CN213139966U - AES finished product temperature control device and AES constant temperature heat preservation storage device - Google Patents

Abstract

An AES finished product temperature control device and an AES constant temperature heat preservation storage device comprise a heat preservation water tank; the water tank is provided with a hot water supply channel for temperature control, a cold water recovery port for temperature control, a high-temperature water input channel, a water overflow port and a cold water replenishing channel; the temperature control device comprises a temperature controller; the water tank is provided with a temperature sensor; the high-temperature water input channel is provided with a high-temperature water automatic switch; the cold water replenishing channel is provided with a cold water replenishing automatic switch; the temperature controller with high temperature water automatic switch the temperature controller with cold water moisturizing automatic switch and temperature controller and temperature sensor, equal signal connection for: when the temperature signal acquired by the temperature controller from the temperature sensor is lower than the preset low value of the temperature controller, the high-temperature water automatic switch is turned on and the cold water replenishing automatic switch is turned off; and when the temperature signal acquired by the temperature controller from the temperature sensor is higher than the preset high value of the temperature controller, the high-temperature water automatic switch is closed and the cold water replenishing automatic switch is opened.

Description

AES finished product temperature control device and AES constant temperature heat preservation storage device

Technical Field

The utility model relates to an AES finished product temperature control device and AES constant temperature heat preservation storage device.

Background

Sodium fatty alcohol polyoxyethylene ether sulfate, AES for short.

The sodium lauryl ether sulfate (AES) product with the content of about 70 percent has higher viscosity and can be influenced by temperature, the traditional storage tank is not insulated, when the temperature is reduced to below 15 ℃ in winter, the viscosity is rapidly increased, at the moment, the product conveying and loading are influenced, the conveying speed is slow, the consumed time is long, the energy consumption of a conveying pump is high, and the product loading time of 30 tons in winter can often reach 3 hours.

We have tried to greatly ensure the fluidity of the product by simply keeping the temperature of the coil with hot water, and the loading speed can be shortened to 50 minutes, but the high temperature of the AES product can promote the hydrolysis reaction and affect the product quality.

SUMMERY OF THE UTILITY MODEL

The utility model discloses one of the technical problem that solves is that AES product winter when the temperature drops to below 15 ℃ among the prior art, viscosity risees rapidly, leads to the operation difficulty to and heat the problem that keeps warm and easily cause the hydrolysis in the past, provide a new AES finished product temperature control device, thereby the device has and can reduce AES viscosity in winter and do benefit to the operation, is unlikely to cause the high advantage that leads to showing the hydrolysis of temperature moreover.

The second technical problem to be solved in the present invention is to provide an AES constant temperature heat preservation storage device comprising the temperature control device for AES finished products.

For solving one of the above technical problems, the utility model discloses technical scheme as follows:

an AES finished product temperature control device comprises a heat preservation water tank (107, 207); wherein:

the heat preservation water tank is provided with hot water supply channels (105, 205) for AES temperature control, cold water recovery ports (106, 206) for AES temperature control, high-temperature water input channels (101, 201), water overflow ports (109, 209) and cold water replenishing channels (112, 212);

the AES finished product temperature control device also comprises a temperature controller (100, 200); the temperature sensors (108, 208) are arranged on the heat-preservation water tanks (107, 207); the high-temperature water input channel (101, 201) is provided with a high-temperature water automatic switch (102, 202); the cold water replenishing channel (112, 212) is provided with a cold water replenishing automatic switch (111, 211); the temperature controller (100, 200) and the high-temperature water automatic switch (102, 202), the temperature controller (100, 200) and the cold water replenishing automatic switch (111, 211), and the temperature controller (100, 200) and the temperature sensor are all in signal connection, so that:

when the temperature signal collected by the temperature controller from the temperature sensor (108, 208) is lower than the preset low value of the temperature controller, the high-temperature water automatic switch (102, 202) is turned on, and the cold water replenishing automatic switch (111, 211) is turned off;

when the temperature signal collected by the temperature controller from the temperature sensor (108, 208) is higher than the preset high value of the temperature controller, the high-temperature water automatic switch (102, 202) is closed and the cold water replenishing automatic switch (111, 211) is opened.

The utility model discloses an use, thereby can reduce AES viscosity in winter and do benefit to the operation, can the constant temperature operation moreover to be unlikely to cause the effect that the high temperature leads to showing the hydrolysis under the circumstances of viscosity reduction.

In the above technical solution, the automatic high-temperature water switch (102, 202) is preferably a pneumatic valve.

In the technical scheme, the automatic cold water replenishing switches (111, 211) are preferably pneumatic pumps or pneumatic valves.

In the technical scheme, the water overflow ports (109, 209) are preferably input into inlets of materials to be cooled of the coolers (110, 210).

In the above technical solution, the cooler is, for example, but not limited to, a cooling tower.

In the above technical solution, as an example of the first embodiment, preferably, the cold water replenishing automatic switch is a pneumatic pump (111), and the cold material outlet of the cooler is input into the inlet of the pneumatic pump (111).

In the above technical solution, as an example of the second embodiment, preferably, the outlet of the cooled material of the cooler is input into a cold water tank (214) through a transfer pump (213), and the outlet of the cold water tank is input into an inlet of an automatic cold water replenishing switch (211).

In the second embodiment, the cold water tank (214) is preferably located higher than the hot water tank (207), and the automatic cold water replenishment switch (211) is preferably an air-operated valve.

For solving the second technical problem, the utility model discloses technical scheme as follows:

AES constant temperature keeps warm storage device, includes the AES finished product temperature control device of any one of the technical scheme of above-mentioned technical problem, storage device includes AES storage container (103, 203) and water heat preservation part (103a, 203a) of storage container, the AES is controlled warm with hot water supply channel (105, 205) and is communicated with the entry of water heat preservation part for the temperature, the export of water heat preservation part is communicated with AES is controlled warm with cold water recovery mouth (106, 206) with the temperature.

In the above technical solution, the heat preservation component is preferably a water heating jacket (103a, 203a) or a water heating coil.

In the above technical solution, preferably, the water heating coil is disposed in an inner space of the storage container; or the water heating coil is arranged on the outer wall of the storage container, and more preferably, the water heating coil is tightly coiled on the outer wall of the storage container.

In the technical scheme, a stirring device is arranged in the storage container.

In the above technical solution, the high-temperature water in the high-temperature water input channels (101, 201) and the like should be regarded as high-temperature water according to the understanding of the skilled person in the art, and the high-temperature water vapor and the liquid water at 70-100 ℃.

Drawings

Fig. 1 is a schematic view of a first embodiment of the present invention.

Fig. 2 is a schematic view of a second embodiment of the present invention.

In the figure:

100 and 200 are temperature controllers;

101 and 201 are high-temperature water input channels;

102 and 202 are automatic switches for high-temperature water;

103a and 203a are water heat preservation components;

103 and 203 are AES storage containers;

104. 204 and 213 are delivery pumps;

105 and 205 are hot water supply passages for AES temperature control;

106 and 206 are cold water recycling ports for AES temperature control;

107 and 207 are heat preservation water tanks;

108 and 208 are temperature sensors;

109 and 209 are water overflow ports;

110 and 210 are coolers;

111 and 211 are automatic switches for cold water replenishing;

112 and 212 are cold water replenishing channels;

214 is a cold water tank.

Detailed Description

1.AES finished product temperature control device and AES constant-temperature heat-preservation storage device

As shown in fig. 1.

1.1 example of a first embodiment of an AES finished product temperature control device

An AES finished product temperature control device comprises a heat preservation water tank (107); wherein:

the heat preservation water tank is provided with an AES temperature control hot water supply channel (105), an AES temperature control cold water recovery port (106), a high-temperature water input channel (101), a water overflow port (109) and a cold water replenishing channel (112);

the AES finished product temperature control device also comprises a temperature controller (100); the heat-preservation water tank (107) is provided with a temperature sensor (108); the high-temperature water input channel (101) is provided with a high-temperature water automatic switch (102); the cold water replenishing channel (112) is provided with a cold water replenishing automatic switch (111); the temperature controller (100) and the high-temperature water automatic switch (102), the temperature controller (100) and the cold water replenishing automatic switch (111), and the temperature controller (100) and the temperature sensor are all in signal connection, so that:

when the temperature signal acquired by the temperature controller from the temperature sensor (108) is lower than the preset low value of the temperature controller, the high-temperature water automatic switch (102) is turned on and the cold water replenishing automatic switch (111) is turned off;

and when the temperature signal acquired by the temperature controller from the temperature sensor (108) is higher than the preset high value of the temperature controller, the high-temperature water automatic switch (102) is closed and the cold water replenishing automatic switch (111) is opened.

In the technical scheme, the high-temperature water automatic switch (102) is a pneumatic valve.

In the technical scheme, the automatic cold water replenishing switch (111) is a pneumatic pump.

In the technical scheme, the water overflow port (109) is input into a material inlet to be cooled of the cooler (110).

In the above technical solution, the cooler is a cooling tower.

In the technical scheme, the cold material outlet of the cooler is input into the inlet of the pneumatic pump (111).

1.2 example of the first embodiment of AES thermostatic storage device

AES constant temperature insulation storage device comprises the AES finished product temperature control device in the embodiment of the first implementation mode of the AES finished product temperature control device, the storage device comprises an AES storage container (103) and a water insulation part (103a) of the storage container, the AES temperature control hot water supply channel (105) is communicated with the inlet of the water insulation part, and the outlet of the water insulation part is communicated with the AES temperature control cold water recovery port (106).

In the above technical solution, the hot water supply channel (105) for AES temperature control is provided with a delivery pump (104).

In the technical scheme, the heat preservation component is a water heating jacket (103 a).

In the technical scheme, a stirring device is arranged in the storage container.

2. AES finished product temperature control device and AES constant temperature heat preservation storage device

As shown in fig. 2.

2.1 example of a second embodiment of an AES finished product temperature control device

An AES finished product temperature control device comprises a heat preservation water tank (207); wherein: the heat-preservation water tank is provided with an AES temperature control hot water supply channel (205), an AES temperature control cold water recovery port (206), a high-temperature water input channel (201), a water overflow port (209) and a cold water replenishing channel (212);

the AES finished product temperature control device also comprises a temperature controller (200); the heat preservation water tank (207) is provided with a temperature sensor (208); the high-temperature water input channel (201) is provided with a high-temperature water automatic switch (202); the cold water replenishing channel (212) is provided with a cold water replenishing automatic switch (211); the temperature controller (200) and the high-temperature water automatic switch (202), the temperature controller (200) and the cold water replenishing automatic switch (211), and the temperature controller (200) and the temperature sensor (208) are all in signal connection, so that:

when the temperature signal acquired by the temperature controller from the temperature sensor (208) is lower than the preset low value of the temperature controller, the high-temperature water automatic switch (202) is turned on, and the cold water replenishing automatic switch (211) is turned off;

when the temperature signal collected by the temperature controller from the temperature sensor (208) is higher than the preset high value of the temperature controller, the high-temperature water automatic switch (202) is closed and the cold water replenishing automatic switch (211) is opened.

In the technical scheme, the high-temperature water automatic switch (202) is a pneumatic valve.

In the technical scheme, the cold water replenishing automatic switch (211) is a pneumatic valve.

In the technical scheme, the water overflow port (209) is input into a material inlet to be cooled of the cooler (210).

In the above technical solution, the cooler is a cooling tower.

In the technical scheme, a cold material outlet of the cooler is input into a cold water tank (214) through a delivery pump (213), and a cold water supplementing automatic switch (211) inlet is input into an outlet of the cold water tank.

In the technical scheme, the position of the cold water tank (214) is higher than the heat preservation water tank (207).

2.2 example of a second embodiment of an AES thermostatic storage device

The AES constant-temperature heat preservation storage device comprises the AES finished product temperature control device in the embodiment of the second implementation mode of the AES finished product temperature control device, the storage device comprises an AES storage container (203) and a water heat preservation part (203a) of the storage container, the AES temperature control hot water supply channel (205) is communicated with the inlet of the water heat preservation part, and the outlet of the water heat preservation part is communicated with the AES temperature control cold water recovery port (206).

In the technical scheme, a delivery pump (204) is arranged on the hot water supply channel (205) for AES temperature control.

In the technical scheme, the heat preservation component is a water heating jacket (203 a).

In the technical scheme, a stirring device is arranged in the storage container.

It should be noted that the above-mentioned embodiments and examples are only used for explaining the present invention, and do not constitute any limitation to the present invention. The invention has been described with reference to exemplary embodiments and examples, but it is understood that the words which have been used are words of description and illustration, rather than words of limitation. Modifications may be made to the invention as specified within the scope of the claims and modifications may be made without departing from the scope and spirit of the invention. Although the present invention has been described herein with reference to particular means, materials, embodiments and examples, it is not intended that the present invention be limited to the embodiments and examples disclosed herein, but, on the contrary, is intended to cover all other methods and uses having the same function.

Claims (10)

1. An AES finished product temperature control device comprises a heat preservation water tank (107, 207); the method is characterized in that:

   the heat-preservation water tank is provided with hot water supply channels (105, 205) for AES temperature control, cold water recovery ports (106, 206) for AES temperature control, high-temperature water input channels (101, 201), water overflow ports (109, 209) and cold water replenishing channels (112, 212);

   the AES finished product temperature control device also comprises a temperature controller (100, 200); the temperature sensors (108, 208) are arranged on the heat-preservation water tanks (107, 207); the high-temperature water input channel (101, 201) is provided with a high-temperature water automatic switch (102, 202); the cold water replenishing channel (112, 212) is provided with a cold water replenishing automatic switch (111, 211); the temperature controller (100, 200) and the high-temperature water automatic switch (102, 202), the temperature controller (100, 200) and the cold water replenishing automatic switch (111, 211), and the temperature controller (100, 200) and the temperature sensor (108, 208) are in signal connection, so that:

   when the temperature signal collected by the temperature controller from the temperature sensor (108, 208) is lower than the preset low value of the temperature controller, the high-temperature water automatic switch (102, 202) is turned on, and the cold water replenishing automatic switch (111, 211) is turned off;

   when the temperature signal collected by the temperature controller from the temperature sensor (108, 208) is higher than the preset high value of the temperature controller, the high-temperature water automatic switch (102, 202) is closed and the cold water replenishing automatic switch (111, 211) is opened.
2. 2. The AES production temperature control device according to claim 1, wherein the high temperature water automatic switch (102, 202) is a pneumatic valve.
3. 3. The AES finished product temperature control device as claimed in claim 1, wherein the cold water supplement automatic switch (111, 211) is a pneumatic pump or a pneumatic valve.
4. 4. The AES production temperature control apparatus of claim 3, in which the water overflow (109, 209) is fed into a material inlet of a cooler (110, 210) to be cooled.
5. 5. The AES finished product temperature control device as claimed in claim 4, wherein the automatic switch for cold water supplement is a pneumatic pump (111), and the outlet of the cooler cold material is input into the inlet of the pneumatic pump (111).
6. 6. The AES finished product temperature control device as claimed in claim 4, wherein the outlet of the cooler is fed into a cold water tank (214) through a feed pump (213), and the outlet of the cold water tank is fed with the inlet of a cold water replenishing automatic switch (211).
7. 7. The AES finished product temperature control device as claimed in claim 6, wherein the cold water tank (214) is located higher than the holding water tank (207), and the cold water supplement automatic switch (211) is a pneumatic valve.
8. An AES constant temperature heat preservation storage device, which is characterized in that the AES constant temperature heat preservation storage device comprises the AES finished product temperature control device of any claim 1 to 7, the storage device comprises an AES storage container (103, 203) and a water heat preservation part (103a, 203a) of the storage container, a hot water supply channel (105, 205) for AES temperature control is communicated with an inlet of the water heat preservation part, and an outlet of the water heat preservation part is communicated with a cold water recovery port (106, 206) for AES temperature control.
9. 9. The AES isothermal thermal storage apparatus of claim 8, wherein the thermal insulation means is a water heating jacket (103a, 203a) or a water heating coil.
10. 10. The AES constant temperature thermal insulation storage apparatus of claim 9, wherein the water heating coil is provided in an inner space of the storage vessel; or the water heating coil is arranged on the outer wall of the storage container.

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