CN211987123U - High-efficiency concentrator - Google Patents

Abstract

The invention discloses a high-efficiency concentrator, which comprises a heating device, an evaporation cavity, a condensing device and a liquid receiving tank, wherein the evaporation cavity is provided with a liquid inlet, a liquid outlet and a steam outlet, the upper end of the evaporation cavity is provided with a first pipeline for connecting the steam outlet and the condensing device and a second pipeline for connecting the liquid inlet and the heating device, the lower end of the evaporation cavity is provided with a third pipeline for connecting the liquid outlet and the liquid receiving tank, the evaporation cavity is of a cylindrical cavity structure, the second pipeline is divided into two sections, the first section of pipeline is a circular pipe, the front end of the second section of pipeline is a circular opening which can be in butt joint communication with the first section of pipeline and is connected into a whole, the second section of pipeline is gradually compressed into a flat shape from front to back, the rear end of the second section of pipeline is a flat opening, and the liquid inlet is a liquid inlet which can be in butt joint communication with the. The feed liquid inlet of the invention adopts a flat opening structure, thereby increasing the area of discharged liquid flow and improving the evaporation efficiency.

Description

High-efficiency concentrator

Technical Field

The application relates to the technical field of pharmacy, in particular to a high-efficiency concentrator.

Background

The concentrator is a device for concentrating production process in the industries of traditional Chinese medicine, health products, natural seasonings, food additives, food, chemical engineering and the like. Since the invention of the concentrator, the concentrator is widely applied to the fields of chemical industry, medicine production and processing industry, ore processing industry, sewage treatment and the like, and the mainstream concentrator comprises a spherical concentrator, a single-effect concentrator and a double-effect concentrator.

The utility model discloses an equipment is always mixed to mandate bulletin No. CN208893644U, a concentrator, include heater, evaporimeter, condenser and receive the liquid jar, the evaporimeter upper end is equipped with the first pipeline of connecting condenser upper portion, the lower extreme is equipped with the second pipeline of connecting the heater bottom, heater upper portion is equipped with the third pipeline on intercommunication evaporimeter upper portion, receive the liquid jar be located the condenser below and communicate with the condenser, be equipped with the feed liquid entry on the heater, receive the liquid jar lower extreme and be equipped with feed liquid export, characterized by: the utility model discloses a heating device, including heater, dwang, lower extreme, dwang, the heater is equipped with the dwang, is equipped with drive dwang pivoted motor on the heater, the dwang middle part is equipped with the multicomponent and divides the flow table, the lower extreme is equipped with a plurality of poking bars, circumference evenly distributed has a plurality of through-holes on the flow table, the export of third pipeline is located the flow table top.

Above-mentioned scheme is through setting up dwang, motor, reposition of redundant personnel effect of volatilizing in order to increase, and evaporation chamber technology is more complicated, and the cost is higher, and this application aims at providing a concentrator that improves evaporation efficiency on simple basis of structure.

Disclosure of Invention

The invention aims to provide a concentrator which simplifies the structure and improves the evaporation efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a high-efficient concentrator, includes heating device, evaporation chamber, condensing equipment and receives the fluid reservoir, and the evaporation chamber is equipped with feed liquid entry, feed liquid export, steam outlet, evaporation chamber upper end is equipped with the first pipeline of connecting steam outlet and condensing equipment, connects feed liquid entry and heating device's second pipeline, and evaporation chamber lower extreme is equipped with the third pipeline of connecting feed liquid export and receiving the fluid reservoir, its characterized in that: the evaporation cavity is cylindrical cavity structure, the second pipeline divide into two sections, is the first section pipeline of intercommunication heating device and the second section pipeline of intercommunication evaporation cavity respectively, and first section pipeline is the pipe, and second section pipeline front end is for can with above-mentioned first section pipeline butt joint intercommunication and even circular opening as an organic whole, and the second section pipeline is compressed into the platykurtic gradually backward in the past for second section pipeline rear end is the platykurtic opening, the feed liquid entry is for can with above-mentioned second section pipeline on the platykurtic opening butt joint intercommunication and even feed liquid entry as an organic whole.

The high-efficiency concentrator is characterized in that: the long edge of the flat opening on the second section of pipeline is arranged along the axial direction of the evaporation cavity.

The high-efficiency concentrator is characterized in that: the second section pipeline with evaporation chamber tangential setting makes the warp the leading-in direction of feed liquid entry leading-in 2 feed liquids in evaporation chamber is cut in evaporation chamber inner wall circumferencial direction.

The invention has the following beneficial effects:

1. the feed liquid inlet adopts a flat opening structure, so that the area of discharged liquid flow is increased, and the evaporation efficiency is improved.

2. Set the evaporation chamber into the cylinder, vertically set up the feed liquid entry on the evaporation chamber lateral wall, opening direction inscribe in the lateral wall utilizes tank structure and jet force to form tangential direction's centrifugal force, makes ejection of compact liquid stream flow down along the inner wall spiral, increases heat exchange area and time, improves the effect of volatilizing, volatilizees evenly, is difficult for piling up.

3. Simple structure, need not additionally set up stirring structure.

Drawings

Fig. 1 is a schematic structural diagram of a concentrator according to a first embodiment of the present invention.

Fig. 2 is a schematic view of a connection structure of the second pipe and the evaporation cavity in the first embodiment of the invention.

Fig. 3 is a schematic structural diagram of a concentrator according to a second embodiment of the present invention.

In the figure: 1. a heating device; 2. an evaporation chamber; 201. a feed liquid inlet; 202. a feed liquid outlet; 203. a steam outlet; 3. a condensing unit; 4. a liquid receiving tank; 5. a first conduit; 6. a second conduit; 7. a third conduit.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1, 2 and 3, a high-efficiency concentrator comprises a heating device 1, an evaporation cavity 2, a condensing device 3 and a liquid receiving tank 4, wherein the evaporation cavity 2 is provided with a feed liquid inlet 201, a feed liquid outlet 202 and a steam outlet 203, the upper end of the evaporation cavity 2 is provided with a first pipeline 5 for connecting the steam outlet 203 with the condensing device 3 and a second pipeline 6 for connecting the feed liquid inlet 201 with the heating device 1, the lower end of the evaporation cavity 2 is provided with a third pipeline 7 for connecting the feed liquid outlet 202 with the liquid receiving tank 4, the evaporation cavity 2 is of a cylindrical cavity structure, the second pipeline 6 is divided into two sections, namely a first section pipeline for communicating the heating device 1 and a second section pipeline for communicating the evaporation cavity 2, the first section pipeline is a circular pipe, the front end of the second section pipeline is a circular opening which can be in butt joint communication with the first section pipeline and is connected into a whole, and the second section pipeline is gradually compressed into a flat shape from the front, so that the rear end of the second section of pipeline is a flat opening, and the feed liquid inlet 201 is a feed liquid inlet which can be in butt joint communication with the flat opening on the second section of pipeline and is connected into a whole.

In this application, the long edge of the flat opening on the second section of pipe is arranged axially along the evaporation cavity 2.

Further improvement: the second section pipeline with evaporation chamber 2 tangential setting makes the warp feed liquid entry 201 is leading-in the leading-in direction of 2 feed liquids in evaporation chamber is cut in 2 inner wall circumferencial directions in evaporation chamber.

Further improvement (as shown in fig. 3): the flat opening on the second section pipeline is arranged in an upward inclined mode, so that the feed liquid inlet 201 guides the feed liquid into the evaporation cavity 2, and the feed liquid is guided into the evaporation cavity 2 along the circumferential direction of the inner wall of the evaporation cavity and is sprayed upwards.

During operation, the area of ejection of compact liquid stream can be increased to the feed liquid entry 201 of platykurtic, improves evaporation efficiency, and the liquid stream flows down along the inner wall spiral, strengthens heat exchange area and time, improves the effect of volatilizing, volatilizees evenly, is difficult for piling up.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (4)

1. The utility model provides a high-efficient concentrator, includes heating device (1), evaporation chamber (2), condensing equipment (3) and receives fluid reservoir (4), evaporation chamber (2) are equipped with feed liquid entry (201), feed liquid export (202), steam outlet (203), evaporation chamber (2) upper end is equipped with first pipeline (5) of connecting steam outlet (203) and condensing equipment (3), second pipeline (6) of connecting feed liquid entry (201) and heating device (1), and evaporation chamber (2) lower extreme is equipped with third pipeline (7) of connecting feed liquid export (202) and receiving fluid reservoir (4), its characterized in that: evaporation chamber (2) are cylindrical cavity structure, second pipeline (6) divide into two sections, are the first section pipeline of intercommunication heating device (1) and the second section pipeline of intercommunication evaporation chamber (2) respectively, and first section pipeline is the pipe, and second section pipeline front end is for can with above-mentioned first section pipeline butt joint intercommunication and even circular opening as an organic whole, and second section pipeline is compressed into the platykurtic in the past backward gradually for second section pipeline rear end is the platykurtic opening, feed liquid entry (201) are for can with above-mentioned flat opening on the second section pipeline butt joint intercommunication and even feed liquid entry as an organic whole.

2. The high efficiency concentrator of claim 1, wherein: the long edge of the flat opening on the second section of the pipeline is arranged along the axial direction of the evaporation cavity (2).

3. The high efficiency concentrator of claim 1, wherein: the second section pipeline with evaporation chamber (2) tangential setting makes the warp feed liquid entry (201) leading-in evaporation chamber (2) feed liquid leading-in direction is cut in evaporation chamber (2) inner wall circumferencial direction.

4. A high efficiency concentrator as claimed in claim 1 or 3, wherein: the flat opening on the second section pipeline is arranged in an upward inclined mode, so that the feed liquid inlet (201) leads in the feed liquid leading-in direction of the feed liquid in the evaporation cavity (2) is cut in the circumferential direction of the inner wall of the evaporation cavity (2) and sprays upwards.

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