CN210108554U - Hot spring or cold spring temperature measuring instrument - Google Patents

Abstract

The utility model discloses a hot spring or cold spring temperature measuring instrument, which relates to a water temperature measuring device and aims to overcome the problem that the existing layered water temperature measuring device can not be adjusted according to the actual layered requirement; the module integrated cabin is hermetically sealed and installed inside the waterproof shell; a plurality of module slots are arranged on the module integrated cabin and are sequentially distributed along the height direction of the module integrated cabin; the bus unit is arranged in the module integrated cabin, a data input/output interface of the bus unit is electrically connected with a data input/output interface of the wireless transmitter, and the bus interfaces of the bus unit correspond to the module slots one by one; the plug board is matched with the module slot; the temperature probe is arranged on the plug board, and the plug board is embedded into the module slot, so that the temperature probe is electrically connected with the bus interface of the bus unit; the temperature probe is a non-contact probe, and the waterproof shell is a transparent shell.

Description

Hot spring or cold spring temperature measuring instrument

Technical Field

The utility model relates to a temperature measuring device, concretely relates to a device for measuring hot spring or cold spring layering temperature.

Background

The hot spring or cold spring has the magical effects of relieving pressure, stimulating the menstrual flow, activating blood circulation, relaxing nerves, treating diseases, beautifying and the like, and becomes a recuperation mode which is highly appreciated by modern people. The scientific selection of spring water with proper temperature is especially important because of different effects of spring water with different temperatures and different bearing capacities of individual physique and temperature.

At present, many natural hot springs (cold springs) are not developed comprehensively, the temperature of the spring water in a natural state is greatly influenced by the natural environment (such as seasons, weather and the like) and the dynamic supply of underground spring eyes, so that the temperature change of different faults on the water surface and the water under the water is large, and troubles are brought to people who soak the spring water, and therefore a device for measuring the temperature of different water layers is needed.

However, due to the complexity of the hot spring or the cold spring, the standard of layering may be different for different cold springs or hot springs, the accuracy of layering may also be different, and a person is in contact with the bottom of the pool when soaking the spring. In the existing layered water temperature measuring device, the distance arrangement of temperature sensors is fixed, and the temperature sensors cannot be correspondingly adjusted according to the layered requirements of an actual hot spring or a cold spring; and the temperature is measured by dividing the water layer from the water surface to the bottom, and the water layer is not measured by dividing the water layer from the bottom of the pool.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming current layering temperature measuring device, temperature sensor's interval setting is fixed, can't need carry out the problem that corresponds the adjustment according to the layering of actual hot spring or cold spring, provides a hot spring or cold spring temperature measuring apparatu.

The utility model discloses a hot spring or cold spring temperature measuring instrument, which comprises a waterproof shell, a temperature probe and a wireless transmitter, wherein the wireless transmitter is fixed at the top in the waterproof shell; the system comprises a module integration cabin, a bus unit and a plurality of plugboards;

the module integrated cabin is hermetically sealed and installed inside the waterproof shell;

a plurality of module slots are arranged on the module integrated cabin and are sequentially distributed along the height direction of the module integrated cabin;

the bus unit is arranged in the module integrated cabin, a data input/output interface of the bus unit is electrically connected with a data input/output interface of the wireless transmitter, and the bus interfaces of the bus unit correspond to the module slots one by one;

the plug board is matched with the module slot;

the temperature probe is arranged on the plug board, and the plug board is embedded into the module slot, so that the temperature probe is electrically connected with the bus interface of the bus unit;

the temperature probe is a non-contact probe, and the waterproof shell is a transparent shell.

The utility model has the advantages that:

1. the structure of the module integrated cabin is adopted, a plurality of module slots on the module integrated cabin are distributed along the height of the temperature measuring instrument, the water layer is divided according to the height of the module slots, a single module slot can correspond to one water layer, a plurality of module slots can correspond to one water layer, the module integrated cabin can adapt to the division of the water layers with different standards, and the use mode is flexible;

2. the water temperature measuring device is specially applied to water temperature measurement of hot springs or cold springs, water layer division is carried out from the water surface to the bottom of the water layer instead of water layer division measurement from the bottom of a pool, and the water temperature measuring device accords with the habit of soaking springs in a human body.

Drawings

FIG. 1 is a schematic diagram of a thermal or cold spring thermometer according to an embodiment;

FIG. 2 is an electrical schematic of a thermal spring or cold spring temperature gauge in accordance with a preferred embodiment;

FIG. 3 is a circuit diagram of the bus unit of FIG. 2;

FIG. 4 is a circuit diagram of the wireless transmitter of FIG. 2;

fig. 5 is a circuit diagram of the wireless charger in fig. 2.

Detailed Description

The first embodiment is as follows: the utility model discloses a hot spring or cold spring temperature measuring instrument, as shown in fig. 1 and fig. 2, which comprises a waterproof shell 1, a temperature probe 2 and a wireless transmitter 3, wherein the wireless transmitter 3 is fixed at the top of the waterproof shell 1; the system also comprises a module integration cabin 4, a bus unit 5 and a plurality of plugboards 6;

the module integrated cabin 4 is hermetically sleeved in the waterproof shell 1;

a plurality of module slots 7 are arranged on the module integrated cabin 4, and the module slots 7 are distributed in sequence along the height direction of the module integrated cabin 4;

the bus unit 5 is arranged in the module integrated cabin 4, a data input and output interface of the bus unit 5 is electrically connected with a data input and output interface of the wireless transmitter 3, and the bus interfaces of the bus unit 5 correspond to the module slots 7 one by one;

the plug board 6 is matched with the module slot 7;

the temperature probe 2 is arranged on the plug board 6, and the plug board 6 is embedded into the module slot 7, so that the temperature probe 2 is electrically connected with the bus interface of the bus unit 5;

the temperature probe 2 is a non-contact probe, and the waterproof shell 1 is a transparent shell.

Specifically, because many natural hot springs (cold springs) are not developed comprehensively at present, the temperature of the spring water in a natural state is greatly influenced by the natural environment (season and weather) and the dynamic supply of underground spring eyes, so that the temperature change of different faults on the water surface and the underwater is large, troubles are brought to people who soak the spring, and certain troubles are brought to measurement of researchers.

The hot spring or cold spring temperature measuring instrument of this embodiment, the structure in module integrated cabin 4 has been adopted, a plurality of module slots 7 on the module integrated cabin 4 are highly distributed along temperature measuring instrument, can highly set up each module slot 7 into fixed height (have the size scale), when getting into hot spring or cold spring aquatic like this, can divide the water layer according to the height of module slot 7, can single module slot 7 correspond to a water layer, also can a plurality of module slots 7 correspond to a water layer, and carry out temperature measurement to the water layer, only need insert the picture peg 6 of installing temperature probe 2 in the module slot 7 that this water layer corresponds can, other module slots 7 that do not use can close through the apron.

The plug board 6 is provided with necessary probe mounting grooves and conductive circuits, such as spring conductive pins, etc., after the temperature probe 2 is mounted in the probe mounting groove, the temperature signal output end of the temperature probe 2 is electrically connected with one end of the spring conductive pin, and after the plug board 6 is inserted into the module slot 7, the other end of the spring conductive pin is electrically connected with the corresponding bus interface behind the module slot 7.

The inserting plate 6 can also be used for mounting other environment monitoring sensors/probes, such as a human body temperature probe and the like, and is used for monitoring the human body temperature of the bubbling spring.

The temperature probe 2 can adopt a non-contact infrared temperature sensor TS105 or an infrared temperature measuring sensor TS 318; a processor 13 is provided between the bus unit 5 and the wireless transmitter 3.

The processor 13 may be a 32-bit ARM processor STM32F103RBT6, serving as an MCU of a single thermal spring or cold spring thermometer, as shown in fig. 3, and the bus unit 5 may employ a PCA82C250 chip as a bus transceiver; the processor 13 is isolated from the bus unit 5 by using a 6N137 photoelectric coupler, a transmitting and receiving pin of a CAN controller in the processor 13 is respectively connected with a CAN _ TX end and a CAN _ RX end, then amplified by 6N137 and connected to a bus network through a CANL end and a CANH end, and the temperature probe 2 is connected to the bus network.

Meanwhile, in order to ensure the sealing performance of the device in water, the waterproof shell 1 is made into a transparent shell (made of a silicon medium optical filter which is free of interference to infrared rays) on the basis that the temperature probe 2 adopts a non-contact temperature probe, and the non-contact temperature probe generally adopts a thermal radiation principle to carry out temperature detection, so that the transparent shell can enable the temperature probe 2 to detect the thermal radiation of spring water, and further achieve non-contact temperature detection.

As regards the effect of the refraction of the transparent shell on the infrared emitted by the temperature probe 2, it is entirely possible to eliminate this by pre-calibration during the production process.

As shown in fig. 4, wireless transmitter 3 may employ a ZigBee communication module CC2520, with which processor 13 communicates in the form of an SPI bus.

Best embodiment, this embodiment is a further description of the first embodiment, and in this embodiment, the insert rod further includes a plurality of insert pins 10;

a plurality of inserting pins 10 are fixed at intervals along the bottom edge of the waterproof shell 1, inserting holes 11 matched with the inserting pins 10 are formed in the top of the waterproof shell 1, and different temperature measuring instruments can be overlapped in height by inserting the inserting pins 10 into the inserting holes 11.

Specifically, the hot spring or cold spring temperature measuring instrument needs to measure the temperature of different depths in the hot spring or cold spring, so the height of the device is required to be matched with the depth of the hot spring or cold spring, the height of the device can exceed the water surface of the hot spring or cold spring, and the temperature of each water layer can be completely measured. Therefore, the single height can be made into with this hot spring or cold spring temperature measurement appearance, when needs are to the water layer temperature measurement, superpose according to the degree of depth needs of cold spring or hot spring, and different water layers have not the high temperature probe 2 of difference on the different temperature measurement appearance to measure, only need in the management backstage to different temperature probe 2 match the mark can, this is that prior art can realize.

The inserting drill rod 10 fixed at the bottom of the waterproof shell 1 can also be used for inserting into the bottom of a cold spring or a hot spring pool to prevent factors such as water flow disturbance and the like from changing the temperature measuring position of the temperature measuring instrument.

In this embodiment, a wireless charger is further included;

the wireless charger comprises a wireless charging input unit 8 and a wireless charging output unit 9, and wireless power transmission can be carried out between the wireless charging output unit 9 and the wireless charging input unit 8;

the wireless charging output unit 9 is electrically connected with an external power supply, the wireless charging input unit 8 is fixed at the inner top of the waterproof shell 1, and the wireless charging input unit 8 is used for supplying power to the temperature probe 2, the wireless transmitter 3 and the bus unit 5.

In particular, because the hot spring or the cold spring temperature measuring instrument is used in the cold spring or the hot spring, the charging port connected by a wire is adopted for charging, and the danger of electric conduction can be caused by water; if the method of replacing the storage battery is adopted, the device needs to be taken out and disassembled every time the battery is replaced, so that the workload is large, and the measurement of the temperature is interrupted in the process of taking out and replacing the battery; if a waterproof cable is used for connection power supply, most of cold springs or hot springs are distributed in the field, and the distribution is irregular, so that a large amount of cost is generated when each device is wired and powered. Therefore, the mode of wireless power supply can be selected for use, a large-capacity storage battery or a diesel generator can be adopted by an external power supply and is electrically connected with the wireless charging output unit 9, the large-capacity storage battery or the diesel generator can be placed on a transport vehicle to form a mobile charging vehicle, the mobile charging vehicle can move between different cold springs or hot springs to charge the hot spring or the cold spring temperature measuring instrument, and the mobile charging vehicle can correspond to a large number of cold springs or hot springs in a large range, so that the charging cost is reduced.

The temperature measuring device should also be equipped with a battery 14 as part of the wireless charging input unit 8, so that the electrical energy transmitted by the wireless charging input unit 8 is stored in the battery 14 and supplied during operation of the device.

As shown in fig. 5, the wireless charging unit may employ an existing LLC wireless charging circuit.

The power supply parts among different temperature measuring instruments can be connected through a waterproof cable, so that all the temperature measuring instruments can be charged after the temperature measuring instrument at the highest position is charged.

Best embodiment, this embodiment is a further description of the first embodiment, and in this embodiment, the apparatus further includes a turbidity probe 12;

the turbidity probe 12 is arranged on the plug board 6, and the plug board 6 is embedded into the module slot 7, so that the turbidity probe 12 is electrically connected with the bus interface of the bus unit 5, and the turbidity signal output end of the turbidity probe 12 is electrically connected with the signal acquisition end of the wireless transmitter 3 through the bus unit 5.

Specifically, the turbidity probe 12 is also made into a standard module of the plug board 6, and can be inserted into the module slot 7 for measuring the turbidity of the cold spring or hot spring water, and the turbidity index of the cold spring or hot spring is detected. Because the turbidity probe 12 also adopts a transmission light or scattering light method, the turbidity probe 12 can be used on the premise that the waterproof shell 1 is a transparent shell, and turbidity data collected by the turbidity probe 12 is transmitted to the wireless transmitter 3 through the bus unit 5 and is sent to an upper computer through the wireless transmitter 3.

The turbidity probe 12 may be connected to the bus network using a turbidity sensor TSW-30.

Claims (4)

1. A hot spring or cold spring temperature measuring instrument comprises a waterproof shell (1), a temperature probe (2) and a wireless transmitter (3), wherein the wireless transmitter (3) is fixed at the top in the waterproof shell (1); the system is characterized by also comprising a module integrated cabin (4), a bus unit (5) and a plurality of plugboards (6);

the module integrated cabin (4) is hermetically sleeved in the waterproof shell (1);

a plurality of module slots (7) are formed in the module integrated cabin (4), and the module slots (7) are sequentially distributed along the height direction of the module integrated cabin (4);

the bus unit (5) is arranged in the module integrated cabin (4), a data input/output interface of the bus unit (5) is electrically connected with a data input/output interface of the wireless transmitter (3), and the bus interfaces of the bus unit (5) correspond to the module slots (7) one by one;

the plug board (6) is matched with the module slot (7);

the temperature probe (2) is arranged on the plug board (6), and the plug board (6) is embedded into the module slot (7), so that the temperature probe (2) is electrically connected with the bus interface of the bus unit (5);

the temperature probe (2) is a non-contact probe, and the waterproof shell (1) is a transparent shell.

2. A hot or cold spring thermometer according to claim 1, further comprising a plurality of inserted pins (10);

the plurality of inserting drill rods (10) are fixed at intervals along the bottom edge of the waterproof shell (1), inserting holes (11) matched with the inserting drill rods (10) are formed in the top of the waterproof shell (1), and different temperature measuring instruments can be stacked in height by inserting the inserting drill rods (10) into the inserting holes (11).

3. A spa or cold spring temperature gauge according to claim 1 or 2 further including a wireless charger;

the wireless charger comprises a wireless charging input unit (8) and a wireless charging output unit (9), and wireless electric energy transmission can be carried out between the wireless charging output unit (9) and the wireless charging input unit (8);

the wireless charging output unit (9) is electrically connected with an external power supply, the wireless charging input unit (8) is fixed at the top in the waterproof shell (1), and the wireless charging input unit (8) is used for supplying power to the temperature probe (2), the wireless transmitter (3) and the bus unit (5).

4. A spa or cold spring temperature gauge according to claim 1 further comprising a turbidity probe (12);

turbidity probe (12) are located on picture peg (6), through with picture peg (6) embedding module slot (7) in for turbidity probe (12) and bus unit (5) bus interface electric connection make turbidity probe (12) the turbidity signal output part pass through bus unit (5) and the signal acquisition end electric connection of wireless changer (3).

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