CN216825219U - Molecular sieve filtering equipment for wine production - Google Patents

Abstract

The utility model discloses a molecular sieve filtration equipment for wine production, empty the device including first straining a section of thick bamboo and filtration. The utility model discloses a filter and empty the device, under accepting board and filter screen effect, can realize the auxiliary filtration to wine liquid, and set up under the adjustment assembly cooperation at connecting rod lower extreme rear side, can drive the connecting rod swing, the messenger accepts the board slope, carry out the pouring activity of residue, thereby the advantage of pouring with the swift slope of residue is assisted to wine liquid has been reached, and accepting board right side lower extreme and having set up the vibration subassembly, at the cam, gyro wheel and ejector pin cooperation down, can realize reciprocal jacking to the filter screen, and under bracing piece and pressure spring cooperation, the stable vibration activity can be realized to the filter screen, it is quick to improve the residue and pour, thereby filter screen reciprocating vibration has been reached, guarantee that follow-up residue pours swift advantage.

Description

Molecular sieve filtering equipment for wine production

Technical Field

The utility model relates to a wine production filtration equipment correlation field especially relates to a molecular sieve filtration equipment for wine production.

Background

The chemical components of the wine are ethanol, and generally contain trace amounts of fusel and ester substances, the concentration of edible white spirit is generally below 60 degrees (namely 60 percent), the concentration of the edible white spirit is more than 60 degrees in a few, the edible white spirit is distilled and purified to more than 75 percent and is medical alcohol, the edible white spirit is purified to more than 99.5 percent and is absolute ethanol, the wine is brewed by taking grains as raw materials through fermentation, grain residues usually remain in the white spirit brewed by the grains, and in order to ensure the mouthfeel of the wine, the grain-brewed white spirit needs to pass through a molecular sieve filtering device to filter internal impurities.

When the molecular sieve filtering equipment is used at present, although the filtering activity of internal grain residues can be well realized by the molecular sieve filtering equipment, after the molecular sieve filtering equipment is used for a long time, a molecular sieve plate arranged in the molecular sieve filtering equipment needs to be replaced, so that the service cycle of the molecular sieve is short, and the molecular sieve needs to be replaced and cleaned repeatedly.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above insufficiency, the utility model provides a molecular sieve filtration equipment for wine production.

In order to achieve the purpose, the utility model adopts the following technical scheme: a molecular sieve filtration device for wine production comprises a first filter cylinder and a filtration dumping device, wherein a direct current motor is arranged in the middle of the upper end of the first filter cylinder, the lower end of the direct current motor is connected with a stirring rod, a first molecular sieve plate is arranged at the middle end inside the first filter cylinder, the lower end of the middle part of the first filter cylinder is communicated with a second filter cylinder, a second molecular sieve plate is arranged inside the second filter cylinder, a discharge pipe is connected with the lower end of the right side of the second filter cylinder, the filtration dumping device is arranged at the upper end of the left side of the first filter cylinder, the filtration dumping device comprises a shell, a bearing plate, a filter screen, a connecting rod, an adjusting component and a vibrating component, the shell is fixedly connected with the upper end of the left side of the first filter cylinder, the bearing plate is transversely arranged inside the shell, the filter screen is arranged inside the right side of the bearing plate, and the lower end of the left side of the bearing plate is provided with the connecting rod, the connecting rod lower extreme rotates with the shell to connecting rod lower extreme rear side is connected with adjusting part, the vibration subassembly sets up in accepting board right side lower extreme.

Preferably, the adjusting component comprises a motor, a roller, a rubber wheel, a moving block and a guide rod, the motor is arranged at the lower end of the left side inside the shell, the right side of the motor is connected with the roller, the upper end of the left side of the roller is attached to the rubber wheel, the moving block is arranged at the upper end of the rubber wheel, the middle of the moving block is in sliding insertion connection with the guide rod, the front side of the moving block is in sliding connection with a connecting rod, and the left side and the right side of the guide rod are both fixedly connected with the shell.

Preferably, the vibration subassembly includes link, small-size motor, cam, gyro wheel, ejector pin, bracing piece and pressure spring, both sides all with accept board fastening connection around the link to the inside small-size motor that is provided with of link lower extreme, the small-size motor front side is connected with the cam to the cam upper end is laminated with the gyro wheel mutually, the gyro wheel rotates with the ejector pin lower extreme and is connected, and the ejector pin upper end is laminated with the filter screen mutually, the bracing piece is pegged graft mutually with the filter screen left and right sides to the bracing piece upper end outside is provided with the pressure spring, the pressure spring upper end with accept the board and be connected.

Preferably, the shell is internally provided with a reverse L-shaped hollow groove, and the right side in the shell is rotatably connected with the horizontally arranged bearing plate.

Preferably, the outer side of the roller is provided with a spiral convex part, and the outer surface of the spiral convex part arranged on the roller is smooth.

Preferably, the whole moving block is in a rectangular parallelepiped shape, and the middle part of the front side of the moving block penetrates through the housing.

Preferably, the upper end surface of the cam is concave downward, and the lower end surface of the cam is convex upward.

Preferably, the support rods and the pressure springs are symmetrically arranged along the left and right sides of the filter screen, and the support rods on the two sides are consistent with the whole structure of the pressure springs.

The utility model has the advantages that:

the method has the advantages that: the utility model discloses a having set up and having filtered and having emptyd the device, accepting under board and filter screen effect, can realizing the auxiliary filtration to wine liquid, and set up the adjusting part cooperation at connecting rod lower extreme rear side under, can drive the connecting rod swing, make and accept the board slope, carry out the pouring activity of residue to the advantage of pouring is assisted to wine liquid and is filtered and the swift slope of residue has been reached.

The method has the advantages that: the utility model discloses a receiving board right side lower extreme and having set up the vibration subassembly, under cam, gyro wheel and ejector pin cooperation, can realizing reciprocal jacking to the filter screen, and under bracing piece and pressure spring cooperation, the filter screen can realize the steady vibration activity, and it is quick to improve the residue and pour out to reach filter screen reciprocating vibration, guaranteed that follow-up residue pours swift advantage.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the front view of the internal structure of the present invention;

FIG. 3 is a schematic view of the front view of the internal structure of the filtering and dumping device of the present invention;

FIG. 4 is a schematic perspective view of the adjusting assembly of the present invention;

fig. 5 is a front view structure diagram of the vibration assembly of the present invention;

fig. 6 is a schematic structural view of a three-dimensional portion of the vibration assembly of the present invention.

Wherein: the filter comprises a first filter cylinder-1, a direct current motor-2, a stirring rod-3, a first molecular sieve plate-4, a second filter cylinder-5, a second molecular sieve plate-6, a discharge pipe-7, a filtering and pouring device-8, a shell-81, a receiving plate-82, a filter screen-83, a connecting rod-84, an adjusting component-85, a vibrating component-86, a motor-851, a roller-853, a rubber wheel-853, a moving block-854, a guide rod-855, a connecting frame-861, a small motor-862, a cam-863, a roller-864, a push rod-865, a support rod-866 and a pressure spring-867.

Detailed Description

In order to further explain the technical solution of the present invention, the following is a detailed explanation through specific examples.

Please refer to fig. 1-2, the utility model provides a molecular sieve filtration equipment for wine production, empty device 8 including first straining a section of thick bamboo 1 and filtering, first strain 1 upper end middle part and be provided with dc motor 2, and 2 lower extremes of dc motor are connected with puddler 3, first strain 1 inside middle-end and install first molecular sieve 4, and first strain 1 middle part lower extreme and the second of straining a section of thick bamboo 5 and be linked together, 5 internally mounted have second molecular sieve 6 are strained to the second, and the second strains 5 right side lower extremes and be connected with discharging pipe 7.

Referring to fig. 3, the filtering and dumping device 8 is disposed at the upper left end of the first filter cartridge 1, the filtering and dumping device 8 includes a housing 81, a receiving plate 82, a filter screen 83, a connecting rod 84, an adjusting component 85 and a vibrating component 86, the housing 81 is fastened to the upper left end of the first filter cartridge 1, the receiving plate 82 is disposed inside the housing 81 in a transverse manner, so that the housing 81 achieves safety protection of internal parts, the filter screen 83 is mounted inside the right side of the receiving plate 82, the connecting rod 84 is disposed at the lower left end of the receiving plate 82, the lower end of the connecting rod 84 is rotatably connected to the housing 81, the rear side of the lower end of the connecting rod 84 is connected to the adjusting component 85, so that the receiving plate 82 achieves fast inclined material dumping through the adjusting component 85, the vibrating component 86 is disposed at the lower right end of the receiving plate 82, so that fast material discharging of residues is improved through the vibrating component 86, an inverted L-shaped hollow groove is formed inside the housing 81, and the right side in the shell 81 is rotatably connected with the horizontally arranged bearing plate 82, so that the shell 81 ensures the stable and firm installation of various parts in the shell.

Referring to fig. 4, the adjusting assembly 85 includes a motor 851, a roller 852, a rubber wheel 853, a moving block 854, and a guide rod 855, the motor 851 is disposed at the lower end of the left side inside the housing 81, the right side of the motor 851 is connected to the roller 852, the upper end of the left side of the roller 852 is attached to the rubber wheel 853, the upper end of the rubber wheel 853 is provided with a moving block 854, so that the rubber wheel 853 and the roller 852 can stably attach to each other, the middle of the moving block 854 is slidably connected to the guide rod 855, so that the guide rod 855 can ensure the stability of the reciprocating movement of the moving block 854, both the left and right sides of the guide rod 855 are fixedly connected to the housing 81, the outer side of the roller 852 is provided with a convex portion, the outer surface of the convex portion of the roller 852 is smooth, so that the rotation and transmission of the roller 852 is smooth, the moving block 854 is rectangular as a whole, and the middle of the moving block 854 penetrates through the housing 81, allowing the moving block 854 to be in fluid sliding connection with the connecting rod 84.

Referring to fig. 5-6, the vibrating assembly 86 includes a connecting frame 861, a small motor 862, a cam 863, a roller 864, a pushing rod 865, a supporting rod 866 and a pressure spring 867, wherein the front and rear sides of the connecting frame 861 are both fastened to the receiving plate 82, the small motor 862 is disposed inside the lower end of the connecting frame 861 to implement safety protection of internal components, the front side of the small motor 862 is connected to the cam 863, the upper end of the cam 863 is attached to the roller 864 to implement stable rotation and jacking driving of the cam 863, the roller 864 is rotatably connected to the lower end of the pushing rod 865, the upper end of the pushing rod 865 is attached to the filter screen 83 to implement stable jacking movement of the pushing rod 865, the supporting rod 866 is inserted to the left and right sides of the filter screen 83, the pressure spring 867 is disposed outside the upper end of the supporting rod 866 to ensure stable vibration of the filter screen 83, and the upper end of the pressure spring 867 is connected to the receiving plate 82, the upper end surface of the cam 863 is concave downwards, the lower end surface of the cam 863 is convex upwards, the cam 863 can stably lift the cam, the supporting rods 866 and the pressure springs 867 are symmetrically arranged along the left and right of the filter screen 83, and the supporting rods 866 on the two sides are consistent with the whole structure of the pressure springs 867, so that the supporting rods 866 and the pressure springs 867 are matched to realize stability.

The working principle is as follows:

firstly, when the molecular sieve filtering equipment for wine production is used, the direct current motor 2 arranged in the middle of the upper end of the first filter cylinder 1 can be operated firstly, so that the direct current motor 2 drives the stirring rod 3 connected with the lower end to rotate, when produced wine enters the first filter cylinder 1, the separation of internal residues and wine can be realized under the action of the stirring rod 3, then primary filtering activity is realized by matching with the first molecular sieve plate 4 arranged in the first filter cylinder 1, the wine subjected to primary filtering can enter the second filter cylinder 5 to be contacted with the second molecular sieve plate 6 arranged in the second filter cylinder 5, secondary filtering activity is realized, the filtered wine can be further finished, the discharging pipe 7 arranged along the lower end of the right side of the second filter cylinder 5 can be used for realizing discharging and collecting activity, and then the rapid filtering of the residues in the wine can be finished;

secondly, when the molecular sieve filtering equipment is used, although the filtering activity of the internal grain residues can be well realized, after the molecular sieve filtering equipment is used for a long time, the molecular sieve plate arranged in the molecular sieve filtering equipment needs to be replaced, so that the molecular sieve has a short service cycle and needs to be replaced and cleaned repeatedly;

thirdly, the filtering and dumping device 8 is arranged at the upper end of the left side of the first filter cylinder 1, namely wine can enter the shell 81 in advance to contact with the receiving plate 82 transversely arranged in the shell 81, under the action of the filter screen 83 arranged at the right side of the receiving plate 82, auxiliary filtering activity can be realized for the wine, the filtered wine can enter the first filter cylinder 1 to carry out subsequent filtering activity, when the dumping treatment of filtering residues is required, the inclined dumping activity of the receiving plate 82 can be realized by operating the adjusting component 85 connected with the rear side of the lower end of the connecting rod 84, namely, the motor 851 arranged by the adjusting component 85 drives the roller 852 connected with the right side to rotate, under the rotation of the roller 852, the moving block 854 slidably connected with the spiral convex part arranged at the outer side of the roller 852 by the rubber wheel 853 can realize the stable right movement driving activity along the guide rod 855, the connecting rod 84 can move rightwards along with the moving block 854 to realize the movement of pulling and inclining rightwards, so that the bearing plate 82 connected with the upper end of the connecting rod 84 can perform the inclination adjustment movement, and the filtered residues can be poured out along the inclined bearing plate 82, thereby achieving the advantages of auxiliary filtering of wine liquid and quick inclined pouring of the residues;

fourthly, in order to further improve the residue pouring efficiency, the vibration assembly 86 is arranged at the lower end of the right side of the bearing plate 82, after the bearing plate 82 is tilted, the small motor 862 arranged on the vibration assembly 86 is operated to drive the cam 863 connected with the front side to rotate, and the cam 863 rotates along with the small motor 862, the roller 864 is attached to the push rod 865 at the outer side of the cam 862 to realize the reciprocating lifting of the filter screen 83, in the process of moving the filter screen 83 upwards, the support rods 866 arranged on the left and right sides can stably move upwards, and the compression of the compression springs 867 arranged on the outer sides of the upper ends of the support rods 866 is realized, and then through under so reciprocating, the filter screen 83 can realize the vibration activity, comes to realize becoming flexible to adnexed residue, guarantees that the residue is followed the slope and is accepted the quick that board 82 pours out to filter screen 83 reciprocating vibration has been reached, guarantees that follow-up residue pours swift advantage.

The utility model provides a molecular sieve filtration equipment for wine production, empty device 8 through having set up the filtration, accept board 82 and filter screen 83 effect down, can realize the auxiliary filtration to wine liquid, and set up under the cooperation of adjusting part 85 at connecting rod 84 lower extreme rear side, can drive the swing of connecting rod 85, the messenger accepts the slope of board 82, carry out the pouring activity of residue, thereby the advantage of pouring is assisted to have reached wine liquid and has filtered and the swift slope of residue, and accepting board 82 right side lower extreme and having set up vibration subassembly 86, at cam 863, gyro wheel 864 and ejector pin 865 cooperation down, can realize reciprocal jacking to filter screen 83, and under bracing piece 866 and pressure spring 867 cooperation, filter screen 83 can realize the steady vibration activity, it is quick to improve the residue and pour, thereby filter screen 83 reciprocating vibration has been reached, guarantee that follow-up residue pours swift advantage.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A molecular sieve filtering device for wine production comprises a first filtering cylinder (1), wherein a direct current motor (2) is arranged in the middle of the upper end of the first filtering cylinder (1), the lower end of the direct current motor (2) is connected with a stirring rod (3), a first molecular sieve plate (4) is arranged at the middle end in the first filtering cylinder (1), the lower end of the middle of the first filtering cylinder (1) is communicated with a second filtering cylinder (5), a second molecular sieve plate (6) is arranged in the second filtering cylinder (5), and a discharging pipe (7) is connected with the lower end of the right side of the second filtering cylinder (5);

the method is characterized in that: still empty device (8) including filtering, it sets up in first straining cylinder (1) left side upper end to filter to empty device (8), it includes shell (81), accepts board (82), filter screen (83), connecting rod (84), adjusting part (85) and vibration subassembly (86) to filter to empty device (8), shell (81) and first straining cylinder (1) left side upper end fastening connection to shell (81) inside transversely is provided with accepts board (82), accept board (82) right side internally mounted have filter screen (83) to it is provided with connecting rod (84) to accept board (82) left side lower extreme, connecting rod (84) lower extreme rotates with shell (81) and is connected to connecting rod (84) lower extreme rear side is connected with adjusting part (85), vibration subassembly (86) set up in accepting board (82) right side lower extreme.

2. A molecular sieve filtration plant for wine production according to claim 1, characterized in that: adjusting part (85) includes motor (851), cylinder (852), rubber wheel (853), movable block (854) and guide arm (855), motor (851) set up in the inside left side lower extreme of shell (81) to motor (851) right side is connected with cylinder (852), cylinder (852) left side upper end is laminated with rubber wheel (853) mutually to rubber wheel (853) upper end is provided with movable block (854), movable block (854) middle part is pegged graft with guide arm (855) slip to movable block (854) front side and connecting rod (84) sliding connection, the guide arm (855) left and right sides all with shell (81) fixed connection.

3. A molecular sieve filtration plant for wine production according to claim 1, characterized in that: vibration subassembly (86) are including link (861), small-size motor (862), cam (863), gyro wheel (864), ejector pin (865), bracing piece (866) and pressure spring (867), both sides all with accept board (82) fastening connection around link (861), and link (861) lower extreme inside is provided with small-size motor (862), small-size motor (862) front side is connected with cam (863) to cam (863) upper end and gyro wheel (864) are laminated mutually, gyro wheel (864) rotate with ejector pin (865) lower extreme and are connected, and ejector pin (865) upper end and filter screen (83) are laminated mutually, bracing piece (866) are pegged graft mutually with filter screen (83) left and right sides to bracing piece (866) upper end outside is provided with pressure spring (867), pressure spring (867) upper end is connected with accepting board (82).

4. A molecular sieve filtration plant for wine production according to claim 1, characterized in that: the reverse L-shaped hollow groove is formed in the shell (81), and the right side in the shell (81) is rotatably connected with the horizontally arranged bearing plate (82).

5. A molecular sieve filtration plant for wine production according to claim 2, characterized in that: the outer side of the roller (852) is provided with a spiral convex part, and the outer surface of the spiral convex part arranged on the roller (852) is smooth.

6. A molecular sieve filtration plant for wine production according to claim 2, characterized in that: the moving block (854) is integrally rectangular, and the middle of the front side of the moving block (854) penetrates through the shell (81).

7. A molecular sieve filtration plant for wine production as claimed in claim 3, wherein: the upper end surface of the cam (863) is concave downwards, and the lower end surface of the cam (863) is convex upwards.

8. A molecular sieve filtration plant for wine production as claimed in claim 3, wherein: the support rods (866) and the pressure springs (867) are symmetrically arranged along the left and right sides of the filter screen (83), and the support rods (866) on the two sides are consistent with the whole structure of the pressure springs (867).

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