fixedly installed at the top end of the shaft 75, and an eighth rotating shaft 73 extending back and forth is installed in the fourth cavity 205 so as to be rotatable, and the eighth rotating shaft 73 of the eighth rotating shaft 73. A ninth umbrella gear 72 that meshes with the eighth umbrella gear 74 is fixedly installed at the rear end, and the front end of the eighth rotating shaft 73 is fixed in the front end wall of the fourth cavity 205. It is fixedly connected to the power shaft of the pump 33, a storage cavity 206 is installed in the right end wall of the fourth cavity 205, and the first pipeline 12 is between the polishing cavity 204 and the pump 33. Is installed, a second pipeline 34 is installed between the pump 33 and the storage cavity 206, and a fourth gear 54 is fixedly installed at the right end of the first rotating shaft 52, and the first cavity is installed. A ninth rotating shaft 57 extending to the left and right is installed in 201 so that it can rotate, and a ring gear 55 is fixedly installed at the left end of the ninth rotating shaft 57, and the ring gear 55 and the fourth gear 54 A fifth gear 85 is transmitted between them, and a tenth umbrella gear 59 is fixedly installed at the right end of the ninth rotating shaft 57, and between the first cavity 201 and the fourth cavity 205. The eleventh umbrella that is installed so that the tenth rotating shaft 61 extending vertically can rotate, and meshes with the tenth umbrella gear 59 at the bottom end of the tenth rotating shaft 61 in the first cavity 201. The gear 60 is fixedly installed, and the fourth cavity 20 A twelfth umbrella gear 69 is fixedly installed at the top end of the tenth rotating shaft 61 in the fifth cavity 205 so that the eleventh rotating shaft 67 extending to the left and right can rotate in the fourth cavity 205. A thirteenth umbrella gear 68 that meshes with the twelfth umbrella gear 69 is fixedly attached to the outer surface of the eleventh rotary shaft 67, and a thirteenth umbrella gear 68 is fixedly attached to the right end of the eleventh rotary shaft 67. The fourteen umbrella gear 66 is fixedly installed, a fifth cavity 207 is installed in the bottom end wall of the fourth cavity 205, and the fifth cavity 207 extends vertically between the fourth cavity 205 and the fifth cavity 207. A fifteenth umbrella that is installed so that the twelfth rotating shaft 64 can rotate, and meshes with the fourteenth umbrella gear 66 at the top end of the twelfth rotating shaft 64 in the fourth cavity 205. The gear 65 is fixed, and the sixteenth umbrella gear 63 is fixed at the bottom end of the twelfth rotating shaft 64 in the fifth cavity 207, and the back and forth in the fifth cavity 207. The thirteenth rotating shaft 31 to be extended is installed so as to be rotatable, and a seventeenth umbrella gear 62 that meshes with the sixteenth umbrella gear 63 is fixedly installed at the rear end of the thirteenth rotating shaft 31. A turntable 30 is fixedly installed at the front end of the thirteenth rotation shaft 31, a filtration cavity 208 is installed in the left end wall of the fifth cavity 207, and the filtration cavity 208 and the storage cavity 206 A third conduit 32 is installed between them, and the filtration block 25 is installed in the filtration cavity 208 so that it can slide left and right, and the bezel 23 that slides left and right is symmetrical in the filtration cavity 208. A first spring 22 is installed between the left end wall of the bezel 23 and the left end wall of the filtration cavity 208, and a first spring 22 is installed between the filtration cavity 208 and the fifth cavity 207. A series of connecting rods 28 are installed, the left end of the series of connecting rods 28 is fixedly connected to the right end wall of the filtration block 25, and a second connecting rod 29 is installed in the fifth cavity 207. The left end of the second connecting rod 29 is connected to the right end of the first series connecting rod 28 by a hinge, and the right end of the second connecting rod 29 is connected to the front end wall of the turntable 30 by a hinge. An automatic door opening device is installed in the closed filtration device of the present invention , the device including a sliding door 301, a rack 302 and a ninth gear 303.

As a useful example, the eighteenth umbrella gear 70 is fixedly installed at the left end of the eleventh rotating shaft 67, and the fourteenth rotating shaft extending back and forth in the fourth cavity 205. 36 is installed so that it can rotate, and a nineteenth umbrella gear 71 that meshes with the eighteenth umbrella gear 70 is fixedly installed at the rear end of the fourteenth rotating shaft 36, and the fourteenth rotating shaft 36 is installed. A twentieth umbrella gear 35 is fixedly installed at the front end of the above, and a fifteenth rotating shaft 38 extending to the left and right is installed between the fourth cavity 205 and the storage cavity 206 so as to be rotatable. At the left end of the fifteenth rotating shaft 38 in the fourth cavity 205, a twenty-one umbrella gear 37 that meshes with the twenty umbrella gear 35 is fixedly installed and is in the storage cavity 206. A stirring blade 39 is fixedly attached to the outer surface of the fifteenth rotating shaft 38, and the stirring blade 39 is rotated by the rotation of the fifteenth rotating shaft 38 to stir the solution, so that the solution in the storage cavity is equalized. while mixing it is advantageous to ensure, to prevent impurities precipitated in the solution to close the third conduit, Ru enhances the utility of closed filtration device of the present invention.

As a useful example, a sixth gear 53 is fixedly attached to the outer surface of the first rotating shaft 52, and a reciprocating lead screw 79 is installed on the right end wall of the first slide block 51. A turbine 56 is fixedly installed on the outer surface of the ninth rotating shaft 57, and a worm 58 extending vertically is installed in the first cavity 201 so as to rotate, and the worm 58 engages with the turbine 56. A first pulley 86 is fixedly installed at 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 end of the top of the rotating shaft 84, and a first belt 87 is transmitted between the second pulley 88 and the first pulley 86, and the sixteenth rotating shaft 84 is installed. A cam 83 located below the second pulley 88 is fixedly mounted on the outer surface of the first cavity 201, and a second slide block 82 that can be connected to the cam 83 is slidably installed in the first cavity 201. The cam 83 is not connected to the second slide block 82, and when the cam 83 rotates, the second slide block 82 can be pushed and moved to the left, and the second slide block 82 has the second slide block 82. seventh gear 80 which can be connected with six gears 53 is installed to be rotatable, the sixth gear 53 is not be connected to the seventh gear 80, said in the right end wall of the first cavity 201 first A slide groove 89 is installed, a second spring 90 is installed between the left end wall of the first slide groove 89 and the left end wall of the second slide block 82, and a second spring 90 is installed in the first cavity 201. The rotating block 78 is installed so as to be rotatable, and the eighth gear 77 that can be connected to the seventh gear 80 is fixedly installed in the rotating block 78, and the seventh gear 80 is not connected to the eighth gear 77. , said in the rotation block 78 is threaded 81 is fixedly engaging said reciprocating lead screw 79, the rotation of the reciprocating lead screw 79 to control the sliding said second sliding block 82 on the left and right By sliding the second slide block 82 left and right, the first slide block 51 is slid left and right, and by sliding the first slide block 51 left and right, the work of the closed filtration device of the present invention is performed. controls the state, Ru enhances the degree automated closed filtration device of the present invention.

As a useful example, a soymilk 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 soymilk storage cavity 209 and the filtration block 25 are connected by a fourth conduit 26, and a communication conduit 24 is installed between the okara storage cavity 210 and the left side of the filtration cavity 208, and the okara storage cavity is provided. between the 210 and the right side of the filtration cavity 208 is installed a fifth conduit 27, the fifth conduit 27 Ru advantageously der to save soymilk which is filtered in a different region.

As a useful example, filters 251 are symmetrically fixed in the left and right end walls of the filtration block 25, and fifteen check valve blocks 252 are left and right 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 25 slides to the left and right. simultaneously with both the polished soymilk of the left and right sides of the 25 it is advantageous to the filtering process, when filtering the soybean milk of one side, avoids filtered soymilk enters another side, this application Increase the working efficiency of the closed filtration device of the present invention .

As a useful 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 as to slide left and right. A third spring 305 is installed 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 attached to the bottom end wall of the sliding door 301. A third pulley 309 is fixedly attached to the outer surface of the seventh rotating shaft 75 in the fourth cavity 205, and a vertically extending seventeenth rotating shaft 310 rotates in the fourth cavity 205. A fourth pulley 307 is fixedly installed at the bottom end of the seventeenth rotating shaft 310, and a second belt 308 is transmitted between the fourth pulley 307 and the third pulley 309. The 22nd umbrella gear 311 is fixedly installed at the top end of the 17th rotating shaft 310 so that the 18th rotating shaft 304 extending back and forth can rotate in the 4th cavity 205. At the rear end of the eighteenth rotary shaft 304, a twenty-third umbrella gear 312 that meshes with the twenty-two umbrella gear 311 is fixedly installed, and at the front end of the eighteenth rotary shaft 304. The ninth gear 303 that meshes with the rack 302 is fixed, and after polishing in the polishing cavity 204, the sliding door 301 is automatically opened to continue adding beans and the continuous closed filtration device of the present invention. It is advantageous for improving work efficiency .

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

When the equipment of the present invention is used, the motor 49 is activated, the motor 49 drives and rotates the first rotating shaft 52, and the first rotating shaft 52 drives and rotates the spline sleeve 50. The spline sleeve 50 drives and rotates the first umbrella gear 48, the first umbrella gear 48 drives and rotates the second umbrella gear 47, and the second umbrella gear 47 drives the second gear 45. Rotated, the second gear 45 drives and rotates the third umbrella gear 42, the third umbrella gear 42 drives and rotates the fourth umbrella gear 40, and the fourth umbrella gear 40 drives and rotates the fifth umbrella gear 40. The umbrella gear 18 is driven and rotated, the fifth umbrella gear 18 drives and rotates the seventh umbrella gear 17, and the seventh umbrella gear 17 drives and rotates the lower polishing knife 15, and the fifth umbrella The gear 18 drives and rotates the sixth umbrella gear 19, and the sixth umbrella gear 19 drives and rotates the upper polishing knife 14, and at the same time , the beans in the polishing cavity 204 are sufficiently polished , and at the same time , the beans are sufficiently polished. The first rotating shaft 52 drives and rotates the fourth gear 54, the fourth gear 54 drives and rotates the ring gear 55, and the ring gear 55 drives and rotates the ninth rotating shaft 57. Nine rotation shafts 57 drive and rotate the turbine 56, the turbine 56 drives and rotates the worm 58, the worm 58 drives and rotates the first pulley 86, and the first pulley 86 drives and rotates the first pulley 86. When the two pulleys 88 are driven and rotated, the second pulley 88 drives and rotates the cam 83, and the beans in the polishing cavity 204 are completely polished, the cam 83 slides on the second slide. Engaging with the block 82, the cam 83 drives the second slide block 82 and slides to the left, the second slide block 82 drives the seventh gear 80 and slides to the left, and the seventh gear 80. Engages with the sixth gear 53 and the eighth gear 77, the first rotating shaft 52 drives and rotates the sixth gear 53, and 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, and the rotation block 78 drives and rotates the first slide block 51 to the right. When the first gear 44 is slid away from the engagement with the second gear 45 and the first gear 44 meshes with the third gear 76, the cam 83 engages with the second slide block 82. Away from Then, the second slide block 82 slides to the left, the seventh gear 80 is disengaged from the engagement with the sixth gear 53 and the eighth gear 77, and the first gear 44 disengages the seventh rotating shaft 75. Driven and rotated, the seventh rotating shaft 75 drives and rotates the eighth umbrella gear 74, the eighth umbrella gear 74 drives and rotates the ninth umbrella gear 72, and the ninth umbrella gear 72 The pump 33 is driven to start operation, and the pump 33 transfers the polished soymilk in the polishing cavity 204 to the storage cavity 206 via the first conduit 12 and the second conduit 34. At the same time as being transported inside, the ninth rotating shaft 57 drives and rotates the tenth umbrella gear 59, the tenth umbrella gear 59 drives and rotates the eleventh umbrella gear 60, and the eleventh umbrella The gear 60 drives and rotates the twelfth umbrella gear 69, the twelfth umbrella gear 69 drives and rotates the thirteenth umbrella gear 68, and the thirteenth umbrella gear 68 rotates the eleventh. The shaft 67 is driven and rotated, the eleventh rotating shaft 67 drives and rotates the eighteenth umbrella gear 70, and the eighteenth umbrella gear 70 drives and rotates the nineteenth umbrella gear 71. The nineteenth umbrella gear 71 drives and rotates the twenty umbrella gear 35, and the twenty umbrella gear 35 drives and rotates the twenty-one umbrella gear 37, and the twenty-one umbrella gear 35. 37 drives and rotates the fifteenth rotary shaft 38, the fifteenth rotary shaft 38 drives and rotates the stirring blade 39, and the stirring blade 39 always has the soy milk in the storage cavity 206 evenly. Guaranteeing mixing, avoiding impurities from blocking the third conduit 32, soymilk in the custody cavity 206 enters the filtration cavity 208 via the third conduit 32. The eleventh rotating shaft 67 drives and rotates the fourteenth umbrella gear 66, the fourteenth umbrella gear 66 drives and rotates the fifteenth umbrella gear 65, and the fifteenth umbrella gear 65 The sixteenth umbrella gear 63 is driven and rotated, the sixteenth umbrella gear 63 drives and rotates the seventeenth umbrella gear 62, and the seventeenth umbrella gear 62 drives and rotates the turntable 30. The rotating disk 30 drives the second connecting rod 29 and slides it to the left, the second connecting rod 29 drives the first series connecting rod 28 and slides it to the left, and the first series connecting rod 28 slides to the left. The filtration block 25 is driven and slid to the left, the filtration block 25 filters the soymilk, and the filtered soymilk without impurities passes through the fourth conduit 26 and the soymilk storage cavity 20. Entering 9, the filtration block 25 drives the bezel 23 and slides to the left, and the remaining okara enters the okara storage cavity 210 via the communication line 24 and is polished. Distribute soymilk to increase product profits.

The beneficial effects of the present invention are as follows: In the initial state of the equipment of the present invention, the first slide block is located to 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 and eighth gears, and the filtration block maximizes the filtration cavity. Located on the right side of

When the equipment of the present invention is used, the motor is activated, the motor drives and rotates the first rotating shaft, the first rotating shaft drives and rotates the spline sleeve, and the spline sleeve drives and rotates the first rotating shaft. One umbrella gear is driven and rotated, the first umbrella gear drives and rotates the second umbrella gear, the second umbrella gear drives and rotates the second gear, and the second gear drives and rotates the second gear. The umbrella gear is driven and rotated, the third umbrella gear drives and rotates the fourth umbrella gear, the fourth umbrella gear drives and rotates the fifth umbrella gear, and the fifth umbrella gear drives and rotates the fifth umbrella gear. The seven umbrella gears are driven and rotated, the seventh umbrella gear drives and rotates the lower polishing knife, the fifth umbrella gear drives and rotates the sixth umbrella gear, and the sixth umbrella gear drives and rotates the upper one. The polishing knife is driven and rotated to sufficiently polish the beans in the polishing cavity, and at the same time , the first rotating shaft drives and rotates the fourth gear, and the fourth gear drives and rotates the ring gear. The ring gear drives and rotates the ninth rotating shaft, the ninth rotating shaft drives and rotates the turbine, the turbine drives and rotates the worm, and the worm drives the first pulley. When the first pulley drives and rotates the second pulley, the second pulley drives and rotates the cam, and the beans in the polishing cavity are completely polished, the above-mentioned The cam engages with the second slide block, the cam drives the second slide block and slides to the left, the second slide block drives the seventh gear and slides to the left, and the seventh gear. Engages with the sixth gear and the eighth gear, the first rotating shaft drives and rotates the sixth gear, the sixth gear drives and rotates the seventh gear, and the seventh gear The eighth gear is driven and rotated, the eighth gear drives and rotates the rotating block, the rotating block drives the first slide block and slides to the right, and the first gear is the second gear. When the first gear meshes with the third gear, the cam disengages from the engagement with the second slide block, the second slide block slides to the left, and the seventh gear Is separated from the engagement with the sixth gear and the eighth gear, the first gear drives and rotates the seventh rotating shaft, and the seventh rotating shaft drives and rotates the eighth umbrella gear. The eighth umbrella gear drives and rotates the ninth umbrella gear, and the ninth umbrella gear drives the pump. The work is started, and at the same time that the pump transports the polished soymilk in the polishing cavity into the storage cavity through the first conduit and the second conduit, the ninth rotation shaft is said. The tenth umbrella gear drives and rotates, the tenth umbrella gear drives and rotates the eleventh umbrella gear, the eleventh umbrella gear drives and rotates the twelfth umbrella gear, and the tenth The two umbrella gears drive and rotate the thirteenth umbrella gear, the thirteenth umbrella gear drives and rotates the eleventh rotating shaft, and the eleventh rotating shaft drives the eighteenth umbrella gear. The eighteenth umbrella gear drives and rotates the nineteenth umbrella gear, the nineteenth umbrella gear drives and rotates the twentyth umbrella gear, and the twentyth umbrella gear drives and rotates. The 21st umbrella gear is driven and rotated, the 21st umbrella gear drives and rotates the 15th rotating shaft, and the 15th rotating shaft drives and rotates the stirring blade, and the stirring is performed. The wings ensure that the soymilk in the cave cavity is always evenly mixed, avoiding impurities blocking the third conduit, and the soymilk in the cave cavity is filtered by the third conduit. Entering the cavity, the eleventh rotating shaft drives and rotates the fourteenth umbrella gear, the fourteenth umbrella gear drives and rotates the fifteenth umbrella gear, and the fifteenth umbrella gear Drives and rotates the 16th umbrella gear, the 16th umbrella gear drives and rotates the 17th umbrella gear, and the 17th umbrella gear drives and rotates the turntable, and the rotation The board drives the second connecting rod and slides it to the left, the second connecting rod drives the first series connecting rod and slides it to the left, and the first series connecting rod drives the filtration block and slides it to the left. , The filtration block filters the soymilk, the filtered soymilk without impurities enters the soymilk storage cavity through the fourth conduit, and the filtration block drives the bezel and slides to the left. The remaining sardine enters the sardine storage cavity via the communication conduit and distributes the polished soymilk to increase the profitability of the product.

From the above detailed analysis, it can be realized that the filtration efficiency can be doubled by performing bidirectional filtration using the filtration block, and the beans are polished by the reverse rotation of the upper polishing knife and the lower polishing knife. The polishing process is more sufficient and the torque generated during rotation cancels each other out, extending the useful life of the device.

Therefore, the method of this application is more rational and sophisticated in the overall structure, it is easy to install, maintain and repair, the function is reliable, and the two products after filtration are stored in different areas. However, it is processed separately to increase the production effect and profit of the factory, reduce the working cost of the factory, and the closed filtration device of the present invention has a high efficiency of automation during use, and has high use and widespread value. ..

Engineers in this field can clarify that they do not deviate from the general spirit and ideas of the present invention, and various modifications can be made to the above examples, all of which are within the scope of protection of the present invention. The protection plan of the present invention should be standardized on the claim of the present invention.

Claims (1)

A first cavity is installed in the main body including the main body, and a first rotation shaft extending to the left and right is installed in the first cavity so as to be rotatable, and the left end of the first rotation shaft is installed. It is fixedly connected to the output shaft of the motor installed in the left end wall of the first cavity, and the first slide block is installed in the first cavity so as to be slidable. A second cavity is installed in the second cavity, a spline sleeve is installed in the second cavity so that the spline sleeve can rotate, and the spline sleeve and the first rotation shaft are connected by a spline to form the second cavity. A first captive gear is fixed to the outer surface of the spline sleeve inside, and a second rotating shaft extending vertically is installed between the first cavity and the second cavity so as to be rotatable. A second umbrella gear that meshes with the first umbrella gear is fixedly installed at the bottom end of the second rotating shaft in the second cavity, and the top of the second rotating shaft in the first cavity. A first gear is fixed at the end, a third cavity is installed in the top end wall of the first cavity, and a third cavity extends vertically between the third cavity and the first cavity. The rotating shaft is installed so that it can rotate, and a second gear that meshes with the first gear is fixedly installed at the bottom end of the third rotating shaft in the first cavity, and is installed in the third cavity. A third umbrella gear is fixedly installed at the top end of the third rotating shaft, and a fourth rotating shaft extending back and forth is installed in the third cavity so as to be able to rotate. A fourth umbrella gear that meshes with the third umbrella gear is fixedly installed at the rear end, and a fifth umbrella gear is fixedly installed at the front end of the fourth rotating shaft, and the top end wall of the third cavity. A polishing cavity is installed inside, and a fifth rotation axis extending vertically is installed between the third cavity and the polishing cavity so as to be able to rotate, and the fifth rotation in the third cavity. A sixth umbrella gear that meshes with the fifth umbrella gear is fixedly installed at the bottom end of the shaft, and a sixth rotating shaft that extends vertically is installed between the third cavity and the polishing cavity so that it can rotate. A seventh umbrella gear that meshes with the fifth umbrella gear is fixedly installed at the bottom end of the sixth rotation shaft in the third cavity, and the top of the sixth rotation shaft in the polishing cavity. A lower polishing knife is fixedly installed at the end of the fifth rotating shaft in the polishing cavity. An upper polishing knife is fixedly installed at the end of the top, a fourth cavity is installed in the top end wall of the first cavity, and a first cavity extends vertically between the first cavity and the fourth cavity. The seven rotating shafts are installed so that they can rotate, and a third gear that can be connected to the first gear is fixedly installed at the bottom end of the seventh rotating shaft in the first cavity, and the first gear is said. The eighth umbrella gear, which is not connected to the third gear and is fixed at the top end of the seventh rotating shaft in the fourth cavity, extends back and forth in the fourth cavity. The rotating shaft is installed so that it can rotate, a ninth umbrella gear that meshes with the eighth umbrella gear is fixedly installed at the rear end of the eighth rotating shaft, and the front end of the eighth rotating shaft is the fourth. It is fixedly connected to the power shaft of the pump fixed in the front end wall of the cavity, and a storage cavity is installed in the right end wall of the fourth cavity between the polishing cavity and the pump. A first pipeline is installed in the water, a second pipeline is installed between the pump and the storage cavity, and a fourth gear is fixedly installed at the right end of the first rotating shaft. A ninth rotating shaft extending to the left and right is installed in the cavity so that it can rotate, a ring gear is fixedly installed at the left end of the ninth rotating shaft, and a fourth gear is provided between the ring gear and the fourth gear. Five gears are transmitted and installed, a tenth umbrella gear is fixedly installed at the right end of the ninth rotating shaft, and a tenth rotating shaft extending vertically extends between the first cavity and the fourth cavity. The eleventh umbrella gear that meshes with the tenth umbrella gear is fixedly installed at the bottom end of the tenth rotating shaft in the first cavity so as to be able to be installed, and is in the fourth cavity. A twelfth umbrella gear is fixedly installed at the top end of the tenth rotation shaft, and an eleventh rotation shaft extending to the left and right is installed in the fourth cavity so as to be able to rotate. A thirteenth umbrella gear that meshes with the twelfth umbrella gear is fixedly attached to the outer surface of the shaft, and a fourteenth umbrella gear is fixedly attached to the right end of the eleventh rotating shaft, and the fourth cavity. A fifth cavity is installed in the bottom end wall of the cavity, and a twelfth rotation axis extending vertically is installed between the fourth cavity and the fifth cavity so as to be rotatable. A fifteenth umbrella gear that meshes with the fourteenth umbrella gear is fixedly installed at the top end of the twelfth rotation shaft inside, and the bottom of the twelfth rotation shaft inside the fifth cavity. The 16th umbrella gear is fixed at the end A thirteenth rotating shaft extending back and forth is installed in the fifth cavity so as to be rotatable, and a thirteenth rotating shaft that meshes with the sixteenth umbrella gear is installed at the rear end of the thirteenth rotating shaft. The seventeenth umbrella gear is fixed, a turntable is fixed at the front end of the thirteenth rotation shaft, a filtration cavity is installed in the left end wall of the fifth cavity, and the filtration cavity and the said A third conduit is installed between the storage cavity and the filtration cavity so that the filtration block can slide left and right, and the bezel that slides left and right is symmetrically installed in the filtration cavity. A first spring is installed between the left end wall of the bezel and the left end wall of the filtration cavity, and a series of connecting rods is installed between the filtration cavity and the fifth cavity. The left end of the first series connecting rod is fixedly connected to the right end wall of the filtration block, the second connecting rod is installed in the fifth cavity, and the left end of the second connecting rod is the first. The right end of the series connecting rod is connected by a hinge, the right end of the second connecting rod is connected by a hinge to the front end wall of the turntable, and an automatic door opening device is installed in the closed filtration device of the present invention. , The device includes a sliding door, a rack and a ninth gear, an eighteenth umbrella gear is fixedly installed at the left end of the eleventh rotating shaft, and a tenth extending back and forth in the fourth cavity. The four rotating shafts are installed so that they can rotate, and the nineteenth umbrella gear that meshes with the eighteenth umbrella gear is fixedly installed at the rear end of the fourteenth rotating shaft, and the front side of the fourteenth rotating shaft. A twentieth umbrella gear is fixedly installed at the end, and a fifteenth rotation shaft extending to the left and right is installed between the fourth cavity and the custody cavity so as to rotate, and is installed in the fourth cavity. A 21st umbrella gear that meshes with the 20th umbrella gear is fixedly installed at the left end of the 15th rotation shaft, and on the outer surface of the 15th rotation shaft in the storage cavity. The stirring blade is fixed, and the rotation of the fifteenth rotation shaft causes the stirring blade to rotate to stir the solution, which is advantageous for ensuring uniform mixing of the solution in the storage cavity, while impurities in the solution. The settling prevents the third conduit from being blocked, enhances the practicality of the closed filtration device of the present invention, and a sixth gear is fixedly provided on the outer surface of the first rotating shaft, and the first slide block is provided. A reciprocating lead screw is installed on the right end wall of the above, a turbine is fixed on the outer surface of the ninth rotating shaft, and the upper part is inside the first cavity. The worm that extends downward is installed so that it can rotate, the worm engages with the turbine, a first pulley is fixed at the top end of the worm, and the worm extends vertically into the first cavity. The sixteenth rotating shaft is installed so that it can rotate, a second pulley is fixedly installed at the top end of the sixteenth rotating shaft, and a first belt is placed between the second pulley and the first pulley. A cam located under the second pulley is fixedly installed on the outer surface of the sixteenth rotation shaft, and a second slide block that can be connected to the cam slides in the first cavity. The cam is not connected to the second slide block so that the second slide block can be pushed to the left when the cam rotates, and the second slide block has the said The seventh gear that can be connected to the sixth gear is installed so that it can rotate, the sixth gear is not connected to the seventh gear, and the first slide groove is installed in the right end wall of the first cavity. A second spring is installed between the left end wall of the first slide groove and the left end wall of the second slide block, and the rotating block is installed in the first cavity so as to be rotatable. An eighth gear that can be connected to the seventh gear is fixed to the rotating block, the seventh gear is not connected to the eighth gear, and the rotating block is engaged with the reciprocating lead screw. The screw thread is fixed, and the rotation of the reciprocating lead screw is advantageous for controlling the sliding of the second slide block to the left and right. By sliding the second slide block to the left and right, the first slide By sliding the block left and right and sliding the first slide block left and right, the working state of the closed filtration device of the present invention is controlled, the degree of automation of the closed filtration device of the present invention is increased, and the bottom end of the filtration cavity is increased. A soymilk storage cavity is installed in the wall, an okara storage cavity is installed in the bottom end wall of the filtration cavity, the soymilk storage cavity and the filtration block are connected by a fourth conduit, and the above-mentioned A communication conduit is installed between the storage cavity and the left side of the filtration cavity, and a fifth conduit is installed between the storage cavity and the right side of the filtration cavity, and the fifth conduit is installed. Is advantageous for storing filtered soymilk in different regions, in the left and right end walls of the filtration block The filter is symmetrically fixed, 15 check valve blocks are symmetrically fixed in the filtration block, a communication cavity is installed in the filtration block, and the communication cavity is installed. Connected to the fourth conduit, it is advantageous to filter the polished soymilk on both the left and right sides of the filtration block while the filtration block slides to the left and right, and at the same time, to filter the soymilk on one side. When filtering, the filtered soymilk is prevented from entering the other side, the working efficiency of the closed filtration device of the present invention is improved, and 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 left and right, and a third spring is installed between the right end wall of the sliding door and the right end wall of the second chute, and the sliding. A rack is fixed to the bottom end wall of the door, a third pulley is fixed to the outer surface of the seventh rotating shaft in the fourth cavity, and the third pulley is fixed in the fourth cavity and extends vertically. The seventeenth rotating shaft is installed so that it can rotate, a fourth pulley is fixedly installed at the bottom end of the seventeenth rotating shaft, and a second belt is placed between the fourth pulley and the third pulley. It is installed by transmission, a 22nd umbrella gear is fixedly installed at the top end of the 17th rotating shaft, and an 18th rotating shaft extending back and forth is installed in the 4th cavity so that it can rotate. A 23rd umbrella gear that meshes with the 22nd umbrella gear is fixedly installed at the rear end of the 18th rotating shaft, and meshes with the rack at the front end of the 18th rotating shaft. It is advantageous to continue adding beans and to improve the continuous working efficiency of the closed filtration device of the present invention to automatically open the sliding door after the ninth gear is fixed and polished in the polishing cavity. A closed filtration device characterized by that.

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