CN208401848U - A kind of data communication module acquired for data in vacuum tank - Google Patents

Abstract

The utility model discloses a kind of data communication modules acquired for data in vacuum tank, the present apparatus is using the data communication module being independently disposed to outside data acquisition module and vacuum tank inside and outside vacuum tank, the two carries out the transmission of data by optic communication, it is its independently-powered lithium battery that data acquisition module, which has, and lithium battery is charged by being set to the wireless charging device outside vacuum tank.It ensure that vacuum degree is not destroyed in vacuum tank, it ensure that the real-time Transmission of experimental data, the data acquisition module being located inside vacuum tank is sealed by epoxy resin, it is powered by independently-powered lithium battery for it, wireless charging device is independently disposed to outside vacuum tank, it ensure that working long hours for data acquisition module, compared to the vacuum electrode flange using ceramic technology encapsulation, the present apparatus, which has, to be hardly damaged, vacuum tank leakproofness is not influenced, it is long using the time, the advantages of reducing production cost, improve the reliability of vacuum equipment.

Description

A kind of data communication module acquired for data in vacuum tank

Technical field

The utility model relates to be applied to the experimental provision of vacuum experiment, and in particular to one kind is for data in vacuum tank The data communication module of acquisition.

Background technique

Many data are had in vacuum environment in productive experiment to need to acquire or monitor, the aerial data of General Proper are logical Vacuum electrode flange is crossed to draw across vacuum cavity, and vacuum electrode flange generally uses ceramic technology to encapsulate, this electrode method Blue the cost is relatively high, and is easily damaged, and when damage is easy to cause vacuum environment to destroy, and influences to test and produce.Again it sets Count it is a kind of it is simple reliable be used to carry out the data communication module that data acquire in vacuum tank and can reduce production cost, improve The reliability of vacuum equipment.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of for data acquisition in vacuum tank Data communication module.

The utility model is achieved through the following technical solutions:

A kind of data communication module acquired for data in vacuum tank, including the data being set to inside vacuum tank Acquisition module and the data communication module being set to outside vacuum tank, the vacuum tank is provided with transparent panel, described Acquisition module and data communication module be correspondingly arranged inside and outside the transparent panel, the two is counted by optic communication According to transmission, the data acquisition module includes independently-powered lithium battery, and is set to outside vacuum tank to lithium The wireless charging device that battery charges.

In the above-mentioned technical solutions, the data acquisition module includes the interior photoelectricity for acquiring experimental data in vacuum tank Data communication module, for interior photooptical data communication module power supply lithium battery and be set on interior photooptical data communication module Vacuum data acquire terminals, interior photoelectric communication interface, vacuum data acquires laboratory apparatus number in terminals and vacuum tank It is connected according to connector, interior photoelectric communication interface and being set between the outer photoelectric communication interface outside vacuum tank is worn by optic communication The chamber wall for crossing vacuum tank completes the transmission of data.

In the above-mentioned technical solutions, the interior photooptical data communication module lies prostrate voltage mode using 0-5, converts the signal into 485 digital signals, and the data communication module by signal in a manner of optical signal to outside vacuum tank carries out data communication.

In the above-mentioned technical solutions, the data acquisition module is sealed set.

In the above-mentioned technical solutions, the data acquisition module uses glue sealing.

In the above-mentioned technical solutions, the data communication module is provided with outer photoelectric communication interface and data acquisition output End, the outer photoelectric communication interface and be set between the interior photoelectric communication interface in vacuum tank by optic communication pass through vacuum The chamber wall of container completes the transmission of data, and the experimental data in vacuum tank is transferred to and is attached thereto by data collection output Computer.

In the above-mentioned technical solutions, it is provided with vacuum observation window on the vacuum tank, for observing in vacuum tank Experimental conditions.

In the above-mentioned technical solutions, the wireless charging device of the lithium battery is set on vacuum observation window.

In the above-mentioned technical solutions, the thickness of the vacuum vessel wall is less than outer photoelectric communication interface and connects with interior photoelectric communication Communication distance between mouthful.

In the above-mentioned technical solutions, the data acquisition module uses the hot plug small package module of 850nmSFP encapsulation.

In the above-mentioned technical solutions, the data communication module uses the hot plug small package module of 850nmSFP encapsulation.

The advantages of the utility model and the data for having the beneficial effect that present apparatus use is independently disposed to inside and outside vacuum tank are adopted Collect the data communication module outside module and vacuum tank, the two carries out the transmission of data, data acquisition module by optic communication It is its independently-powered lithium battery that block, which has, and lithium battery is filled by being set to the wireless charging device outside vacuum tank Electricity.It ensure that vacuum degree is not destroyed in vacuum tank, ensure that the real-time Transmission of experimental data, will be located at by epoxy resin Data acquisition module inside vacuum tank is sealed, and is powered by independently-powered lithium battery for it, wireless charging device It is independently disposed to outside vacuum tank, ensure that working long hours for data acquisition module, encapsulated compared to using ceramic technology Vacuum electrode flange, the present apparatus have is hardly damaged, do not influence vacuum tank leakproofness, long using the time, reduction is produced into Originally, the advantages of improving the reliability of vacuum equipment.

Detailed description of the invention

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

Fig. 2 is vacuum data acquisition module structural schematic diagram.

Fig. 3 is data communication module structural schematic diagram.

Wherein: 1 is data acquisition module, and 2 be vacuum observation window, and 3 be wireless charging device, and 4 be data communication module, 5 To communicate optical path, 6 be vacuum tank, and 7 acquire terminals for vacuum data, and 8 be interior photoelectric communication interface, and 9 be lithium battery, and 10 are Shell, 11 be interior photooptical data communication module, and 12 be outer photoelectric communication interface, and 13 be outer photooptical data communication module, and 14 be number According to acquisition output end.

It for those of ordinary skill in the art, without creative efforts, can be according to above attached Figure obtains other relevant drawings.

Specific embodiment

In order to make those skilled in the art better understand the scheme of the utility model, combined with specific embodiments below into one Step illustrates the technical solution of the utility model.

Embodiment 1

A kind of data communication module acquired for data in vacuum tank, including the data being set to inside vacuum tank Data communication module 4 outside acquisition module 1 and vacuum tank, the two carry out the transmission of data, the number by optic communication Having according to acquisition module is its independently-powered lithium battery 9, and lithium battery passes through the wireless charging Denso that is set to outside vacuum tank 3 are set to charge.

The data acquisition module includes the interior photooptical data communication module of experimental data in acquisition vacuum tank, is interior The lithium battery of photooptical data communication module power supply and the vacuum data acquisition wiring being set on interior photooptical data communication module 7, interior photoelectric communication interface 8 are held, vacuum data acquisition terminals are connected with laboratory apparatus data connector in vacuum tank, interior light Electric communication interface and be set between the outer photoelectric communication interface outside vacuum tank by optic communication pass through vacuum tank container The transmission of wall completion data.

The data communication module is provided with outer photoelectric communication interface and data collection output, outer photoelectric communication interface with It is set between the interior photoelectric communication interface in vacuum tank and data is completed by the chamber wall that optic communication passes through vacuum tank Experimental data in vacuum tank is transferred to the computer being attached thereto by transmission, data collection output.

Embodiment 2

A kind of data communication module acquired for data in vacuum tank, including the data being set to inside vacuum tank Data communication module 4 outside acquisition module 1 and vacuum tank, the two carry out the transmission of data, the number by optic communication Having according to acquisition module is its independently-powered lithium battery 9, and lithium battery passes through the wireless charging Denso that is set to outside vacuum tank 3 are set to charge.

The data acquisition module includes the interior photooptical data communication module of experimental data in acquisition vacuum tank, is interior The lithium battery of photooptical data communication module power supply and the vacuum data acquisition wiring being set on interior photooptical data communication module 7, interior photoelectric communication interface 8 are held, the interior photooptical data communication module lies prostrate voltage mode using 0-5, converts the signal into 485 numbers Word signal, and the data communication module by signal in a manner of optical signal to outside vacuum tank carries out data communication.The data Acquisition module is sealed in shell 10 using epoxy resin.Vacuum observation window 2 is provided on the vacuum tank, it is true for observing Experimental conditions in empty container.The wireless charging device of the lithium battery is set on vacuum observation window.The data acquisition module Block, data communication module are all made of the hot plug small package module of 850nmSFP encapsulation.

Embodiment 3

A kind of data communication module acquired for data in vacuum tank, mainly by 1 He of data acquisition module in vacuum Data communication module 4 outside vacuum forms.

In order to guarantee the normal work of evacuated interior data module 1, it is equipped with inside vacuum data communication module shell 10 The lithium battery 9 to work for photooptical data communication module 11.To avoid influence and limitation of the electronic component by vacuum environment, institute It is sealed with entire data acquisition module using epoxy resin, leaves behind vacuum data acquisition terminals 7 and photoelectric communication connects Mouth 8, in order to guarantee the operation steady in a long-term of module, module can use wireless charging device outside vacuum cavity directly to vacuum Lithium battery 9 in internal data module configured 1 charges.

Vacuum data acquire terminals 7 by the data to be acquired inside vacuum environment by photooptical data communication module 11 with The mode that 0-5 lies prostrate voltage carries out analog-to-digital conversion, converts the signal into 485 digital signals, and by signal in a manner of optical signal 5 to The outer data communication module 4 of vacuum outside vacuum observation window 2 carries out data communication.The outer data communication module 4 of vacuum is logical by photoelectricity The digital signal of acquisition is converted into analog signal by photooptical data communication module 13 by communication interface 12, with the voltage letter of 0-5 volt Number by the output of data collection output 14 to different acquisition data.

Photoelectric communication module can be used 850nm SFP encapsulation optical communication module, can satisfy short-distance transmission signal and Reduce the requirement of module volume.

To sum up, the present apparatus is used and is independently disposed to outside data acquisition module and vacuum tank inside and outside vacuum tank Data communication module, the two carry out the transmission of data by optic communication, and data acquisition module has for its independently-powered lithium electricity Pond, lithium battery are charged by being set to the wireless charging device outside vacuum tank.It ensure that vacuum degree in vacuum tank It is not destroyed, ensure that the real-time Transmission of experimental data, the data acquisition module inside vacuum tank will be located at by epoxy resin Block is sealed, and is powered by independently-powered lithium battery for it, and wireless charging device is independently disposed to outside vacuum tank, is protected Working long hours for data acquisition module is demonstrate,proved, compared to the vacuum electrode flange using ceramic technology encapsulation, the present apparatus has It is hardly damaged, does not influence vacuum tank leakproofness, it is long using the time, production cost is reduced, the reliability of vacuum equipment is improved Advantage.

Illustrative description has been done to the utility model above, it should explanation, in the core for not departing from the utility model In the case where the heart, it is any it is simple deformation, modification or other skilled in the art can not spend creative work etc. The protection scope of the utility model is each fallen with replacement.

Claims (11)

1. a kind of data communication module acquired for data in vacuum tank, it is characterised in that: including being set to vacuum tank Internal data acquisition module and the data communication module being set to outside vacuum tank, the vacuum tank are provided with Isotropic disk, the acquisition module and data communication module are correspondingly arranged inside and outside the transparent panel, and the two passes through light Communication carries out the transmission of data, and the data acquisition module includes independently-powered lithium battery, and is set to outside vacuum tank Portion is to the wireless charging device that charges to lithium battery.

2. a kind of data communication module acquired for data in vacuum tank according to claim 1, it is characterised in that: The data acquisition module further includes acquiring the interior photooptical data communication module of experimental data in vacuum tank and being set to Vacuum data on interior photooptical data communication module acquires terminals, interior photoelectric communication interface, vacuum data acquire terminals with Laboratory apparatus data connector is connected in vacuum tank, interior photoelectric communication interface and the outer photoelectric communication being set to outside vacuum tank The transmission of data is completed between interface by optic communication.

3. a kind of data communication module acquired for data in vacuum tank according to claim 2, it is characterised in that: The interior photooptical data communication module lies prostrate voltage mode using 0-5, converts the signal into 485 digital signals, and by signal with light Data communication module of the mode of signal to outside vacuum tank carries out data communication.

4. a kind of data communication module acquired for data in vacuum tank according to claim 1, it is characterised in that: The data acquisition module is sealed set.

5. a kind of data communication module acquired for data in vacuum tank according to claim 1, it is characterised in that: The data acquisition module uses glue sealing.

6. a kind of data communication module acquired for data in vacuum tank according to claim 1, it is characterised in that: The data communication module is provided with outer photoelectric communication interface and data collection output, the outer photoelectric communication interface and setting The transmission of data is completed by the chamber wall that optic communication passes through vacuum tank between the interior photoelectric communication interface in vacuum tank, Experimental data in vacuum tank is transferred to the computer being attached thereto by data collection output.

7. a kind of data communication module acquired for data in vacuum tank according to claim 1, it is characterised in that: Vacuum observation window is provided on the vacuum tank.

8. a kind of data communication module acquired for data in vacuum tank according to claim 7, it is characterised in that: The wireless charging device of the lithium battery is set on vacuum observation window.

9. a kind of data communication module acquired for data in vacuum tank according to claim 1, it is characterised in that: The thickness of the vacuum vessel wall is less than the communication distance between outer photoelectric communication interface and interior photoelectric communication interface.

10. a kind of data communication module acquired for data in vacuum tank according to claim 1, feature exist In: the data acquisition module uses the hot plug small package module of 850nmSFP encapsulation.

11. a kind of data communication module acquired for data in vacuum tank according to claim 1, feature exist In: the data communication module uses the hot plug small package module of 850nmSFP encapsulation.