CN215114890U - Sensor testing device - Google Patents

Abstract

The utility model relates to a baby's incubator technical field discloses a sensor testing arrangement, include: the temperature detection device comprises a shell and a plurality of temperature detection devices fixedly arranged on the shell; the temperature detection device comprises an upper pressing block and a lower pressing block which are fixedly connected through a fixing piece, and a temperature sensor which is rotatably arranged between the upper pressing block and the lower pressing block; the temperature sensor is characterized in that the body end of the temperature sensor is limited by the upper pressing block and the lower pressing block, the probe end of the temperature sensor extends out of the upper pressing block and the lower pressing block, the temperature sensor is limited by the upper pressing block and the lower pressing block and can rotate to stop at any position, the rotatable adjusting angle of the temperature sensor is 90 degrees, and the two rotation limit positions of the temperature sensor are respectively vertical to the shell and parallel to the shell. In this way, the utility model discloses temperature measurement easy operation, convenience, the temperature value precision of testing out is high, and after finishing using, a plurality of testing arrangement can superpose and place, and area is little.

Description

Sensor testing device

Technical Field

The utility model relates to a baby's incubator technical field especially relates to a sensor testing arrangement.

Background

When using an infant incubator or the like, it is often necessary to first measure the temperature inside the incubator body. Generally, 5 thermometers are arranged in the box body to measure whether the temperature in the box body is qualified or not.

When measuring the temperature inside the incubator body, the thermometer is placed at a different position because each point needs to be measured at a different position. Often a specially sized stainless steel holder is placed according to the measurement requirements and then a thermometer is placed over the holder. Therefore, when observing and recording data, workers need to penetrate through the warm box acrylic glass, which is inconvenient; and a plurality of stainless steel supports can not be stacked after the use, which occupies space.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a sensor testing arrangement, can solve the inconvenient and testing arrangement of temperature test in the infant incubator box and place loaded down with trivial details problem.

In order to solve the technical problem, the utility model discloses a technical scheme be: there is provided a sensor testing device comprising: the temperature detection device comprises a shell and a plurality of temperature detection devices fixedly arranged on the shell; the temperature detection device comprises an upper pressing block and a lower pressing block which are fixedly connected through a fixing piece, and a temperature sensor which is rotatably arranged between the upper pressing block and the lower pressing block; the temperature sensor is characterized in that the body end of the temperature sensor is limited by the upper pressing block and the lower pressing block, the probe end of the temperature sensor extends out of the upper pressing block and the lower pressing block, the temperature sensor is limited by the upper pressing block and the lower pressing block and can rotate to stop at any position, the rotatable adjusting angle of the temperature sensor is 90 degrees, and the two rotation limit positions of the temperature sensor are respectively perpendicular to the shell and parallel to the shell.

Preferably, the body end of the temperature sensor is spherical, and the probe end of the temperature sensor is in a shape of a straight rod; the middle part of the upper pressing block is provided with a round hole for the probe end of the temperature sensor to vertically penetrate through, the lower end face of the upper pressing block is provided with an upper arc-shaped groove matched with the appearance structure of the body end of the temperature sensor, and the upper arc-shaped groove is communicated with the round hole; one side of the upper pressing block is provided with a linear upper notch groove, the upper notch groove is communicated with the round hole and the upper arc-shaped groove, and the size of the upper notch groove can be used for a probe end of the temperature sensor to pass through; the upper end surface of the lower pressing block is also provided with a lower arc-shaped groove matched with the appearance structure of the temperature sensor body end, and the lower arc-shaped groove is right opposite to the upper arc-shaped groove; the upper end surface of the lower pressing block is also provided with a lower notch groove for rotatably accommodating the temperature sensor, the lower notch groove is right opposite to the upper notch groove, one end of the lower notch groove is communicated with the lower arc-shaped groove, and the other end of the lower notch groove penetrates through the lower pressing block; and a supporting structure part for supporting and limiting the probe end of the temperature sensor is also formed between the lower notch groove and the lower arc-shaped groove.

Preferably, a wiring groove communicated with the lower arc-shaped groove is further formed in the lower end face of the lower pressing block.

Preferably, the wiring groove is 180 ° different from the lower notch groove.

Preferably, the temperature detection devices are five, four of the five temperature detection devices are respectively located at four right-angle ends of the shell, and one temperature detection device is located in the middle of the shell.

Preferably, the housing includes a main body and a stacking portion, the temperature detection device is fixedly mounted on a lower surface of the main body, the stacking portion surrounds the main body, the lower surface of the stacking portion is lower than the lower surface of the main body, and a height difference between the lower surface of the stacking portion and the lower surface of the main body is greater than or equal to a height of the temperature detection device.

Preferably, a strip-shaped hole is formed in the body part of the shell corresponding to each temperature detection device, one end of each strip-shaped hole passes through the central line of each temperature detection device, and the probe end of the temperature sensor passes through the strip-shaped hole; the body part of the shell is also provided with an operation hole communicated with the other end of the strip-shaped hole.

Preferably, the fixing part is a screw and a nut, and the screw sequentially penetrates through the body part of the shell, the upper pressing block and the lower pressing block and then is in threaded connection with the nut.

The utility model has the advantages that: the utility model discloses can adopt temperature sensor to replace original thermometer to measure, temperature sensor can connect the electron digital display and come the observed data, need not see through the ya keli glass observation of baby's incubator for it is more convenient that the temperature measurement is known, and the temperature value degree of accuracy that tests out is high. Adopt the casing to replace original stainless steel support to can let a plurality of testing arrangement superpose after using, area is little. Temperature sensor when rotating 90 extreme position, perpendicular to casing, can carry out temperature measurement this moment, temperature sensor when rotating 0 extreme position, be on a parallel with the casing, can be accomodate this moment, and its operation convenient to use can not appear measuring position incorrect scheduling problem. The temperature sensor, the upper pressing block and the lower pressing block are simple in structural design and convenient to process, and the wiring groove in the lower pressing block is convenient for a wire of the temperature sensor to pass through. The mounting is screw and nut, and fixed connection is simple, and spare part is few, not only can realize the fixed connection of briquetting and briquetting down, can also realize the fixed connection of temperature-detecting device and casing simultaneously to through the cooperation of nut and screw, the distance between briquetting and the last briquetting down can be easy control, make temperature sensor and these friction between the two obtain guaranteeing, thereby realize that temperature sensor's position can obtain fixed purpose after the rotation regulation.

Drawings

Fig. 1 is a schematic view of an installation structure of a sensor testing device according to the present invention;

fig. 2 is a schematic structural view of the temperature detection device in the sensor testing device according to the present invention after rotating 90 degrees;

fig. 3 is a schematic structural view of the temperature detection device rotating an arbitrary angle in the sensor testing device of the present invention;

FIG. 4 is a schematic view of the exploded structure of the temperature detecting device of the present invention;

FIG. 5 is a schematic structural view of the temperature detecting device of the present invention rotating 90 degrees;

FIG. 6 is a schematic structural view of the temperature detecting device of the present invention rotating 0 degree;

fig. 7 is a schematic structural view of the temperature detecting device according to the present invention at a rotation angle;

FIG. 8 is a schematic view of a first three-dimensional structure of the middle and lower pressing block of the present invention;

fig. 9 is a schematic view of a three-dimensional structure of the middle and lower pressing block of the present invention.

The parts in the drawings are numbered as follows: 1. a housing; 11. a body portion; 111. a strip-shaped hole; 112. an operation hole; 12. a stacking section; 2. a temperature sensor; 21. a body end; 22. a probe end; 3. pressing the blocks; 31. an upper arc-shaped groove; 32. an upper notch groove; 4. pressing the block; 41. a lower arc-shaped groove; 42. a lower notch groove; 43. a wiring groove; 5. a screw; 6. and a nut.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1 to 9, an embodiment of the present invention includes:

a sensor testing device comprising: the temperature detection device comprises a shell 1 and five temperature detection devices fixedly mounted on the shell 1, wherein four temperature detection devices of the five temperature detection devices are respectively positioned at four right-angle ends of the shell 1, and the other temperature detection device is positioned in the middle of the shell 1. Temperature-detecting device includes briquetting 3 and briquetting 4 down through mounting fixed connection to and rotatable setting is at last briquetting 3 and the temperature sensor 2 between briquetting 4 down, temperature sensor 2 receives the restriction of last briquetting 3 and briquetting 4 is rotatable to be stopped at the optional position down, temperature sensor 2's rotatable angle of adjustment is 90, two extreme position of temperature sensor 2 pivoted are the perpendicular to respectively casing 1 with be on a parallel with casing 1.

One end of the temperature sensor 2 is spherical, and the end is defined as a body end 21; the other end of the temperature sensor 2 is in the shape of a straight rod, which is defined as a probe end 22 (detection end). The temperature sensor 2 can detect the temperature in the box body, and can display temperature values through a data display (not shown in the figure) connected with the temperature sensor, so that a worker can visually know the temperature value of each position point in the box body.

The middle part of the upper pressing block 3 is provided with a round hole for the probe end 22 of the temperature sensor 2 to vertically penetrate through, the lower end face of the upper pressing block 3 is provided with an upper arc-shaped groove 31, and the upper arc-shaped groove 31 is communicated with the round hole so as to be matched with the structure of the body end 21 of the temperature sensor 2. Go up briquetting 3's one side and seted up the last breach groove 32 of a style of calligraphy, go up breach groove 32 accesss to go up briquetting 3's middle part, with the round hole with go up arc groove 31 and be linked together, the groove width of going up breach groove 32 is greater than the external diameter of temperature sensor 2 probe end 22 to when rotating temperature sensor 2, the corresponding probe end 22 of dodging temperature sensor 2 supplies it to pass through.

A lower arc-shaped groove 41 is formed in the upper end face of the lower pressing block 4, the lower arc-shaped groove 41 is right opposite to the upper arc-shaped groove 31, and the lower arc-shaped groove 41 can support the body end 21 of the temperature sensor 2 in a matched mode; still seted up on the up end of briquetting 4 down with just relative lower breach groove 42 in last breach groove 32, the one end of breach groove 42 down with arc groove 41 communicates with each other down, the other end of breach groove 42 runs through briquetting 4 down, breach groove 42 can hold down temperature sensor 2's probe end 22 to can rotate when sensor testing arrangement is idle, take in temperature sensor 2, temperature sensor 2's probe end 22 can be arranged in correspondingly in breach groove 42 down. A supporting structure part for supporting and limiting the rotation position of the probe end 22 of the temperature sensor 2 is further formed between the lower notched groove 42 and the lower arc-shaped groove 41, and when the probe end 22 of the temperature sensor 2 abuts against the supporting structure part, the temperature sensor 2 is parallel to the housing 1. The lower pressing block 4 is further provided with a wiring groove 43, the difference between the wiring groove 43 and the lower notch groove 42 is 180 degrees, and the wiring groove 43 can facilitate the lead of the temperature sensor 2 to pass through.

The housing 1 includes a main body 11 and a stacking portion 12, the temperature detecting device is fixedly mounted on a lower surface of the main body 11, the stacking portion 12 surrounds the main body 11, a lower surface of the stacking portion 12 is lower than the lower surface of the main body 11, and a height difference between the lower surface of the stacking portion 12 and the lower surface of the main body 11 is greater than (or equal to) a height of the temperature detecting device, so as to facilitate stacking of a plurality of sensor testing devices in an overlapping manner. A strip-shaped hole 111 is formed in the body part 11 corresponding to each temperature detection device, and one end of the strip-shaped hole 111 passes through the central line of the temperature detection device, so that the probe end 22 of the temperature sensor 2 can pass through and the rotation adjustment of the temperature sensor 2 is facilitated; the body 11 is further provided with an operation hole 112 communicated with the other end of the strip-shaped hole 111, and the operation hole is a rectangular hole so as to facilitate the insertion of fingers and the rotation of the probe end 22 of the temperature sensor 2.

The fixing parts are specifically a screw 5 and a nut 6, and the screw 5 sequentially penetrates through the body part 11, the upper pressing block 3 and the lower pressing block 4 of the shell 1 and then is in threaded connection with the nut 6. This fixed connection is simple, and spare part is few, not only can realize briquetting 3 and the fixed connection of briquetting 4 down, can also realize temperature-detecting device and casing 1's fixed connection simultaneously to through the cooperation of nut 6 and screw 5, the distance between briquetting 4 and the last briquetting 3 under can easy control, make temperature sensor 2 and these frictional force between the two obtain guaranteeing, thereby realize that temperature sensor 2's position can obtain fixed purpose after the rotation regulation.

The installation step: the upper pressing block 3 is arranged below the shell 1 and tightly attached to the shell, then the probe end 22 of the temperature sensor 2 penetrates through the upper pressing block 3 and the shell 1, the lower pressing block 4 correspondingly and tightly attaches to the upper pressing block 3, and finally the screw 5 sequentially penetrates through the shell 1, the upper pressing block 3 and the lower pressing block 4 and is in threaded connection with the nut 6. It should be noted that, when the nut 6 is screwed with the screw 5, the friction between the temperature sensor 2 and the upper and lower pressing blocks 3 and 4 is adjusted to enable the angle adjustment of the temperature sensor 2. Five temperature detection devices are installed in this way.

The operation and use steps are as follows: the temperature sensor 2 is moved to a position perpendicular to the housing 1 (or any angle position inclined higher than the housing 1), so that the temperature detection can be carried out. After the use is finished, the temperature sensor 2 is rotated to a position parallel to the shell 1, the temperature sensor 2 is stored, and at the moment, the sensor testing device can be stacked.

The utility model discloses can adopt temperature sensor 2 to replace original thermometer to measure, temperature sensor 2 can connect the electron digital display and come observed data, need not see through the ya keli glass observation of baby's incubator for it is more convenient that the temperature measurement is known, and the temperature value degree of accuracy that tests out is high. Adopt casing 1 to replace original stainless steel support to can let a plurality of testing arrangement superpose after using, area is little. Temperature sensor 2 when rotating 90 extreme position, perpendicular to casing 1, can carry out temperature measurement this moment, and temperature sensor 2 when rotating 0 extreme position, be on a parallel with casing 1, can be accomodate this moment, and its operation convenient to use can not appear measuring the incorrect scheduling problem in position. The temperature sensor 2, the upper pressing block 3 and the lower pressing block 4 are simple in structural design and convenient to process.

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

Claims (8)

1. A sensor testing device, comprising: the temperature detection device comprises a shell and a plurality of temperature detection devices fixedly arranged on the shell; the temperature detection device comprises an upper pressing block and a lower pressing block which are fixedly connected through a fixing piece, and a temperature sensor which is rotatably arranged between the upper pressing block and the lower pressing block; the temperature sensor is characterized in that the body end of the temperature sensor is limited by the upper pressing block and the lower pressing block, the probe end of the temperature sensor extends out of the upper pressing block and the lower pressing block, the temperature sensor is limited by the upper pressing block and the lower pressing block and can rotate to stop at any position, the rotatable adjusting angle of the temperature sensor is 90 degrees, and the two rotation limit positions of the temperature sensor are respectively perpendicular to the shell and parallel to the shell.

2. A sensor testing device according to claim 1, wherein: the body end of the temperature sensor is spherical, and the probe end of the temperature sensor is in a linear rod shape; the middle part of the upper pressing block is provided with a round hole for the probe end of the temperature sensor to vertically penetrate through, the lower end face of the upper pressing block is provided with an upper arc-shaped groove matched with the appearance structure of the body end of the temperature sensor, and the upper arc-shaped groove is communicated with the round hole; one side of the upper pressing block is provided with a linear upper notch groove, the upper notch groove is communicated with the round hole and the upper arc-shaped groove, and the size of the upper notch groove can be used for a probe end of the temperature sensor to pass through; the upper end surface of the lower pressing block is also provided with a lower arc-shaped groove matched with the appearance structure of the temperature sensor body end, and the lower arc-shaped groove is right opposite to the upper arc-shaped groove; the upper end surface of the lower pressing block is also provided with a lower notch groove for rotatably accommodating the temperature sensor, the lower notch groove is right opposite to the upper notch groove, one end of the lower notch groove is communicated with the lower arc-shaped groove, and the other end of the lower notch groove penetrates through the lower pressing block; and a supporting structure part for supporting and limiting the probe end of the temperature sensor is also formed between the lower notch groove and the lower arc-shaped groove.

3. A sensor testing device according to claim 2, wherein: and a wiring groove communicated with the lower arc-shaped groove is also formed in the lower end face of the lower pressing block.

4. A sensor testing device according to claim 3, wherein: the difference between the wiring groove and the lower notch groove is 180 degrees.

5. A sensor testing device according to claim 1, wherein: the temperature detection device is provided with five temperature detection devices, four temperature detection devices of the five temperature detection devices are respectively positioned at four right-angle ends of the shell, and the other temperature detection device is positioned in the middle of the shell.

6. A sensor testing device according to claim 1 or 5, wherein: the casing comprises a body part and a stacking part, the temperature detection device is fixedly installed on the lower surface of the body part, the stacking part surrounds the periphery of the body part, the lower surface of the stacking part is lower than the lower surface of the body part, and the height difference between the lower surface of the stacking part and the lower surface of the body part is larger than or equal to the height of the temperature detection device.

7. A sensor testing device according to claim 6, wherein: a strip-shaped hole is formed in the body part of the shell corresponding to each temperature detection device, one end of each strip-shaped hole passes through the central line of each temperature detection device, and the probe end of each temperature sensor passes through the strip-shaped hole; the body part of the shell is also provided with an operation hole communicated with the other end of the strip-shaped hole.

8. A sensor testing device according to claim 6, wherein: the fixing piece is a screw and a nut, and the screw penetrates through the body part of the shell, the upper pressing block and the lower pressing block in sequence and then is in threaded connection with the nut.

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