CN215725227U - Condenser - Google Patents

Abstract

The utility model discloses a condenser, which relates to the field of heat exchange devices and comprises a condenser shell side, a condenser tube side, a material inlet pipe, a material outlet pipe, a cooling water inlet pipe, a cooling water outlet pipe, a circulating water inlet pipe, a circulating water outlet pipe, a temperature sensor, a power component and a controller. The condenser provided by the utility model effectively reduces the power consumption and reduces the operation cost.

Description

Condenser

Technical Field

The utility model relates to the field of heat exchange devices, in particular to a condenser.

Background

The acetaldehyde condenser in the existing production flow can only use one type of condensed water, in the production process, cooling water is always used for ensuring the condensation effect, normal-temperature water (circulating water) cannot be used as the condensed water, and the problem of high power consumption exists because the electric quantity is consumed for preparing the cooling water by an ice machine.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides the condenser which effectively reduces the power consumption and reduces the operation cost.

In order to achieve the purpose, the utility model provides the following scheme:

the utility model provides a condenser, which comprises a condenser shell pass, a condenser tube pass, a material inlet tube, a material outlet tube, a cooling water inlet tube, a cooling water outlet tube, a circulating water inlet tube, a circulating water outlet tube, a temperature sensor, a power component and a controller, wherein the material inlet tube and the material outlet tube are respectively connected with an inlet and an outlet of the condenser shell pass, the cooling water inlet tube and the circulating water inlet tube are respectively connected with an inlet of the condenser tube pass, the cooling water outlet tube and the circulating water outlet tube are respectively connected with an outlet of the condenser tube pass, a cooling water inlet valve, a cooling water outlet valve, a circulating water inlet valve and a circulating water outlet valve are respectively arranged on the cooling water inlet tube, the cooling water outlet tube, the circulating water inlet tube and the circulating water outlet tube, the temperature sensor is arranged on the circulating water inlet tube, temperature sensor set up in the circulating water inlet valve is kept away from one side of the import of condenser tube side, power component is used for passing through the cooling water inlet tube or the circulating water inlet tube to input cooling water or circulating water in the condenser tube side, temperature sensor power component the cooling water inlet valve the cooling water outlet valve circulating water inlet valve with the circulating water outlet valve all with the controller is connected.

Preferably, still include into water and be responsible for and go out the water and be responsible for, the person in charge of intaking with it is responsible for to go out the water respectively with the import and the exit linkage of condenser tube side, the person in charge of intaking is kept away from the one end of the import of condenser tube side is connected with the cooling water inlet tube with the circulating water inlet tube, it keeps away from to go out the water be responsible for the one end of the export of condenser tube side is connected with the cooling water outlet pipe with the circulating water outlet pipe.

Preferably, the power part includes cooling water pump and circulating water pump, cooling water pump set up in on the cooling water inlet tube, circulating water pump set up in on the circulating water inlet tube, cooling water pump with circulating water pump all with the controller is connected.

Preferably, still include electromagnetic flowmeter, electromagnetic flowmeter set up in on the circulating water inlet tube, electromagnetic flowmeter with the controller is connected.

Preferably, the electromagnetic flow meter is arranged on one side of the circulating water inlet valve close to the inlet of the condenser tube side.

Preferably, the cooling water pump is arranged on one side of the cooling water inlet valve, which is far away from the inlet of the condenser tube side.

Preferably, the circulating water pump is arranged on one side of the temperature sensor, which is far away from the circulating water inlet valve.

Preferably, the cooling water inlet valve, the circulating water inlet valve, the cooling water outlet valve and the circulating water outlet valve are all solenoid valves.

Compared with the prior art, the utility model has the following technical effects:

according to the condenser provided by the utility model, the cooling water inlet pipe and the circulating water inlet pipe are both connected with the inlet of the condenser tube side, the cooling water outlet pipe and the circulating water outlet pipe are both connected with the outlet of the condenser tube side, the temperature sensor is arranged on the circulating water inlet pipe, and the temperature sensor transmits the measured temperature of the circulating water to the controller. When the temperature of the circulating water is lower than a set value, the controller closes the cooling water inlet valve and the cooling water outlet valve, opens the circulating water inlet valve and the circulating water outlet valve, and uses the circulating water for condensation; when the temperature of the circulating water is higher than a set value, the controller closes the circulating water inlet valve and the circulating water outlet valve, opens the cooling water inlet valve and the cooling water outlet valve, and uses the cooling water for condensation. The condenser realizes that when the temperature of circulating water is lower than the temperature required by the process, cooling water is replaced, and the use amount of the cooling water is effectively reduced, so that the running load of an ice machine is reduced, the power consumption of a workshop is effectively reduced, and the running cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a condenser provided by the present invention.

Description of reference numerals: 100. a condenser; 1. a condenser shell side; 2. a condenser tube side; 3. feeding the material into a pipe; 4. a material outlet pipe; 5. a main water inlet pipe; 6. a main water outlet pipe; 7. a cooling water inlet pipe; 8. a cooling water outlet pipe; 9. a cooling water inlet valve; 10. a cooling water pump; 11. a cooling water outlet valve; 12. a circulating water inlet pipe; 13. a circulating water outlet pipe; 14. a water circulating pump; 15. a temperature sensor; 16. a circulating water inlet valve; 17. an electromagnetic flow meter; 18. and a circulating water outlet valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model aims to provide a condenser, which effectively reduces the power consumption and reduces the operation cost.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1, this embodiment provides a condenser 100, which includes a condenser shell side 1, a condenser tube side 2, a material inlet tube 3, a material outlet tube 4, a cooling water inlet tube 7, a cooling water outlet tube 8, a circulating water inlet tube 12, a circulating water outlet tube 13, a temperature sensor 15, a power component and a controller, wherein the material inlet tube 3 and the material outlet tube 4 are respectively connected to an inlet and an outlet of the condenser shell side 1, the cooling water inlet tube 7 and the circulating water inlet tube 12 are both connected to an inlet of the condenser tube side 2, the cooling water outlet tube 8 and the circulating water outlet tube 13 are both connected to an outlet of the condenser tube side 2, the cooling water inlet tube 7, the cooling water outlet tube 8, the circulating water inlet tube 12 and the circulating water outlet tube 13 are respectively provided with a cooling water inlet valve 9, a cooling water outlet valve 11, a circulating water inlet valve 16 and a circulating water outlet valve 18, the temperature sensor 15 is arranged on the circulating water inlet pipe 12, the temperature sensor 15 is arranged on one side of the circulating water inlet valve 16, which is far away from the inlet of the condenser tube side 2, the power component is used for inputting cooling water or circulating water into the condenser tube side 2 through the cooling water inlet pipe 7 or the circulating water inlet pipe 12, and the temperature sensor 15, the power component, the cooling water inlet valve 9, the cooling water outlet valve 11, the circulating water inlet valve 16 and the circulating water outlet valve 18 are all connected with the controller.

Specifically, the circulating water adopted in this embodiment is the circulating water which is used commonly in the workshop, the circulating water enters the water cooling tower, the internal filler disperses the water to increase the heat dissipation area, the heat dissipation fan takes away the heat in the water, so that the water temperature is reduced, and the cooled circulating water enters the condenser tube side 2 through the circulating water inlet pipe 12. It should be noted that the circulating water system is a system that must be equipped in the plant, and is not additionally provided for the condenser 100 in this embodiment, even if the circulating water system is not used for the condenser 100 in this embodiment, the circulating water system always works, that is, the cooling fan is always in a working state, and therefore, the circulating water cooled by the cooling fan in the plant circulating water system is applied to the condenser 100 in this embodiment, and no extra power consumption is generated.

The temperature sensor 15 transmits the measured temperature of the circulating water to the controller, when the temperature of the circulating water is lower than a set value, the controller closes the cooling water inlet valve 9 and the cooling water outlet valve 11, opens the circulating water inlet valve 16 and the circulating water outlet valve 18, and uses the circulating water for condensation; when the temperature of the circulating water is higher than the set value, the controller closes the circulating water inlet valve 16 and the circulating water outlet valve 18, opens the cooling water inlet valve 9 and the cooling water outlet valve 11, and uses the cooling water for condensation. The temperature set point is the temperature value required by the process, and in this embodiment, the temperature set point is 22 ℃. The condenser 100 provided in this embodiment replaces cooling water when the temperature of the circulating water is lower than the temperature required by the process, and the usage amount of the cooling water is effectively reduced, so that the operation load of the ice machine is reduced, the power consumption of a workshop is effectively reduced, and the operation cost is reduced.

Still include in this embodiment to advance water and be responsible for 5 and go out water and be responsible for 6, advance water and be responsible for 5 and go out water and be responsible for 6 respectively with the import and the exit linkage of condenser tube side 2, the one end that the import of condenser tube side 2 was kept away from to the person in charge of 5 that advances is connected with cooling water inlet tube 7 and circulating water inlet tube 12, the one end that the export of condenser tube side 2 was kept away from to the person in charge of 6 that goes out water is connected with cooling water outlet pipe 8 and circulating water outlet pipe 13.

In this embodiment, the inlet and outlet of the condenser tube side 2 are disposed at the lower and upper portions of the same end of the condenser 100, respectively. The inlet of the condenser shell side 1 is arranged at the upper part of one end of the condenser 100, and the outlet of the condenser shell side 1 is arranged at the lower part of the other end of the condenser 100.

Specifically, the power part comprises a cooling water pump 10 and a circulating water pump 14, the cooling water pump 10 is arranged on the cooling water inlet pipe 7, the circulating water pump 14 is arranged on the circulating water inlet pipe 12, and both the cooling water pump 10 and the circulating water pump 14 are connected with the controller.

In this embodiment, the cooling water pump 10 is disposed on a side of the cooling water inlet valve 9 away from the inlet of the condenser tube side 2. The circulating water pump 14 is arranged on one side of the temperature sensor 15 far away from the circulating water inlet valve 16.

The water circulation system further comprises an electromagnetic flowmeter 17, wherein the electromagnetic flowmeter 17 is arranged on the circulating water inlet pipe 12, and the electromagnetic flowmeter 17 is connected with the controller. In this embodiment, the electromagnetic flow meter 17 is disposed on one side of the circulating water inlet valve 16 close to the inlet of the condenser tube side 2. By providing an electromagnetic flow meter 17 to monitor the circulating water flow and transmit the data to the controller, the controller appropriately adjusts the circulating water pump 14 to maintain flow stability.

In this embodiment, the cooling water inlet valve 9, the circulating water inlet valve 16, the cooling water outlet valve 11 and the circulating water outlet valve 18 are all solenoid valves.

The principle and the implementation mode of the present invention are explained by applying specific examples in the present specification, and the above descriptions of the examples are only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In summary, this summary should not be construed to limit the present invention.

Claims (8)

1. A condenser is characterized by comprising a condenser shell pass, a condenser tube pass, a material inlet pipe, a material outer outlet pipe, a cooling water inlet pipe, a cooling water outlet pipe, a circulating water inlet pipe, a circulating water outlet pipe, a temperature sensor, a power component and a controller, wherein the material inlet pipe and the material outer outlet pipe are respectively connected with an inlet and an outlet of the condenser shell pass, the cooling water inlet pipe and the circulating water inlet pipe are respectively connected with an inlet of the condenser tube pass, the cooling water outlet pipe and the circulating water outlet pipe are respectively connected with an outlet of the condenser tube pass, the cooling water inlet pipe, the cooling water outlet pipe, the circulating water inlet pipe and the circulating water outlet pipe are respectively provided with a cooling water inlet valve, a cooling water outlet valve, a circulating water inlet valve and a circulating water outlet valve, and the temperature sensor is arranged on the circulating water inlet pipe, temperature sensor set up in the circulating water inlet valve is kept away from one side of the import of condenser tube side, power component is used for passing through the cooling water inlet tube or the circulating water inlet tube to input cooling water or circulating water in the condenser tube side, temperature sensor power component the cooling water inlet valve the cooling water outlet valve circulating water inlet valve with the circulating water outlet valve all with the controller is connected.

2. The condenser of claim 1, further comprising a water inlet main pipe and a water outlet main pipe, wherein the water inlet main pipe and the water outlet main pipe are respectively connected with an inlet and an outlet of the condenser tube side, one end of the water inlet main pipe, which is far away from the inlet of the condenser tube side, is connected with the cooling water inlet pipe and the circulating water inlet pipe, and one end of the water outlet main pipe, which is far away from the outlet of the condenser tube side, is connected with the cooling water outlet pipe and the circulating water outlet pipe.

3. The condenser of claim 1, wherein the power unit comprises a cooling water pump and a circulating water pump, the cooling water pump is disposed on the cooling water inlet pipe, the circulating water pump is disposed on the circulating water inlet pipe, and both the cooling water pump and the circulating water pump are connected to the controller.

4. The condenser of claim 3, further comprising an electromagnetic flow meter disposed on the circulating water inlet pipe, the electromagnetic flow meter being connected to the controller.

5. The condenser of claim 4, wherein the electromagnetic flow meter is disposed on a side of the circulating water inlet valve near an inlet of the condenser tube side.

6. The condenser of claim 3, wherein the cooling water pump is disposed on a side of the cooling water inlet valve remote from an inlet of the condenser tube side.

7. The condenser of claim 3, wherein the circulating water pump is disposed on a side of the temperature sensor away from the circulating water inlet valve.

8. The condenser of claim 1, wherein the cooling water inlet valve, the circulating water inlet valve, the cooling water outlet valve and the circulating water outlet valve are all solenoid valves.

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