CN219539632U - Vibration filtering equipment - Google Patents

Abstract

The utility model discloses vibration filtering equipment, which comprises a support frame, wherein a plurality of springs are welded above the support frame; the filter frame is positioned right above the support frame, and the lower part of the filter frame is welded with the spring; the vibration box is positioned right above the filter frame; according to the utility model, the inner cover is sleeved outside the vibration motor and matched with the outer cover to form a similar closed structure, so that the vibration motor can be isolated from being immersed into water vapor in a wet working environment; in order to ensure that the vibrating motor can be cooled normally under a similar closed environment, the water absorption strip is placed inside, and meanwhile, the water absorption strip is embedded into the outer wall of the cooling pipe for facilitating replacement of the water absorption strip, and the vibrating motor is isolated, so that the influence of a humid environment on the internal circuit of the vibrating motor can be effectively avoided, and the service life of the vibrating motor is ensured not to be shortened.

Description

Vibration filtering equipment

Technical Field

The utility model relates to vibration filtering equipment, and belongs to the technical field of vibration filtering.

Background

In the traditional bean product processing, the slurry is filtered in a manual mode, and the soybean milk is separated by friction extrusion of a slurry-residue mixture, so that the method is simple and easy to implement, is widely applied to families, has less investment in the early stage and low cost for a small workshop, and is widely used; however, this method is not only labor-consuming but also inefficient.

Thus, in modern processing plants, electric filtration devices have emerged, which are capable of vibrating the filter disc, mainly by discharging the slurry into the filter disc, and separating the residue from the slurry by vibration.

In the prior art, a vibration motor is usually protected by a shielding plate, even more vibration motors are exposed outside a machine, and bean dreg vibration filtering environments are generally moist, under long-time working, the inside of the vibration motor is easy to infiltrate into water vapor, so that the inside of the vibration motor is moist, the normal working of a circuit is easy to be influenced by an internal moist state, and the normal service life of the vibration motor is influenced.

The device has the advantages that the vibration filter equipment with the protection device of the vibration motor can better protect the vibration filter motor in a wet environment.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide vibration filtering equipment so as to solve the problems that in the prior art, a vibration motor is usually protected by a shielding plate, even more vibration motors are exposed outside a machine, the environment for vibration filtering of bean dregs is generally moist, the interior of the vibration motor is easy to infiltrate into water vapor under long-time working, the interior is moist, the normal working of a circuit is easy to be influenced by an internal moist state, and the normal service life of the vibration motor is influenced.

In order to achieve the above object, the present utility model is realized by the following technical scheme: the vibration filtering equipment comprises a support frame, wherein a plurality of springs are welded above the support frame;

the filter frame is positioned right above the support frame, and the lower part of the filter frame is welded with the spring;

the vibration box is positioned right above the filter frame;

the vibrating box comprises a support fixedly connected to the side edge of the filtering frame, an inner cover is locked and connected to the upper side of the support, an opening of the inner cover faces upwards, a vibrating motor is fixedly arranged in the inner cover through bolts, an outer cover is fastened to the outer portion of the inner cover, the opening of the outer cover faces downwards, and the side edge of the outer cover is fixedly connected with the support through bolts.

As a further improvement, a cooling box is further arranged on one side of the short side of the vibrating box, a cooling box is arranged on one side of the short side of the outer cover, a cooling pipe is inserted above the cooling box, the cooling pipe is inserted on one side of the outer cover, a water absorption strip is embedded on the outer side surface of the cooling pipe, and the water absorption strip is positioned above the inner cover.

As a further improvement, the long side of the support is provided with a spreading part, and the lower edge of the long side of the outer cover is tightly attached above the spreading part.

As a further improvement, the inner cover comprises an abutting part and a supporting part, wherein the abutting part is in locking connection with the inner side face of the outer cover, the supporting part is far away from one side of the outer cover, the supporting part and the abutting part are of an integrated structure, and the upper part of the supporting part is attached to the water absorbing strip.

As a further improvement, a silencing sheet is further attached to the upper portion inside the outer cover, and the long side of the silencing sheet is inserted between the outer cover and the abutting portion.

As a further improvement, the filter frame comprises an L-shaped support bar positioned right above the springs and a filter cover clamped between the two L-shaped support bars, and a filter screen is paved on the upper surface of the filter cover.

As a further improvement, at least two groups of lock sleeves are further vertically arranged below the support, a U-shaped groove is arranged below the lock sleeves, the filter cover and the L-shaped support bar are inserted into the U-shaped groove below the lock sleeves, and the lock sleeves are connected in a locking mode through bolts penetrating through the filter cover, the L-shaped support bar and the lock sleeves.

The beneficial effects of the utility model are as follows:

according to the utility model, the inner cover is sleeved outside the vibration motor and matched with the outer cover to form a similar closed structure, so that the vibration motor can be isolated from being immersed into water vapor in a wet working environment; in order to ensure that the vibrating motor can be cooled normally in a similar closed environment, a cooling box is arranged on the side surface of the vibrating box, and the cooling effect can be achieved by heat exchange of air inside through a cooling pipe inserted into the vibrating box; still further in order to strengthen the vapor to the weak point invasion and eliminate, still place the strip that absorbs water inside, simultaneously for the change of the strip that absorbs water of being convenient for, inlay the strip that absorbs water at the cooling tube outer wall, through keeping apart vibrating motor, can effectively avoid the humid environment to the influence of vibrating motor internal circuit to ensure vibrating motor's can not shorten life.

And the vibration motor is arranged above the filter frame, so that the vibration efficiency of the filter frame can be obviously improved by the vibration motor with the same power, and the kinetic energy generated by the vibration motor can be fully utilized to the greatest extent.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a vibration filtering apparatus according to the present utility model.

Fig. 2 is a schematic perspective view of a vibrating case according to the present utility model.

Fig. 3 is a schematic perspective sectional structure of a vibrating case according to the present utility model.

Fig. 4 is a schematic perspective view of an L-shaped support bar according to the present utility model.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

In the description of the present utility model, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the prior art, a vibration motor is usually protected by a shielding plate, even more vibration motors are exposed outside a machine, and the environment for vibration filtration of bean dregs is generally moist, so that under long-time working, the inside of the vibration motor is easy to infiltrate into water vapor, the inside is moist, the normal working of a circuit is easy to be influenced by the internal moist state, and the normal service life of the vibration motor is influenced, so that the following technical scheme is disclosed in order to solve the technical problems:

referring to fig. 1-4, a vibration filtering device comprises a support frame 1, wherein a plurality of springs 2 are welded above the support frame 1; the filter frame 3 is positioned right above the support frame 1, and the lower part of the filter frame 3 is welded with the spring 2; a vibration box 4, wherein the vibration box 4 is positioned right above the filter frame 3; the vibrating box 4 comprises a support 41 fixedly connected to the side edge of the filtering frame 3, an inner cover 43 locked above the support 41, an opening of the inner cover 43 faces upwards, a vibrating motor 44 is fixedly arranged in the inner cover 43 through bolts, an outer cover 42 is fastened to the outer portion of the inner cover 43, the opening of the outer cover 42 faces downwards, and the side edge of the outer cover 42 is fixedly connected with the support 41 through bolts.

The above-mentioned vibration motor is that the working environment is moist, the internal moist state easily affects the normal operation of the circuit and affects the normal service life of the vibration motor 44, so an inner cover 43 is sleeved outside the vibration motor 44 and forms a similar closed structure with the outer cover 42, which can isolate the vibration motor 44 and prevent the inside from being immersed in water vapor in a relatively moist working environment.

When the vibration box 4 is mounted, first, the bottom of the vibration motor 44 is first locked to the inner bottom of the inner cover 43 by a plurality of bolts, the inner cover 43 and the vibration motor 44 are made into a stable fixed state, then the inner cover 43 is placed above the support 41, the support 41 and the inner cover 43 are made into a stable fixed state by locking the bolts from below the support 41, at this time, the upper side of the inner cover 43 is opened, then, only the outer cover 42 with the lower side opened is covered above the inner cover 43, and the side surface of the outer cover 42 is locked by two sets of bolts, so that a similar closed space is formed in the inner cover 43, and the vibration motor 44 is placed in the space. One set of bolts on the side surface of the outer cover 42 is locked with the side surface of the inner cover 43, and the other set of bolts is locked with the support 41, so that the sealing performance of the inner space can be further improved by the double-locking installation mode.

In order to ensure that the vibration motor 44 can be cooled normally in a similar closed environment, a cooling box 45 is further arranged on one side of the short side of the vibration box 4, the cooling box 45 is arranged on one side of the short side of the outer cover 42, a cooling pipe 451 is inserted above the cooling box 45, and the cooling pipe 451 is inserted on one side of the outer cover 42. The cooling tank 45 is hung outside the outer cover 42, cooling water is stored in the cooling tank, the micro water pump 453 arranged on one side of the cooling tank 45 is used for supplying water to the cooling pipe 451 at one end, water flows into the cooling tank 45 from one end inside the cooling pipe 451 after flowing through the inside of the vibrating tank 4, and the cooling pipe 451 inserted into the inside of the vibrating tank 4 can achieve a cooling effect by performing heat exchange on the air inside; in this embodiment, the cooling tube 451 is made of copper tube.

Even if a closed space is formed, it is difficult to avoid a small amount of water vapor from entering the space because the completely closed state is too ideal, and in order to eliminate the water vapor, a water absorbing strip 452 is fitted to the outer side surface of the cooling pipe 451, the water absorbing strip 452 is positioned above the inner cover 43, the water absorbing strip 452 can absorb the water vapor entering the space, and at the same time, when the cooling pipe 451 is replaced, the water absorbing strip 452 can be removed and replaced with a new water absorbing strip 452, and in this embodiment, the water absorbing strip 452 is made of a water absorbing resin material.

In order to enhance the sealing effect of the cover 42, a border 411 is provided on the long side of the support 41, and the lower edge of the long side of the cover 42 is tightly attached to the upper side of the border 411, so that the gap can be greatly reduced, and the sealing effect can be enhanced.

The inner cover 43 includes an abutting portion 431 which is locked to the inner side surface of the outer cover 42, and a receiving portion 432 which is separated from the outer cover 42, the receiving portion 432 and the abutting portion 431 are integrally formed, the abutting portion 431 is bonded to the outer cover 42, a set of bolts which lock the outer cover 42 are fixed to the abutting portion 431 of the inner cover 43, and 2 the receiving portion 432 is used for receiving the water absorbing strips 452 and the cooling pipes 451.

In order to optimize noise pollution of the working environment, a silencing sheet 421 is further attached to the upper portion inside the outer cover 42, and the long side of the silencing sheet 421 is inserted between the outer cover 42 and the abutting portion 431, so that noise generated by the vibration motor 44 can be reduced to a large extent, and in this embodiment, the silencing sheet 421 is silencing cotton and is adhered to the inside of the outer cover 42 through glue.

The filter frame 3 comprises an L-shaped supporting bar 31 positioned right above the springs 2 and a filter cover 32 clamped between the two L-shaped supporting bars 31, and a filter screen 33 is paved on the upper surface of the filter cover 32. At least two groups of lock sleeves 412 are further vertically arranged below the support 41, U-shaped grooves are formed below the lock sleeves 412, the filter cover 32 and the L-shaped support bars 31 are inserted into the U-shaped grooves below the lock sleeves 412, the filter cover 32, the L-shaped support bars 31 and the lock sleeves 412 are connected in a locking manner through bolts, the filter cover 32 between the two L-shaped support bars 31 is used for receiving slurry output by the slurry output pipe 5, the filter screen 33 is used for carrying out preliminary filtration, liquid is discharged into the lower collecting box 7 through the filter cover 32, residues are placed above the filter screen 33 under the blocking of the filter screen 33, the vibration motor 44 is transmitted to the L-shaped support bars 31 through the support 41, the springs 2 below the L-shaped support bars 31 assist vibration, the vibration sense is concentrated on the filter cover 32, filter residues on the obliquely placed filter cover 32 can be separated from the liquid as much as possible in vibration, and meanwhile the filter residues are discharged into the collecting hopper 6. In this embodiment, four springs 2 are provided, two springs 2 are provided at the bottom of each L-shaped support bar 31, wherein the joint portion of the filter cover 32 and the L-shaped support bar 31 is inserted into the U-shaped groove below the lock sleeve 412, and the filter cover 32, the L-shaped support bar 31 and the support 41 welded above the lock sleeve 412 are locked by bolts penetrating from the side surface, so that a stable and fixed connection state is formed.

Meanwhile, in order to facilitate the discharge of filter residues into the collection hopper 6 during vibration, the filter cover 32 is placed at an inclination angle of 10-20 degrees, and in this embodiment, the filter cover 32 is placed at a specific angle of 20 degrees.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and various modifications and variations may be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. A vibration filtering apparatus, comprising:

the device comprises a support frame (1), wherein a plurality of springs (2) are welded above the support frame (1);

the filtering frame (3) is positioned right above the supporting frame (1), and the lower part of the filtering frame (3) is welded with the spring (2);

the vibration box (4) is positioned right above the filter frame (3);

the vibrating box (4) comprises a support (41) fixedly connected to the side edge of the filtering frame (3), an inner cover (43) is locked above the support (41), the opening of the inner cover (43) is upward, a vibrating motor (44) is fixedly arranged in the inner cover (43) through bolts, an outer cover (42) is fixedly connected to the outer portion of the inner cover (43) in a buckling mode, the opening of the outer cover (42) is downward, and the side edge of the outer cover (42) is fixedly connected with the support (41) through bolts.

2. The vibration filtering device according to claim 1, wherein a cooling tank (45) is further arranged on one side of a short side of the vibration tank (4), the cooling tank (45) is arranged on one side of a short side of the outer cover (42), a cooling pipe (451) is inserted above the cooling tank (45), the cooling pipe (451) is inserted on one side of the outer cover (42), a water absorbing strip (452) is embedded on the outer side surface of the cooling pipe (451), and the water absorbing strip (452) is located above the inner cover (43).

3. A vibrating filter device according to claim 1, wherein the long side of the support (41) is provided with a spreading portion (411), and the long lower edge of the cover (42) is tightly attached to the spreading portion (411).

4. A vibrating filter device according to claim 1, wherein the inner housing (43) comprises an abutment (431) which is in locking engagement with the inner side of the outer housing (42) and a receiving portion (432) on the side remote from the outer housing (42), the receiving portion (432) being of integral construction with the abutment (431).

5. A vibrating filter device according to claim 1, wherein a sound deadening sheet (421) is further attached to the upper inner portion of the housing (42), and a long side of the sound deadening sheet (421) is interposed between the housing (42) and the abutting portion (431).

6. A vibrating filter device according to claim 1, characterized in that the filter frame (3) comprises an L-shaped support bar (31) located directly above the springs (2) and a filter mantle (32) clamped between the two L-shaped support bars (31), the filter mantle (32) being laid with a filter screen (33) on its upper surface.

7. The vibration filter device according to claim 6, wherein at least two sets of lock sleeves (412) are further vertically arranged below the support (41), a U-shaped groove is arranged below the lock sleeves (412), the filter cover (32) and the L-shaped support bar (31) are inserted into the U-shaped groove below the lock sleeves (412), and the lock sleeves (412) are connected in a locking manner by penetrating through the filter cover (32), the L-shaped support bar (31) and the lock sleeves (412) through bolts.