CN219721952U - Epoxy mixture separation filter equipment - Google Patents

Abstract

The utility model discloses an epoxy resin mixture separation and filtration device, which comprises a reaction kettle, a stirring mechanism, a heating mechanism and a condensing mechanism, wherein the top opening of the reaction kettle is provided with a cover plate, the stirring mechanism is positioned in the reaction kettle and arranged on the cover plate, the heating mechanism is fixed on the outer wall of the reaction kettle, the condensing mechanism is arranged on the lower surface of the cover plate and used for cooling water vapor and collecting condensed water, a feed port is formed on the cover plate, and a filter cartridge is detachably arranged on the feed port; wherein, condensation mechanism installs at reation kettle inner wall and the open annular water collector in top and a plurality of lower extreme all are located annular water collector and along reation kettle circumferencial direction distribution's slope condenser pipe including coaxial laminating, the upper end of condenser pipe is close to reation kettle's axis setting, and the condensation pipe surface condenses into the water droplet after the vapor rises again, and the water droplet flows in annular water collector along the incline direction of condenser pipe, has avoided the comdenstion water to drop to the mixture again in, improves separation efficiency.

Description

Epoxy mixture separation filter equipment

Technical Field

The utility model relates to the related field of epoxy resin manufacture, in particular to an epoxy resin mixture separating and filtering device.

Background

The utility model patent of China with the publication number of CN214605327U discloses an epoxy resin mixture separating and filtering device in epoxy resin production, in particular to an epoxy resin mixture separating and filtering device in epoxy resin production, wherein a condensing mechanism is arranged on a filtering box, and the evaporated moisture in the epoxy resin is collected in the heating process of the epoxy resin; however, in the rising process of the water vapor, the water vapor is accumulated at the top of the filter tank, the water vapor condenses into water when contacting the top of the filter tank, the water drops are converged into a certain volume and then fall into the epoxy resin, the flow of the connecting hose is limited, no power is used for sucking the water vapor from the filter tank to the condensing mechanism, so that the condensation water which can be recovered by the condensing mechanism is less, and a plurality of condensed water is accumulated at the top of the filter tank and falls into the epoxy resin again, and therefore, the design of the epoxy resin mixture separating and filtering device is needed.

Disclosure of Invention

Aiming at the technical problems, the utility model aims to solve the problems that the recovery amount of condensed water is small and the condensed water falls into the epoxy resin again in the prior art.

In order to achieve the above purpose, the utility model provides an epoxy resin mixture separating and filtering device, which comprises a reaction kettle with a cover plate at the top opening, a stirring mechanism which is positioned in the reaction kettle and arranged on the cover plate, a heating mechanism which is fixed on the outer wall of the reaction kettle, and a condensing mechanism which is arranged on the lower surface of the cover plate and used for cooling water vapor and collecting condensed water, wherein a feed port is formed on the cover plate, and a filter cartridge is detachably arranged on the feed port; wherein,,

the condensing mechanism comprises an annular water collector which is coaxially attached to the inner wall of the reaction kettle and is open at the top, and a plurality of inclined condensing pipes which are arranged in the annular water collector and distributed along the circumferential direction of the reaction kettle, wherein the upper ends of the condensing pipes are close to the axis of the reaction kettle.

Preferably, a plurality of guide strips which are in the same length direction and are uniformly distributed along the periphery of the condensing tube are protruded on the outer wall of the condensing tube, and a channel for condensate water to flow is formed between two adjacent guide strips.

Preferably, the condensing mechanism further comprises a first connecting pipe communicated with the upper ends of the plurality of condensing pipes and installed on the cover plate, and a second connecting pipe communicated with the lower ends of the plurality of condensing pipes and installed on the side wall of the reaction kettle through a plurality of first installation racks, one ends of the first connecting pipe and the second connecting pipe all penetrate out of the reaction kettle outwards, and the bottom of the annular water collector is communicated with a water outlet pipe penetrating out of the reaction kettle.

Preferably, the cartridge filter includes a support cylinder with a plurality of through grooves formed on the side wall and a filter screen which is attached to the outer wall of the support cylinder through a plurality of hoops and covers the plurality of through grooves.

Preferably, the upper end of the supporting cylinder is provided with a ring piece part with the lower surface being attached to the upper end of the feeding port in a coaxial line mode, the feeding port is rotationally connected with an end cover capable of being covered on the ring piece part through a rotating shaft, one side, far away from the rotating shaft, of the end cover is detachably connected with the feeding port through an articulated bolt and a lifting ring nut, and the end cover is provided with a feeding port in a molding mode.

Preferably, the stirring mechanism comprises a stirring shaft which is coaxially arranged with the reaction kettle and is axially connected with the cover plate, a plurality of stirring blades which are fixedly sleeved on the stirring shaft at intervals, and a motor which is arranged on the cover plate through a second mounting frame and is coaxially and fixedly connected with the stirring shaft through a shaft coupling.

Preferably, the heating mechanism is a hollow heat exchange tube attached to the outer wall of the reaction kettle, and the heat exchange tube is formed with a liquid outlet and a liquid inlet.

According to the technical scheme, the epoxy resin mixture separating and filtering device provided by the utility model has the beneficial effects that: the water vapor is condensed into water drops on the surface of the recondensing pipe after rising, and the water drops flow into the annular water collector along the inclined direction of the condensing pipe, so that condensed water is prevented from falling into the mixture again, and the separation efficiency is improved.

Additional features and advantages of the utility model will be set forth in the detailed description which follows; and none of the utility models are related to the same or are capable of being practiced in the prior art.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the description serve to explain, without limitation, the utility model. In the drawings:

fig. 1 is a schematic perspective view of an epoxy resin mixture separating and filtering device according to the present utility model;

FIG. 2 is a cross-sectional view of an epoxy resin mixture separating and filtering device provided by the utility model;

FIG. 3 is a schematic cross-sectional view of a condenser tube of an epoxy resin mixture separation filter device according to the present utility model;

FIG. 4 is a perspective view of a condensing mechanism of an epoxy resin mixture separating and filtering device provided by the utility model;

fig. 5 is an exploded view of a filter cartridge of an epoxy resin mixture separating and filtering device according to the present utility model.

Description of the reference numerals

1. A cover plate; 2. a reaction kettle; 3. a stirring mechanism; 4. a heating mechanism; 5. a feed port; 6. a filter cartridge; 7. an annular water collector; 8. a condensing tube; 9. a flow guiding strip; 10. a first connection pipe; 11. a second connection pipe; 12. a support cylinder; 13. a clamp; 14. a filter screen; 15. a ring piece part; 16. an end cap; 17. a feed inlet; 18. a stirring shaft; 19. stirring blades; 20. and a motor.

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the utility model.

In the present utility model, unless otherwise indicated, terms such as "upper, lower, inner, outer" and the like are used merely to denote orientations of the term in a normal use state or are commonly understood by those skilled in the art, and should not be construed as limitations of the term.

As shown in fig. 1-5, an epoxy resin mixture separating and filtering device comprises a reaction kettle 2 with a cover plate 1 arranged at the top opening, a stirring mechanism 3 positioned in the reaction kettle 2 and arranged on the cover plate 1, a heating mechanism 4 fixed on the outer wall of the reaction kettle 2, and a condensing mechanism arranged on the lower surface of the cover plate 1 and used for cooling water vapor and collecting condensed water, wherein a feed port 5 is formed on the cover plate 1, and a filter cartridge 6 is detachably arranged on the feed port 5; wherein,,

the condensing mechanism comprises an annular water collector 7 which is coaxially attached to the inner wall of the reaction kettle 2 and is open at the top, and a plurality of inclined condensing pipes 8 which are arranged in the annular water collector 7 and distributed along the circumferential direction of the reaction kettle 2, wherein the upper ends of the condensing pipes 8 are close to the axis of the reaction kettle 2.

When the mixture is filtered by the filter cartridge 6 through the feed inlet 17 and then enters the reaction kettle 2, the mixture in the reaction kettle 2 is gradually warmed up along with the starting of the heating mechanism 4, water vapor rises in the reaction kettle 2 and contacts with the condensation pipe 8, the water vapor is liquefied when meeting cold and is attached to the surface of the condensation pipe 8, when the water on the surface of the condensation pipe 8 is accumulated into water drops, the water drops flow to the lower end of the condensation pipe 8 along the surface of the condensation pipe 8 under the action of weight, namely the water drops flow into the annular water collector 7, so that condensed water cannot fall into the mixture again.

A plurality of guide strips 9 which are in the same length direction and are uniformly distributed along the periphery of the condensation pipe 8 are protruded on the outer wall of the condensation pipe 8, and a channel for condensate water to flow is formed between two adjacent guide strips 9.

When condenser pipe 8 surface is smooth, the water droplet is easy to drip downwards in the in-process that flows annular water collector 7, therefore the protrusion has a plurality of water conservancy diversion strip 9 in order to form the passageway on condenser pipe 8's outer wall, and the passageway can increase the area of contact with the water droplet, and the tensile force of water can improve the adsorption affinity between water droplet and the condenser pipe 8, prevents that the water droplet from dripping midway.

The condensation mechanism further comprises a first connecting pipe 10 communicated with the upper ends of the plurality of condensation pipes 8 and installed on the cover plate 1, and a second connecting pipe 11 communicated with the lower ends of the plurality of condensation pipes 8 and installed on the side wall of the reaction kettle 2 through a plurality of first installation racks, one ends of the first connecting pipe 10 and the second connecting pipe 11 all penetrate out of the reaction kettle 2 outwards, and a water outlet pipe penetrating out of the reaction kettle 2 is communicated with the bottom of the annular water collector 7.

Condensed water collected in the annular water collector 7 can be timely discharged through the water outlet pipe, water overflow of the annular water collector 7 is avoided, water enters a plurality of condensing pipes 8 from the first connecting pipes 10, and the water absorbs heat in the flowing process of the condensing pipes 8 and is discharged from the second connecting pipes 11.

The filter cartridge 6 comprises a supporting cylinder 12 with a plurality of through grooves formed in the side wall and a filter screen 14 which is mounted on the outer wall of the supporting cylinder 12 in a fit mode through a plurality of clamping bands 13 and covers the plurality of through grooves.

The filter screen 14 adopts the metal material to weave and forms, consequently can install in the support cylinder 12 outside through clamp 13, and the clamp 13 dismantles simple be convenient for change filter screen 14, and the fixed thing that the volume is greater than the mesh can be intercepted to filter screen 14.

The upper end of the supporting cylinder 12 is coaxially protruded with a ring piece part 15, the lower surface of which is attached to the upper end of the feeding port 5, the feeding port 5 is rotatably connected with an end cover 16 capable of being covered on the ring piece part 15 through a rotating shaft, one side of the end cover 16 away from the rotating shaft is detachably connected with the feeding port 5 through an articulated bolt and a flying nut, and a feeding port 17 is formed on the end cover 16.

When the filter screen 14 is replaced, the whole filter cartridge 6 is required to be taken out, the eye nut is unscrewed, the eye nut is rotated to be separated from the end cover 16 by the movable joint bolt in a direction away from the end cover 16, the end cover 16 is turned around the rotating shaft, the filter cartridge 6 is taken out to replace the filter screen 14, and the mixture enters from the feed inlet 17 and is filtered by the filter screen 14 and then enters into the reaction kettle 2.

The stirring mechanism 3 comprises a stirring shaft 18 coaxially arranged with the reaction kettle 2 and connected with the cover plate 1 in a shaft way, a plurality of stirring blades 19 fixedly sleeved on the stirring shaft 18 at intervals, and a motor 20 which is installed on the cover plate 1 through a second installation frame and the output shaft of which is fixedly connected with the stirring shaft 18 coaxially through a coupling.

The motor 20 drives the stirring blade 19 to rotate through the stirring shaft 18 to stir the mixture, and the heating mechanism 4 heats the mixture inside through the side wall of the reaction kettle 2, so that the temperature of the mixture near the side wall of the reaction kettle 2 is higher than the temperature of the mixture near the stirring shaft 19, and therefore, the mixture needs to be continuously stirred so that the temperature difference of the mixture in the reaction kettle 2 is small.

The heating mechanism 4 is a hollow heat exchange tube attached to the outer wall of the reaction kettle 2, and the heat exchange tube is formed with a liquid outlet and a liquid inlet.

The heat conduction liquid enters from the liquid inlet and passes through the side wall of the reaction kettle 2 to transfer heat to the mixture, and the heat conduction liquid after losing heat is discharged from the liquid outlet.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present utility model within the scope of the technical concept of the present utility model, and all the simple modifications belong to the protection scope of the present utility model.

In addition, the specific features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described further.

Moreover, any combination of the various embodiments of the utility model can be made without departing from the spirit of the utility model, which should also be considered as disclosed herein.

Claims (7)

1. The epoxy resin mixture separation and filtration device is characterized by comprising a reaction kettle (2) with a cover plate (1) arranged at the top opening, a stirring mechanism (3) which is positioned in the reaction kettle (2) and arranged on the cover plate (1), a heating mechanism (4) which is fixed on the outer wall of the reaction kettle (2) and a condensation mechanism which is arranged on the lower surface of the cover plate (1) and used for cooling water vapor and collecting condensed water, wherein a feed port (5) is formed on the cover plate (1), and a filter cartridge (6) is detachably arranged on the feed port (5); wherein,,

the condensing mechanism comprises an annular water collector (7) which is coaxially attached to the inner wall of the reaction kettle (2) and is open at the top, and a plurality of inclined condensing pipes (8) which are arranged in the annular water collector (7) and distributed along the circumferential direction of the reaction kettle (2), wherein the upper ends of the condensing pipes (8) are close to the axis of the reaction kettle (2).

2. The epoxy resin mixture separating and filtering device according to claim 1, wherein a plurality of guide strips (9) which are in the same length direction and are uniformly distributed along the periphery of the condensation tube (8) are protruded on the outer wall of the condensation tube (8), and a channel for condensate water to flow is formed between two adjacent guide strips (9).

3. The epoxy resin mixture separation and filtration device according to claim 1, wherein the condensation mechanism further comprises a first connecting pipe (10) which is communicated with the upper ends of the plurality of condensation pipes (8) and is installed on the cover plate (1), and a second connecting pipe (11) which is communicated with the lower ends of the plurality of condensation pipes (8) and is installed on the side wall of the reaction kettle (2) through a plurality of first installation frames, one ends of the first connecting pipe (10) and the second connecting pipe (11) penetrate out of the reaction kettle (2) outwards, and a water outlet pipe penetrating out of the reaction kettle (2) is communicated with the bottom of the annular water collector (7).

4. An epoxy resin mixture separating and filtering device according to claim 1, wherein the filter cartridge (6) comprises a supporting cylinder (12) with a plurality of through grooves formed on the side wall and a filter screen (14) which is mounted on the outer wall of the supporting cylinder (12) in a fitting manner through a plurality of hoops (13) and covers the plurality of through grooves.

5. The epoxy resin mixture separation and filtration device according to claim 4, wherein the upper end of the supporting cylinder (12) is coaxially protruded with a ring piece part (15) with the lower surface attached to the upper end of the feeding port (5), the feeding port (5) is rotatably connected with an end cover (16) capable of being covered on the ring piece part (15) through a rotating shaft, one side of the end cover (16) away from the rotating shaft is detachably connected with the feeding port (5) through an articulated bolt and an eye nut, and a feeding port (17) is formed on the end cover (16).

6. The epoxy resin mixture separation and filtration device according to claim 1, wherein the stirring mechanism (3) comprises a stirring shaft (18) coaxially arranged with the reaction kettle (2) and connected with the cover plate (1) in an axial mode at the upper end, a plurality of stirring blades (19) fixedly sleeved on the stirring shaft (18) at intervals, and a motor (20) mounted on the cover plate (1) through a second mounting frame and connected with the stirring shaft (18) through a shaft coupling in an axial and fixed mode.

7. The epoxy resin mixture separation and filtration device according to claim 1, wherein the heating mechanism (4) is a hollow heat exchange tube attached to the outer wall of the reaction kettle (2), and the heat exchange tube is formed with a liquid outlet and a liquid inlet.