CN109029803A - Sensor and sensing device with same - Google Patents

Abstract

A sensing device is suitable for being installed on a fixing plate and comprises a sensor and a fixing unit. The sensor comprises a shell, a sensing module and a lamp signal module. The sensing module is arranged in the shell and used for sensing the piece to be detected so as to generate measurement data, and the sensing module generates a corresponding instruction set according to the measurement data. The light signal module is arranged on the shell and electrically connected with the sensing module, can be driven by the instruction set to emit light, and comprises a front light-emitting surface and a side light-emitting surface, wherein the front light-emitting surface and the side light-emitting surface respectively face different directions. The fixing unit is used for fixing the sensor on the fixing plate, and light emitted by the front light-emitting surface and the side light-emitting surface of the lamp signal module can be exposed out of the fixing plate through the fixing unit.

Description

Sensor and sensing device with the sensor

Technical field

The present invention relates to a kind of sensors, a kind of sensor more particularly to light-emitting surface with multiple and different directions and Sensing device with the sensor.

Background technique

In order to maintain the normal operation of machine (such as mechanical arm or vacuum chuck etc.), need to measure and monitoring machine Internal flow flow or pressure, therefore there are many existing flowmeter or pressure gauges on the market for application, these are existing Sensing device usually have one be located at leading flank warning lamp, user can pass through watch the warning lamp to learn sensing device The machine condition (such as whether fluid flow valve in machine or pressure value are abnormal etc.) measured.Since the warning lamp is Positioned at the leading flank of sensing device, if therefore user not in the front of sensing device and on the right side of sensing device or left side etc. When other visual angles, it user will occur must be moved to immediately ahead of sensing device just watch warning lamp, even make User can not watch the situation of warning lamp completely, cause user that can not conveniently and clearly watch lamp shown by warning lamp Number.

Summary of the invention

The present invention's wherein one is designed to provide a kind of sensor, and the light-emitting surface with multiple and different directions can be for using Person watches from multiple and different visual angles, to promote the convenience of user's viewing.

In addition, the wherein another object of the present invention is to provide and a kind of can be installed on a fixed plate and with the sensor Sensing device.

Sensor of the present invention is suitable for measuring a part to be measured, which is comprising a shell, a sensing module and a lamp Number module.The sensing module is set in the shell sensing module meeting to sense the part to be measured to generate a metric data A corresponding instruction set is generated according to the metric data.The cresset module is set to the shell and electrically connects with the sensing module It connects, which can be driven by the instruction set and be shone, which includes light-emitting surface and side light-emitting surface before one, should Preceding light-emitting surface and the side light-emitting surface are respectively facing different directions.

In some state sample implementations, which is set to the hair in the transparent lamp shade including a transparent lamp shade and one Light unit, the transparent lamp shade have the preceding light-emitting surface and the side light-emitting surface, the luminescence unit can be driven by the instruction set and towards this Transparent lamp shade shines, and light is made to be dissipated into outside via the preceding light-emitting surface and the side light-emitting surface.

Sensor of the present invention, the transparent lamp shade are in around shape and around the shell outside.

Sensor of the present invention, the preceding light-emitting surface are substantially orthogonal with the side light-emitting surface.

Sensor of the present invention, for the transparent lamp shade in box shape, which has a left face that shines, one on the contrary In the left side shine face the right side shine face, shine on one face and one in contrast on this luminous face lower light-emitting surface portion.

Sensor of the present invention, the transparent lamp shade are in round frame shape, which is in circular ring shape.

Sensor of the present invention, the preceding light-emitting surface are flushed with the leading flank of the shell.

Sensor of the present invention, the luminescence unit can produce the light of one first color and the light of one second color, should Second color is different from first color, which has one to measure numerical value, built-in one first default value of the sensing module, When the measurement numerical value is less than first default value, which drives the luminescence unit to issue the light of first color, when this When measuring numerical value and being greater than or equal to first default value, which drives the luminescence unit to issue the light of second color.

Sensor of the present invention, the luminescence unit can also generate the light of a third color, which is different from First color and second color, the sensing module built-in one is greater than the second default value of first default value, when the measurement When numerical value is greater than or equal to first default value and is less than second default value, the instruction set drive the luminescence unit issue this The light of second colors, when the measurement numerical value is greater than or equal to second default value, which drives the luminescence unit to issue should The light of third color.

Sensor of the present invention, the transparent lamp shade have one first light transmission block and one with the first light transmission block phase The second adjacent light transmission block, the luminescence unit have a first luminescence component group and one being located in the first light transmission block The second luminescence component group in the second light transmission block, the instruction set have multiple instruction, which can It is emitted beam by a wherein order-driven for the instruction set, and the second luminescence component group can be by the wherein another of the instruction set Order-driven and emit beam, and the respective capable of emitting at least one color of the first luminescence component group and the second luminescence component group Light.

Sensor of the present invention, the first light transmission block and the second light transmission block are neighbouring to be connect and defines jointly The preceding light-emitting surface and the side light-emitting surface out.

Sensor of the present invention, the first light transmission block and the second light transmission block or so are adjacent and define jointly The preceding light-emitting surface and the side light-emitting surface out.

The present invention have sensor sensing device be adapted to be mounted to a fixed plate, the sensing device include a sensor and One fixed cell.The sensor includes a shell, a sensing module and a cresset module.The sensing module is set to the shell It is interior to sense the part to be measured to generate a metric data, which can generate a corresponding finger according to the metric data Enable collection.The cresset module is set to the shell and is electrically connected with the sensing module, which can be driven by the instruction set And shine, which includes light-emitting surface and side light-emitting surface before one, and the preceding light-emitting surface and the side light-emitting surface are respectively facing not It is equidirectional.The fixed cell is to be fixed on the fixed plate for the sensor, the preceding light-emitting surface of the cresset module and side hair The light that smooth surface is issued can pass through fixed cell diverging and be revealed in outside the fixed plate.

Sensing device of the present invention, the preceding light-emitting surface are flushed with the leading flank of the shell.

Sensing device of the present invention, the fixed cell include a bonding frame for covering at the shell, and at least one with should The fixing piece of bonding frame engaging, the bonding frame of the fixed cell and the fixing piece clamp the fixed plate jointly, the bonding frame be by Made by light-transmitting materials.

Sensing device of the present invention, also includes a preceding protection cap being set on front side of the bonding frame, which is As made by light-transmitting materials.

Sensing device of the present invention, the cresset module are set in the transparent lamp shade with a transparent lamp shade and one Luminescence unit, the transparent lamp shade have the preceding light-emitting surface and the side light-emitting surface, which can be driven and court by the instruction set The transparent lamp shade shines, and light is made to be dissipated into outside via the preceding light-emitting surface and the side light-emitting surface.

Sensing device of the present invention, the transparent lamp shade are in around shape and around the shell outside.

Sensing device of the present invention, the preceding light-emitting surface are substantially orthogonal with the side light-emitting surface.

Sensing device of the present invention, the transparent lamp shade are in box shape, which has the left face, a phase of shining Instead in the left side shine face the right side shine face, shine on one face and one in contrast on this luminous face lower light-emitting surface portion.

Sensing device of the present invention, the transparent lamp shade are in round frame shape, which is in circular ring shape.

Sensing device of the present invention, the luminescence unit can produce the light of one first color and the light of one second color, Second color is different from first color, which has one to measure numerical value, built-in one first default of the sensing module Value, when the measurement numerical value is less than first default value, which drives the luminescence unit to issue the light of first color, when When the measurement numerical value is greater than or equal to first default value, which drives the luminescence unit to issue the light of second color.

Sensing device of the present invention, the luminescence unit can also generate the light of a third color, and the third color is different In first color and second color, the sensing module built-in one is greater than the second default value of first default value, when the amount Numerical value is surveyed more than or equal to first default value and when being less than second default value, which drives the luminescence unit to issue should The light of second color, when the measurement numerical value is greater than or equal to second default value, which drives the luminescence unit to issue The light of the third color.

Sensing device of the present invention, the transparent lamp shade have one first light transmission block and one with the first light transmission block The second adjacent light transmission block, the luminescence unit have a first luminescence component group being located in the first light transmission block, and One is located at the second luminescence component group in the second light transmission block, which has multiple instruction, the first luminescence component group It can be emitted beam by a wherein order-driven for the instruction set, and the second luminescence component group can be by the wherein another of the instruction set One order-driven and emit beam, and the respective capable of emitting at least one face of the first luminescence component group and the second luminescence component group The light of color.

Sensing device of the present invention, the first light transmission block and the second light transmission block is neighbouring connects and common boundary Make the preceding light-emitting surface and the side light-emitting surface.

Sensing device of the present invention, the adjacent and common boundary of the first light transmission block and the second light transmission block or so Make the preceding light-emitting surface and the side light-emitting surface.

Sensing device of the present invention, the bonding frame have a first guide-lighting block for covering at the first light transmission block, And one cover at the second light transmission block the second guide-lighting block.

The present invention at least has effects that following: preceding light-emitting surface and side by the cresset module for being respectively facing different directions Light-emitting surface allows user that can watch the cresset module from multiple and different visual angles, to promote the convenience of user's viewing.

Detailed description of the invention

Fig. 1 is a stereogram exploded view, illustrates that the one first of sensor of the present invention and the sensing device with the sensor is real Apply example；

Fig. 2 is a perspective view, illustrates a first embodiment of the sensing device；

Fig. 3 is a perspective view, illustrates one of first embodiment sensor；

Fig. 4 is the perspective view that visual angle is different from Fig. 3；

Fig. 5 is a schematic cross-sectional view, illustrates an one of sensing module of the sensor of first embodiment sensing unit；

Fig. 6 is a schematic cross-sectional view, illustrates a cresset module of the sensor of the first embodiment；

Fig. 7 omits protection cap before the one of the first embodiment similar to a perspective view of Fig. 2；

Fig. 8 is a perspective view, illustrates a second embodiment of sensor of the present invention and the sensing device with the sensor；

Fig. 9 is a schematic cross-sectional view, illustrates an one of sensing module of second embodiment sensing unit；And

Figure 10 is a perspective view, illustrates the shell and another state sample implementation of the cresset module.

Specific embodiment

Before the present invention is described in detail, it shall be noted that in the following description content, similar component is with identical Number indicate.

Refering to fig. 1 and Fig. 2, the first embodiment of sensor of the present invention and the sensing device with the sensor is a sensing Device is adapted to be mounted to a fixed plate 8, which has a hole location, and the sensing device is fixed comprising a sensor 10, one Protection cap 7 before unit 6 and one.

Refering to Fig. 3 to Fig. 5, which is suitable for measuring a part (not shown) to be measured, which includes a shell Body 1, a sensing module 2 and a cresset module 3.In the present embodiment, which is slightly in square, and the shell 1 has one Leading flank 11, one is connected to the trailing flank around 12 rear side of face around face 12 and one around 11 periphery of leading flank 13.The trailing flank 13 is formed with a connection aperture 131.The sensing module 2 be set in the shell 1 to sense the part to be measured with A metric data is generated, which can generate a corresponding instruction set according to the metric data.In the present embodiment, The part to be measured is the pipeline for connecting a machine, which is to sense the pressure of the part to be measured to generate the measurement Data.The sensing module 2 has a sensing unit 21 and one is electrically connected at the main control unit of the sensing unit 21 (figure is not Show), which there is a pressure sensing circuit plate 211, one for being formed with a perforation 211a to be covered in perforation 211a Wherein side and the pressure-sensing chip 212 being electrically connected with the pressure sensing circuit plate 211 and one in a tubular form and it is set to The diversion pipe 213 of the other side perforation 211a, the diversion pipe 213 are revealed in the shell 1, and transmission one is installed in the trailing flank 13 Connection aperture 131 connector (not shown) be connected between the part to be measured and the diversion pipe 213, enable the diversion pipe 213 with The part to be measured is connected.Make the part to be measured and the feeling of stress through connector, diversion pipe 213 and the pressure sensing circuit plate 211 Survey 212 position pressure of chip is consistent, and the pressure which senses the part to be measured simultaneously generates a metric data, and passes The defeated metric data to the main control unit, main control unit generates a corresponding instruction set according to the metric data.

Refering to Fig. 3 to Fig. 6, which is set to the shell 1 and is electrically connected with the sensing module 2, the cresset mould Block 3 can be driven by the instruction set and be shone, which includes light-emitting surface 311 and side light-emitting surface 312 before one, the preceding hair Smooth surface 311 and the side light-emitting surface 312 are respectively facing different directions.In the present embodiment, which has a transparent lamp shade 31 and one it is set to luminescence unit 32 in the transparent lamp shade 31, which there is the preceding light-emitting surface 311 and the side to send out The main control unit of smooth surface 312, the luminescence unit 32 and sensing module 2 is electrically connected, can be driven by the instruction set and thoroughly towards this Light lampshade 31 shines, and light is made to be dissipated into outside, also, the transparent lamp shade 31 via the preceding light-emitting surface 311 and the side light-emitting surface 312 Be in the present embodiment it is integrally formed in a manner of extra quality injection molding with the shell 1,31 part of transparent lamp shade is using translucent Material forming, and the shell 1 uses nontransparent material forming, and the luminescence unit 32 is mounted to the neighbour in the shell 1 It is bordering on a circuit board 33 of the transparent lamp shade 31.It should be noted that above are only a kind of reality of the structure of the cresset module 3 Mode is applied, it should not be as limitation.

In the present embodiment, which flushes with the leading flank 11 of the shell 1, the preceding light-emitting surface 311 and the side Light-emitting surface 312 is substantially orthogonal, and the side light-emitting surface 312 also be flushed with that should surround face 12, and the transparent lamp shade 31 is in side Frame-shaped, that is to say, that the transparent lamp shade 31 is in around shape and around 1 outside of shell.Also, the side light-emitting surface 312 has One left luminous face 312a, one shine the luminous face 312b in the right side, the luminous face 312c on one of face 312a in contrast to left side, and One in contrast on this luminous face 312c lower light-emitting surface portion 312d.The transparent lamp shade 31 has one first light transmission block 313, and One is located at top side with the second adjacent light transmission block 314 of the first light transmission block 313, the first light transmission block 313, and this Two light transmission blocks 314 are located at bottom side, the first light transmission block 313 and the second light transmission block 314 is neighbouring connects and jointly Define the preceding light-emitting surface 311 and the side light-emitting surface 312.The luminescence unit 32 has one to be located in the first light transmission block 313 The first luminescence component group 321 and one be located at the second luminescence component group 322 in the second light transmission block 314.The cresset module 3 also have the light blocking component group (not shown) between the first light transmission block 313 and the second light transmission block 314, the resistance Optical assembly group can stop light and to prevent the light of 321 sending of the first luminescence component group via the second light transmission block 314 appear, and to prevent the light of 322 sending of the second luminescence component group from appearing via the first light transmission block 313.This refers to Enable collection that there is multiple instruction, which can be emitted beam by a wherein order-driven for the instruction set, and The second luminescence component group 322 can be emitted beam by wherein another order-driven of the instruction set, the first luminescence component group 321 and the second luminescence component group 322 respectively capable of emitting red light or green light, in other words, the first luminescence component group 321 And the light of the respective capable of emitting at least one color of the second luminescence component group 322.Illustrate herein, it in other embodiments, should Transparent lamp shade 31 can not also divide into two light transmission blocks, or divide into more than two light transmission blocks, and the luminescence unit 32 can also only have a luminescence component group, or with corresponding light transmission number of blocks and be located in above-mentioned light transmission block Luminescence component group.

The main control unit can generate a first switch signal according to the metric data and a second switch signal is transmitted to One control computer (not shown), the first switch signal and the second switch signal are via the signal transmission hole 121 (see figure 1) and a signal transmission line (not shown) is transmitted to the control computer, the control computer according to the first switch signal and The second switch signal controls the switch of one first machine (not shown) and the switch of one second machine (not shown) respectively, and should Instruction set can change with the first switch signal and the second switch signal.When the main control unit first is opened by this When closing signal makes the control computer control first machine unlatching, which can control simultaneously by the instruction set should First luminescence component group 321 issues green light, when the main control unit controls the control computer by the first switch signal First machine close when, the main control unit can be controlled simultaneously by the instruction set the first luminescence component group 321 issue it is red Light.When the main control unit makes the control computer control second machine by the second switch signal to be opened, the master control Unit processed can control the second luminescence component group 322 by the instruction set simultaneously and issue green light, when the main control unit is by this When second switch signal makes the control computer control second machine closing, which simultaneously can be by the instruction set It controls the second luminescence component group 322 and issues feux rouges.Whereby, user can be through the cresset module 3 of viewing sensor 10 Front, left and right so that connect the switching case for learning first machine and second machine simultaneously.

The sensor 10 further includes a leading flank 11 for being set to the shell 1 and is electrically connected at the aobvious of the main control unit Show module 4 and an input module 5, which can be to show the information of sensor 10, which can be for user Operation, and to input data to the main control unit.But the sensor 10 can not also include the display module 4 and the input Module 5, is not limited.

Refering to fig. 1, Fig. 2, Fig. 6 and Fig. 7, the fixed cell 6 is to be fixed on the fixed plate 8, the lamp for the sensor 10 The light that preceding light-emitting surface 311 and the side light-emitting surface 312 of number module 3 are issued can pass through the fixed cell 6 diverging and be revealed in this Outside fixed plate 8.The fixed cell 6 includes one covering at the bonding frame 61 of the shell 1, at least one consolidating with what the bonding frame 61 engaged Determine part 62, in the present embodiment the quantity of the fixing piece 62 be two, but in other state sample implementations the fixing piece 62 quantity It may be one or three or more, be not limited system.The bonding frame 61 of the fixed cell 6 and the fixing piece 62 clamp jointly The fixed plate 8, the bonding frame 61 are as made by light-transmitting materials, therefore the light that the cresset module 3 is issued can connect from this Frame 61 is closed to appear.In the present embodiment, which has a first guide-lighting block for covering at the first light transmission block 313 611 and one cover at the second light transmission block 314 the second guide-lighting block 612, the first guide-lighting block 611 and this Have a light blocking component group (not shown) between two guide-lighting blocks 612, the light blocking component group can stop light and to prevent this first The light that light transmission block 313 exhales enters the second guide-lighting block 612 via the first guide-lighting block 611, and prevent this The light that two light transmission blocks 314 exhale enters the first guide-lighting block 611 via the second guide-lighting block 612.The preceding protection Lid 7 is set to 61 front side of bonding frame to prevent the leading flank 11 of the sensor 10 from directly being hit, and the preceding protection cap 7 It is as made by light-transmitting materials, so that the light of 3 sending of cresset module can be appeared via the preceding protection cap 7, and can also be through Information shown by the display module 4 is observed as the preceding protection cap 7.It illustrates herein, the fixed cell 6 of the present embodiment is only A kind of preferable state sample implementation focuses on the fixed cell 6 to be shielded from the cresset module 3 being translucent material, and using makes The light that the cresset module 3 issues should not be limited outside capable of being revealed in by the fixed cell 6 with the present embodiment.

Refering to Fig. 8 and Fig. 9, the second embodiment of sensor of the present invention and the sensing device with the sensor is a sensing Device 10 is suitable for measuring a part (not shown) to be measured, and in the present embodiment, which is the pipeline for having fluid flowing inside one Unit, the sensor 10 include a shell 1, a sensing module 2, a cresset module 3, a display module 4 and an input module 5. In the present embodiment, which is slightly in cuboid.The sensing module 2 is set in the shell 1 to sense the part to be measured to produce A raw metric data, the sensing module 2 can generate a corresponding instruction set according to the metric data.In the present embodiment, should Sensing module 2 is pressure to sense the part to be measured and flow to generate the metric data, which has a sense Survey unit 21 and one be electrically connected at the sensing unit 21 main control unit (not shown), which has one to be formed There is the pressure flow sensing circuit plate 214, one of an a perforation 214a and groove 214b to be covered in perforation 214a and is located at that this is recessed The opposing face of slot 214b forming face is simultaneously buried with the pressure-sensing chip 212, one of the pressure flow sensing circuit plate 214 electric connection Set on groove 214b and with the pressure flow sensing circuit plate 214 be electrically connected sensing flux chip 215 and one inside The guiding subassembly 216 of a flow passage unit 216a is formed, flow passage unit 216a has a fluid flowed into for the fluid of part to be measured The fluid outlet 216c that entrance 216b and one is flowed out for the fluid of part to be measured, and flow passage unit 216a and perforation 214a and Groove 214b connection, the fluid inlet 216b and fluid outlet 216c of flow passage unit 216a are revealed in the shell 1 and connect Pass through the part to be measured.The pressure and flow and one metric data of generation of fluid in the sensing unit 21 sensing part to be measured, and The metric data is transmitted to the main control unit, which generates a corresponding instruction set according to the metric data.

This second embodiment is roughly the same with the cresset module 3 of the first embodiment, unlike, in second embodiment In, cresset module 3 is in rectangular frame-shaped, and the first light transmission block 313 is that left and right is adjacent with the second light transmission block 314, the One light transmission block 313 is located at left side and the second light transmission block 314 is located at right side.

In addition to this, which can produce the light of one first color and the light of one second color, second face For form and aspect different from first color, which has one to measure numerical value, built-in one first default value of sensing module 2, when this When measuring numerical value less than first default value, which drives the light of the luminescence unit 32 sending first color, when the amount When surveying numerical value more than or equal to first default value, which drives the light of the luminescence unit 32 sending second color.It should Luminescence unit 32 can also generate the light of a third color, which is different from first color and second color, should Sensing module 2 built-in one is greater than the second default value of first default value, when the measurement numerical value is greater than or equal to first default When being worth and being less than second default value, which drives the light of the luminescence unit 32 sending second color, when the measurement number When value is greater than or equal to second default value, which drives the light of the luminescence unit 32 sending third color.

For particularly, in the present embodiment, the light of first color is green, and the light of second color is orange, and The light of the third color is red, which is the pressure value of the part to be measured, which also has another measurement Numerical value, which is the flow value of the part to be measured, and the pressure value is shown in the left side of the display module 4, and The flow value is shown in the right side of the display module 4, the also built-in third default value of the sensing module 2 and one to be greater than the third silent Recognize the 4th default value of value, first default value, second default value, third default value and the 4th default value be user by The input module 5 is input to the numerical value of the main control unit, and when which is less than first default value, the instruction set is wherein One order-driven the first luminescence component group 321 issues green light, when the pressure value is greater than or equal to first default value but small When second default value, one of order-driven of the instruction set the first luminescence component group 321 issues orange light, when the pressure When force value is greater than or equal to second default value, one of order-driven of the instruction set the first luminescence component group 321 hair Feux rouges out, and the flow value be less than the third default value when, this second luminous group of the another one order-driven of the instruction set Part group 322 issues green light, when the flow value is greater than or equal to the third default value but is less than four default values, the instruction set Another one order-driven the second luminescence component group 322 issue orange light, when to be greater than or equal to the 4th silent for the flow value When recognizing value, the another one order-driven of the instruction set the second luminescence component group 322 issues feux rouges.Whereby, user can To learn the pressure of the part to be measured simultaneously in turn through 3 front of cresset module, top and the lower section of watching the sensor 10 The measurement situation of power and flow.

It should be noted that the function mode of the cresset module 3 of above-described embodiment is only some state sample implementations, in other realities It applies in aspect, which can also be by the mode of cresset flashing or other known cresset mode annunciations users, this hair Bright focuses on to produce by the sensing module 2 with the cresset module 3 of the preceding light-emitting surface 311 and the side light-emitting surface 312 Raw instruction set changes the cresset issued, should not be limited with above-described embodiment.

In addition, the first luminescence component group 321 and the second luminescence component group 322 in the above-described embodiments is all one The LED light of multiple color light can be issued, but in other state sample implementations, the first luminescence component group 321 and second hair Optical assembly group 322 is also possible to be made of multiple LED light that can issue multiple color light or multiple energy issue different face The LED light of coloured light line is formed, and is not limitation with above-described embodiment.

In addition, the cresset module 3 is all surrounded on 1 ground of shell and is set to the shell 1 in above-described embodiment, but at other In state sample implementation, which may also be only a strip or any there is preceding light-emitting surface 311 and the side to shine Any form in face 312, is not limited.

Refering to Fig. 3, Fig. 8 and Figure 10,1 shape of shell and cresset module 3 of above-described embodiment and the cresset matched Module 3 is only some state sample implementations, and the leading flank 11 of the shell 1 is square in this first embodiment, in second implementation The leading flank 11 of the shell 1 is rectangle in example, but the leading flank 11 of the shell 1 is also possible to circle, and the front side of the shell 1 Face 11 can also all be replaced with the preceding light-emitting surface 311 of the luminescence unit 32, as shown in Figure 10, shell 1 of the invention and lamp Another state sample implementation of number module 3, in such state sample implementation, which is in round frame shape, which is in Circular ring shape, and the preceding light-emitting surface 311 replaces the leading flank of the shell 1.In addition to this, the leading flank 11 of the shell 1 is also possible to Other kind of polygon, is not limited.

In conclusion sensor of the present invention and the sensing device with the sensor, by being respectively facing different directions The preceding light-emitting surface 311 and side light-emitting surface 312 of the cresset module 3 allow user that can watch the cresset mould from multiple and different visual angles Block 3, to promote the convenience of user's viewing.And instruction generated according to the metric data issued by the main control unit Collection drives the corresponding metric data of the cresset module 3 to make different cresset variations, makes user easier from the lamp Number module 3 obtains the information of measurement situation.Further, since the bonding frame 61 of the fixed cell 6 and the preceding protection cap 7 are light transmission Material, the light for issuing the cresset module 3 are appeared via the bonding frame 61 of the fixed cell 6 and the preceding protection cap 7. Therefore the purpose of the present invention can be reached really.

Only as described above, only embodiments of the present invention are all when the range that cannot limit implementation of the invention with this It is the simple equivalent changes and modifications made according to the claims in the present invention and description, all still belongs to the invention patent and cover Range in.

Claims (27)

1. A sensor, suitable for measuring a DUT; It is characterized in that, the sensor comprises: a shell; A sensing module is arranged in the casing to sense the DUT to generate measurement data, and the sensing module will generate a corresponding instruction set according to the measurement data; and A light signal module is arranged on the casing and electrically connected with the sensing module. The light signal module can be driven by the instruction set to emit light. The light signal module includes a front light-emitting surface and a side light-emitting surface. The front light-emitting surface and the side light-emitting surface face different directions respectively. 2. The sensor according to claim 1, characterized in that: the light signal module comprises a light-transmitting lampshade, and a light-emitting unit arranged in the light-transmitting lampshade, the light-transmitting lampshade has the front light-emitting surface and On the side light-emitting surface, the light-emitting unit can be driven by the instruction set to emit light toward the light-transmitting lampshade, so that the light can be diffused to the outside through the front light-emitting surface and the side light-emitting surface. 3. The sensor according to claim 2, wherein the light-transmitting lampshade is in a ring shape and surrounds the outer periphery of the casing. 4. The sensor according to claim 3, wherein the front light-emitting surface and the side light-emitting surface are substantially perpendicular to each other. 5. The sensor according to claim 4, wherein the light-transmitting lampshade is in the shape of a square frame, the side light-emitting surface has a left light-emitting surface, a right light-emitting surface opposite to the left light-emitting surface, and an upper light-emitting surface. a light-emitting face, and a lower light-emitting face opposite to the upper light-emitting face. 6 . The sensor according to claim 4 , wherein the light-transmitting lampshade is in the shape of a circular frame, and the side light-emitting surface is in the shape of a ring. 7. The sensor according to any one of claims 2-6, wherein the front light-emitting surface is flush with the front side of the casing. 8. The sensor according to any one of claims 2 to 6, wherein the light-emitting unit can generate light of a first color and light of a second color, and the second color is different from the light of the The first color, the measurement data has a measurement value, the sensing module has a built-in first default value, and when the measurement value is smaller than the first default value, the instruction set drives the light emitting unit to send out the first default value. color of light, when the measured value is greater than or equal to the first default value, the instruction set drives the light emitting unit to emit light of the second color. 9. The sensor according to claim 8, characterized in that: the light emitting unit can also generate light of a third color, the third color is different from the first color and the second color, the sensing A second default value greater than the first default value is built into the module, and when the measured value is greater than or equal to the first default value and less than the second default value, the instruction set drives the light emitting unit to emit the second color When the measured value is greater than or equal to the second default value, the instruction set drives the light emitting unit to emit light of the third color. 10. The sensor according to any one of claims 2 to 6, characterized in that: the light-transmitting lampshade has a first light-transmitting area, and an adjacent to the first light-transmitting area The second light-transmitting block, the light-emitting unit has a first light-emitting component group located in the first light-transmitting block, and a second light-emitting component group located in the second light-transmitting block, and the instruction set has A plurality of instructions, the first light-emitting component group can be driven by one of the instructions in the instruction set to emit light, and the second light-emitting component group can be driven by another instruction in the instruction set to emit light, and the first Each of the light-emitting component group and the second light-emitting component group can emit light of at least one color. 11 . The sensor according to claim 10 , wherein the first light-transmitting block and the second light-transmitting block are adjacent to each other up and down and jointly define the front light-emitting surface and the side light-emitting surface. 12 . The sensor according to claim 10 , wherein the first light-transmitting area and the second light-transmitting area are adjacent to the left and right sides and jointly define the front light-emitting surface and the side light-emitting surface. 13. A sensing device with a sensor, adapted to be mounted on a fixed plate; characterized in that, the sensing device comprises: A sensor, suitable for measuring a DUT, the sensor includes a shell, A sensing module is arranged in the housing to sense the DUT to generate a measurement data, the sensing module will generate a corresponding instruction set according to the measurement data, and A light signal module is arranged on the casing and electrically connected with the sensing module. The light signal module can be driven by the instruction set to emit light. The light signal module includes a front light-emitting surface and a side light-emitting surface. The front light-emitting surface and the side light-emitting surface are respectively facing different directions; and A fixing unit is used to fix the sensor on the fixing plate, and the light emitted by the front light-emitting surface and the side light-emitting surface of the light module can be diffused and exposed outside the fixing plate through the fixing unit. 14. The sensing device with sensors according to claim 13, wherein the front light-emitting surface is flush with the front side of the housing. 15. The sensing device with a sensor according to claim 14, wherein the fixing unit comprises a joint frame covering the housing, and at least one fixing member engaged with the joint frame, The joint frame of the fixing unit clamps the fixing plate together with the fixing piece, and the joint frame is made of light-transmitting material. 16. The sensing device with a sensor according to claim 15, characterized in that: the sensing device with a sensor further comprises a front protective cover arranged on the front side of the joint frame, the front protective cover It is made of light-transmitting material. 17. The sensing device with a sensor according to claim 16, characterized in that: the light signal module has a light-transmitting lampshade, and a light-emitting unit arranged in the light-transmitting lampshade, and the light-transmitting lampshade has For the front light-emitting surface and the side light-emitting surface, the light-emitting unit can be driven by the command set to emit light toward the light-transmitting lampshade, so that the light can be diffused to the outside through the front light-emitting surface and the side light-emitting surface. 18 . The sensing device with a sensor according to claim 17 , wherein the light-transmitting lampshade is in a ring shape and surrounds the outer periphery of the housing. 19 . 19. The sensing device with sensors according to claim 18, wherein the front light-emitting surface and the side light-emitting surface are substantially perpendicular to each other. 20. The sensing device with a sensor according to claim 19, characterized in that: the light-transmitting lampshade is in the shape of a square frame, and the side light-emitting surface has a left light-emitting surface and a right light-emitting surface opposite to the left light-emitting surface. A light-emitting face, an upper light-emitting face, and a lower light-emitting face opposite the upper light-emitting face. 21. The sensing device with a sensor according to claim 19, wherein the light-transmitting lampshade is in the shape of a round frame, and the side light-emitting surface is in the shape of a ring. 22. The sensing device with a sensor according to any one of claims 17 to 21, characterized in that: the light emitting unit can generate light of a first color and light of a second color, the second The color is different from the first color, the measurement data has a measurement value, the sensing module has a built-in first default value, and when the measurement value is less than the first default value, the instruction set drives the light emitting The unit emits light of the first color, and when the measured value is greater than or equal to the first default value, the instruction set drives the light emitting unit to emit light of the second color. 23. The sensing device with a sensor according to claim 22, characterized in that: the light emitting unit can also generate a light of a third color, and the third color is different from the first color and the second color. color, the sensing module has a built-in second default value greater than the first default value, and when the measured value is greater than or equal to the first default value and less than the second default value, the instruction set drives the light emitting unit emit light of the second color, and when the measured value is greater than or equal to the second default value, the instruction set drives the light emitting unit to emit light of the third color. 24. The sensing device with a sensor according to any one of claims 17 to 21, wherein the light-transmitting lampshade has a first light-transmitting area, and a light-transmitting area corresponding to the first light-transmitting area The second light-transmitting block adjacent to the block, the light-emitting unit has a first light-emitting component group located in the first light-transmitting block, and a second light-emitting component group located in the second light-transmitting block , the instruction set has a plurality of instructions, the first light-emitting component group can be driven by one of the instructions in the instruction set to emit light, and the second light-emitting component group can be driven by another instruction in the instruction set to emit light , and each of the first light-emitting component group and the second light-emitting component group can emit light of at least one color. 25. The sensing device with a sensor according to claim 24, characterized in that: the first light-transmitting block and the second light-transmitting block are adjacent up and down and jointly define the front light-emitting surface and the The side light emitting surface. 26. The sensing device with a sensor according to claim 24, characterized in that: the first light-transmitting block and the second light-transmitting block are adjacent to the left and right and jointly define the front light-emitting surface and the The side light emitting surface. 27. The sensing device with a sensor according to claim 24, characterized in that: the junction frame has a first light guide block disposed on the first light-transmitting block, and a first light guide block disposed on the first light-transmitting block, The second light-guiding block of the second light-transmitting block.