CN208443499U - A kind of high pressure-temperature calorimeter based on narrowband Internet of Things - Google Patents

Abstract

The utility model discloses a kind of high pressure-temperature calorimeters based on narrowband Internet of Things, including calorimeter ontology, pedestal is fixedly connected with below the calorimeter ontology, NB-IOT module is electrically connected with above the calorimeter ontology, temperature tube is installed below the pedestal, the temperature tube right end is communicated with water inlet pipe, filter is installed on the water inlet pipe, the first ball valve is installed on the right side of the filter, outlet pipe is communicated on the left of the temperature tube, second ball valve is installed on the outlet pipe, the first temperature sensor and second temperature sensor are respectively equipped on the calorimeter ontology.The setting of snap ring is supported by copper pipe inside temperature tube and stainless steel, so that temperature tube, which integrally has, more consolidates high-intensitive structure, it can be monitored in the water pipe of high pressure-temperature, first temperature sensor and second temperature sensor carry out the temperature monitoring of water temperature in water inlet pipe and return pipe in temperature tube and Temp. measuring ball valve respectively, so that temperature monitoring is more accurate.

Description

A kind of high pressure-temperature calorimeter based on narrowband Internet of Things

Technical field

The utility model relates to temperature monitoring technique field, specially a kind of high pressure-temperature heat based on narrowband Internet of Things Table.

Background technique

Calorimeter is the instrument for calculating heat.The working principle of calorimeter: a pair of of 1 sensor of temperature is separately mounted to lead to It crosses on the ascending tube and down pipe of heat transport fluid, flowmeter is mounted on fluid inlet or return pipe the (position of flowmeter installation Difference, final measurement result are also different), flowmeter issues the pulse signal directly proportional to flow, and a pair of of temperature sensor is given The analog signal of temperature height is indicated out, and integrating instrument acquires the signal from flow and temperature sensor, utilizes calculation formula Calculate the heat that heat-exchange system obtains.Calorimeter can be divided by using function: the calorimeter in heat metering by house-hold is applied alone, and It can be used for (cold) calorimeter of air-conditioning system.(cold) calorimeter and calorimeter are the same in structure and principle.The main distinction In the signal acquisition and operation mode of sensor, that is to say, that the difference of two kinds of tables is the difference of program software.(cold) heat The cold and hot metering of table is converted, and is completed by program software.It is Heating State, heat when supply water temperature is higher than return water temperature Meter amount is heating load；It is refrigerating state when supply water temperature is lower than return water temperature, calorimeter is automatically converted to metering refrigeration Amount.Since air-conditioning system is for return water designed temperature difference and the practical temperature difference all very littles, the program samples and calculating of (cold) scale The parameter of formula is also bigger than the region of single-use hotlist.

Calorimeter is when carrying out water temperature detection, general since hydraulic pressure water temperature is higher in some special behaviours in service Logical temperature tube is difficult to meet the requirement of high pressure resistant to high temperatures, while existing calorimeter needs to carry out on-site data gathering, needs Staff often runs and records data, is inconvenient, so providing a kind of high pressure-temperature calorimeter based on narrowband Internet of Things Come solve the above-mentioned problem very it is necessary to.

Utility model content

It is above-mentioned to solve the purpose of this utility model is to provide a kind of high pressure-temperature calorimeter based on narrowband Internet of Things The problem of being proposed in background technique.

To achieve the above object, the utility model provides the following technical solutions: a kind of high pressure based on narrowband Internet of Things is high Scale, including calorimeter ontology are warmed, pedestal, electricity above the calorimeter ontology are fixedly connected with below the calorimeter ontology Property be connected with NB-IOT module, temperature tube is installed below the pedestal, the temperature tube right end is communicated with water inlet pipe, it is described into Filter is installed on water pipe, the first ball valve is installed on the right side of the filter, is communicated with outlet pipe on the left of the temperature tube, institute It states and the second ball valve is installed on outlet pipe, the first temperature sensor and second temperature sensing are respectively equipped on the calorimeter ontology Device, first temperature sensor are installed on above temperature tube, and the water inlet pipe side is equipped with return pipe, are pacified on the return pipe Equipped with Temp. measuring ball valve, the second temperature sensor is installed on above Temp. measuring ball valve.

Preferably, the temperature tube includes tube body and connector, and the connector is fixedly connected on tube body both ends, the tube body Inside is equipped with copper pipe, and cavity layer is equipped between the inboard wall of tube body and copper pipe, and support snap ring is equipped with inside the cavity layer, described It is respectively fixedly connected with inside and outside support snap ring in copper pipe and inboard wall of tube body.

Preferably, casing is installed on the inside of the copper pipe, described sleeve pipe two sides have been respectively fixedly connected with the first limited location snap ring And limited location snap ring, first limited location snap ring and limited location snap ring port are frustum cone structure, first temperature sensor bottom end It extends through and is equipped with gasket between tube body, copper pipe and casing, first temperature sensor and tube body and copper pipe.

Preferably, the connector is equipped with external screw thread.

Preferably, two sides are provided with mounting hole above the pedestal, and two sides are fixedly connected with sleeve above the temperature tube, Fixing bolt is installed, the fixing bolt outside screw is connected on the inside of sleeve above the mounting hole.

Preferably, the first loose joint nut is threaded between the temperature tube and water inlet pipe.

Preferably, the second loose joint nut is threaded between the temperature tube and outlet pipe.

Preferably, the support snap ring is stainless steel material snap ring.

Preferably, connecting filament is connected between first ball valve and filter.

Compared with prior art, the utility model has the beneficial effects that the utility model is a kind of based on narrowband Internet of Things High pressure-temperature calorimeter, structure novel so that calorimeter carry out thermometric when, can effectively anti-high pressure and high temperature so that survey Numerical quantity is more accurate, the setting of snap ring is supported by copper pipe inside temperature tube and stainless steel, so that temperature tube integrally has more Add the structure for consolidating high intensity, can be monitored in the water pipe of high pressure-temperature, the first temperature sensor and second temperature pass Sensor carries out the temperature monitoring of water temperature in water inlet pipe and return pipe in temperature tube and Temp. measuring ball valve respectively, so that temperature monitoring is more Add precisely, by the setting of NB-IOT module, is made by the setting of casing so that the fixation of the first temperature sensor is stronger Network transmission can be carried out by obtaining monitoring information, changed traditional acquisition of data on the spot, brought convenience to staff.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model temperature tube structural schematic diagram；

Fig. 3 is the utility model part A partial enlargement structural representation.

In figure: 1 calorimeter ontology, 2 pedestals, 3NB-IOT module, 4 temperature tubes, 5 first temperature sensors, 6 second temperatures Sensor, 7 water inlet pipes, 8 filters, 9 first ball valves, 10 outlet pipes, 11 second ball valves, 12 return pipes, 13 Temp. measuring ball valves, 14 Copper pipe, 15 cavity layers, 16 support snap rings, 17 casings, 18 first limited location snap rings, 19 second limited location snap rings, 20 gaskets, 21 connect Head, 22 mounting holes, 23 sleeves, 24 fixing bolts, 25 first loose joint nuts, 26 second loose joint nuts, 27 connecting filaments, 28 pipes Body.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of high pressure-temperature heat based on narrowband Internet of Things Scale, including calorimeter ontology 1 are fixedly connected with pedestal 2, the 1 top electricity of calorimeter ontology below the calorimeter ontology 1 Property is connected with NB-IOT module 3, and temperature tube 4 is equipped with below the pedestal 2, and 4 right end of temperature tube is communicated with water inlet pipe 7, Filter 8 is installed on the water inlet pipe 7, the first ball valve 9 is installed on the right side of the filter 8, is connected on the left of the temperature tube 4 There is outlet pipe 10, the second ball valve 11 is installed on the outlet pipe 10, the first temperature biography is respectively equipped on the calorimeter ontology 1 Sensor 5 and second temperature sensor 6, first temperature sensor 6 are installed on 4 top of temperature tube, and 7 side of water inlet pipe is set There is return pipe 12, Temp. measuring ball valve 13 is installed on the return pipe 12, the second temperature sensor 6 is installed on Temp. measuring ball valve 13 Top.

The temperature tube 4 includes tube body 28 and connector 21, and the connector 21 is fixedly connected on 28 both ends of tube body, described It is equipped with copper pipe 14 on the inside of tube body 28, cavity layer 15 is equipped between 28 inner wall of tube body and copper pipe 14, inside the cavity layer 15 Equipped with support snap ring 16, it is respectively fixedly connected with inside and outside the support snap ring 16 in 28 inner wall of copper pipe 14 and tube body.The copper Casing 17 is installed on the inside of pipe 14,17 two sides of described sleeve pipe have been respectively fixedly connected with the first limited location snap ring 18 and limited location snap ring 19, First limited location snap ring 18 and 19 port of limited location snap ring are frustum cone structure, the first limited location snap ring 18 of frustum cone structure and limit 19 port of snap ring make water flow through it is out-of-date can reduce resistance, 5 bottom end of the first temperature sensor extend through in tube body 28, Copper pipe 14 and casing 17 are equipped with gasket 20 between first temperature sensor 5 and tube body 28 and copper pipe 14.The connector 21 It is equipped with external screw thread.The 2 top two sides of pedestal are provided with mounting hole 22, and the 4 top two sides of temperature tube are fixedly connected with set Cylinder 23 is equipped with fixing bolt 24 above the mounting hole 22, and 24 outside screw of fixing bolt is connected in sleeve 23 Side.The first loose joint nut 25 is threaded between the temperature tube 4 and water inlet pipe 7.Between the temperature tube 4 and outlet pipe 10 It is threaded with the second loose joint nut 26.The support snap ring 16 is stainless steel material snap ring.First ball valve 9 and filter Connecting filament 27 is connected between 8.

Working principle: a kind of high pressure-temperature calorimeter based on narrowband Internet of Things of the utility model, structure novel, so that hot Scale carry out thermometric when, can effectively anti-high pressure and high temperature so that measurement numerical value it is more accurate, inside temperature tube 4 The setting of copper pipe 14 and stainless steel support snap ring 16, so that temperature tube 4 is whole the structure for more consolidating high intensity, Neng Gou It is monitored in the water pipe of high pressure-temperature, the first temperature sensor 5 is with second temperature sensor 6 respectively in temperature tube 4 and thermometric The temperature monitoring that water temperature in water inlet pipe 7 and return pipe 12 is carried out in ball valve 13 passes through casing so that temperature monitoring is more accurate 17 setting, so that the fixation of the first temperature sensor 5 is stronger, by the setting of NB-IOT module 3, so that monitoring information can To carry out network transmission, changes traditional acquisition of data on the spot, brought convenience to staff.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood as the case may be Concrete meaning in the present invention.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (9)

1. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things, including calorimeter ontology (1), it is characterised in that: the heat It is fixedly connected with pedestal (2) below scale ontology (1), is electrically connected with NB-IOT module above the calorimeter ontology (1) (3), it is equipped with temperature tube (4) below the pedestal (2), temperature tube (4) right end is communicated with water inlet pipe (7), the water inlet It is equipped with filter (8) on pipe (7), is equipped with the first ball valve (9) on the right side of the filter (8), connected on the left of the temperature tube (4) It is connected with outlet pipe (10), is equipped with the second ball valve (11) on the outlet pipe (10), is respectively equipped on the calorimeter ontology (1) First temperature sensor (5) and second temperature sensor (6), first temperature sensor (5) are installed on temperature tube (4) Side, water inlet pipe (7) side are equipped with return pipe (12), are equipped with Temp. measuring ball valve (13) on the return pipe (12), and described the Two temperature sensors (6) are installed on above Temp. measuring ball valve (13).

2. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 1, it is characterised in that: the survey Temperature pipe (4) includes tube body (28) and connector (21), and the connector (21) is fixedly connected on tube body (28) both ends, the tube body (28) inside is equipped with copper pipe (14), is equipped with cavity layer (15) between tube body (28) inner wall and copper pipe (14), the cavity layer (15) internal to be equipped with support snap ring (16), it is respectively fixedly connected with inside and outside the support snap ring (16) in copper pipe (14) and tube body (28) inner wall.

3. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 2, it is characterised in that: the copper It is equipped with casing (17) on the inside of pipe (14), described sleeve pipe (17) two sides have been respectively fixedly connected with the first limited location snap ring (18) and limit Snap ring (19), first limited location snap ring (18) and limited location snap ring (19) port are frustum cone structure, first temperature sensing Device (5) bottom end is extended through in tube body (28), copper pipe (14) and casing (17), first temperature sensor (5) and tube body (28) gasket (20) are equipped between copper pipe (14).

4. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 2, it is characterised in that: described to connect Head (21) is equipped with external screw thread.

5. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 1, it is characterised in that: the bottom Two sides are provided with mounting hole (22) above seat (2), and two sides are fixedly connected with sleeve (23), the peace above the temperature tube (4) It is equipped with fixing bolt (24) above dress hole (22), fixing bolt (24) outside screw is connected on the inside of sleeve (23).

6. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 1, it is characterised in that: the survey The first loose joint nut (25) is threaded between temperature pipe (4) and water inlet pipe (7).

7. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 1, it is characterised in that: the survey The second loose joint nut (26) is threaded between temperature pipe (4) and outlet pipe (10).

8. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 2, it is characterised in that: the branch Supportting snap ring (16) is stainless steel material snap ring.

9. a kind of high pressure-temperature calorimeter based on narrowband Internet of Things according to claim 1, it is characterised in that: described Connecting filament (27) are connected between one ball valve (9) and filter (8).