CN211111455U - Automatic device based on solid-liquid separation and effective draining of solid - Google Patents

Abstract

The utility model discloses an automation equipment based on solid-liquid separation and effective drop dry of solid, including the transmission base, the motor is installed at the top that is close to its one end on the transmission base, the separator is installed at the top that is close to its other end on the transmission base, the motor penetrates the input shaft transmission that the output shaft in the transmission base penetrates the transmission base with separator and is connected, the top of motor is fixed with first gland, the locking bolt is worn to be equipped with at the top at first gland edge, the bottom of locking bolt wear out behind the first gland and with the top threaded connection of transmission base, separator includes a barrel base, the top of barrel base is fixed with the outer fringe collector drum. The utility model discloses, realized the automatic separation of solid-liquid and to the maximum effective driping of separation solid, realized the washing of equipment simultaneously, harmful gas handles and peculiar smell elimination. The working efficiency is greatly improved, the manual processing cost is reduced, the cost is reduced, and the environment is improved.

Description

Automatic device based on solid-liquid separation and effective draining of solid

Technical Field

The invention relates to the technical field of solid-liquid separation devices, in particular to an automatic device based on solid-liquid separation and effective solid draining.

Background

In the daily life and work, a large amount of mixture, particularly solid-liquid mixture is generated, wherein the food and beverage kitchen waste is particularly remarkable, and the direct treatment is mostly carried out in a manual separation mode or a crisp non-separation mode. This not only increases a large amount of labor costs and recycling costs, but also causes further environmental damage.

Disclosure of Invention

The invention aims to provide an automatic device based on solid-liquid separation and effective solid draining, which aims to realize the automatic separation of solid and liquid, improve the working efficiency to the maximum extent, reduce the cost and protect the environment.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an automation equipment based on solid-liquid separation and effective drippage of solid, includes the transmission base, the motor is installed near the top of its one end on the transmission base, the separator is installed near the top of its other end on the transmission base, the output shaft that the motor penetrated in the transmission base is connected with the input shaft transmission that separator penetrated in the transmission base.

Preferably, a first gland is fixed above the motor, a locking bolt is arranged at the top of the edge of the first gland in a penetrating mode, and the bottom end of the locking bolt penetrates out of the first gland and then is in threaded connection with the top of the transmission base.

Preferably, the separator includes a barrel base, the top of barrel base is fixed with the outer fringe water collecting barrel, the top of outer fringe water collecting barrel is fixed with the second gland, locking bolt is worn to be equipped with at the top at second gland edge, behind second gland, the barrel base and with the top threaded connection of transmission base are worn out in proper order to locking bolt's bottom.

Preferably, the outer fringe water catch bowl embeds there is rather than the drainage transmission section of thick bamboo of coaxial axle center, the rotary trough that second gland bottom was seted up is arranged in at the top of drainage transmission section of thick bamboo, drainage transmission section of thick bamboo embeds rather than the defeated material section of thick bamboo of coaxial axle center, defeated material section of thick bamboo passes through wear-resisting brush strip with the built-in spiral shell leaf of drainage transmission section of thick bamboo and is connected to fixed back and the wearing brush strip of the hole of seting up in advance on its top and the second gland, its bottom keeps certain interval with drainage transmission bottom of the section of thick bamboo, is equipped with the star in this interval and divides the charging tray fixed with drainage transmission section of thick bamboo intracavity diapire.

Preferably, a transmission shaft is arranged on the top, close to the other end of the transmission base, of the transmission base in a penetrating mode, belt wheels are installed at the bottom end of a shaft of the transmission shaft, the belt wheels are installed at the bottom end of a shaft of the motor, penetrating into the transmission base, two belt wheels are connected through a transmission belt in a transmission mode, a shaft coupling seat is fixed in the middle of the bottom of the draining transmission barrel, and the transmission shaft penetrates out of the top end of the shaft of the barrel base and is installed at the bottom of the shaft coupling seat.

Preferably, the one end of section of thick bamboo base is seted up and is extended into the inboard separation outlet of outer fringe water catch bowl, the one end pre-buried separation bin outlet that has extended into waterlogging caused by excessive rainfall transmission section of thick bamboo top of second gland.

Preferably, an ozone generator is fixed on the inner side of the other end, far away from the separation water outlet, of the second pressing cover, and the ozone generator is conveyed into the outer edge water collecting cylinder through an ozone conveying pipe communicated with the ozone generator.

Compared with the prior art, the invention has the following beneficial effects: the invention realizes the automatic solid-liquid separation and the maximum effective draining of the separated solids, and simultaneously realizes the cleaning of equipment, the treatment of harmful gases and the elimination of peculiar smell. The working efficiency is greatly improved, the manual processing cost is reduced, the cost is reduced, and the environment is improved.

Drawings

FIG. 1 is a schematic structural view of a cross-sectional view in front elevation of embodiment 1 of the present invention;

fig. 2 is a schematic structural view of a sectional view in front view in embodiment 2 of the present invention.

In the figure: 1-a transmission base, 2-a motor, 3-a separating device, 4-a first gland, 5-a locking bolt, 6-a cylinder base, 7-an outer edge water collecting cylinder, 8-a second gland, 9-a draining transmission cylinder, 10-a rotary trough, 11-a water conveying cylinder, 12-a spiral blade, 13-a wear-resistant brush strip, 14-a star material distributing disc, 15-a transmission shaft, 16-a belt pulley, 17-a transmission belt, 18-a shaft coupling seat, 19-a separating water outlet, 20-a separating material outlet, 21-an ozone generator, 22-an ozone conveying pipe, 23-a sealing ring, 24-a rotating shaft seat and 25-a draining cylinder support seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, the present invention provides a technical solution: the utility model provides an automation equipment based on solid-liquid separation and effective drippage of solid, includes transmission base 1, and motor 2 is installed near the top of its one end on the transmission base 1, and separator 3 is installed near the top of its other end on the transmission base 1, and motor 2 penetrates the output shaft in the transmission base 1 and penetrates the input shaft transmission connection in the transmission base 1 with separator 3.

The top of motor 2 is fixed with first gland 4, and locking bolt 5 is worn to be equipped with at the top at first gland 4 edge, and behind first gland 4 and with the top threaded connection of transmission base 1 are worn out to locking bolt 5's bottom for motor 2 is set up on transmission base 1, also because can dismantle simultaneously, provides convenience for later maintenance and maintenance.

Separator 3 includes a barrel base 6, the top of barrel base 6 is fixed with outer fringe water collection cylinder 7, the top of outer fringe water collection cylinder 7 is fixed with second gland 8, locking bolt 5 is worn to be equipped with at the top at second gland 8 edge, second gland 8 is worn out in proper order to locking bolt 5's bottom, behind barrel base 6 and with transmission base 1's top threaded connection, make barrel base 6, outer fringe water collection cylinder 7 and second gland 8 are set up on transmission base 1, simultaneously also because can dismantle, it facilitates to maintain and maintain for the later stage.

The outer edge water collecting cylinder 7 is internally provided with a draining transmission cylinder 9 which is coaxial with the outer edge water collecting cylinder, the top of the draining transmission cylinder 9 is arranged in a rotary trough 10 which is arranged at the bottom of the second gland 8, the draining transmission cylinder 9 is internally provided with a material conveying cylinder 11 which is coaxial with the draining transmission cylinder, the material conveying cylinder 11 is connected with a screw blade 12 which is arranged in the draining transmission cylinder 9 through a wear-resistant brush strip 13, the top end of the material conveying cylinder is fixed with a hole which is pre-arranged on the second gland 8 and penetrates out, the bottom end of the material conveying cylinder is kept at a certain interval with the bottom of the draining transmission cylinder 9, a star distributing disc 14 which is fixed with the bottom wall in the cavity of the draining transmission cylinder 9 is arranged in the interval, and materials entering from the top end of.

A transmission shaft 15 penetrates through the top of the transmission base 1 close to the other end of the transmission base 1, belt wheels 16 are installed at the bottom end of the transmission shaft 15 penetrating into the transmission base 1, belt wheels 16 are also installed at the bottom end of the shaft of the motor 2 penetrating into the transmission base 1, the two belt wheels 16 are in transmission connection through a transmission belt 17, a shaft coupling seat 18 is fixed in the middle of the bottom of the draining transmission cylinder 9, the transmission shaft 15 penetrates through the top end of the shaft on the cylinder base 6 and is installed at the bottom of the shaft coupling seat 18, the transmission shaft 15 is driven to rotate through the transmission of the belt wheels 16 and the transmission belt 17 when the motor 2 runs, so that the draining transmission cylinder 9 rotates, materials entering from the top end of the fixed draining cylinder 11 are scattered and spread out by the collision of the star distribution disc 14, and then the water in the materials is promoted to overflow from meshes on the surface of the draining transmission cylinder 9 due to the lifting and squeezing-cutting effects of the spiral blades 12 and the draining transmission cylinder 9, while those solid impurities are retained in the draining transfer cylinder 9 and lifted upwards with the screw blades 12.

One end of the cylinder base 6 is provided with a separation water outlet 19 extending into the inner side of the outer edge water collecting cylinder 7, water overflowing from meshes on the surface of the draining transmission cylinder 9 is discharged from the separation water outlet 19, one end of the second gland 8 is pre-embedded with a separation discharge outlet 20 extending into the upper part of the draining transmission cylinder 9, and solid impurities lifted upwards along with the screw blades 12 are discharged from the separation discharge outlet 20.

An ozone generator 21 is fixed on the inner side of the other end, far away from the separation water outlet 19, of the second gland 8, the ozone generator 21 is conveyed into the outer edge water collecting cylinder 7 through an ozone conveying pipe 22 communicated with the ozone generator 21, the ozone conveying pipe 22 extends into the outer edge water collecting cylinder 7 at a certain angle, the angle is generally the best inclination angle of 30 degrees, ozone generated by the ozone generator 21 is natural gas, is taken from air, disappears in the air, stays in the air for 10-15 minutes at normal temperature, namely is reduced into oxygen, has a half-life period in water of only 20-25 minutes without remaining objects, secondary pollution and side effects, and therefore, the ozone is flushed into dirty liquid as a purifying agent or an oxidizing agent.

Example 2

Referring to fig. 2, the structure is different from that of embodiment 1, the structure is that the structure is not provided with a wear-resistant brush strip 13, a star material distribution disc 14, a rotary groove 10 and a coupling seat 18, a draining cylinder support 25, a rotary shaft support 24 and a sealing ring 23 are additionally arranged, blades and a material conveying/draining cylinder are integrally fixed, the draining cylinder support 25 and a second gland 8 jointly fix a draining transmission cylinder 9, the sealing ring 23 is arranged at a position, where a transmission shaft 15 penetrates through a bottom hole of the draining transmission cylinder 9, and a material conveying cylinder 11 and the transmission shaft 15 are fixedly operated through the rotary shaft support 24, and the rest is the same as that of embodiment 1.

The working principle is as follows: when the automatic device based on solid-liquid separation and effective solid draining is used in the embodiment 1, firstly, dirty liquid is poured from the top end of the water conveying cylinder 11, the motor 2 drives the transmission shaft 15 to rotate through the transmission of the belt wheel 16 and the transmission belt 17 when in operation, then the draining transmission cylinder 9 rotates, because the star material distribution disc 14 also rotates, the materials entering from the top end of the immobile water conveying cylinder 11 are splashed and spread by the impact of the star material distribution disc 14, then, because the screw blades 12 are matched with the draining transmission cylinder 9 to lift and squeeze the materials, the water in the materials is promoted to overflow from the meshes on the surface of the draining transmission cylinder 9, the solid impurities are retained in the draining transmission cylinder 9 and are lifted upwards along with the spiral blades 12, the water overflowing from the meshes on the surface of the draining transmission cylinder 9 is discharged from the separating and discharging port 19, and the solid impurities lifted upwards along with the spiral blades 12 are discharged from the separating and discharging port 20;

when the automatic device based on solid-liquid separation and effective solid draining is used in embodiment 2, firstly, dirty liquid is poured into the device from the top end of the water conveying cylinder 11, the motor 2 drives the transmission shaft 15 to rotate through the transmission of the belt wheel 16 and the transmission belt 17 when in operation, so that the screw blades 12 fixed on the surface of the water conveying cylinder 11 are driven to rotate, then, due to the matching of the screw blades 12 and the draining transmission cylinder 9, the lifting and squeezing cutting effects on the materials are realized, the water in the materials is enabled to overflow from meshes on the surface of the draining transmission cylinder 9, while the solid impurities are retained in the draining transmission cylinder 9, the water overflowing from the meshes on the surface of the draining transmission cylinder 9 is lifted upwards along with the screw blades 12, the water is discharged from the separation water outlet 19, and the solid impurities lifted upwards along with the screw blades 12 are discharged from the separation water outlet 20.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an automation equipment based on solid-liquid separation and effective drippage of solid, includes transmission base (1), its characterized in that: the top that is close to its one end on transmission base (1) is installed motor (2), separation device (3) are installed at the top that is close to its other end on transmission base (1), output shaft that motor (2) penetrated in transmission base (1) is connected with the input shaft transmission that separation device (3) penetrated in transmission base (1).

2. The automatic solid-liquid separation and solid-object effective draining device according to claim 1, wherein: the top of motor (2) is fixed with first gland (4), locking bolt (5) are worn to be equipped with at the top at first gland (4) edge, the bottom of locking bolt (5) is worn out behind first gland (4) and with the top threaded connection of transmission base (1).

3. The automatic solid-liquid separation and solid-object effective draining device according to claim 1, wherein: separator (3) are including a base (6), the top of a base (6) is fixed with outer fringe water-collecting cylinder (7), the top of outer fringe water-collecting cylinder (7) is fixed with second gland (8), locking bolt (5) are worn to be equipped with at the top at second gland (8) edge, the bottom of locking bolt (5) is worn out in proper order behind second gland (8), a base (6) and with the top threaded connection of transmission base (1).

4. The automatic solid-liquid separation and solid-object effective draining device according to claim 3, wherein: the utility model discloses a waterlogging caused by excessive rainfall transmission section of thick bamboo, including outer fringe water catch bowl (7) embeds there is waterlogging caused by excessive rainfall transmission section of thick bamboo (9) rather than the coaxial heart, the top of waterlogging caused by excessive rainfall transmission section of thick bamboo (9) is arranged in rotary trough (10) that second gland (8) bottom was seted up, waterlogging caused by excessive rainfall transmission section of thick bamboo (9) embeds there is defeated material section of thick bamboo (11) rather than the coaxial heart, defeated material section of thick bamboo (11) are connected through wear-resisting brush strip (13) with built-in spiral shell leaf (12) of waterlogging caused by excessive rainfall transmission section of thick bamboo (9) to wear out after the hole that sets up in advance on its top and second gland (8) is fixed, and keep a certain interval bottom and waterlogging caused by excessive rainfall transmission section of.

5. The automatic solid-liquid separation and solid-object effective draining device according to claim 4, wherein: transmission shaft (15) are worn to be equipped with at the top that is close to its other end on transmission base (1), band pulley (16) are installed to the axle bottom that transmission shaft (15) were worn to advance in transmission base (1), band pulley (16) are also installed to the axle bottom that motor (2) were worn to advance in transmission base (1), two connect through drive belt (17) transmission between band pulley (16), the middle part of waterlogging caused by excessive rainfall transmission section of thick bamboo (9) bottom is fixed with allies oneself with axle bed (18), axle top and the bottom installation of allies oneself with axle bed (18) on section of thick bamboo base (6) are worn out in transmission shaft (15).

6. The automatic solid-liquid separation and solid-object effective draining device according to claim 3, wherein: a separation water outlet (19) extending into the inner side of the outer edge water collecting cylinder (7) is formed in one end of the cylinder base (6), and a separation discharge hole (20) extending into the upper part of the draining transmission cylinder (9) is pre-buried in one end of the second gland (8).

7. The automatic solid-liquid separation and solid-object effective draining device according to claim 3, wherein: an ozone generator (21) is fixed on the inner side of the other end, far away from the separation water outlet (19), of the second gland (8), and the ozone generator (21) is conveyed into the outer edge water collecting cylinder (7) through an ozone conveying pipe (22) communicated with the ozone generator.

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