CN115742422B - Food processing solid-liquid separation screening plant - Google Patents

Abstract

The invention belongs to the technical field of food processing, in particular to a solid-liquid separation screening device for food processing, which comprises a solid-liquid separation device, wherein the solid-liquid separation device comprises a total mounting plate, a blanking component, an opening and closing component, a control component, a solid-liquid separation component, a drying component, an anti-backflow component, a power component and a flow guide component.

Description

Food processing solid-liquid separation screening plant

Technical Field

The invention belongs to the technical field of food processing, and particularly relates to a solid-liquid separation screening device for food processing.

Background

In the food processing process, the food needs to be dehydrated, some foods need to be dehydrated and then dehydrated liquid, the traditional mode is generally two, one is to realize solid-liquid separation by extruding the food, the other is to realize solid-liquid separation by cutting and crushing the food, and the first extrusion mode is mostly obtained by a screw extrusion mode, but the two extrusion modes have the cost of seriously damaging the original shape of the food to obtain solid-liquid separation.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a solid-liquid separation screening device for food processing, which has the characteristic of separating liquid from solid in food on the basis of protecting the original shape of the food as much as possible.

In order to achieve the above purpose, the present invention provides the following technical solutions: the solid-liquid separation screening device comprises a solid-liquid separation device, wherein the solid-liquid separation device comprises a total mounting plate, a blanking assembly, an opening and closing assembly, a control assembly, a solid-liquid separation assembly, a drying assembly, an anti-backflow assembly, a power assembly and a diversion assembly;

the utility model discloses a solar energy collecting device, including the front end outside of blank subassembly, the front end outside of total mounting panel is installed to the blank subassembly, the bottom inboard of blank subassembly is installed open and shut the subassembly, install in the rear end outside of total mounting panel control assembly, install in the front end of total mounting panel solid-liquid separation subassembly, solid-liquid separation subassembly's one end rotates and is connected with drying module, drying module's inboard is installed prevent against current subassembly with power pack, prevent against current subassembly's one end with power pack connects, install in the front end of total mounting panel water conservancy diversion subassembly.

As a food processing solid-liquid separation screening plant of the invention, preferably, the blank subassembly includes blank shell, segmentation blade, electronic linear slide rail, connecting block, connection shell, swage shell and swage strip, the rear end outside of blank shell fixedly connected with the front end outside of total mounting panel, the inboard of blank shell is fixedly installed the segmentation blade, the rear end outside of electronic linear slide rail is fixedly connected with the front end outside of total mounting panel, fixedly connected with on the slide of electronic linear slide rail the connecting block, the one end outside of connecting block is fixedly connected with the connection shell, the bottom outside of connection shell is fixedly connected with the swage shell, the bottom outside of swage shell is fixedly connected with the swage strip.

As a preferred choice of the solid-liquid separation screening device for food processing, the opening and closing component comprises a bottom rotating plate, a connecting pushing block, a first rotating ball, a pushing rod, a hemispherical contact, a sliding sleeve, a sliding plate, a first reset spring and a fixed shell, wherein the outer sides of the rear ends of the bottom rotating plates are rotationally connected with the inner sides of the bottom ends of the blanking shell, the lower sides of the rear ends of the bottom rotating plates are fixedly connected with the connecting pushing block, the inner sides of one ends of the connecting pushing block are rotationally connected with the first rotating ball, the outer sides of the rear ends of the first rotating ball are fixedly connected with the pushing rod, the outer sides of one ends of the pushing rod are fixedly connected with the hemispherical contact, the outer sides of one ends of the sliding rod are fixedly connected with the sliding sleeve, the outer sides of the upper ends and the lower ends of the sliding sleeve are fixedly connected with the sliding plate, the first reset spring is fixedly connected with the outer sides of the tail ends of the first reset spring, and the outer sides of the fixed shell are fixedly connected with the inner sides of one ends of the total mounting plate.

As the food processing solid-liquid separation screening device, the control assembly comprises a first connecting bracket, a first motor, a belt pulley, a thickened rubber belt and a hemispherical groove, wherein the outer side of the front end of the first connecting bracket is fixedly connected with the outer side of the rear end of the total mounting plate, the outer side of one end of the first connecting bracket is fixedly connected with the first motor, the tail end of a main shaft of the first motor is fixedly connected with the belt pulley, the central position of the inner side of one end of the other belt pulley is rotationally connected with the inner side of the right end of the first connecting bracket, the outer side of one end of the belt pulley is rotationally connected with the thickened rubber belt, and the hemispherical groove capable of accommodating the hemispherical contact is formed in the inner side of one end of the thickened rubber belt.

As a food processing solid-liquid separation screening plant of the invention, it is preferable that the solid-liquid separation assembly comprises a first rotating roller, a second motor, a first microporous filter belt, a first scraping plate, a second rotating roller, a third motor, a second microporous filter belt and a second scraping plate, wherein the central position of one end of the first rotating roller is fixedly connected with the tail end of a main shaft of the second motor, the outer sides of the rear ends of the second motor are fixedly connected with the outer sides of the front ends of the total mounting plates, the other first rotating rollers are all rotationally connected with the outer sides of the front ends of the total mounting plates, the outer sides of one ends of the first microporous filter belt are in contact with the first scraping plate, the outer sides of the rear ends of the first scraping plate are fixedly connected with the outer sides of the front ends of the total mounting plates, the central position of one second rotating roller is fixedly connected with the tail end of a main shaft of the third motor, the third motor is fixedly connected with the outer sides of the front ends of the total mounting plates, the other first rotating roller is in contact with the outer sides of the second microporous filter belt, the outer sides of the other first microporous filter belt are in contact with the outer sides of the second microporous filter belt, and the left side of the first microporous filter belt is in contact with the outer sides of the second microporous filter belt.

As a food processing solid-liquid separation screening plant of the invention, preferably, the drying component comprises a drying bracket, a bearing, a clamping rotating roller, a fixed cylinder inner layer, a water absorption liquid guide rod and a first water absorption sponge, wherein the outer side of the rear end of the drying bracket is fixedly connected with the outer side of the front end of the total mounting plate, the bearing is fixedly arranged on the outer side of a cylindrical protruding part of the drying bracket, the clamping rotating roller is fixedly connected with the outer sides of the bearing, the outer end surfaces of the two clamping rotating rollers are respectively and rotatably connected with the outer sides of the first microporous filtering belt and the second microporous filtering belt, the inner side of one end of the clamping rotating roller is concentrically fixed with the fixed cylinder inner layer, the inner side of one end of the fixed cylinder inner layer is fixedly connected with a plurality of water absorption liquid guide rods, the tail end of the water absorption liquid guide rod is fixedly connected with the inner side of the outer end surface of the clamping rotating roller, the inner side of the inner wall surface of the fixed cylinder inner layer is fixedly connected with the first water absorption sponge, and the inner side of one end of the water absorption liquid guide rod is fixedly connected with the outer side of the water absorption liquid guide rod.

As the food processing solid-liquid separation screening device, the countercurrent prevention assembly comprises a U-shaped support, an inner pressure head, a pushing support, a second rotating ball, a small pushing plate and a second reset spring, wherein one end of the U-shaped support is fixedly connected with the outer side of the outer end face of the inner layer of the fixed cylinder, the U-shaped groove of the U-shaped support is in contact connection with the outer side of one end of the water absorption liquid guide rod, the inner pressure head is connected in the U-shaped groove of the U-shaped support in a sliding manner, the pushing support is fixedly connected with the outer side of one end of the inner pressure head, the inner side of one end of the pushing support is rotatably connected with the second rotating ball, the small pushing plate is fixedly connected with the outer side of one end of the second rotating ball, and the second reset spring is fixedly connected between the adjacent outer sides of the small pushing plate and the pushing support.

As the food processing solid-liquid separation screening device, the countercurrent prevention assembly also comprises a second connecting bracket, an annular bracket, a first rotating bracket, a second rotating bracket, rotating wheels and steel wires, wherein the outer side of one end of the small push plate is fixedly connected with the second connecting bracket, a plurality of second connecting brackets are fixedly connected with one annular bracket, the outer side of one end of each second connecting bracket is fixedly connected with the first rotating bracket, the outer side of each U-shaped bracket is fixedly connected with the second rotating bracket, one ends of each first rotating bracket and each second rotating bracket are rotatably connected with the rotating wheels, and the outer side of one end of each rotating wheel is fixedly connected with the steel wires.

As the food processing solid-liquid separation screening device, the power assembly comprises a vertical support, an electric telescopic rod, a large sliding block, a fixed rotating shaft, a rotating shell, a connecting circular plate, a third connecting support and a circular pressing plate, wherein the outer side of the rear end of the vertical support is fixedly connected with the outer side of the front end of the total mounting plate, the inner side of the top end of the vertical support is fixedly connected with the electric telescopic rod, the tail end of a telescopic main shaft of the electric telescopic rod is fixedly connected with the large sliding block, the outer side of one end of the large sliding block is slidingly connected with the inner side of one end of the vertical support, the outer side of the front end of the large sliding block is fixedly connected with the fixed rotating shaft, the outer side of the fixed rotating shell is rotationally connected with the outer end of the rotating shell, the outer side of the rear end of the large sliding block is fixedly connected with the connecting circular plate, the outer end of the connecting circular plate is fixedly connected with the third connecting support, and the tail end of the third connecting support is fixedly connected with the circular pressing plate.

As the food processing solid-liquid separation screening device, the invention is preferable, the diversion component comprises a diversion fixing support, a top support, a fourth motor, a control circular plate, an arc groove, a special-shaped groove, a sliding shaft, an upper clamping plate, a lower clamping plate, a sheet diversion piece and a second water absorption sponge, wherein the outer side of the rear end of the diversion fixing support is fixedly connected with the outer side of the front end of the total mounting plate, the outer side of the top end of the diversion fixing support is fixedly connected with the top support, the outer side of one end of the top support is fixedly connected with the fourth motor, the tail end of a main shaft of the fourth motor is fixedly connected with the control circular plate, two rotationally symmetrical arc grooves are formed in the inner side of the control circular plate, two rotationally symmetrical special-shaped grooves are formed in the two ends of the arc groove, the inner side of the special-shaped groove and the special-shaped groove are respectively connected with the sliding shaft, the outer side of the rear end of the sheet diversion piece is fixedly connected with the outer side of the front end of the total mounting plate through a rod-shaped support, the left side and right sides of one end of the sheet diversion piece are respectively and are in a non-contact manner, the upper clamping plate and the lower clamping plate is respectively arranged on the left side and the left side of one end of the sheet diversion piece, the upper clamping plate is connected with the two lower clamping plates and the two clamping plates are respectively, the two clamping plates are fixedly connected with the two clamping plates are arranged on the front sides, and the two clamping plates are respectively.

Compared with the prior art, the invention has the beneficial effects that: through the solid-liquid separation device that sets up, can be on the basis of the original shape of protection food as far as, carry out separation with the liquid in the food with solid, even carry out the section processing with great food before dehydration work, this kind of mode of handling still has basic shape, and traditional screw extrusion is the food is the residue that does not have any shape, when this device extrudees the food, the food can be flattened equally, but the shape of protection food as far as, the circumstances of branch separation breakage can not appear equally.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the blanking assembly of the present invention;

FIG. 3 is a schematic view of a connection structure of the connection housing according to the present invention;

FIG. 4 is a right side view of the overall structure of the opening and closing assembly of the present invention;

FIG. 5 is a schematic top view of a control assembly according to the present invention;

FIG. 6 is a schematic diagram of a solid-liquid separation module according to the present invention;

FIG. 7 is a schematic view of a drying rack according to the present invention;

FIG. 8 is a schematic view of the connection structure of the drying rack according to the present invention;

FIG. 9 is a schematic view of a connection structure of a clamping roller according to the present invention;

FIG. 10 is a cross-sectional view showing the internal structure of the grip roll according to the present invention;

FIG. 11 is an enlarged view showing the internal structure of the grip roll according to the present invention;

FIG. 12 is an enlarged schematic view of the structure of FIG. 11A in accordance with the present invention;

FIG. 13 is a top view of the U-shaped bracket of the present invention;

FIG. 14 is a schematic view of the overall structure of the power assembly of the present invention;

FIG. 15 is a schematic view of the overall structure of the baffle assembly according to the present invention;

FIG. 16 is an enlarged schematic view of the structure of FIG. 15B in accordance with the present invention;

FIG. 17 is a left side view of the structure of the control disk of the present invention;

FIG. 18 is a schematic view of the structure of the upper clamping plate of the present invention;

FIG. 19 is a schematic view of the structure of the lower clamping plate of the present invention;

FIG. 20 is a three-dimensional view of the mounting location of the opening and closing assembly of the present invention;

FIG. 21 is a schematic view of the mounting position of the opening and closing assembly of the present invention;

fig. 22 is a three-dimensional view of the overall structure of the opening and closing assembly of the present invention.

In the figure:

1. a solid-liquid separation device; 11. a total mounting plate;

2. A blanking assembly; 21. a blanking shell; 22. a dividing blade; 23. an electric linear slide rail; 24. a connecting block; 25. a connection housing; 26. a pressing shell; 27. pressing material strips;

3. an opening and closing assembly; 31. a bottom rotating plate; 32. the pushing block is connected; 33. a first rotating ball; 34. a push rod; 35. a hemispherical contact; 36. a sliding sleeve; 37. a sliding plate; 38. a first return spring; 39. a fixed housing;

4. a control assembly; 41. a first connection bracket; 42. a first motor; 43. a belt pulley; 44. thickening the rubber belt; 45. hemispherical grooves;

5. a solid-liquid separation assembly; 51. a first rotating roller; 52. a second motor; 53. a first microporous filter belt; 54. a first scraping plate; 55. a second rotating roller; 56. a third motor; 57. a second microporous filter belt; 58. a second scraper;

6. a drying assembly; 61. drying the bracket; 62. a bearing; 63. clamping the rotating roller; 64. fixing the inner layer of the cylinder; 65. a water-absorbing liquid-guiding rod; 66. a first absorbent sponge;

7. an anti-reflux assembly; 71. a U-shaped bracket; 72. an internal ram; 73. pushing the bracket; 74. a second rotating ball; 75. a small push plate; 76. a second return spring; 77. a second connection bracket; 771. an annular bracket; 78. a first rotating bracket; 79. a second rotating bracket; 791. a rotating wheel; 792. a steel wire;

8. A power assembly; 81. a vertical support; 82. an electric telescopic rod; 83. a large slider; 84. fixing the rotating shaft; 85. rotating the housing; 86. a connecting circular plate; 87. a third connecting bracket; 88. a circular pressing plate;

9. a flow guiding assembly; 91. a diversion fixing bracket; 92. a top bracket; 93. a fourth motor; 94. a control circular plate; 941. an arc-shaped groove; 942. a special-shaped groove; 95. a sliding shaft; 96. an upper clamping plate; 97. a lower clamping plate; 98. a sheet-like flow guide member; 99. and a second absorbent sponge.

Detailed Description

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

As shown in fig. 1-22:

the solid-liquid separation screening device for food processing comprises a solid-liquid separation device 1, wherein the solid-liquid separation device 1 comprises a total mounting plate 11, a blanking assembly 2, an opening and closing assembly 3, a control assembly 4, a solid-liquid separation assembly 5, a drying assembly 6, an anti-reflux assembly 7, a power assembly 8 and a diversion assembly 9;

One end of the blanking component 2 is arranged on the outer side of the front end of the total mounting plate 11, the opening and closing component 3 is arranged on the inner side of the bottom end of the blanking component 2, the control component 4 is arranged on the outer side of the rear end of the total mounting plate 11, the solid-liquid separation component 5 is arranged on the front end of the total mounting plate 11, one end of the solid-liquid separation component 5 is rotationally connected with the drying component 6, the inner side of the drying component 6 is provided with the backflow prevention component 7 and the power component 8, one end of the backflow prevention component 7 is connected with the power component 8, and the front end of the total mounting plate 11 is provided with the flow guide component 9.

Further, the method comprises the steps of;

in an alternative embodiment, the blanking assembly 2 includes a blanking housing 21, a dividing blade 22, an electric linear slide rail 23, a connecting block 24, a connecting housing 25, a pressing housing 26 and a pressing strip 27, the rear end outer side of the blanking housing 21 is fixedly connected with the front end outer side of the total mounting plate 11, the inner side of the blanking housing 21 is fixedly provided with the dividing blade 22, the rear end outer side of the electric linear slide rail 23 is fixedly connected with the front end outer side of the total mounting plate 11, the connecting block 24 is fixedly connected with a slide seat of the electric linear slide rail 23, one end outer side of the connecting block 24 is fixedly connected with the connecting housing 25, the bottom end outer side of the connecting housing 25 is fixedly connected with the pressing housing 26, and the bottom end outer side of the pressing housing 26 is fixedly connected with the pressing strip 27.

In an alternative embodiment, the opening and closing assembly 3 includes a bottom rotating plate 31, a connecting pushing block 32, a first rotating ball 33, a pushing rod 34, a hemispherical contact 35, a sliding sleeve 36, a sliding plate 37, a first return spring 38 and a fixed housing 39, wherein the outer sides of the rear ends of the bottom rotating plate 31 are rotatably connected to the inner sides of the bottom ends of the blanking housing 21, the lower side of the rear end of the bottom rotating plate 31 is fixedly connected to the connecting pushing block 32, one inner side of one end of the connecting pushing block 32 is rotatably connected to the first rotating ball 33, the outer side of the rear end of the first rotating ball 33 is fixedly connected to the pushing rod 34, the outer side of the rear end of the pushing rod 34 is fixedly connected to the hemispherical contact 35, one outer side of one end of the pushing rod 34 is slidably connected to the sliding sleeve 36, the outer sides of the upper end and the lower end of the sliding sleeve 36 are fixedly connected to the sliding plate 37, the first return spring 38 is fixedly connected to the inner side of the groove of the sliding plate 37, the outer side of the end of the first return spring 38 is fixedly connected to the inner side of the housing 39, and the inner side of the outer side of the end of the sliding plate is fixedly connected to the outer side of the main mounting plate 11.

In an alternative embodiment, the control assembly 4 includes a first connection bracket 41, a first motor 42, a pulley 43, a thickened rubber belt 44 and a hemispherical groove 45, the front end outer side of the first connection bracket 41 is fixedly connected to the rear end outer side of the total mounting plate 11, one end outer side of the first connection bracket 41 is fixedly connected to the first motor 42, the tail end of a spindle of the first motor 42 is fixedly connected to the pulley 43, the other end inner side central position of one end of the pulley 43 is rotationally connected to the right end inner side of the first connection bracket 41, one end outer side of the pulley 43 is rotationally connected to the thickened rubber belt 44, and one end inner side of the thickened rubber belt 44 is provided with the hemispherical groove 45 capable of accommodating the hemispherical contact 35.

In an alternative embodiment, the solid-liquid separation assembly 5 includes a first rotating roller 51, a second motor 52, a first micro-filtration belt 53, a first scraping plate 54, a second rotating roller 55, a third motor 56, a second micro-filtration belt 57, and a second scraping plate 58, wherein one end of the first rotating roller 51 is fixedly connected to the spindle end of the second motor 52 at the inner central position, the rear outer side of the second motor 52 is fixedly connected to the front outer side of the total mounting plate 11, the other first rotating rollers 51 are all rotatably connected to the front outer side of the total mounting plate 11, the outer side of the first rotating roller 51 is rotatably connected to the first micro-filtration belt 53, one end of the first micro-filtration belt 53 is in contact connection with the first scraping plate 54, the rear outer side of the first scraping plate 54 is fixedly connected to the front outer side of the total mounting plate 11, one end of the second rotating roller 55 is fixedly connected to the spindle end of the third motor 56, the other first rotating roller 51 is fixedly connected to the rear outer side of the second scraping plate 55, the second scraping plate is in contact with the front outer side of the second micro-filtration belt 57, the other first scraping plate is in contact with the front outer side of the first micro-filtration belt 57, and the other micro-filtration belt is in contact with the front outer side of the first micro-filtration belt 57.

In an alternative embodiment, the drying assembly 6 includes a drying support 61, a bearing 62, a clamping roller 63, a fixed cylindrical inner layer 64, a water-absorbing and liquid-guiding rod 65, and a first water-absorbing sponge 66, where the outer side of the rear end of the drying support 61 is fixedly connected to the outer side of the front end of the main mounting plate 11, the bearing 62 is fixedly installed on the outer side of a cylindrical boss of the drying support 61, the clamping roller 63 is fixedly connected to the outer side of the bearing 62, the outer end surfaces of the two clamping rollers 63 are respectively rotatably connected to the outer sides of the first microporous filtering belt 53 and the second microporous filtering belt 57, the inner side of one end of the clamping roller 63 is concentrically fixed with the fixed cylindrical inner layer 64, the inner side of one end of the fixed cylindrical inner layer 64 is fixedly connected to a plurality of water-absorbing and liquid-guiding rods 65, the inner side of the inner wall of the fixed cylindrical inner layer 64 is fixedly connected to the first water-absorbing sponge 66, and the outer side of the first water-absorbing and liquid-guiding rod 65 is fixedly connected to the outer side of one end of the first water-absorbing and liquid-guiding rod 65.

In an alternative embodiment, the anti-backflow assembly 7 includes a U-shaped bracket 71, an inner pressure head 72, a pushing bracket 73, a second rotating ball 74, a small pushing plate 75 and a second return spring 76, one end of the U-shaped bracket 71 is fixedly connected to the outer side of the outer end surface of the inner layer 64 of the fixed cylinder, the U-shaped slot of the U-shaped bracket 71 is connected to the outer side of one end of the water-absorbing and liquid-guiding rod 65 in a contact manner, the inner pressure head 72 is slidably connected to the U-shaped slot of the U-shaped bracket 71, one end outer side of the inner pressure head 72 is fixedly connected to the pushing bracket 73, one end inner side of the pushing bracket 73 is rotatably connected to the second rotating ball 74, one end outer side of the second rotating ball 74 is fixedly connected to the small pushing plate 75, and the second return spring 76 is fixedly connected between the adjacent outer sides of the pushing bracket 73.

In an alternative embodiment, the anti-countercurrent assembly 7 further includes a second connection bracket 77, an annular bracket 771, a first rotation bracket 78, a second rotation bracket 79, a rotation wheel 791 and a steel wire 792, wherein one end outer side of the small push plate 75 is fixedly connected with the second connection bracket 77, a plurality of second connection brackets 77 are fixedly connected with one annular bracket 771, one end outer side of the second connection bracket 77 is fixedly connected with the first rotation bracket 78, one outer side of the U-shaped bracket 71 is fixedly connected with the second rotation bracket 79, one ends of the first rotation bracket 78 and the second rotation bracket 79 are rotatably connected with the rotation wheel 791, and one end outer side of the rotation wheel 791 is fixedly connected with the steel wire 792.

In an alternative embodiment, the power assembly 8 includes a vertical support 81, an electric telescopic rod 82, a large sliding block 83, a fixed rotating shaft 84, a rotating housing 85, a connecting circular plate 86, a third connecting support 87 and a circular pressing plate 88, the outer side of the rear end of the vertical support 81 is fixedly connected with the outer side of the front end of the total mounting plate 11, the inner side of the top end of the vertical support 81 is fixedly connected with the electric telescopic rod 82, the end of the telescopic main shaft of the electric telescopic rod 82 is fixedly connected with the large sliding block 83, one outer side of the large sliding block 83 is slidably connected with the inner side of one end of the vertical support 81, the outer side of the front end of the large sliding block 83 is fixedly connected with the fixed rotating shaft 84, the outer side of the fixed rotating shaft 84 is rotatably connected with the rotating housing 85, the outer end face of the rotating housing 85 is fixedly connected with the end of the steel wire 792, the outer end of the large sliding block 83 is fixedly connected with the connecting circular plate 86, the outer end of the connecting circular plate 86 is fixedly connected with the third connecting support 87, and the end of the third connecting support 87 is fixedly connected with the circular pressing plate 88.

In an optional embodiment, the flow guiding assembly 9 includes a flow guiding fixing support 91, a top support 92, a fourth motor 93, a control circular plate 94, an arc groove 941, a special-shaped groove 942, a sliding shaft 95, an upper clamping plate 96, a lower clamping plate 97, a sheet-shaped flow guiding member 98 and a second water absorbing sponge 99, the outer side of the rear end of the flow guiding fixing support 91 is fixedly connected with the outer side of the front end of the total mounting plate 11, the outer side of the top end of the flow guiding fixing support 91 is fixedly connected with the top support 92, one end of the top support 92 is fixedly connected with the fourth motor 93, the end of a main shaft of the fourth motor 93 is fixedly connected with the control circular plate 94, two rotationally symmetrical arc grooves 941 are formed in the inner side of the control circular plate 94, two rotationally symmetrical end of the arc grooves 941 are respectively communicated with the special-shaped groove 942, the inner sides of the arc grooves 941 and the special-shaped groove 942 are respectively slidably connected with the sliding shaft 95, the outer side of the sheet-shaped flow guiding member 98 is fixedly connected with the outer side of the front end of the total mounting plate 11, one end of the sheet-shaped flow guiding member 98 is fixedly connected with the outer side of the top support 92, one end of the top support 92 is fixedly connected with the fourth motor 93, one end of the inner side of the control circular plate is fixedly connected with the inner side of the control circular plate 94, the main shaft is fixedly connected with the upper clamping plate 96, two end of the inner side of the special-shaped flow guiding member is respectively, and the other end of the special-shaped groove 941 is respectively is fixedly connected with the two rotationally opposite to the upper clamping plate 96.

In this embodiment: in the food processing process, some foods need to be dehydrated, if the foods are too large, the foods need to be cut first and then dehydrated, and the foods are not large, so that the dehydration can be directly performed without cutting.

The processing work of the food which needs to be cut firstly and then dehydrated is as follows, the food is put into the inner side of the cutting shell 21, the food moves downwards under the gravity and contacts with the cutting blades 22, the electric linear slide rail 23 is electrified, the electric linear slide rail 23 drives the connecting block 24 to move downwards after being electrified, the connecting block 24 moves downwards and drives the connecting shell 25 to drive the pressing shell 26 to move downwards, the pressing shell 26 drives a plurality of pressing strips 27 to move downwards, the plurality of pressing strips 27 are arranged between the two cutting blades 22 or between the cutting blades 22 and the inner wall of the cutting shell 21, the space between the two cutting blades 22 or between the cutting blades 22 and the inner wall of the cutting shell 21 is called a single cutting space, the food can be pressed downwards through the pressing strips 27, and the food can be cut by the cutting blades 22 better, the cut food does not immediately fall from the bottom of the blanking housing 21, in order to prevent the cut food from falling one by one to cause stacking and affect the subsequent dewatering operation, the stacking is avoided by falling the cut food into pieces one by one, the first motor 42 is powered, the first motor 42 drives the belt pulley 43 to rotate, the belt pulley 43 rotates to drive the thickened rubber belt 44 to rotate, two hemispherical grooves 45 are formed in the thickened rubber belt 44, the distances between the two hemispherical grooves 45 are equal, namely, when the thickened rubber belt 44 is sheared from the positions of the two hemispherical grooves 45 to form two thickened rubber belts 44, the lengths of the sheared two thickened rubber belts 44 are equal, and the length of the sheared thickened rubber belt 44 is not shorter than the transverse width of the blanking housing 21, the position of the hemispherical recess 45 can be continuously changed through the rotation of the thick rubber belt, when the hemispherical contact 35 relatively slides at the plane position of the thickened rubber belt 44, the hemispherical contact 35 cannot move, when the position of the hemispherical recess 45 overlaps with the position of the hemispherical contact 35 through the rotation of the thickened rubber belt 44, the hemispherical contact 35 falls into the hemispherical recess 45, so that the hemispherical contact 35 can move backwards, at the moment, the bottom rotating plate 31 is influenced by gravity to rotate downwards, one single cutting space can be opened by the rotation of the bottom rotating plate 31, at the moment, food in the single cutting space can drop downwards, in the rotation process of the bottom rotating plate 31, the bottom rotating plate 31 can drive the connecting pushing block 32 to rotate together, the connecting pushing block 32 can drive the first rotating ball 33 to drive the pushing rod 34 to move together, the push rod 34 slides along the inner side of the sliding sleeve 36, and the sliding sleeve 36 can only move up and down because the sliding sleeve 36 can not rotate, so when the push block 32 is connected to drive the first rotating ball 33 to rotate, the position of the first rotating ball 33 is changed, the position of the sliding sleeve 36 is also driven to change, the sliding sleeve 36 can drive the sliding plate 37 to move against the elastic force of the first return spring 38, when the push rod 34 moves backwards, the push rod 34 moves relatively a small distance, along with the continuous movement of the thick rubber belt, the thick rubber belt can make the hemispherical groove 45 not contact with the hemispherical contact 35, the hemispherical contact 35 can move forwards again, the bottom rotating plate 31 can be rotated back to the original position again according to the principle, the bottom of the single cutting space is closed again, the hemispherical grooves 45 pass through different hemispherical contact 35 positions one by one, the bottoms of different single cutting spaces can be opened one by one, and the cut materials are discharged one by one, so that food accumulation is avoided.

The cut food can fall on the upper side of the second micro-porous filtering belt 57, if the food which does not need to be cut can be directly placed on the upper side of the second micro-porous filtering belt 57, but the food is uniformly placed, so that the food is prevented from being piled up, the food which does not need to be cut can be placed on the inner side of the blanking housing 21, the food is placed on the upper side of the second micro-porous filtering belt 57 by opening the bottom rotating plate 31 one by one, the second motor 52 and the third motor 56 are simultaneously electrified, the second motor 52 and the third motor 56 respectively drive the first rotating roller 51 and the second rotating roller 55 to rotate, the linear speed of the first rotating roller 51 and the second rotating roller 55 is the same, the food can be conveyed through the rotation of the second micro-porous filtering belt 57, the food is conveyed into the included angle between the second micro-porous filtering belt 57 and the first micro-porous filtering belt 53, the food can be gradually extruded by the first micro-porous filtering belt 53 and the second micro-porous filtering belt 57, the food can be more easily extruded by the second micro-porous filtering belt 53 when the food is more stressed by the second rotating belt 53, the food can be more extruded between the second micro-porous filtering belt 53, the food can be more extruded by the food, the food can be more easily extruded between the two micro-porous filtering belts, and the food can be more extruded by the food can be more easily extruded by the second filtering belt 53, and the food can be more easily extruded by the food, and the food can be more extruded by the two than the food, and the food can be more directly and more easily extruded by the high by the food, and the can be more than the can be directly and more easily and pressed and the can and can be pressed and can be directly and pressed and can be pressed and more and, the liquid needs to pass through the very thick food layer after extrusion and can extrude the liquid to the food after extrusion has certain hydroscopicity, leads to easily inhaling the partial liquid after extrusion again in the food after extrusion, this device has increased extruded area, make the atress of food bigger, the food can be better direct the extrusion, but the condition that the liquid that also appears extruding easily appears flowing back in this kind of mode is different, but the reason is different, this device has directly solved article and food extrusion each other can lead to the thickness of food after extrusion thicker, the liquid needs to pass the very thick problem that the food layer after extrusion just can extrude the liquid, but the liquid that the mode extrudes is less, be difficult to take place the problem of drip, so can appear still that the liquid is inhaled by the food after extrusion again, but can solve through the drying module 6 that sets up.

It should be understood that the food being indirectly held and squeezed by the two holding rollers 63 will be subjected to a strong squeezing force, so that the liquid squeezed therein will be the most, the excessive liquid will mainly flow down along the outer side of the second microporous filter belt 57, and a small portion will flow down along the outer side of the left holding roller 63, while the right holding roller 63 will be in contact with the liquid, when the liquid contacts the holding roller 63, the liquid will be absorbed by the water absorbing and liquid guiding rod 65, the liquid will be transferred to the first absorbent sponge 66 by the transfer of the liquid along the water absorbing and liquid guiding rod 65, the first absorbent sponge 66 will store more liquid, so that a small amount of liquid adhered to the outer side of the holding roller 63 will enter the inner side of the first absorbent sponge 66 for temporary storage, so that the liquid squeezed from the food can be quickly absorbed by the first absorbent sponge 66 for temporary storage, the squeezed liquid is prevented from being absorbed by the squeezed food again (because the squeezed food losing the squeezing force has certain water absorbability), when the water absorbability of the first absorbent sponge 66 and the water absorbability of the water absorbability liquid guide rod 65 are far stronger than that of the squeezed food, more liquid can enter the inner side of the first absorbent sponge 66 through the water absorbability liquid guide rod 65, if the water content of the food is high, a large amount of liquid can be squeezed in a short time after the food is squeezed by the two clamping rollers 63, and the excessive liquid can directly flow downwards due to the fact that the liquid is absorbed by the water absorbability liquid guide rod 65, the liquid can flow downwards along the second microporous filter belt 57, it is highly possible that these liquids flow down the second microporous filter belt 57 to the food which is not pressed, so that these foods are accompanied by much liquid when pressed, thereby giving much burden to the water sucking work of the water sucking and guiding rod 65 and the first water sucking sponge 66, which can be solved by the provision of the guide member 9.

When the liquid flows downwards along the second microporous filtering belt 57, the liquid contacts the sheet-shaped guide pieces 98 in the guide assembly 9, the liquid flows downwards along the sheet-shaped guide pieces 98, the top ends of the plurality of sheet-shaped guide pieces 98 contact the outer surface of the second microporous filtering belt 57, the space between the sheet-shaped guide pieces 98 from left to right is gradually increased, because the liquid flows from left to right, the density of the sheet-shaped guide pieces 98 can be increased through the sheet-shaped guide pieces 98 with smaller space, the guide effect is improved, the space between the sheet-shaped guide pieces 98 on the right side is larger, the liquid on the right side is less, excessive sheet-shaped guide pieces 98 are not needed, the liquid flows downwards along the sheet-shaped guide pieces 98 and enters the second water-absorbing sponge 99, the liquid can be stored through the arranged second water-absorbing sponge 99, when the liquid in the second water absorbing sponge 99 is required to be discharged to a certain extent, the fourth motor 93 is electrified, the fourth motor 93 drives the control circular plate 94 to rotate, the control circular plate 94 rotates to drive the arc-shaped groove 941 and the special-shaped groove 942 to rotate together, the upper clamping plate 96 and the lower clamping plate 97 can only move up and down along the sheet-shaped guide piece 98 and cannot move in other directions, so that the upper clamping plate 96 and the lower clamping plate 97 can only drive the sliding shaft 95 to only move up and down and cannot move in other directions, at the moment, the control circular plate 94 rotates to drive the arc-shaped groove 941 and the special-shaped groove 942 to rotate together, so that the upper sliding shaft 95 and the lower sliding shaft 95 can only be forced to move along the special-shaped groove 942, the two sliding shafts 95 move in opposite directions but cannot contact each other, and when the sliding shafts 95 slide out of the special-shaped groove 942 to the arc-shaped groove 941, because the arc groove 941 and the special-shaped groove 942 are continuous with each other, when the control circular plate 94 drives the arc groove 941 and the special-shaped groove 942 to rotate, the two sliding shafts 95 continuously move in opposite directions and move in opposite directions, and the sliding shafts 95 drive the upper clamping plate 96 and the lower clamping plate 97 to move in opposite directions to extrude the second water absorbing sponge 99 and then separate again (the lower clamping plate 97 has a plurality of uniform through holes), so that the liquid in the second water absorbing sponge 99 is extruded.

When more liquid stored in the inner side of the first absorbent sponge 66 needs to be cleaned, the electric telescopic rod 82 is electrified at the moment, the electric telescopic rod 82 drives the large sliding block 83 to move downwards after being electrified, the large sliding block 83 moves downwards to drive the fixed rotating shaft 84 so as to drive the rotating shell 85 to move downwards, the rotating shell 85 moves downwards to drive the upper steel wire 792 to move downwards, the lower steel wire 792 is in a bending unstressed state, when the upper steel wire 792 moves downwards, the upper steel wire 792 drives the rotating wheel 791 to move downwards, the rotating wheel 791 drives the second rotating bracket 79 and the first rotating bracket 78 to move downwards, so that the included angle between the first rotating bracket 78 and the second rotating bracket 79 is larger and larger, and because the second rotating bracket 79 is in a state of being fixed relative to the clamping rotating roller 63 and the fixed cylinder inner layer 64, the other rotating end of the first rotating bracket 78 moves downwards, the first rotating bracket 78 drives the second connecting bracket 77 to move downwards, the annular bracket 77 moves downwards, the annular bracket 771 drives the annular bracket 77 to move, the annular bracket 771 drives the annular bracket 771 to move towards the annular bracket 77 to move, and the annular bracket 771 drives the annular bracket 771 to move along with the annular bracket 771 to move, and the annular bracket 771 moves the annular bracket 771 to move downwards, and the annular bracket 771 moves the annular bracket 771 to move along with the annular bracket 771, and the annular bracket 771 moves the annular bracket 771 to move together, the pushing bracket 73 moves to drive the inner pressure head 72 to move so as to squeeze the water absorption liquid guide rod 65 on the inner side of the U-shaped bracket 71, the density of the water absorption liquid guide rod 65 is changed by squeezing one end of the water absorption liquid guide rod 65, so that the water absorption of the squeezing part is changed, the water absorption of the squeezing part is greatly reduced, liquid is difficult to pass through the squeezing part to reach the other side of the water absorption liquid guide rod 65, the downward movement of the large sliding block 83 drives the connecting circular plate 86 to move downward, the connecting circular plate 86 moves downward so as to drive the third connecting bracket 87 to move downward, the downward movement of the third connecting bracket 87 drives the circular pressing plate 88 to move downward, the circular pressing plate 88 contacts and squeezes the first water absorption sponge 66 after moving downward, the first water absorption sponge 66 rotates along with the clamping rotary roller 63, the first water absorption sponge 66 can be uniformly squeezed, so that the liquid which is separated from the first water absorption sponge 66 cannot flow to the outer side of the rotary roller 63 through the water absorption liquid guide rod 65, and mainly because the one end of the water absorption liquid guide rod 65 is in a state of the water absorption liquid guide rod 65 is squeezed by the inner side of the squeezing layer 64, and then the liquid is not fixed on the outer side of the cylinder 64.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A food processing solid-liquid separation screening plant, its characterized in that: the device comprises a solid-liquid separation device (1), wherein the solid-liquid separation device (1) comprises a total mounting plate (11), a blanking assembly (2), an opening and closing assembly (3), a control assembly (4), a solid-liquid separation assembly (5), a drying assembly (6), an anti-countercurrent assembly (7), a power assembly (8) and a diversion assembly (9);

the utility model provides a water-absorbing device, including drying component (6), including drying component (61), support (63), water-absorbing layer (64), water-absorbing layer (65) is formed by installing the front end outside of blank subassembly (2), install the one end of blank subassembly (2) in the front end outside of total mounting panel (11), install the bottom inboard of blank subassembly (2) opening and shutting subassembly (3), install the rear end outside of total mounting panel (11) control assembly (4), install the front end of total mounting panel (11) solid-liquid separation subassembly (5), the one end rotation of solid-liquid separation subassembly (5) is connected with drying component (6), install the inboard of drying component (6) prevent countercurrent component (7) with power component (8), prevent countercurrent component (7) one end with power component (8) are connected, install the front end of total mounting panel (11) guide component (9), blank subassembly (2) are including blank shell (21), segmentation blade (22), electronic linear slide rail (23), connecting block (24), connecting housing (25), swage shell (26) and swager strip (27), drying component (6) including drying bracket (61), support (64), water-absorbing layer (65) are held by a cylinder (65) and water-absorbing layer (65) The device comprises an inner pressure head (72), a pushing support (73), a second rotating ball (74), a small push plate (75) and a second reset spring (76), wherein the backflow prevention assembly (7) further comprises a second connecting support (77), an annular support (771), a first rotating support (78), a second rotating support (79), a rotating wheel (791) and a steel wire (792), the power assembly (8) comprises a vertical support (81), an electric telescopic rod (82), a large sliding block (83), a fixed rotating shaft (84), a rotating shell (85), a connecting circular plate (86), a third connecting support (87) and a circular pressing plate (88), and the flow guide assembly (9) comprises a flow guide fixed support (91), a top support (92), a fourth motor (93), a control circular plate (94), an arc-shaped groove (941), a special-shaped groove (942), a sliding shaft (95), an upper clamping plate (96), a lower clamping plate (97), a sheet-shaped flow guide piece (98) and a second water absorbing sponge (99);

The opening and closing assembly (3) comprises a bottom rotating plate (31), a connecting pushing block (32), a first rotating ball (33), a pushing rod (34), hemispherical contacts (35), a sliding sleeve (36), a sliding plate (37), a first reset spring (38) and a fixed shell (39), wherein the outer sides of the rear ends of the bottom rotating plate (31) are rotationally connected with the inner sides of the bottom of the blanking shell (21), the lower sides of the rear ends of the bottom rotating plate (31) are fixedly connected with the connecting pushing block (32), the inner sides of one ends of the connecting pushing block (32) are rotationally connected with the first rotating ball (33), the outer sides of the rear ends of the first rotating ball (33) are fixedly connected with the pushing rod (34), the outer sides of the rear ends of the pushing rod (34) are fixedly connected with the hemispherical contacts (35), the outer sides of one ends of the pushing rod (34) are slidingly connected with the sliding sleeve (36), the outer sides of the upper ends and the lower ends of the sliding sleeve (36) are fixedly connected with the sliding plate (37), the inner sides of one end of the sliding plate (37) are fixedly connected with the first reset spring (38), the outer sides of the first reset spring (38) are fixedly connected with the outer sides of the outer shell (39), the control assembly (4) comprises a first connecting bracket (41), a first motor (42), a belt pulley (43), a thickened rubber belt (44) and a hemispherical groove (45), wherein the outer side of the front end of the first connecting bracket (41) is fixedly connected with the outer side of the rear end of the total mounting plate (11), one end of the first connecting bracket (41) is fixedly connected with the first motor (42), the tail end of a spindle of the first motor (42) is fixedly connected with the belt pulley (43), the inner side central position of one end of the other belt pulley (43) is rotationally connected with the inner side of the right end of the first connecting bracket (41), one end of the belt pulley (43) is rotationally connected with the thickened rubber belt (44), the hemispherical groove (45) capable of accommodating the hemispherical contact (35) is formed in the inner side of one end of the thickened rubber belt (44), the solid-liquid separation assembly (5) comprises a first rotating roller (51), a second motor (52), a first microporous filter belt (53), a first scraper motor (54), a second scraper motor (55), a second microporous filter belt (56), a second scraper motor (55), one end of the first microporous filter belt (55) and one end of the first microporous belt (55) is fixedly connected with the first rotating roller (57), the utility model discloses a filter device, including main mounting panel (11), first rotating roller (51), second motor (52), first filter belt (53), second motor (54), first filter belt (53) and second filter belt (57), first filter belt (57) and second filter belt (58), second motor (55) and second motor (56), second motor (51) are in rear end outside fixed connection in the front end outside of main mounting panel (11), other first rotating roller (51) are all rotated and are connected the front end outside of main mounting panel (11), other outside of first rotating roller (51) is rotated and is connected with first filter belt (53), one end outside of second filter belt (53) is rotated and is connected with first scraper plate (54), the rear end outside of first scraper plate (54) is in front end outside of main mounting panel (11), one of second scraper plate (58) is in contact with second filter belt (57), second filter belt (58) is in the front end outside of main mounting panel (11) is in fixed connection with the main shaft end outside of third motor (56).

2. The food processing solid-liquid separation screening device according to claim 1, wherein: the utility model discloses a cutting device, including cutting shell (21), cutting shell (25), cutting shell (21), cutting shell (22), electronic linear slide (23), connecting block (24), connecting shell (25) are connected in the rear end outside of cutting shell (21), cutting shell (21) inboard fixed mounting cut apart blade (22), electronic linear slide (23) rear end outside fixed connection is in the front end outside of total mounting panel (11), fixedly connected with on the slide of electronic linear slide (23) connecting block (24), connecting shell (25) are connected in the one end outside of connecting block (24) fixedly connected with in the bottom outside of connecting shell (25) pressing shell (26), pressing shell (26) bottom outside fixedly connected with pressing strip (27).

3. The food processing solid-liquid separation screening device according to claim 2, wherein: the rear end outside fixed connection of dry support (61) is in the front end outside of total mounting panel (11), the cylindrical bellying outside fixed mounting of dry support (61) has bearing (62), the outside fixedly connected with of bearing (62) centre gripping commentaries on classics roller (63), two the outer terminal surface of centre gripping commentaries on classics roller (63) respectively with first micropore filter belt (53) with the outside rotation connection of second micropore filter belt (57), the inboard concentric fixed cylinder inlayer (64) of one end of centre gripping commentaries on classics roller (63), the inboard fixedly connected with of one end of fixed cylinder inlayer (64) a plurality of water absorption drain guide bar (65), the terminal fixed connection of water absorption drain guide bar (65) is in the outer terminal surface inboard of centre gripping commentaries on classics roller (63), the medial surface inboard fixedly connected with of fixed cylinder inlayer (64) first water absorption sponge (66), the one end inboard of first water absorption sponge (66) with the outside fixed connection of water absorption drain bar (65).

4. A food processing solid-liquid separation screening device according to claim 3, wherein: one end fixed connection of U-shaped support (71) is in the outer terminal surface outside of fixed cylinder inlayer (64), the U-shaped inslot of U-shaped support (71) with the one end outside contact connection of water absorption drain bar (65), the U-shaped inslot sliding connection of U-shaped support (71) has inside pressure head (72), the one end outside fixedly connected with of inside pressure head (72) promote support (73), the one end inboard rotation of promote support (73) is connected with second pivoted ball (74), the one end outside fixedly connected with of second pivoted ball (74) little push pedal (75), little push pedal (75) with promote fixedly connected with between the adjacent outside of support (73) second reset spring (76).

5. The food processing solid-liquid separation screening device according to claim 4, wherein: the utility model discloses a small push plate, including annular support (771), first rotation support (78), second connection support (77) are connected with in the one end outside of little push pedal (75), a plurality of second connection support (77) are all fixed connection one annular support (771), the one end outside fixedly connected with of second connection support (77) first rotation support (78), the outside fixedly connected with of U-shaped support (71) second rotation support (79), first rotation support (78) with the one end of second rotation support (79) is all rotated and is connected with rotation wheel (791), the one end outside fixedly connected with of rotation wheel (791) steel wire (792).

6. The food processing solid-liquid separation screening device according to claim 5, wherein: the rear end outside fixed connection of perpendicular support (81) is in the front end outside of total mounting panel (11), the inboard fixedly connected with in top of perpendicular support (81) electric telescopic handle (82), the flexible main shaft end fixedly connected with of electric telescopic handle (82) big sliding block (83), the one end outside sliding connection of big sliding block (83) is in the one end inboard of perpendicular support (81), the front end outside fixedly connected with of big sliding block (83) fixed pivot (84), the outside rotation of fixed pivot (84) is connected with rotate shell (85), the outer terminal surface of rotate shell (85) with the terminal fixed connection of steel wire (792), the rear end outside fixedly connected with of big sliding block (83) connect plectane (86), the outer terminal surface fixedly connected with of connect plectane (86) third linking bridge (87), the end fixedly connected with of third linking bridge (87) circular clamp plate (88).

7. The food processing solid-liquid separation screening device according to claim 6, wherein: the utility model discloses a device for fixing a sheet-shaped air conditioner, which comprises a main mounting plate (11), a top bracket (92), a front end outer side fixedly connected with the front end outer side of the main mounting plate (11), a top end outer side fixedly connected with the top bracket (91), a front end outer side fixedly connected with the top bracket (92), a main shaft end fixedly connected with the fourth motor (93) and a control circular plate (94), two rotationally symmetrical arc grooves (941) are formed in the inner side of the control circular plate (94), two rotationally symmetrical special-shaped grooves (942) are formed in two ends of the arc grooves (941) in a communicating mode, sliding shafts (95) are formed in the inner sides of the arc grooves (941) and the special-shaped grooves (942), the rear end outer side of the sheet-shaped air conditioner (98) is fixedly connected with the front end outer side of the main mounting plate (11) through a rod-shaped bracket, upper clamping plate (96) and a lower clamping plate (97) which are arranged up and down are respectively in a non-contact mode, two clamping plates (96) are respectively sleeved on the left side and right side of one end of the sheet-shaped air conditioner (98) respectively, two clamping plates (97) are connected with the front clamping plates (96) and the two sides of the front clamping plates (96) are connected with the front end of the front clamping plates (97), the outer side of one end of the sheet-shaped flow guide piece (98) is fixedly connected with a second water absorbing sponge (99), and the second water absorbing sponge (99) is arranged between the upper clamping plate (96) and the lower clamping plate (97).

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