CN221310091U - Glass fiber reinforced plastic tower with up and down synchronous spraying function - Google Patents

Abstract

The application discloses a glass fiber reinforced plastic tower with an up-down synchronous spraying function, and relates to the field of glass fiber reinforced plastic containers. The glass fiber reinforced plastic tower adopts the distributed spray assembly at the upper part and the arched spray assembly at the lower part, so that a more uniform spray effect is realized, and the gas-liquid contact efficiency and the filler utilization rate are improved.

Description

Glass fiber reinforced plastic tower with up and down synchronous spraying function

Technical Field

The application relates to a glass fiber reinforced plastic container, in particular to a glass fiber reinforced plastic tower with an upper synchronous spraying function and a lower synchronous spraying function.

Background

The glass fiber reinforced plastic tower is a device commonly used in the fields of industry and environmental protection, and is widely applied to the technological processes of gas purification, absorption, cooling, waste gas treatment and the like in the industries of chemical industry, petroleum, pharmacy, electric power and the like. The glass fiber reinforced plastic tower gradually replaces the traditional metal tower and plastic tower by virtue of the characteristics of corrosion resistance, light weight, high strength, convenient installation and maintenance and the like, and becomes one of important purification equipment in industrial production. However, the existing glass fiber reinforced plastic towers have certain limitations in terms of design and structure, and cannot fully meet the increasingly stringent industrial purification requirements.

Specifically speaking, traditional glass steel tower adopts the mode that the top was concentrated to spray to carry out liquid distribution more, and liquid sprays downwards from the top of the tower, can't realize the even spraying effect of upper and lower floor, leads to the packing inequality of different positions in the tower, and purification efficiency reduces.

Disclosure of utility model

The application aims to at least overcome the defects of the prior art and provide a glass fiber reinforced plastic tower with an up-down synchronous spraying function.

In order to achieve the aim, the application discloses a glass fiber reinforced plastic tower with an up-down synchronous spraying function, which comprises a glass fiber reinforced plastic tower body, a distributed spraying assembly arranged at the upper position in the glass fiber reinforced plastic tower body, an arched spraying assembly arranged at the lower position in the glass fiber reinforced plastic tower body and a filler positioned at the middle part in the glass fiber reinforced plastic tower body, wherein the top of the glass fiber reinforced plastic tower body is provided with an air outlet, the bottom of the glass fiber reinforced plastic tower body is arc-shaped and is provided with a liquid return port, and the side surface of the glass fiber reinforced plastic tower body close to the bottom is provided with an air inlet; the arched spray assembly is provided with an arched base plate, the outer edge of the base plate is connected to the side surface of the glass fiber reinforced plastic tower body, a plurality of upward spraying lower spray openings are uniformly distributed and arranged on the base plate, each lower spray opening is connected with a pipeline, and the pipeline extends out of the lower part of the glass fiber reinforced plastic tower body and is used for being connected with spraying liquid; and the base plate is also provided with a plurality of openings for liquid to flow back into the bottom of the glass fiber reinforced plastic tower body.

Further, a plurality of water caps are distributed on the substrate, and the water caps are petal-shaped.

Further, the distributed spray assembly comprises a base pipe and branch pipes which are distributed on two sides of the base pipe and are connected with the base pipe, and a plurality of openings with different orientations are formed in each branch pipe so as to realize multi-directional spraying of the branch pipes; the base pipe extends out of the glass fiber reinforced plastic tower body and is used for being connected with liquid for spraying.

Compared with the prior art, the application has at least one of the following advantages:

1. Through the up and down synchronous spraying function, the liquid can be uniformly distributed above and below the filler in the glass fiber reinforced plastic tower body and can be contacted with the gas to the maximum extent, thereby improving the mass transfer efficiency of the whole tower body. The liquid is fully contacted with the gas, which is favorable for absorbing and transmitting target substances and enhances the reaction or separation efficiency.

2. The water cap on the arched spray assembly can rebound liquid drops and disperse the liquid drops into tiny liquid drops, so that the spray liquid can cover the area below the filler more uniformly, and the contact efficiency of the spray liquid and the gas is improved.

The benefits listed above are not exhaustive of all advantages. Other potential advantages and detailed technical implementations are further disclosed in the examples or other description sections of the present application.

Drawings

Various aspects of the present disclosure will be better understood upon reading the following detailed description in conjunction with the drawings, the location, dimensions, and ranges of individual structures shown in the drawings, etc., are sometimes not indicative of actual locations, dimensions, ranges, etc. In the drawings:

FIG. 1 is a schematic diagram of the structure of one embodiment of the present disclosure.

Fig. 2 is a schematic diagram of a distributed spray assembly in accordance with one embodiment of the present disclosure.

Fig. 3 is a schematic view of the structure of an arched spray assembly in one embodiment of the present disclosure.

Fig. 4 is a schematic view of the structure of a pipeline in an embodiment of the present disclosure.

Detailed Description

The present disclosure will be described below with reference to the accompanying drawings, which illustrate several embodiments of the present disclosure. It should be understood, however, that the present disclosure may be embodied in many different forms and should not be limited to the embodiments described below, but rather, the embodiments described below are intended to provide a more complete disclosure of the present disclosure and to fully illustrate the scope of the present disclosure to those skilled in the art. It should also be understood that the embodiments disclosed herein can be combined in various ways to provide yet additional embodiments.

It should be understood that throughout the drawings, like reference numerals refer to like elements. In the drawings, the size of certain features may be modified for clarity.

As used in this specification, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise. The use of the terms "comprising," "including," and "containing" in the specification mean that the recited features are present, but that one or more other features are not excluded. The use of the phrase "and/or" in the specification includes any and all combinations of one or more of the associated listed items.

Examples

As shown in fig. 1-3, the present embodiment discloses an exemplary structure of a glass fiber reinforced plastic tower with up and down synchronous spraying functions, which structurally comprises a glass fiber reinforced plastic tower body 1, a distributed spraying assembly 2 installed at the upper position in the glass fiber reinforced plastic tower body 1, an arched spraying assembly 3 installed at the lower position in the glass fiber reinforced plastic tower body 1, and a filler 4 positioned at the middle in the glass fiber reinforced plastic tower body 1.

More specifically, the glass fiber reinforced plastic tower body 1 is cylindrical or square and is made of glass fiber reinforced plastic with excellent corrosion resistance. The glass fiber reinforced plastic has the characteristics of light weight, high strength, chemical corrosion resistance, aging resistance and the like, and ensures that the glass fiber reinforced plastic keeps long-term stable operation under the environment of high humidity and strong acid and alkali. The bottom of the glass fiber reinforced plastic tower body 1 is arc-shaped, and the main functions are to promote the smooth backflow of the liquid at the bottom of the tower and prevent the accumulation of the liquid at the bottom of the tower. The arc design at the bottom is matched with the liquid return port at the bottom, so that the complete reflux and discharge of the liquid at the bottom of the tower are facilitated.

In this embodiment, an exhaust port is provided at the top of the glass fiber reinforced plastic tower 1 for exhausting the exhaust gas after the filler 4 and the spray liquid are fully contacted.

The diameter of the exhaust port is adapted to the diameter of the glass fiber reinforced plastic tower body 1, so that smooth exhaust is ensured.

In the embodiment, the inside of the glass fiber reinforced plastic tower body 1 is divided into an upper region, a middle region and a lower region according to the positions, and a distributed spray assembly 2, a filler 4 and an arched spray assembly 3 are respectively installed.

Wherein, the distributed spray assembly 2 is responsible for uniformly spraying liquid above the filler 4, thereby ensuring uniform distribution of the sprayed liquid above the filler 4 and improving mass transfer efficiency.

As shown in fig. 2, the distributed spray assembly 2 is mainly composed of a base pipe 5 and a branch pipe 6.

The base pipe 5 is a main part of the distributed spray assembly 2, extends from the side of the glass fiber reinforced plastic tower body 1 and is connected to an external liquid circulation system (not shown in the figure) for receiving the liquid for spraying.

The branch pipe 6 is a branch structure of the base pipe 5, and a plurality of holes are uniformly distributed on the pipe body of the branch pipe 6 and used as spraying holes for multidirectional spraying of spraying liquid.

The diameter and the distance of the spraying holes are accurately calculated, so that the flow and the distribution uniformity of the spraying liquid are ensured.

When the device is applied, the distributed spray assembly 2 is arranged on the upper part of the glass fiber reinforced plastic tower body 1 through a bracket, so that the stability of the device is ensured.

It can be understood that through the distributed spray assembly 2, the liquid can be uniformly distributed above the filler 4 of the glass fiber reinforced plastic tower body 1 and can be contacted with the gas to the maximum extent, so that the mass transfer efficiency of the whole tower body is improved.

In this embodiment, as shown in fig. 1 and 3, the arched spray assembly 3 is located at the lower part of the glass fiber reinforced plastic tower body 1, and is composed of an arched base plate 7, a plurality of lower spray openings 8 and a pipeline 9.

The outer edge of the base plate 7 is connected with the side wall of the glass fiber reinforced plastic tower body 1, and an upward arched arc structure is formed.

In most cases, the base plate 7 is made of corrosion-resistant glass fibre reinforced plastic or stainless steel, ensuring a long-term stable operation.

The arched shape of the base plate 7 increases the surface area considerably. The lower spray openings 8 with upward spray openings are uniformly distributed on the base plate 7 and are connected with a pipeline 9, and the pipeline 9 extends out of the side surface of the tower body 1 to be connected with an external liquid circulation system and conveys spraying liquid to each lower spray opening 8.

It should be understood that, as shown in fig. 4, since the pipe 9 is in a coil shape to be connected to each lower shower port 8, the pipe 9 is connected to the lower shower port 8 through an attachment pipe.

As a more preferable scheme, a plurality of water caps 11 are also distributed on the base plate 7 for rebounding the liquid drops falling from the upper part and dispersing the liquid drops into tiny liquid drops, so that the contact efficiency of the spray liquid and the gas is further improved.

Specifically, the water cap 11 is made of PVC or PP in a petal shape.

The openings 10 arranged on the base plate 7 are used for liquid return to the liquid return opening at the bottom of the tower body, so that smooth return of redundant spray liquid is realized, and the redundant spray liquid is reintroduced into the spray system through the circulating system.

It should be noted that the number and location of the openings 10 should ensure that the spray liquid is able to flow back and be recycled in a timely manner.

It can be understood that under the above structure, the cooperation of the arched spray assembly 3 and the distributed spray assembly 2 in this embodiment makes the liquid uniformly distributed above and below the packing of the glass fiber reinforced plastic tower body, and makes the liquid contact with the gas to the maximum extent, so as to improve the mass transfer efficiency of the whole tower body.

Although exemplary embodiments of the present disclosure have been described, it will be understood by those skilled in the art that various changes and modifications can be made to the exemplary embodiments of the present disclosure without departing from the spirit and scope of the disclosure.

Claims (3)

1. Glass fiber reinforced plastic tower with upper and lower synchronous spraying function, its characterized in that includes: the glass fiber reinforced plastic tower comprises a glass fiber reinforced plastic tower body, a distributed spray assembly arranged at the upper position in the glass fiber reinforced plastic tower body, an arched spray assembly arranged at the lower position in the glass fiber reinforced plastic tower body and a filler positioned at the middle part in the glass fiber reinforced plastic tower body, wherein the top of the glass fiber reinforced plastic tower body is provided with an air outlet, the bottom of the glass fiber reinforced plastic tower body is arc-shaped and is provided with a liquid return port, and the side surface of the glass fiber reinforced plastic tower body, which is close to the bottom, is provided with an air inlet; the arched spray assembly is provided with an arched base plate, the outer edge of the base plate is connected to the side surface of the glass fiber reinforced plastic tower body, a plurality of upward spraying lower spray openings are uniformly distributed and arranged on the base plate, each lower spray opening is connected with a pipeline, and the pipeline extends out of the lower part of the glass fiber reinforced plastic tower body and is used for being connected with spraying liquid; and the base plate is also provided with a plurality of openings for liquid to flow back into the bottom of the glass fiber reinforced plastic tower body.

2. The glass fiber reinforced plastic tower with the up and down synchronous spraying function as claimed in claim 1, wherein: the substrate is provided with a plurality of water caps which are petal-shaped.

3. The glass fiber reinforced plastic tower with the up and down synchronous spraying function as claimed in claim 1, wherein: the distributed spray assembly comprises a base pipe and branch pipes which are distributed on two sides of the base pipe and are connected with the base pipe, and a plurality of openings with different orientations are formed in each branch pipe so as to realize multi-directional spray of the branch pipes; the base pipe extends out of the glass fiber reinforced plastic tower body and is used for being connected with liquid for spraying.