CN212379664U - Temperature measurement intelligent glasses with smart mobile phone combination - Google Patents

Abstract

The utility model provides a temperature measurement smart glasses that combines with smart mobile phone. The temperature measurement intelligent glasses combined with the intelligent mobile phone comprise a microprocessor, a transmission interface, an infrared thermal imager, a near-eye display, an installation transverse frame, a glasses frame, a nose bracket, two glasses legs and two lenses; the mounting transverse frame is connected with one end of each of the two glasses legs, the top end of the glasses frame is connected with the mounting transverse frame, the two lenses are arranged in the glasses frame, one end of the nose bracket is connected with the mounting transverse frame, and the other end of the nose bracket is positioned between the two lenses; the infrared thermal imager is arranged at one end of one glasses leg; the near-eye display is arranged at one end of the other of the glasses legs and covers one of the lenses. The utility model provides a temperature measurement smart glasses with smart mobile phone combination can be connected with the cell-phone end, is convenient for in time upload image data to high in the clouds server.

Description

Temperature measurement intelligent glasses with smart mobile phone combination

Technical Field

The utility model relates to a temperature measurement technical field especially relates to a temperature measurement intelligence glasses that combines with smart mobile phone.

Background

The infrared imaging technology is a high and new technology with a wide prospect. Electromagnetic waves longer than 0.78 microns are outside the red color of the visible spectrum and are called infrared, also known as infrared radiation. It means an electromagnetic wave having a wavelength of 0.78 to 1000 μm, wherein a portion having a wavelength of 0.78 to 2.0 μm is called near infrared and a portion having a wavelength of 2.0 to 1000 μm is called thermal infrared.

Most of infrared temperature measuring guns in the current market are manufactured according to an infrared temperature measuring technology, however, most of infrared temperature measuring guns are handheld, are not convenient to carry and do not have a data transmission function.

Therefore, it is necessary to provide a pair of temperature measurement smart glasses combined with a smart phone to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a temperature measurement intelligence glasses that combine with smart mobile phone that possess good data transmission function.

In order to solve the technical problem, the temperature measurement intelligent glasses combined with the intelligent mobile phone provided by the utility model comprises a microprocessor, a transmission interface, an infrared thermal imager, a near-to-eye display, an installation cross frame, a picture frame, a nose bracket, two glasses legs and two lenses; the mounting transverse frame is connected with one end of each of the two glasses legs, the top end of the glasses frame is connected with the mounting transverse frame, the two lenses are arranged in the glasses frame, one end of the nose bracket is connected with the mounting transverse frame, and the other end of the nose bracket is positioned between the two lenses;

the infrared thermal imager is arranged at one end of one glasses leg;

the near-eye display is arranged at one end of the other glasses leg and covers one lens;

the transmission interface is arranged on any one of the glasses legs;

the infrared thermal imager is used for detecting the body temperatures of a plurality of human bodies within a preset time and outputting image signals according to detection results; the near-eye display is used for receiving the image signal, outputting an infrared thermal image of each human body according to the image signal and displaying the body temperature value of each human body;

the transmission interface is used for data connection with an external smart phone;

the microprocessor is used for converting the displayed infrared thermography and the body temperature value of the human body into image data and transmitting the image data to the smart phone through the transmission interface so that the image data can be transmitted to a cloud server through the smart phone.

Preferably, the temple comprises a first temple piece and a second temple piece, the first temple piece being hinged to the second temple piece, wherein the mounting cross-frame connects one end of both first temple pieces.

Preferably, the transmission interface is disposed at an end of the second temple piece away from the first temple piece.

Preferably, the temperature monitoring device further comprises an alarm, and when any body temperature value of the human body is larger than a preset temperature threshold value, the alarm sends out an alarm signal.

Preferably, the system further comprises a positioning module, wherein the positioning module is used for positioning in real time and generating position data.

Preferably, the system further comprises a time module, wherein the time module is used for timing and generating time data.

Preferably, the infrared thermal imaging device further comprises a memory, wherein the memory is used for storing the infrared thermal image of the human body, the body temperature value of the human body, the position data and the time data.

Preferably, the cloud server further comprises a wireless transmission module, and the wireless transmission module is used for transmitting the data stored in the memory to the cloud server.

Preferably, the glasses comprise also goggle lenses, two ends of the goggle lenses are respectively connected with the glasses legs, and the goggle lenses cover the two lenses.

Preferably, two windows are respectively arranged at two ends of the goggle lens, and the infrared thermal imager and the near-eye display respectively penetrate through one window.

Compared with the prior art, the utility model provides a temperature measurement smart glasses with smart mobile phone combination has following beneficial effect:

the utility model provides a temperature measurement smart glasses with smart mobile phone combination is convenient for wear, need not direct contact, just can directly measure and show the body temperature of the people that the user saw directly, can effectually prevent the virus propagation.

The microprocessor is used for converting the displayed infrared thermography and the body temperature value of the human body into image data and transmitting the image data to the smart phone through the transmission interface so that the image data can be transmitted to a cloud server through the smart phone.

Drawings

FIG. 1 is a design and construction diagram of the remote middle flux infrared imaging non-contact temperature measurement intelligent glasses provided by the present invention;

fig. 2 is a schematic structural view of a first embodiment of the remote middle-flux infrared imaging non-contact temperature measurement smart glasses provided by the present invention;

FIG. 3 is a schematic diagram of a burst structure of the remote mid-flux infrared imaging non-contact temperature-measuring smart glasses shown in FIG. 2;

FIG. 4 is a schematic structural view of the nasal cradle shown in FIG. 3;

FIG. 5 is a schematic structural view of another angle of the remote mid-flux infrared imaging non-contact temperature measurement smart glasses shown in FIG. 2;

fig. 6 is a schematic structural view of a second embodiment of the remote middle-flux infrared imaging non-contact temperature measurement smart glasses provided by the present invention;

fig. 7 is an enlarged schematic view of a portion a shown in fig. 6.

Reference numbers in the figures:

2-infrared thermal imager, 3-near-eye display, 4-alarm, 5-memory, 6-positioning module, 7-time module, 8-wireless transmission module, 9-microprocessor, 9 a-transmission interface;

11-temple, 12-mounting transverse frame, 13-frame, 14-lens, 15-nose bracket and 16-goggles lens;

111-a first temple piece, 112-a second temple piece;

151-main body part, 152-buckling part, 153-nose support part and 154-bearing part;

112 a-connecting piece, 112 b-ear hanging piece and 112 c-rubber sleeve;

1121-connecting block, 1122-braking groove, 1123-braking block, 1124-friction plate, 1125-screw rod and 1126-turning block.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

First embodiment

Referring to fig. 1-5, in a first embodiment of the present invention, a pair of temperature measuring smart glasses 100 combined with a smart phone includes:

the device comprises a microprocessor 9, a transmission interface 9a, an infrared thermal imager 2, a near-eye display 3, a mounting transverse frame 12, a spectacle frame 13, a nose bracket 15, two spectacle legs 11 and lenses 14; the mounting transverse frame 12 is connected with one end of each of the two temples 11, the top end of the spectacle frame 13 is connected with the mounting transverse frame 12, the two lenses 14 are arranged in the spectacle frame 13, one end of the nose bracket 15 is connected with the mounting transverse frame 12, and the other end of the nose bracket 15 is positioned between the two lenses 14;

the infrared thermal imager 2 is arranged at one end of one of the glasses legs 11;

the near-eye display 3 is arranged at one end of the other of the temples 11, and the near-eye display 3 covers one of the lenses 14;

the transmission interface 9a is arranged on any one of the temples 11;

the infrared thermal imager 2 is used for detecting the body temperatures of a plurality of human bodies within a preset time and outputting image signals according to the detection; the near-eye display 3 is used for receiving the image signal, outputting an infrared thermal image of each human body according to the image signal and displaying the body temperature value of each human body;

the transmission interface 9a is used for data connection with an external smart phone;

the microprocessor 9 is configured to convert the displayed infrared thermography and the body temperature value of the human body into image data, and transmit the image data to the smart phone through the transmission interface 9a, so that the image data is transmitted to a cloud server through the smart phone.

In this embodiment, the smart phone may be in data connection with the transmission interface 9a through a USB data line.

The microprocessor 9 is configured to convert the displayed infrared thermography and the body temperature value of the human body into image data, encode the image data into a JPEG image format, and finally transmit the image data to a smart phone (a mobile phone end) through a USB cable by using a UVC protocol; and the smart phone transmits the received image data to a cloud server.

In this embodiment, the preset time may be one minute, two minutes, three minutes, or other time intervals, and the user may adjust the preset time according to actual conditions.

The infrared thermal imager 2 is based on the infrared imaging technology in the prior art to realize functions, and utilizes an infrared detector, an optical imaging objective lens and an optical scanning system to receive the infrared radiation energy distribution pattern of a detected object and reflect the infrared radiation energy distribution pattern to a photosensitive element of the infrared detector, an optical scanning mechanism is arranged between the optical system and the infrared detector to scan the infrared thermal image of the detected object and focus the infrared thermal image on a unit or a light splitting detector, the infrared radiation energy is converted into an electric signal by the detector, and the infrared thermal image is displayed by a television screen or a monitor after amplification processing and conversion or standard video signals.

Referring to fig. 5 again, the temple 11 includes a first temple piece 111 and a second temple piece 112, the first temple piece 111 is hinged to the second temple piece 112, wherein the mounting cross frame 12 connects one end of the two first temple pieces 111, so that the user can fold the first temple piece 111 and the second temple piece 112 conveniently, and the space required for accommodating the glasses is saved when the user does not wear the glasses.

As a preferable mode of this embodiment, the transmission interface 9a is disposed at an end of the second temple piece 112 far from the first temple piece 111.

Referring to fig. 1 again, as a preferred mode of the present embodiment, the temperature measuring smart glasses 100 combined with the smart phone may further include an alarm 4, and when the body temperature of any one of the human bodies is greater than a preset temperature threshold, the alarm 4 sends an alarm signal.

It can be understood that the preset temperature threshold may be 37 ℃ of the normal body temperature value of the human body, so as to timely find the suspected patient whose temperature exceeds the normal body temperature value of the human body.

The temperature measuring smart glasses 100 combined with the smart phone may further include a positioning module 6, where the positioning module 6 is configured to perform real-time positioning and generate position data. The positioning module 6 can be a GPS locator, so as to obtain the position information of the body temperature measurement in real time.

The thermometric smart glasses 100 in combination with a smartphone may also include a time module 7, where the time module 7 is used to time and generate time data. The time module 7 may be an electronic timer, so as to realize the time information when measuring the body temperature.

The temperature measurement smart glasses 100 combined with the smart phone may further include a memory 5, where the memory 5 is configured to store the infrared thermal image of the human body, the body temperature value of the human body, the position data, and the time data, so as to facilitate storage of the temperature measurement data.

Further, the temperature measurement smart glasses 100 combined with the smart phone may further include a wireless transmission module 8, where the wireless transmission module 8 is configured to transmit the data stored in the memory 5 to a cloud server, so as to facilitate storage, remote downloading, and data analysis.

Referring to fig. 2 again, the wireless transmission module 8 is a wireless transmitter with an antenna, and is disposed on a temple 11.

Referring to fig. 2 again, the temperature measuring smart glasses 100 combined with the smart phone may further include a pair of goggles 16, two ends of each goggle 16 are respectively connected to the corresponding temple 11, the goggles 16 cover the two lenses 14, and the goggles 16 may be used for shielding sand wind, strong light and ultraviolet rays, so as to ensure that a user wearing the glasses has a better visual environment.

Two windows are respectively arranged at two ends of the goggles 16, the infrared thermal imager 2 penetrates through one window, and the near-eye display 3 faces the other window. The two windows are arranged to facilitate installation of the infrared thermal imager 2 and the near-eye display 3.

Referring to fig. 2 and 4, the nose bracket 15 includes a main body 151, a fastening portion 152 and a nose pad portion 153, the fastening portion 152 and the nose pad portion 153 are respectively disposed at the top end and the bottom end of the main body 151, the fastening portion 152 is detachably connected to the mounting cross frame 12, the nose pad portion 153 is located between the two lenses 14, and the fastening portion 152 is detachably connected to the mounting cross frame 12, so that a user can conveniently detach and mount the glasses.

The nose bracket 15 further includes a bearing portion 154, the bearing portion 154 is disposed at the bottom end of the main body portion 151, the bearing portion 154 and the nose pad portion 153 are respectively located at two sides of the main body portion 151, and the bearing portion 154 is configured to support the goggle lens 16, so as to achieve stable installation of the goggle lens 16.

Compared with the prior art, the utility model provides a temperature measurement smart glasses 100 with smart mobile phone combination has following beneficial effect:

the utility model provides a temperature measurement smart glasses 100 with smart mobile phone combination is convenient for wear, need not direct contact, just can directly measure and show the body temperature of the people that the user saw directly, can effectually prevent the virus propagation.

The microprocessor 9 is configured to convert the displayed infrared thermography and the body temperature value of the human body into image data, and transmit the image data to the smart phone through the transmission interface 9a, so that the image data is transmitted to a cloud server through the smart phone.

Second embodiment

Referring to fig. 6-7, the second embodiment of the present invention further provides another temperature measuring smart glasses 200 combined with a smart phone.

In an optional manner of this embodiment, the temperature measuring smart glasses 200 combined with the smart phone may include the infrared thermal imager 2, the near-eye display 3, the alarm 4, the memory 5, the positioning module 6, the time module 7, the wireless transmission module 8, the microprocessor 9, and the transmission interface 9a in the first implementation.

The second temple piece 112 comprises a connecting piece 112a, a lug piece 112b and a rubber sleeve 112c, wherein the connecting piece 112a is hinged with the first temple piece 111; the rubber sleeve 112c is fixedly installed between the connecting member 112a and the ear hanging member 112 b.

A connecting block 1121 is fixedly installed on the ear hanging piece 112b, one end of the connecting block 1121, which is far away from the ear hanging piece 112b, sequentially extends through the rubber sleeve 112c and the connecting piece 112a, and the connecting block 1121 and the connecting piece 112a are connected in a sliding manner;

a braking groove 1122 is formed in the top of the connecting block 1121, a braking block 1123 is arranged in the braking groove 1122, a friction plate 1124 is fixedly installed on the inner wall of the bottom of the braking groove 1122, and the bottom of the braking block 1123 is in contact with the friction plate 1124.

A screw 1125 is installed on the connecting piece 112a in a threaded manner, a rotating block 1126 is fixedly installed at the top end of the screw 1125, a hexagonal rotating groove is formed in the top of the rotating block 1126, and the bottom end of the screw 1125 is fixedly connected with the top of the brake block 1123.

A positioning installation groove is formed in one side of the connecting piece 112a close to the ear hanging piece 112b, and one side of the connecting block 1121 far away from the connecting piece 112a extends into the positioning installation groove.

A limiting groove is formed in the inner wall of the bottom of the positioning installation groove, a limiting block is fixedly installed at the bottom of the connecting block 1121, and the limiting block is connected with the inner wall of the limiting groove in a sliding mode.

The working principle of the temperature measuring smart glasses 200 combined with the smart phone provided by the embodiment is as follows:

when the length of second temple piece 112 needs to be adjusted to suit different people;

only a hexagonal wrench is inserted into a hexagonal groove on the turning block 1126, the hexagonal wrench is turned, the hexagonal wrench drives the turning block 1126 to rotate, the turning block 1126 drives the screw rod 1125 to rotate, the screw rod 1125 drives the brake block 1123 to rotate and move upwards at the same time, and when the brake block 1123 is in contact with the inner wall of the top of the positioning installation groove, the brake block 1123 is separated from the friction plate 1124 at the moment;

at this time, the ear hanging piece 112b can be pulled, the ear hanging piece 112b drives the connecting block 1121 to move, and meanwhile, the ear hanging piece 112b stretches or compresses the rubber sleeve 112c, so that the length of the second temple piece 112 can be adjusted, and after the length of the second temple piece 112 is adjusted, the rotating block 1126 is rotated reversely, so that the brake block 1123 is in contact with the friction plate 1124 again, and the adjusted fixing work of the second temple piece 112 is completed;

by adjusting the length of second temple piece 112, adjusted second temple piece 112 can be adapted to hang on the ear of the wearer, thereby reducing the chance that the entire eye will fall off the wearer's eye.

In another optional manner of this embodiment, the temperature-measuring smart glasses 200 combined with the smart phone may not include the infrared thermal imager 2, the near-eye display 3, the alarm 4, the memory 5, the positioning module 6, the time module 7, the wireless transmission module 8, the microprocessor 9, and the transmission interface 9a in the first embodiment, and only needs to satisfy that other elements formed by the temperature-measuring smart glasses 200 combined with the smart phone are not obstructed, and the length of the second temple piece 112 is adjusted to be suitable for different people.

In yet another optional manner of this embodiment, the thermometric smart glasses 200 combined with the smart phone may also include an electronic device or a functional module in the prior art, so as to replace the infrared thermal imager 2, the near-eye display 3, the alarm 4, the memory 5, the positioning module 6, the time module 7, the wireless transmission module 8, the microprocessor 9, and the transmission interface 9a in the first embodiment, and implement the same functions of the above modules. Only the electronic device or the functional module in the prior art needs to be satisfied, and the length of the second temple piece 112 is adjusted to be suitable for the effect of different people without interfering with other elements formed by the temperature measurement smart glasses combined with the smart phone.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (10)

1. A temperature measurement intelligent glasses combined with an intelligent mobile phone is characterized by comprising a microprocessor, a transmission interface, an infrared thermal imager, a near-eye display, a mounting cross frame, a glasses frame, a nose bracket, two glasses legs and two lenses; the mounting transverse frame is connected with one end of each of the two glasses legs, the top end of the glasses frame is connected with the mounting transverse frame, the two lenses are arranged in the glasses frame, one end of the nose bracket is connected with the mounting transverse frame, and the other end of the nose bracket is positioned between the two lenses;

the infrared thermal imager is arranged at one end of one glasses leg;

the near-eye display is arranged at one end of the other glasses leg and covers one lens;

the transmission interface is arranged on any one of the glasses legs;

the infrared thermal imager is used for detecting the body temperatures of a plurality of human bodies within a preset time and outputting image signals according to detection results; the near-eye display is used for receiving the image signal, outputting an infrared thermal image of each human body according to the image signal and displaying the body temperature value of each human body;

the transmission interface is used for data connection with an external smart phone;

the microprocessor is used for converting the displayed infrared thermography and the body temperature value of the human body into image data and transmitting the image data to the smart phone through the transmission interface so that the image data can be transmitted to a cloud server through the smart phone.

2. The thermometric smart glasses according to claim 1 in combination with a smartphone, wherein said temple comprises a first temple piece and a second temple piece, said first temple piece being hinged to said second temple piece, wherein said mounting cross-piece connects one end of both of said first temple pieces.

3. The pair of smart glasses for temperature measurement combined with a smart phone of claim 2, wherein the transmission interface is disposed at an end of the second temple piece away from the first temple piece.

4. The pair of smart glasses according to claim 1, further comprising an alarm, wherein the alarm sends an alarm signal when the body temperature of any one of the human bodies is greater than a preset temperature threshold.

5. The thermometric smart glasses in combination with a smartphone of claim 1, further comprising a positioning module for real-time positioning and generating location data.

6. The thermometric smart glasses according to claim 5 in combination with a smartphone, further comprising a time module, the time module configured to time and generate time data.

7. The pair of smart glasses according to claim 6, further comprising a memory for storing the infrared thermography of the human body, the body temperature value of the human body, the location data and the time data.

8. The pair of smart glasses according to claim 7, further comprising a wireless transmission module, wherein the wireless transmission module is configured to transmit data stored in the memory to a cloud server.

9. The pair of smart glasses for measuring temperature, in combination with a smart phone according to any one of claims 1-8, further comprising a pair of goggles, both ends of which are respectively connected to the temples, and the goggles cover both of the glasses.

10. The pair of smart glasses for measuring temperature combined with a smart phone according to claim 9, wherein two windows are respectively opened at two ends of the goggle lens, the infrared thermal imager penetrates through one of the windows, and the near-eye display is disposed toward the other window.

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