CN112674727B - Rechargeable wireless body temperature detection device - Google Patents

Abstract

The invention discloses a rechargeable wireless body temperature detection device which comprises a sleeve, wherein a guide hole is formed in the center of the sleeve, one end of the sleeve is fixedly connected with a connecting block, a disinfection hole is formed in the connecting block, the other end of the sleeve is fixedly connected with a locking block, a rotating groove is formed in the locking block, one side of the locking block is provided with a rectangular opening, the rotating groove, the guide hole and the disinfection hole are connected with a detection rod in a sliding mode together, one end of the detection rod is fixedly connected with a detection probe, the other end of the detection rod is fixedly connected with a pressing plate, the inner wall of the disinfection hole is fixedly connected with a sponge ring, and a flow guiding device is arranged on the sleeve. According to the rechargeable wireless body temperature detection device provided by the invention, when body temperature detection is carried out, the disinfectant in the sleeve can extend into the sponge ring when the detection probe extends out of the disinfection hole through the flow guide device. The detection probe can be contacted with the disinfectant in the process of moving in the disinfection hole, so that the detection probe is disinfected and sterilized.

Description

Rechargeable wireless body temperature detection device

Technical Field

The invention relates to the technical field of body temperature detection, in particular to a rechargeable wireless body temperature detection device.

Background

With the increasing variety of body temperature detection devices, ear thermometers are increasingly being used due to convenience, accuracy, and other factors. The accurate measurement data information can be obtained only by putting the detection probe into the auditory canal for a few seconds, and the device is particularly suitable for acute and serious patients, old people, infants and the like. The detection probe is used as an important component for detecting the body temperature and is often covered with the sealing cover for protection, but as the sealing cover and the detection probe are separated, the situation that the detection probe is not timely protected by the sealing cover after being used often occurs, so that dust or bacteria are attached to the detection probe. Bacteria also exist in the auditory canal, if the detection probe is not sterilized in time after being used, the next use can cause infection to detected personnel, and symptoms are caused on the ears.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a rechargeable wireless body temperature detection device, so that the problems in the prior art are solved.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a wireless body temperature detection device of rechargeable, including the sleeve pipe, a wireless body temperature detection device sleeve pipe center of rechargeable is equipped with the guiding hole, a wireless body temperature detection device sleeve pipe one end fixed connection connecting block of rechargeable, a wireless body temperature detection device connecting block outer wall one side fixed connection display screen of rechargeable, a wireless body temperature detection device connecting block outer wall opposite side is equipped with fills electric tank, be equipped with the disinfection hole on the wireless body temperature detection device connecting block of rechargeable, a wireless body temperature detection device sleeve pipe other end fixed connection latch segment of rechargeable, be equipped with the rotation groove in the wireless body temperature detection device latch segment of rechargeable, a wireless body temperature detection device latch segment one side is equipped with the rectangle opening, a wireless body temperature detection device rectangle opening of rechargeable is linked together with the rotation groove, a wireless body temperature detection device rotation groove of rechargeable, guiding hole and disinfection hole are internal common sliding connection detection pole, a wireless body temperature detection device detection pole one end fixed connection detection probe of rechargeable, a wireless body temperature detection device detection pole other end passes rectangle opening fixed connection clamp plate, a wireless body temperature detection device rectangle clamp plate and wireless body temperature detection device correspond to set up at the wireless sponge ring of rechargeable, a wireless body temperature detection device is equipped with a sponge ring, a wireless sponge detection device is connected to the wireless body temperature detection device of rechargeable inner wall is equipped with the sponge ring wireless to the wireless body temperature detection device of rechargeable inner wall, a sponge detection device is equipped with a wireless sponge ring.

Preferably, a rechargeable wireless body temperature detection device guiding device includes annular piston plate, a rechargeable wireless body temperature detection device annular piston plate sliding connection is in the sleeve pipe, two push rods of a rechargeable wireless body temperature detection device annular piston plate upside fixed connection, every rechargeable wireless body temperature detection device push rod all passes the sleeve pipe and stretches into the rotation inslot, every rechargeable wireless body temperature detection device push rod stretches into the equal fixed connection dog of one end in the rotation inslot, first spring all cup joints on every rechargeable wireless body temperature detection device push rod, every rechargeable wireless body temperature detection device first spring all fixed connection is between dog and sleeve pipe, a rechargeable wireless body temperature detection device sleeve pipe one end is equipped with two water conservancy diversion mouths, a rechargeable wireless body temperature detection device sleeve pipe one end fixed connection two honeycomb ducts, every rechargeable wireless body temperature detection device water conservancy diversion mouth corresponds the setting with the honeycomb duct, every rechargeable wireless body temperature detection device honeycomb duct of every kind all stretches into in the sponge circle.

Preferably, each of the rechargeable wireless body temperature detection device honeycomb ducts is provided with a plurality of disinfection openings on the outer wall of the sponge ring.

Preferably, a liquid inlet is arranged on the sleeve of the rechargeable wireless body temperature detection device, and a plug is arranged in the liquid inlet of the rechargeable wireless body temperature detection device.

Preferably, the plug outer wall of the rechargeable wireless body temperature detection device is fixedly connected with the pull ring.

Preferably, each of the rechargeable wireless body temperature detection device stop blocks is provided with a rubber plate on one side.

Preferably, a second spring is sleeved on the detection rod of the rechargeable wireless body temperature detection device, and the second spring of the rechargeable wireless body temperature detection device is arranged between the pressing plate and the sleeve.

Preferably, one side of a pressing plate of the rechargeable wireless body temperature detection device is fixedly connected with a pull rod.

Preferably, one side of a pressing plate of the rechargeable wireless body temperature detection device is fixedly connected with the anti-slip ring.

The invention has the advantages that: according to the rechargeable wireless body temperature detection device, when the body temperature is detected, the detection probe can be positioned in the sponge ring of the disinfection hole when the detection probe is not used through the design of the push type, so that the contact between the detection probe and the outside is reduced, and the detection probe is protected. And the flow guiding device enables the disinfectant in the sleeve to extend into the sponge ring when the detection probe extends out of the disinfection hole. The detection probe can be contacted with the disinfectant in the process of moving in the disinfection hole, so that the detection probe is disinfected and sterilized, and the infection to detected personnel caused by residual bacteria on the detection probe is avoided.

Drawings

FIG. 1 is a schematic view of the basic structure of the present invention;

FIG. 2 is another side view of FIG. 1;

FIG. 3 is a cross-sectional view of A-A of FIG. 1;

FIG. 4 is an enlarged schematic view of the portion E of FIG. 1;

fig. 5 is an enlarged schematic view of the F portion in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1-5, the rechargeable wireless body temperature detection device provided by the invention comprises a circular sleeve 1, wherein a guide hole is formed in the center of the sleeve 1, one end of the sleeve 1 is fixedly connected with a square connecting block 2, one side of the outer wall of the connecting block 2 is fixedly connected with a display screen 21, and the display screen 21 can display real-time detected body temperature data. The other side of the outer wall of the connecting block 2 is provided with a charging groove 22, and the device can be charged through the charging groove 22. The connecting block 2 is provided with a disinfection hole 23. The circular latch segment 3 of sleeve pipe 1 other end fixed connection is equipped with in the latch segment 3 and rotates groove 31, and latch segment 3 one side is equipped with rectangular opening 32, and rectangular opening 32 is linked together with rotating groove 31. The rotating groove 31, the guide hole and the sterilizing hole 23 are coaxially arranged; the rotation groove 31, the guide hole and the disinfection hole 23 are connected with the detection rod 4 in a sliding way, one end of the detection rod 4 is fixedly connected with the detection probe 41, and the detection probe 41 extends into the disinfection hole 23 of the connecting block 2. The other end of the detection rod 4 passes through the rectangular opening 32 and is fixedly connected with the pressing plate 42, the pressing plate 42 is arranged corresponding to the rectangular opening 32, and when the pressing plate 42 is overlapped with the rectangular opening 32, the pressing plate can pass through the rectangular opening 32 and extend into the rotary groove 31. The second spring 43 is sleeved on the detection rod 4, and the second spring 43 is arranged between the pressing plate 42 and the sleeve 1. In the free state, the second spring 43 is not stressed. The pressing plate 42 is pushed so that the pressing plate 42 penetrates through the rectangular opening 32 and stretches into the rotary groove 31, and the detection rod 4 drives the detection probe 41 to stretch out of the disinfection hole 23 for body temperature detection. One side of the pressing plate 42 is fixedly connected with a pull rod 421, and after the detection probe 41 extends out of the disinfection hole 23, the second spring 43 is in a pressed state. The rotation of the pull rod 421 causes the pressing plate 42 to rotate in the rotation groove 31, and when the pressing plate 42 is no longer coincident with the rectangular opening 32, the pressing plate 42 is pressed against the lower side of the rectangular opening 32 by the reaction force of the second spring 43. The anti-slip ring 422 is fixedly connected to one side of the pressing plate 42, and the anti-slip ring 422 can enable the pressing plate 42 to be more stable when being abutted against the lower side of the rectangular opening 32, and rotation is not easy to occur any more. The inner wall of the disinfection hole 23 is fixedly connected with a sponge ring 231, and the inner wall of the sponge ring 231 can be clung to the outer wall of the detection probe 41. When the detection probe 41 is positioned in the sponge ring 231 of the disinfection hole 23, the contact between the detection probe 41 and the outside can be reduced, and the detection probe 41 is protected.

The sleeve 1 is provided with a flow guiding device for guiding the disinfectant into the sponge ring 231. The flow guiding device comprises an annular piston plate 5, the annular piston plate 5 is slidably connected in the sleeve 1, the upper side of the annular piston plate 5 is fixedly connected with two push rods 51, and each push rod 51 penetrates through the sleeve 1 and stretches into the rotating groove 31. One end of each push rod 51 extending into the rotary groove 31 is fixedly connected with a stop block 52, each push rod 51 is sleeved with a first spring 53, and each first spring 53 is fixedly connected between the stop block 52 and the sleeve 1. In the free state, the first spring 53 is not stressed. The sleeve 1 is provided with a liquid inlet near the locking block 3, a plug 6 is arranged in the liquid inlet, and the outer wall of the plug 6 is fixedly connected with a pull ring 61. The plug 6 can play a sealing role on the liquid inlet, and the ring 61 is pulled, so that the plug 6 is separated from the liquid inlet, and the disinfectant can be introduced into the sleeve 1 through the liquid inlet. After the introduction of the disinfectant is completed, the liquid inlet is sealed by a plug 6. One end of the sleeve 1, which is far away from the liquid inlet, is provided with two diversion openings 54, one end of the sleeve 1 is fixedly connected with two diversion pipes 55, each diversion opening 54 is correspondingly arranged with the diversion pipe 55, and the two diversion openings 54 are respectively communicated with the two diversion pipes 55. Each guide pipe 55 extends into the sponge ring 231, and a plurality of disinfection openings 551 are formed in the outer wall of each guide pipe 55, which is attached to the sponge ring 231. When the detecting probe 41 extends out of the sterilizing hole 23 for body temperature detection, the pressing plate 42 extends into the rotating groove 31 through the rectangular opening 32, and the pressing plate 42 contacts with the two stoppers 52 after extending into the rotating groove 31. Each stopper 52 has a rubber plate 521 on one side, and the rubber plate 521 can play a role of buffering when the pressing plate 42 contacts with the stopper 52. During the pressing of the pressing plate 42 to the stop 52, the first spring 53 is compressed, and the push rod 51 drives the annular piston plate 5 to move in the sleeve 1, so that the disinfectant in the sleeve 1 can flow into the guide tube 55 from the guide port 54, and then infiltrates into the sponge ring 231 from the disinfection port 551. The inner wall of the sponge ring 231 is tightly attached to the outer wall of the detection probe 41, so that the detection probe 41 can be contacted with the disinfectant permeated into the sponge ring 231, and the effects of disinfecting and sterilizing the detection probe 41 are achieved. When the pull rod 421 is rotated, the detection probe 41 can rotate in the sponge ring 231, and the effects of sterilizing and disinfecting the detection probe 41 are further improved. When the pressing plate 42 is not overlapped with the rectangular opening 32, and the pressing plate 42 is tightly pressed against the lower side of the rectangular opening 32, the pressing plate 42 is gradually separated from the stop block 52, and the push rod 51 drives the annular piston plate 5 to restore to the original position under the reaction force of the first spring 53, so that the disinfectant is not actively permeated into the sponge ring 231.

In use, the platen 42 is pushed into the rotating groove 31 from the rectangular opening 32 so that the detection rod 4 drives the detection probe 41 to protrude from the sterilization hole 23. The tie rod 42 is rotated again, and when the pressing plate 42 is no longer coincident with the rectangular opening 32, the pressing plate 42 is fixed in the rotating groove 31 of the lock block 3. Body temperature detection is then performed by the detection probe 41 protruding out of the sterilization aperture 23. In the process that the pressing plate 42 is pushed into the rotary groove 31 from the rectangular opening 32, the guide device can infiltrate the sterilizing liquid in the sleeve 1 into the sponge ring 231 of the sterilizing hole 23, so that the detecting probe 41 can be contacted with the sterilizing liquid in the moving process of the sterilizing hole 23, and the detecting probe 41 is sterilized and disinfected, and the infection to detected personnel caused by residual bacteria on the detecting probe 41 is avoided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a rechargeable wireless body temperature detection device, includes sleeve pipe (1), its characterized in that: the utility model discloses a disinfection device, including sleeve pipe (1), connecting block (2) outer wall one side fixed connection display screen (21), connecting block (2) outer wall opposite side is equipped with fills electric tank (22), be equipped with disinfection hole (23) on connecting block (2), sleeve pipe (1) other end fixed connection latch segment (3), be equipped with rotation groove (31) in latch segment (3), latch segment (3) one side is equipped with rectangle opening (32), rectangle opening (32) are linked together with rotation groove (31), guiding hole and disinfection hole (23) coaxial setting, common sliding connection detection pole (4) in rotation groove (31), guiding hole and the disinfection hole (23), detection probe (41) are connected to detection pole (4) one end fixed connection, detection pole (4) other end passes rectangle opening (32) fixed connection clamp plate (42), clamp plate (42) correspond with rectangle opening (32) and set up, disinfection collar (23) inner wall fixed connection collar (231) can be hugged closely in outer wall (231), a flow guiding device for guiding disinfectant into the sponge ring (231) is arranged on the sleeve (1);

the guide device comprises an annular piston plate (5), the annular piston plate (5) is slidably connected in a sleeve (1), two push rods (51) are fixedly connected to the upper side of the annular piston plate (5), each push rod (51) penetrates through the sleeve (1) to extend into a rotating groove (31), one end of each push rod (51) extending into the rotating groove (31) is fixedly connected with a stop block (52), each push rod (51) is sleeved with a first spring (53), each first spring (53) is fixedly connected between the stop block (52) and the sleeve (1), two guide openings (54) are formed in one end of the sleeve (1), two guide pipes (55) are fixedly connected to one end of the sleeve, each guide opening (54) is correspondingly arranged with the guide pipe (55), and each guide pipe (55) extends into a sponge ring (231).

2. The rechargeable wireless body temperature detection device of claim 1, wherein: and a plurality of disinfection openings (551) are arranged on the outer wall of each guide pipe (55) which is adhered to the sponge ring (231).

3. The rechargeable wireless body temperature detection device of claim 1, wherein: the sleeve (1) is provided with a liquid inlet, and a plug (6) is arranged in the liquid inlet.

4. A rechargeable wireless body temperature sensing device according to claim 3, wherein: the outer wall of the plug (6) is fixedly connected with a pull ring (61).

5. The rechargeable wireless body temperature detection device of claim 1, wherein: and a rubber plate (521) is arranged on one side of each stop block (52).

6. The rechargeable wireless body temperature detection device of claim 1, wherein: the detection rod (4) is sleeved with a second spring (43), and the second spring (43) is arranged between the pressing plate (42) and the sleeve (1).

7. The rechargeable wireless body temperature detection device of claim 1, wherein: one side of the pressing plate (42) is fixedly connected with a pull rod (421).

8. The rechargeable wireless body temperature detection device of claim 1, wherein: one side of the pressing plate (42) is fixedly connected with an anti-slip ring (422).

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