CN212133738U - Split type wireless verification probe - Google Patents

Abstract

The utility model relates to an inspection detects technical field, in particular to a test probe for detecting temperature, humidity and pressure isoparametric, more specifically is a split type wireless verification probe, specifically includes probe, needle file, probe assembly, power supply unit, casing and top cap, and the probe sets up on the needle file, and power supply unit, probe assembly and needle file are by in supreme back of coordinating in proper order down arrange the casing in, and the top cap is arranged in on the needle file and is closed the back with the casing lid, and the top cap has the clearing hole, and the probe passes the top cap and is located outside the casing. The probe adopts multi-component combined installation, improves the independence of each component, ensures that the components are more convenient to replace and more flexible to assemble, and can be configured with different components through disassembly and connection. Meanwhile, the probe provides a sealed environment through a sealing structure, so that the probe can be suitable for a high-pressure environment. The application range is wider, the portability is good, and the operation is convenient.

Description

Split type wireless verification probe

Technical Field

The utility model relates to an inspection detects technical field, in particular to a test probe for detecting temperature, humidity and pressure isoparametric, more specifically is a split type wireless verification probe.

Background

In production, monitoring of parameters such as temperature, humidity and pressure is becoming more and more popular. For example, all industries pay great attention to the links of production management and storage, when a lot of important things are stored in a warehouse, the most appropriate temperature and humidity are needed to be kept for ensuring the good quality of the things, and the temperature and humidity are not kept by manpower, so that the temperature and humidity are well controlled by means of the real-time monitoring function of a temperature and humidity monitoring system, articles can be stored better, and the cost in the production and storage process is reduced. In some cases, the pressure requirement is high, which requires a corresponding pressure monitoring system to monitor the corresponding pressure parameter in real time.

The existing detection instrument has limited detection distance and range, larger equipment volume and poor portability, and causes the problems of inconvenient field detection operation and the like.

The existing related probe has a complex structure and is not easy to adapt to high-pressure occasions. Meanwhile, due to the complex structure, the overall maintenance cost is high, and due to the adoption of the integrated structure, once the parts are damaged, the parts need to be integrally replaced, so that the use cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the above-mentioned problem that monitoring system exists that present is used for monitoring temperature, humidity, pressure isoparametric, provide a split type wireless verification probe.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a split type wireless verification probe, includes probe, needle file, probe subassembly, power supply unit spare, casing and top cap, and the probe sets up on the needle file, and power supply unit spare, probe subassembly and needle file are by supreme arranging in the casing after cooperating in proper order down, and the top cap is arranged in on the needle file and is closed the back with the casing lid, and the top cap has the clearing hole, and the probe passes the top cap and is located outside the casing.

The wireless verification probe is mainly characterized in that a top cover and a shell are of a split structure, and then the overall sealing performance is improved by adopting an additional sealing structure so as to meet the use environment of high pressure, high temperature and high humidity. Specifically, the monitored information is transmitted to the remote control terminal mainly in a wireless mode. The probe is used for sensing corresponding parameter information measured in the surrounding environment, and the probe assembly is used for acquiring data of the sensed information and transmitting the data.

All parts are arranged in the shell together in a combined mode, and are fixed in the shell through the top cover, so that the structure realizes the independence of the parts, improves the assembling flexibility of the parts, and can utilize the parts to easily form a whole. Such a construction makes it easier to replace parts of the assembly.

The matching of the shell and the top cover is adopted, a closed environment can be formed in the shell, and therefore the high-pressure environment can be adapted. Meanwhile, the probe is modularized, is convenient to assemble and is low in operation difficulty.

Preferably, a sealing structure is arranged between the needle seat and the shell. The seal structure provides a sealed environment within the housing.

Preferably, the sealing structure comprises a sealing groove arranged on the side wall of the needle seat and a sealing strip arranged in the sealing groove.

Preferably, the sealing groove and the sealing strip are provided in two sets.

Preferably, the power supply assembly comprises a power supply frame, a battery is arranged in the power supply frame, a wiring end is arranged at the top of the power supply frame, and the wiring end is connected with the probe assembly in a matched mode.

Preferably, the probe assembly comprises a control main board and a wireless communication piece, and the control main board is connected with the probe and the power supply assembly.

Preferably, the base of the hub has a receiving space into which the probe assembly is placed.

Preferably, the probe is provided with a sensor, and the sensor is a temperature sensor, a humidity sensor or a pressure sensor.

Preferably, the cap is threadedly coupled to the housing.

Preferably, the needle base is further provided with a handle, and the handle penetrates through the top cover and is located outside the shell.

The utility model has the advantages that: the split structure is adopted for combination, and the sealing structure is combined with the sealing between each part of the split structure, so that the use in a high-pressure environment is met. Particularly, wireless data communication transmission is adopted, so that the complex work of field wiring is effectively avoided, the portability is high, and the operation difficulty is low; by adopting the multi-component combined installation, the independence of each component is improved, the component replacement is more convenient, the assembly is more flexible, and different components can be configured by the disassembly and the connection. The sealing environment is provided by the sealing structure, so that the sealing structure can be suitable for high-pressure environment. The application range is wider, the portability is good, and the operation is convenient.

Drawings

Fig. 1 shows a schematic structural diagram of the present invention.

Fig. 2 shows another schematic structure of the present invention.

Fig. 3 is a schematic diagram of a partial structure in fig. 1 according to the present invention.

The probe comprises a probe 1, a needle seat 2, a probe assembly 3, a power supply assembly 4, a shell 5, a top cover 6, a through hole 7, a sealing structure 8, a sealing groove 9, a sealing strip 10, a power supply frame 11, a battery 12, a wiring terminal 13, a control main board 14, a wireless communication piece 15, a handle 16 and a sensor 17.

Detailed Description

Further refinements will now be made on the basis of the representative embodiment shown in the figures. It should be understood that the following description is not intended to limit the embodiments to one preferred embodiment. On the contrary, it is intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the embodiments as defined by the appended claims.

In the following detailed description, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments in accordance with the embodiments. Although these embodiments are described in sufficient detail to enable those skilled in the art to practice the embodiments, it is to be understood that these examples are not limiting, such that other examples may be used and that corresponding modifications may be made without departing from the spirit and scope of the embodiments.

In particular, referring to fig. 1 and 2, fig. 1 shows a split wireless authentication probe. This probe includes probe 1, needle file 2, probe subassembly 3, power supply unit 4, casing 5 and top cap 6, and probe 1 sets up on needle file 2 through the detachable mode to can change different probe 1. Power supply unit 4, probe subassembly 3 and needle file 2 are arranged in casing 5 after supreme cooperation in proper order down, and after top cap 6 was arranged in and is closed with casing 5 lid on the needle file 2, top cap 6 had through hole 7, and probe 1 passes top cap 6 and is located outside casing 5. Overall structure as shown in fig. 1, the cap 6 confines the components, including the hub 2, within the housing 5. The top cover 6 is connected with the shell 5 through threads. The structural fit of the various components is controlled by the degree of tightening of the cap 6 with the housing 5.

As shown in fig. 1, a sealing structure 8 is provided between the needle hub 2 and the housing 5. A separate sealed environment can be provided in the housing by the sealing structure 8, which can withstand high pressure in order to use the probe for environmental monitoring of high pressure.

Specifically, the needle holder comprises a sealing groove 9 arranged on the side wall of the needle holder 2 and a sealing strip 10 arranged in the sealing groove 9. Also, two sets of seal grooves 9 and seal strips 10 are provided. The inside and the outside of the housing can be effectively isolated by the two sets of sealing structures 8. The sealing groove 9 is arranged on the side wall of the needle seat 2, the rest of the inner wall of the shell of the needle seat 2 is matched, the corresponding sealing strip 10 is arranged in the sealing groove 9 on the side wall of the needle seat 2, and the sealing condition is formed by the side wall of the needle seat 2 matched with the inner wall of the shell and the sealing strip 10.

As shown in fig. 3, the present application further provides a sealing structure 8 between the housing 5 and the top cover 6, specifically, on one hand, a sealing strip 10 is provided at the end point of the threaded connection between the top cover 6 and the housing 5; on the other hand, a sealing strip 10 is provided at the junction of the needle holder 2 and the top cover 6.

Regarding the components in the housing 5, the power supply assembly 4 includes a power supply rack 11, wherein the power supply rack 11 is used for installing a battery 12 and providing a connection end for the probe assembly 13; a battery 12 is arranged in the power supply frame 11, a terminal 13 is arranged at the top of the power supply frame 11, the terminal 13 is matched and connected with the probe assembly 3, and the terminal 13 achieves the purpose of matching with the probe assembly 13.

The probe assembly 3 at least comprises a control main board 14 and a wireless communication piece 15, the control main board 14 is connected with the probe 1 and the power supply assembly 4, and the control main board 14 is used for overall control. The wireless communication member 15 is used for transmitting wireless signals.

With regard to the structure of the hub 2, there is a receiving space at the bottom of the hub 2 in which the probe assembly 3 is placed. The probe assembly 3 can also be integrated with the needle base 2 to form an integral structure.

In another configuration of the probe, a sensor 17 is provided on the probe 1, and the sensor 17 is a temperature sensor, a humidity sensor, or a pressure sensor. Relevant parameters of the environment are collected and monitored by the sensors 17.

As shown in fig. 2, a handle 16 is further provided on the needle holder 2, and the handle 16 is located outside the housing 5 through the top cover 6. The handle 16 may serve as a conduit for operating the probe.

For purposes of explanation, specific nomenclature is used in the above description to provide a thorough understanding of the described embodiments. It will be apparent, however, to one skilled in the art that these specific details are not required in order to practice the embodiments described above. Thus, the foregoing descriptions of specific embodiments described herein are presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the embodiments to the precise form disclosed. It will be apparent to those skilled in the art that certain modifications, combinations, and variations can be made in light of the above teachings.

Claims (10)

1. A split type wireless verification probe is characterized in that: including probe (1), needle file (2), probe subassembly (3), power supply unit spare (4), casing (5) and top cap (6), probe (1) sets up on needle file (2), power supply unit spare (4), in placing casing (5) after probe subassembly (3) and needle file (2) cooperate in proper order by supreme down, needle file (2) are arranged in top cap (6) and are closed the back with casing (5) lid, top cap (6) have clearing hole (7), probe (1) pass top cap (6) and are located outside casing (5).

2. A split wireless authentication probe according to claim 1, wherein: a sealing structure (8) is arranged between the needle seat (2) and the shell (5).

3. A split wireless authentication probe according to claim 2, wherein: the sealing structure (8) comprises a sealing groove (9) arranged on the side wall of the needle seat (2) and a sealing strip (10) arranged in the sealing groove (9).

4. A split wireless authentication probe according to claim 3, wherein: two groups of sealing grooves (9) and sealing strips (10) are arranged.

5. A split wireless authentication probe according to claim 1, wherein: the power supply assembly (4) comprises a power supply frame (11), a battery (12) is arranged in the power supply frame (11), a wiring terminal (13) is arranged at the top of the power supply frame (11), and the wiring terminal (13) is connected with the probe assembly (3) in a matched mode.

6. A split wireless authentication probe according to claim 1, wherein: the probe assembly (3) comprises a control main board (14) and a wireless communication piece (15), and the control main board (14) is connected with the probe (1) and the power supply assembly (4).

7. A split wireless authentication probe according to claim 1, wherein: the bottom of the needle seat (2) is provided with an accommodating space, and the probe assembly (3) is arranged in the accommodating space.

8. A split wireless authentication probe according to claim 1, wherein: the probe (1) is provided with a sensor (17), and the sensor (17) is a temperature sensor, a humidity sensor or a pressure sensor.

9. A split wireless authentication probe according to claim 1, wherein: the top cover (6) is connected with the shell (5) through threads.

10. A split wireless authentication probe according to claim 1, wherein: the needle base (2) is also provided with a handle (16), and the handle (16) penetrates through the top cover (6) and is positioned outside the shell (5).

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