CN205228253U - Heat recovery heat exchanger shell of steam power plant with temperature measuring system - Google Patents

Abstract

The utility model relates to the field of mechanical equipment, the concretely relates to heat exchanger. Heat recovery heat exchanger shell of steam power plant with temperature measuring system, including a casing, the casing is equipped with at least one water route import, at least one water route export, and at least one ann of water route import department has a first connecting pipe that is used for connecting the inlet tube, and at least one water route exit ann has a second connecting pipe that is used for connecting the outlet pipe, the ann of first connecting pipe department has a temperature sensor, and second connecting pipe ann has the 2nd temperature sensor, and a temperature sensor, the 2nd temperature sensor connect a micro -processor system, and micro -processor system connects a display screen. The utility model discloses an unnecessary hot water that detects steam power plant's production carries out temperature and heat exchange temperature later before the heat exchange in the heat exchanger, can reach the heat exchange efficiency of heat exchanger, simultaneously to retrieving how many heats, reduces how many resource loss and also can learn, detects out the efficiency of heat exchanger and can judge whether suitably practical the heat exchanger is.

Description

Be provided with steam power plant's thermal energy recovery heat exchanger housing of system for detecting temperature

Technical field

The utility model relates to technical field of mechanical equipment, is specifically related to heat exchanger.

Background technology

The heat energy of the generation in existing steam power plant is not in order to be wasted; usually energy recovery can be carried out; utilizing heat exchanger to carry out reclaiming heat energy is a kind of comparatively common method; but heat exchanger carries out reclaiming the effect of heat energy and invisible; reclaim how many heats during the course, reduce how many resources losses and unknowable.

Utility model content

The purpose of this utility model is, provides a kind of steam power plant's thermal energy recovery heat exchanger housing being provided with system for detecting temperature.

The technical problem that the utility model solves can realize by the following technical solutions:

Be provided with steam power plant's thermal energy recovery heat exchanger housing of system for detecting temperature, comprise a housing, it is characterized in that: described housing is provided with at least one water route import, the outlet of at least one water route, at least one water route import department described is equipped with one for connecting the first tube connector of water inlet pipe, and at least one exit, water route described is equipped with one for connecting the second tube connector of outlet pipe;

The first temperature sensor is equipped with in described first tube connector, the second temperature sensor is equipped with in described second tube connector, described first temperature sensor, described second temperature sensor connect a microprocessor system, and described microprocessor system connects a display screen.

The utility model carries out the temperature before heat exchange and the temperature after heat exchange by the unnecessary hot water detecting steam power plant's generation in heat exchanger, the heat exchange efficiency of heat exchanger can be drawn, simultaneously to recovery how many heats, reduce how many resources losses also can learn, detect that efficiency of heat exchanger can judge the whether suitable practicality of heat exchanger.

The pipe wall hollow of described first tube connector, the diameter of described first tube connector is between 61mm ~ 471mm.What the first tube connector connected is water inlet pipe; the heat that also for ease of protection water route import can not scatter and disappear; an air heat insulating layer is formed by the pipe wall hollow of the first tube connector; or can in the tube wall of hollow same fill insulant material; due to the different bores of water inlet pipe; the diameter of tube connector is also different, and described insulation material can adopt plastic foamboard, and described foamed plastics plate thickness is between 5mm ~ 30mm.The high insulating effect of plastic foamboard, cost is low, and simultaneously plastic foamboard is easy to shaping and can determines according to the shape of pipe wall hollow.

As a kind of scheme, described display screen is positioned on the surface of described housing by a support, and described display screen leaves the gap of 5mm ~ 10mm by the surface of described support and described housing.Prevent that temperature is too high affects display screen performance, the display screen being simultaneously arranged on the surface of housing can allow user learn the working condition of heat exchanger more intuitively.

As a kind of scheme, described support comprises the substrate that a heat-barrier material is made, and described substrate is provided with a groove matched with described display screen, and described display screen embeds in described groove, and described substrate is arranged on the surface of described housing by nut.Heat-barrier material is utilized to completely cut off heat exchange between heat exchanger and display screen, prevent that temperature is too high affects display screen performance, heat-barrier material also can reduce the heat loss of heat exchanger simultaneously, thus improves the recoverable efficiency of exchanger heat, and described heat-barrier material can adopt polystyrene thermal insulation plate.

A transparent panel is also equipped with above described display screen.Transparent panel, in order to protect display screen, prevents accident.

As a kind of scheme, the outer surface of described housing is equipped with three-temperature sensor, described three-temperature sensor connects described microprocessor system.The temperature measured of three-temperature sensor contrasts for the temperature measured with the first temperature sensor, the second temperature sensor, and C.T difference, removing environmental factor, can observe the heat exchange efficiency of heat exchanger better.

Accompanying drawing explanation

Fig. 1 is part-structure schematic diagram of the present utility model.

Detailed description of the invention

The technological means realized to make the utility model, creation characteristic, reaching object and effect is easy to understand, setting forth the utility model further below in conjunction with concrete diagram.

With reference to Fig. 1, be provided with steam power plant's thermal energy recovery heat exchanger housing of system for detecting temperature, comprise a housing 1, housing 1 is provided with at least one water route import, the outlet of at least one water route, at least one water route import department is equipped with one for connecting the first tube connector 3 of water inlet pipe, and at least one exit, water route is equipped with one for connecting the second tube connector 2 of outlet pipe;

Be equipped with the first temperature sensor in first tube connector 3, be equipped with the second temperature sensor in the second tube connector 2, the first temperature sensor, the second temperature sensor connect a microprocessor system, and microprocessor system connects a display screen.

The utility model carries out the temperature before heat exchange and the temperature after heat exchange by the unnecessary hot water detecting steam power plant's generation in heat exchanger, the heat exchange efficiency of heat exchanger can be drawn, simultaneously to recovery how many heats, reduce how many resources losses also can learn, detect that efficiency of heat exchanger can judge the whether suitable practicality of heat exchanger.

The pipe wall hollow of the first tube connector 3, the diameter of the first tube connector 3 is between 61mm ~ 471mm.What the first tube connector 3 connected is water inlet pipe; the heat that also for ease of protection water route import can not scatter and disappear; an air heat insulating layer is formed by the pipe wall hollow of the first tube connector 3; or can in the tube wall of hollow same fill insulant material; due to the different bores of water inlet pipe; the diameter of tube connector is also different, and insulation material can adopt plastic foamboard, and foamed plastics plate thickness is between 5mm ~ 30mm.The high insulating effect of plastic foamboard, cost is low, and simultaneously plastic foamboard is easy to shaping and can determines according to the shape of pipe wall hollow.

As a kind of scheme, display screen is positioned on the surface of housing 1 by a support, and display screen leaves the gap of 5mm ~ 10mm by the surface of support and housing 1.Prevent that temperature is too high affects display screen performance, the display screen being simultaneously arranged on the surface of housing 1 can allow user learn the working condition of heat exchanger more intuitively.

As a kind of scheme, support comprises the substrate that a heat-barrier material is made, and substrate is provided with a groove matched with display screen, and display screen embeds in groove, and substrate is arranged on the surface of housing 1 by nut.Heat-barrier material is utilized to completely cut off heat exchange between heat exchanger and display screen, prevent that temperature is too high affects display screen performance, heat-barrier material also can reduce the heat loss of heat exchanger simultaneously, thus improves the recoverable efficiency of exchanger heat, and heat-barrier material can adopt polystyrene thermal insulation plate.

A transparent panel is also equipped with above display screen.Transparent panel, in order to protect display screen, prevents accident.

As a kind of scheme, the outer surface of housing 1 is equipped with three-temperature sensor, three-temperature sensor connects microprocessor system.The temperature measured of three-temperature sensor contrasts for the temperature measured with the first temperature sensor, the second temperature sensor, and C.T difference, removing environmental factor, can observe the heat exchange efficiency of heat exchanger better.

More than show and describe general principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (4)

1. be provided with steam power plant's thermal energy recovery heat exchanger housing of system for detecting temperature, comprise a housing, it is characterized in that, described housing is provided with at least one water route import, the outlet of at least one water route, at least one water route import department described is equipped with one for connecting the first tube connector of water inlet pipe, and at least one exit, water route described is equipped with one for connecting the second tube connector of outlet pipe;

The first temperature sensor is equipped with in described first tube connector, the second temperature sensor is equipped with in described second tube connector, described first temperature sensor, described second temperature sensor connect a microprocessor system, and described microprocessor system connects a display screen.

2. the steam power plant's thermal energy recovery heat exchanger housing being provided with system for detecting temperature according to claim 1, it is characterized in that, the pipe wall hollow of described first tube connector, the diameter of described first tube connector is between 61mm ~ 471mm.

3. the steam power plant's thermal energy recovery heat exchanger housing being provided with system for detecting temperature according to claim 1, it is characterized in that, described display screen is positioned on the surface of described housing by a support, and described display screen leaves the gap of 5mm ~ 10mm by the surface of described support and described housing.

4. the steam power plant's thermal energy recovery heat exchanger housing being provided with system for detecting temperature according to claim 1,2 or 3, it is characterized in that, the outer surface of described housing is equipped with three-temperature sensor, and described three-temperature sensor connects described microprocessor system.