CN206905812U - Sensor and the sensing device further with the sensor - Google Patents
Sensor and the sensing device further with the sensor Download PDFInfo
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- CN206905812U CN206905812U CN201720676148.6U CN201720676148U CN206905812U CN 206905812 U CN206905812 U CN 206905812U CN 201720676148 U CN201720676148 U CN 201720676148U CN 206905812 U CN206905812 U CN 206905812U
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Abstract
A kind of sensing device further, a fixed plate is adapted to be mounted to, the sensing device further includes a sensor and a fixed cell.The sensor includes a housing, a sensing module, and a cresset module.The sensing module is arranged in the housing to sense the part to be measured to produce a metric data, and the sensing module can produce instruction set corresponding to one according to the metric data.The cresset module is arranged at the housing and is electrically connected with the sensing module, and the cresset module can be driven and light by the instruction set, and light-emitting area before the cresset module includes one, and side light-emitting area, the preceding light-emitting area and the side light-emitting area are respectively facing different directions.The sensor is fixed on into the fixed plate, light that the preceding light-emitting area and the side light-emitting area of the cresset module are sent can pass through the fixed cell and is revealed in outside the fixed plate fixed cell.
Description
Technical field
A kind of sensor is the utility model is related to, more particularly to a kind of sensing of the light-emitting area with multiple different directions
Device and the sensing device further with the sensor.
Background technology
In order to maintain the normal operation of machine (such as mechanical arm or vacuum cup etc.), it is necessary to measure and monitoring machine
Internal flow flow or pressure, therefore there are many existing flowmeters or pressure gauge to be available for applying on the market, these are existing
Sensing device further generally there is a warning lamp for being located at leading flank, user, which can pass through, watches the warning lamp to learn sensing device further
The machine condition (such as whether fluid flow valve in machine or pressure value are abnormal etc.) measured.Because the warning lamp is
Positioned at the leading flank of sensing device further, if therefore user not in the front of sensing device further and on the right side of sensing device further or left side etc.
During other visual angles, it user will occur must be moved to immediately ahead of sensing device further just watch warning lamp, even make
User can not watch the situation of warning lamp completely, cause user can not conveniently and clearly watch the lamp shown by warning lamp
Number.
Utility model content
A wherein purpose of the utility model is to provide a kind of sensor, and the light-emitting area with multiple different directions can supply
User watches from multiple different visual angles, to lift the convenience of user's viewing.
In addition, the wherein another object of the utility model is that a fixed plate can be installed on and have the sensing by providing one kind
The sensing device further of device.
The utility model sensor be applied to measure a part to be measured, the sensor be comprising a housing, a sensing module and
One cresset module.The sensing module is arranged in the housing to sense the part to be measured to produce a metric data, the sensing mould
Block can produce instruction set corresponding to one according to the metric data.The cresset module be arranged at the housing and with the sensing module electricity
Property connection, the cresset module can drive by the instruction set and light, and the cresset module lights including light-emitting area before one, and side
Face, the preceding light-emitting area and the side light-emitting area are respectively facing different directions.
In some embodiment aspects, the cresset module includes a transparent lamp shade, and one is arranged at hair in the transparent lamp shade
Light unit, the transparent lamp shade have the preceding light-emitting area and the side light-emitting area, the luminescence unit can be driven by the instruction set and towards this
Transparent lamp shade lights, and light is dissipated into outside via the preceding light-emitting area and the side light-emitting area.
Sensor described in the utility model, the transparent lamp shade are in around shape and around the housing outside.
Sensor described in the utility model, the preceding light-emitting area are substantially orthogonal with the side light-emitting area.
Sensor described in the utility model, the transparent lamp shade are in box shape, and the side light-emitting area has a left luminous face, one
In contrast to the left side light face the luminous face in the right side, light on one face, and one in contrast on this luminous facial lower light-emitting area
Portion.
Sensor described in the utility model, the transparent lamp shade are in round frame shape, and the side light-emitting area is in annular.
Sensor described in the utility model, the preceding light-emitting area flush with the leading flank of the housing.
Sensor described in the utility model, the luminescence unit can produce the light and one second color of one first color
Light, second color are different from first color, and the metric data has one to measure numerical value, and the sensing module built-in one first is silent
Recognize value, when the measurement numerical value is less than first default value, the instruction set drives the luminescence unit to send the light of first color,
When the measurement numerical value is more than or equal to first default value, the instruction set drives the luminescence unit to send second color
Light.
Sensor described in the utility model, the luminescence unit can also produce the light of one the 3rd color, the 3rd color phase
Different from first color and second color, the sensing module built-in one is more than the second default value of first default value, when this
When measuring numerical value more than or equal to first default value and being less than second default value, the instruction set drives the luminescence unit to send
The light of second color, when the measurement numerical value is more than or equal to second default value, the instruction set drives the luminescence unit to be sent out
Go out the light of the 3rd color.
Sensor described in the utility model, the transparent lamp shade have one first printing opacity block, and one and first transparent area
The second adjacent printing opacity block of block, the luminescence unit have a first luminescence component group in the first printing opacity block,
And a second luminescence component group in the second printing opacity block, the instruction set have multiple instruction, first luminescence component
Group can be emitted beam by a wherein order-driven for the instruction set, and the second luminescence component group can be by the instruction set wherein
Another order-driven and emit beam, and the first luminescence component group and the second luminescence component group can each send at least one
The light of color.
Sensor described in the utility model, the first printing opacity block and the second printing opacity block be neighbouring to be connect and jointly
Define the preceding light-emitting area and the side light-emitting area.
Sensor described in the utility model, the first printing opacity block and the second printing opacity block or so are adjacent and common
Define the preceding light-emitting area and the side light-emitting area.
There is the utility model the sensing device further of sensor to be adapted to be mounted to a fixed plate, and the sensing device further includes a sensing
Device and a fixed cell.The sensor includes a housing, a sensing module, and a cresset module.The sensing module is arranged at this
To sense the part to be measured to produce a metric data in housing, the sensing module can produce a correspondence according to the metric data
Instruction set.The cresset module is arranged at the housing and is electrically connected with the sensing module, and the cresset module can be by the instruction set
Driving and light, the cresset module includes light-emitting area before one, and side light-emitting area, the preceding light-emitting area and the side light-emitting area court respectively
To different directions.The fixed cell the sensor is fixed on into the fixed plate, the preceding light-emitting area of the cresset module and should
The light that side light-emitting area is sent can pass through fixed cell diverging and be revealed in outside the fixed plate.
Sensing device further described in the utility model, the preceding light-emitting area flush with the leading flank of the housing.
Sensing device further described in the utility model, the fixed cell include a bonding frame for covering at the housing, and at least one
The fixture engaged with the bonding frame, the bonding frame of the fixed cell clamp the fixed plate jointly with the fixture, the bonding frame
It is as made by light-transmitting materials.
Sensing device further described in the utility model, also it is arranged at preceding protection cap on front side of the bonding frame, the preceding protection comprising one
Lid is as made by light-transmitting materials.
Sensing device further described in the utility model, the cresset module have a transparent lamp shade, and one is arranged at the transparent lamp shade
Interior luminescence unit, the transparent lamp shade have the preceding light-emitting area and the side light-emitting area, and the luminescence unit can be driven by the instruction set
And lighted towards the transparent lamp shade, light is dissipated into outside via the preceding light-emitting area and the side light-emitting area.
Sensing device further described in the utility model, the transparent lamp shade are in around shape and around the housing outside.
Sensing device further described in the utility model, the preceding light-emitting area are substantially orthogonal with the side light-emitting area.
Sensing device further described in the utility model, the transparent lamp shade are in box shape, the side light-emitting area have a left luminous face,
One in contrast to the left side light face the luminous face in the right side, light on one face, and one luminous facial lower luminous in contrast on this
Face.
Sensing device further described in the utility model, the transparent lamp shade are in round frame shape, and the side light-emitting area is in annular.
Sensing device further described in the utility model, the luminescence unit can produce the light and one second color of one first color
Light, second color are different from first color, and the metric data has one to measure numerical value, and the sensing module built-in one first is silent
Recognize value, when the measurement numerical value is less than first default value, the instruction set drives the luminescence unit to send the light of first color,
When the measurement numerical value is more than or equal to first default value, the instruction set drives the luminescence unit to send second color
Light.
Sensing device further described in the utility model, the luminescence unit can also produce the light of one the 3rd color, the 3rd color
First color and second color are different from, the sensing module built-in one is more than the second default value of first default value, when
When the measurement numerical value is more than or equal to first default value and is less than second default value, the instruction set drives the luminescence unit to be sent out
Go out the light of second color, when the measurement numerical value is more than or equal to second default value, the instruction set drives the luminescence unit
Send the light of the 3rd color.
Sensing device further described in the utility model, the transparent lamp shade have one first printing opacity block, and one and first printing opacity
The second adjacent printing opacity block of block, the luminescence unit have first luminescence component in the first printing opacity block
Group, and a second luminescence component group in the second printing opacity block, the instruction set have multiple instruction, the first luminous group
Part group can be emitted beam by a wherein order-driven for the instruction set, and the second luminescence component group can by the instruction set its
In another order-driven and emit beam, and the first luminescence component group and the second luminescence component group can each send at least one
The light of kind color.
Sensing device further described in the utility model, the first printing opacity block and the second printing opacity block be neighbouring to be connect and altogether
It is same to define the preceding light-emitting area and the side light-emitting area.
Sensing device further described in the utility model, the first printing opacity block and the second printing opacity block or so are adjacent and common
It is same to define the preceding light-emitting area and the side light-emitting area.
Sensing device further described in the utility model, the bonding frame have first light guide zone for covering at the first printing opacity block
Block, and a second guide-lighting block for covering at the second printing opacity block.
The utility model at least has following effect:By the preceding light-emitting area for the cresset module for being respectively facing different directions
And side light-emitting area, allow user to watch the cresset module from multiple different visual angles, to lift the convenience of user's viewing.
Brief description of the drawings
Fig. 1 is a three-dimensional exploded view, illustrates the one the of the utility model sensor and the sensing device further with the sensor
One embodiment;
Fig. 2 is a stereogram, illustrates a first embodiment of the sensing device further;
Fig. 3 is a stereogram, illustrates one of first embodiment sensor;
Fig. 4 is the stereogram that visual angle is different from Fig. 3;
Fig. 5 is a schematic cross-sectional view, illustrates an one of sensing module of sensor for the 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 Fig. 2 stereogram;
Fig. 8 is a stereogram, illustrates that the one second of the utility model sensor and the sensing device further with the sensor is real
Apply example;
Fig. 9 is a schematic cross-sectional view, illustrates an one of sensing module of second embodiment sensing unit;And
Figure 10 is a stereogram, illustrates the housing and another embodiment aspect of the cresset module.
Embodiment
Before the utility model is described in detail, it shall be noted that in the following description content, similar component be with
It is identically numbered to represent.
Refering to Fig. 1 and Fig. 2, the first embodiment of the utility model sensor and the sensing device further with the sensor is one
Sensing device further, a fixed plate 8 is adapted to be mounted to, the fixed plate 8 has a hole position, and the sensing device further includes a sensor 10, one
Fixed cell 6, and protection cap 7 before one.
Refering to Fig. 3 to Fig. 5, the sensor 10 is applied to measure a part (not shown) to be measured, and the sensor 10 includes a shell
Body 1, a sensing module 2, and a cresset module 3.In the present embodiment, the housing 1 is slightly in square, and the housing 1 has one
Leading flank 11, one surrounds face 12 around the periphery of leading flank 11, and one is connected to this around the trailing flank of the rear side of face 12
13.The trailing flank 13 is formed with a connection perforate 131.The sensing module 2 be arranged in the housing 1 to sense the part to be measured with
A metric data is produced, the sensing module 2 can produce instruction set corresponding to one according to the metric data.In the present embodiment,
The part to be measured is a pipeline of one machine of connection, and the sensing module 2 is to sense the pressure of the part to be measured to produce the measurement
Data.There is the sensing module 2 sensing unit 21 and a main control unit for being electrically connected at the sensing unit 21 (to scheme not
Show), there is the sensing unit 21 a pressure sensing circuit plate 211, one 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 be arranged at
The mozzle 213 of perforation 211a opposite sides, the mozzle 213 are revealed in the housing 1, and the trailing flank 13 is installed in through one
The connector (not shown) of connection perforate 131 is connected between the part to be measured and the mozzle 213 so that the mozzle 213 can be with
The part to be measured is connected.Make the part to be measured and the feeling of stress through connector, mozzle 213 and the pressure sensing circuit plate 211
The survey position pressure of chip 212 is consistent, and the pressure that the sensing unit 21 senses the part to be measured simultaneously produces a metric data, and passes
The defeated metric data to the main control unit, main control unit produces instruction set corresponding to one according to the metric data.
Refering to Fig. 3 to Fig. 6, the cresset module 3 is arranged at the housing 1 and is electrically connected with the sensing module 2, the cresset mould
Block 3 can be driven and light by the instruction set, light-emitting area 311 before the cresset module 3 includes one, and side light-emitting area 312, the preceding hair
Smooth surface 311 and the side light-emitting area 312 are respectively facing different directions.In the present embodiment, the cresset module 3 has a transparent lamp shade
31, and one be arranged at luminescence unit 32 in the transparent lamp shade 31, there is the transparent lamp shade 31 the preceding light-emitting area 311 and the side to send out
Smooth surface 312, the main control unit of the luminescence unit 32 and sensing module 2 are electrically connected with, and can be driven by the instruction set and saturating towards this
Light lampshade 31 is luminous, light is dissipated into outside, also, the transparent lamp shade 31 via the preceding light-emitting area 311 and the side light-emitting area 312
Be in the present embodiment with the housing 1 in a manner of extra quality injection molding it is integrally formed, the part of transparent lamp shade 31 is using translucent
Material forming, and the housing 1 uses nontransparent material forming, and the luminescence unit 32 is mounted to the neighbour in the housing 1
It is bordering on a circuit board 33 of the transparent lamp shade 31.It should be noted that the one kind that above are only the structure of the cresset module 3 is real
Mode is applied, should not be as limitation.
In the present embodiment, the preceding light-emitting area 311 flushes with the leading flank 11 of the housing 1, the preceding light-emitting area 311 and the side
Light-emitting area 312 is substantially orthogonal, and the side light-emitting area 312, with should also be flushed around face 12, 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 the outside of housing 1.Also, the side light-emitting area 312 has
The one left facial 312a that lights, one light facial 312b, luminous facial 312c on one in contrast to the light facial 312a right side of left side, and
One in contrast on this luminous facial 312c lower light-emitting area portion 312d.The transparent lamp shade 31 has one first printing opacity block 313, and
One is located at top side with the second adjacent printing opacity block 314 of the first printing opacity block 313, the first printing opacity block 313, and this
Two printing opacity blocks 314 are located at bottom side, and the first printing opacity block 313 and the second printing opacity block 314 be neighbouring to be connect and jointly
Define the preceding light-emitting area 311 and the side light-emitting area 312.The luminescence unit 32 has one in the first printing opacity block 313
The first luminescence component group 321, an and second luminescence component group 322 in the second printing opacity block 314.The cresset module
3 also have the light blocking component group (not shown) between the first printing opacity block 313 and the second printing opacity block 314, the resistance
Optical assembly group can stop light and to prevent the light that the first luminescence component group 321 is sent via the second printing opacity block
314 appear, and to prevent the light that the second luminescence component group 322 is sent from being appeared via the first printing opacity block 313.This refers to
Order collection has multiple instruction, and the first luminescence component group 321 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 can each send red light or green light, in other words, the first luminescence component group 321
And the second luminescence component group 322 can each send the light of at least one color.Illustrate herein, in other embodiments, should
Transparent lamp shade 31 can not be differentiated between as two printing opacity blocks yet, or divides into more than two printing opacity blocks, and the luminescence unit
32 can also only have a luminescence component group, or with corresponding printing opacity number of blocks and be located at respectively in above-mentioned printing opacity block
Luminescence component group.
The main control unit can be produced according to the metric data first switch signal and a second switch signal transmit to
One control computer (not shown), the first switch signal and the second switch signal are (see figure via the signal transmission hole 121
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
Close signal make the control computer control first machine open when, the main control unit simultaneously can by the instruction set control should
First luminescence component group 321 sends green glow, when the main control unit controls the control computer by the first switch signal
During first machine switched off, it is red that the main control unit can control the first luminescence component group 321 to send by the instruction set simultaneously
Light.When the main control unit makes the control computer control second machine to open by the second switch signal, the master control
Unit processed can control the second luminescence component group 322 to send green glow by the instruction set simultaneously, when the main control unit is by this
When second switch signal makes the control computer control second machine switched off, the main control unit simultaneously can be by the instruction set
The second luminescence component group 322 is controlled to send feux rouges.Thereby, user can pass 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 also includes one and is arranged at the leading flank 11 of the housing 1 and is electrically connected at the aobvious of the main control unit
Show the input module 5 of module 4 and one, the display module 4 can be to show the information of sensor 10, and the input module 5 can supply 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 by the sensor 10 being fixed on the fixed plate 8, the lamp
The light that preceding light-emitting area 311 and the side light-emitting area 312 of number module 3 are sent can pass through the fixed cell 6 diverging and be revealed in this
Outside fixed plate 8.The fixed cell 6 covers at the bonding frame 61 of the housing 1 including one, at least one consolidated with what the bonding frame 61 engaged
Determine part 62, in the present embodiment the quantity of the fixture 62 be two, but in other embodiment aspects the fixture 62 quantity
It can also be one or more than three, be not limited system.The bonding frame 61 of the fixed cell 6 clamps jointly with the fixture 62
The fixed plate 8, the bonding frame 61 are as made by light-transmitting materials, therefore the light that the cresset module 3 is sent can connect from this
Frame 61 is closed to appear.In the present embodiment, the bonding frame 61 has a first guide-lighting block for covering at the first printing opacity block 313
611, and a second guide-lighting block 612 for covering at the second printing opacity block 314, 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 printing opacity block 313 exhales enters the second guide-lighting block 612 via the first guide-lighting block 611, and prevent this
The light that two printing opacity blocks 314 exhale enters the first guide-lighting block 611 via the second guide-lighting block 612.The preceding protection
Lid 7 is arranged at the front side of bonding frame 61 to prevent that 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 that the cresset module 3 is sent can appear via the preceding protection cap 7, and can also be through
As the information shown by the preceding protection cap 7 observes the display module 4.Illustrate herein, the fixed cell 6 of the present embodiment is only
A kind of preferable embodiment aspect, it is light transmissive material that it, which focuses on the fixed cell 6 to be shielded from the cresset module 3, and using makes
The light that the cresset module 3 is sent should not be limited outside being revealed in by the fixed cell 6 with the present embodiment.
Refering to Fig. 8 and Fig. 9, the second embodiment of the utility model sensor and the sensing device further with the sensor is one
Sensor 10, suitable for measure a part (not shown) to be measured, in the present embodiment, the part to be measured be one inside have flow of fluid it
Pipe-line cell, the sensor 10 include a housing 1, a sensing module 2, a cresset module 3, a display module 4, and an input mould
Block 5.In the present embodiment, the housing 1 is slightly in cuboid.The sensing module 2 is arranged in the housing 1 to sense the part to be measured
To produce a metric data, the sensing module 2 can produce instruction set corresponding to one according to the metric data.In the present embodiment
In, the sensing module 2 be pressure and the flow for sensing the part to be measured to produce the metric data, the sensing module 2 has
There is a sensing unit 21 and one be electrically connected at the main control unit (not shown) of the sensing unit 21, the sensing unit 21 has
The one pressure flow sensing circuit plate 214, one formed with an a perforation 214a and groove 214b is covered in perforation 214a and position
In groove 214b forming faces opposing face and with the pressure flow sensing circuit plate 214 be electrically connected with pressure-sensing chip
212nd, one groove 214b and the sensing flux chip 215 being electrically connected with the pressure flow sensing circuit plate 214 are embedded in, with
And the guiding subassembly 216 for being internally formed a flow passage unit 216a, flow passage unit 216a have a fluid stream for part to be measured
The fluid issuing 216c that the fluid intake 216b entered and one flows out for the fluid of part to be measured, and flow passage unit 216a and the perforation
214a and groove 214b connections, the flow passage unit 216a fluid intake 216b and fluid issuing 216c are revealed in the shell
Body 1 is simultaneously communicated in the part to be measured.The sensing unit 21 senses pressure and flow and the measurement of generation one of the fluid in the part to be measured
Data, and transmit the metric data to the main control unit, main control unit and produced according to the metric data corresponding to one
Instruction set.
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 long box shape, and the first printing opacity block 313 is that left and right is adjacent with the second printing opacity block 314, the
One printing opacity block 313 is located at left side and the second printing opacity block 314 is located at right side.
In addition, the luminescence unit 32 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, the metric data has one to measure numerical value, built-in one first default value of the sensing module 2, when this
Numerical value is measured when being less than first default value, the instruction set drives the luminescence unit 32 to send the light of first color, when the amount
Numerical value is surveyed when being more than or equal to first default value, the instruction set drives the luminescence unit 32 to send the light of second color.Should
Luminescence unit 32 can also produce the light of one the 3rd color, and the 3rd color is different from first color and second color, should
Sensing module 2 built-in one is more than the second default value of first default value, when the measurement numerical value is more than or equal to first acquiescence
Value and when being less than second default value, the instruction set drives the luminescence unit 32 to send the light of second color, when the measurement number
Value is when being more than or equal to second default value, and the instruction set drives the luminescence unit 32 to send the light of the 3rd 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 3rd color is red, and the measurement numerical value is the pressure value of the part to be measured, and the metric data also has another measurement
Numerical value, another measurement numerical value 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, also built-in one the 3rd default value of the sensing module 2 and one to be more than the 3rd silent
Recognize the 4th default value of value, first default value, second default value, the 3rd default value and the 4th default value be user by
The input module 5 is inputted to the numerical value of the main control unit, and when the pressure value is less than first default value, the instruction set is wherein
One order-driven the first luminescence component group 321 sends green glow, when the pressure value is more 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 sends orange light, when the pressure
When force value is more than or equal to second default value, one of order-driven of the instruction set the first luminescence component group 321 is sent out
Go out feux rouges, and when the flow value is less than three default values, the other in which order-driven of the instruction set second luminous group
Part group 322 sends green glow, when the flow value is more than or equal to the 3rd default value but is less than four default values, the instruction set
Other in which order-driven the second luminescence component group 322 send orange light, when the flow value, to be more than or equal to the 4th silent
When recognizing value, the other in which order-driven of the instruction set the second luminescence component group 322 sends feux rouges.Thereby, user can
With through the front of cresset module 3, top and lower section and then the pressure for learning the part to be measured simultaneously for 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 embodiment aspects, in other realities
Apply in aspect, the cresset module can also be by the mode of cresset flashing or other known cresset mode annunciations users, this reality
With it is new focus on the cresset module 3 with the preceding light-emitting area 311 and the side light-emitting area 312 can be by the sensing module
Instruction set caused by 2 changes the cresset sent, 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 of multiple color light can be sent, but in other embodiment aspects, the first luminescence component group 321 and second hair
Optical assembly group 322 can also be made up of multiple LEDs that can send multiple color light, or multiple can send different face
The LED of coloured light line is formed, not using above-described embodiment as limitation.
In addition, the cresset module 3 is all surrounded on the ground of housing 1 and is arranged at the housing 1 in above-described embodiment, but at other
In embodiment aspect, the cresset module 3 may also be only a strip, or any there is preceding light-emitting area 311 and the side to light
Any form in face 312, is not limited.
Refering to Fig. 3, Fig. 8 and Figure 10, the shape of housing 1 and cresset module 3 of above-described embodiment and the cresset being engaged
Module 3 is only some embodiment aspects, and the leading flank 11 of the housing 1 is square in this first embodiment, in second implementation
The leading flank 11 of the housing 1 be rectangle in example, but the leading flank 11 of the housing 1 can also be circle, and the front side of the housing 1
Face 11 all can also be substituted with the preceding light-emitting area 311 of the luminescence unit 32, as shown in Figure 10, housing 1 of the present utility model with
And another embodiment aspect of cresset module 3, in such a embodiment aspect, the transparent lamp shade 31 is in round frame shape, the side light-emitting area
312 be in annular, and the preceding light-emitting area 311 substitutes the leading flank of the housing 1.In addition, the leading flank 11 of the housing 1 also may be used
To be other kind of polygon, it is not limited.
In summary, the utility model sensor and the sensing device further with the sensor, by being respectively facing not Tongfang
To the cresset module 3 preceding light-emitting area 311 and side light-emitting area 312, allow user to watch the lamp from multiple different visual angles
Number module 3, to lift the convenience of user's viewing.And it is somebody's turn to do by what the main control unit was sent according to caused by the metric data
Instruction set, drive the cresset module 3 to should metric data make different cresset and change, allow user can with it is easier from
The cresset 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-transmitting materials, allow the light that the cresset module 3 is sent via the bonding frame 61 of the fixed cell 6 and the preceding protection cap 7
Appear.Therefore the purpose of the utility model can be reached really.
Only as described above, the only embodiment of the utility model, implements when that can not limit the utility model with this
Scope, every simple equivalent changes and modifications made according to the utility model claims and description, all still belong to
In the range of the utility model patent covers.
Claims (27)
- A kind of 1. sensor, suitable for measuring a part to be measured;Characterized in that, the sensor includes:One housing;One sensing module, it is arranged in the housing to sense the part to be measured to produce a metric data, the sensing module can be according to Instruction set corresponding to one is produced according to the metric data;AndOne cresset module, it is arranged at the housing and is electrically connected with the sensing module, the cresset module can be driven by the instruction set And light, light-emitting area before the cresset module includes one, and side light-emitting area, the preceding light-emitting area and the side light-emitting area are respectively facing not It is equidirectional.
- 2. sensor according to claim 1, it is characterised in that:The cresset module includes a transparent lamp shade, and one is set Luminescence unit in the transparent lamp shade, the transparent lamp shade have the preceding light-emitting area and the side light-emitting area, the luminescence unit can quilt The instruction set drives and lighted towards the transparent lamp shade, light is dissipated into outside via the preceding light-emitting area and the side light-emitting area.
- 3. sensor according to claim 2, it is characterised in that:The transparent lamp shade is in around shape and around the housing periphery Enclose.
- 4. sensor according to claim 3, it is characterised in that:The preceding light-emitting area is substantially mutually hung down with the side light-emitting area Directly.
- 5. sensor according to claim 4, it is characterised in that:The transparent lamp shade is in box shape, and the side light-emitting area has One left luminous face, one in contrast to left side light face the luminous face in the right side, light on one face, and one luminous in contrast on this The lower light-emitting area portion of face.
- 6. sensor according to claim 4, it is characterised in that:The transparent lamp shade is in round frame shape, and the side light-emitting area is in circle Annular.
- 7. the sensor according to any one of claim 2 to 6, it is characterised in that:Before the preceding light-emitting area and the housing Side flushes.
- 8. the sensor according to any one of claim 2 to 6, it is characterised in that:The luminescence unit can produce one The light of the light of one color and one second color, second color are different from first color, and the metric data has one to measure number Value, built-in one first default value of the sensing module, when the measurement numerical value is less than first default value, the instruction set drives the hair Light unit sends the light of first color, and when the measurement numerical value is more than or equal to first default value, the instruction set drives this Luminescence unit sends the light of second color.
- 9. sensor according to claim 8, it is characterised in that:The luminescence unit can also produce one the 3rd color Light, the 3rd color are different from first color and second color, and the sensing module built-in one is more than first default value Second default value, when the measurement numerical value is more than or equal to first default value and is less than second default value, the instruction set is driven The luminescence unit is set to send the light of second color, when the measurement numerical value is more than or equal to second default value, the instruction set The luminescence unit is driven to send the light of the 3rd color.
- 10. the sensor according to any one of claim 2 to 6, it is characterised in that:The transparent lamp shade is saturating with one first Light block, and one have one first saturating positioned at this with the second adjacent printing opacity block of the first printing opacity block, the luminescence unit The first luminescence component group in light block, and a second luminescence component group in the second printing opacity block, instruction set tool There is multiple instruction, the first luminescence component group can be emitted beam by a wherein order-driven for the instruction set, and second hair Optical assembly group can be emitted beam by wherein another order-driven of the instruction set, and the first luminescence component group and second hair Optical assembly group can each send the light of at least one color.
- 11. sensor according to claim 10, it is characterised in that:On the first printing opacity block and the second printing opacity block Under it is adjacent and define the preceding light-emitting area and the side light-emitting area jointly.
- 12. sensor according to claim 10, it is characterised in that:The first printing opacity block is left with the second printing opacity block The right side is adjacent and defines the preceding light-emitting area and the side light-emitting area jointly.
- 13. a kind of sensing device further with sensor, is adapted to be mounted to a fixed plate;Characterized in that, the sensing device further includes:One sensor, suitable for measuring a part to be measured, the sensor includesOne housing,One sensing module, it is arranged in the housing to sense the part to be measured to produce a metric data, the sensing module can be according to Instruction set corresponding to one is produced according to the metric data, andOne cresset module, it is arranged at the housing and is electrically connected with the sensing module, the cresset module can be driven by the instruction set And light, light-emitting area before the cresset module includes one, and side light-emitting area, the preceding light-emitting area and the side light-emitting area are respectively facing not It is equidirectional;AndOne fixed cell, the sensor is fixed on into the fixed plate, the preceding light-emitting area of the cresset module and the side light The light that face is sent can pass through fixed cell diverging and be revealed in outside the fixed plate.
- 14. the sensing device further according to claim 13 with sensor, it is characterised in that:The preceding light-emitting area and the housing Leading flank flush.
- 15. the sensing device further according to claim 14 with sensor, it is characterised in that:The fixed cell includes a cover Located at the bonding frame of the housing, and at least one fixture engaged with the bonding frame, the bonding frame of the fixed cell are fixed with this Part clamps the fixed plate jointly, and the bonding frame is as made by light-transmitting materials.
- 16. the sensing device further according to claim 15 with sensor, it is characterised in that:This has the sensing of sensor Device also includes a preceding protection cap being arranged on front side of the bonding frame, and the preceding protection cap is as made by light-transmitting materials.
- 17. the sensing device further according to claim 16 with sensor, it is characterised in that:The cresset module is saturating with one Light lampshade, and one be arranged at luminescence unit in the transparent lamp shade, the transparent lamp shade has the preceding light-emitting area and the side light-emitting area, The luminescence unit can be driven by the instruction set and be lighted towards the transparent lamp shade, make light via the preceding light-emitting area and the side light-emitting area hair It is dissipated to outside.
- 18. the sensing device further according to claim 17 with sensor, it is characterised in that:The transparent lamp shade is in around shape And around the housing outside.
- 19. the sensing device further according to claim 18 with sensor, it is characterised in that:The preceding light-emitting area is sent out with the side Smooth surface is substantially orthogonal.
- 20. the sensing device further according to claim 19 with sensor, it is characterised in that:The transparent lamp shade is in square frame Shape, the side light-emitting area is facial in contrast to being lighted on the luminous face in the luminous facial right side in the left side, one with a left luminous face, one, And one in contrast on this luminous facial lower light-emitting area portion.
- 21. the sensing device further according to claim 19 with sensor, it is characterised in that:The transparent lamp shade is in round frame Shape, the side light-emitting area are in annular.
- 22. the sensing device further with sensor according to any one of claim 17 to 21, it is characterised in that:This is luminous Unit can produce the light of one first color and the light of one second color, second color are different from first color, the measurement Data have one measure numerical value, built-in one first default value of the sensing module, when the measurement numerical value is less than first default value, The instruction set drives the luminescence unit to send the light of first color, when the measurement numerical value is more than or equal to first default value When, the instruction set drives the luminescence unit to send the light of second color.
- 23. the sensing device further according to claim 22 with sensor, it is characterised in that:The luminescence unit can also produce The light of raw one the 3rd color, the 3rd color are different from first color and second color, and the sensing module built-in one is more than Second default value of first default value, when the measurement numerical value is more than or equal to first default value and is less than second default value When, the instruction set drives the luminescence unit to send the light of second color, when the measurement numerical value is more than or equal to second acquiescence During value, the instruction set drives the luminescence unit to send the light of the 3rd color.
- 24. the sensing device further with sensor according to any one of claim 17 to 21, it is characterised in that:The printing opacity Lampshade has one first printing opacity block, and one has with the second adjacent printing opacity block of the first printing opacity block, the luminescence unit There are a first luminescence component group in the first printing opacity block, and a second luminous group in the second printing opacity block Part group, the instruction set have multiple instruction, and the first luminescence component group can be sent by a wherein order-driven for the instruction set Light, and the second luminescence component group can be emitted beam by wherein another order-driven of the instruction set, and this is first luminous Component group and the second luminescence component group can each send the light of at least one color.
- 25. the sensing device further according to claim 24 with sensor, it is characterised in that:The first printing opacity block is with being somebody's turn to do Second printing opacity block is neighbouring to be connect and defines the preceding light-emitting area and the side light-emitting area jointly.
- 26. the sensing device further according to claim 24 with sensor, it is characterised in that:The first printing opacity block is with being somebody's turn to do Second printing opacity block or so is adjacent and defines the preceding light-emitting area and the side light-emitting area jointly.
- 27. the sensing device further according to claim 24 with sensor, it is characterised in that:There is the bonding frame cover to set In the first guide-lighting block of the first printing opacity block, and a second guide-lighting block for covering at the second printing opacity block.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720676148.6U CN206905812U (en) | 2017-06-12 | 2017-06-12 | Sensor and the sensing device further with the sensor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720676148.6U CN206905812U (en) | 2017-06-12 | 2017-06-12 | Sensor and the sensing device further with the sensor |
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CN206905812U true CN206905812U (en) | 2018-01-19 |
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CN201720676148.6U Expired - Fee Related CN206905812U (en) | 2017-06-12 | 2017-06-12 | Sensor and the sensing device further with the sensor |
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Country | Link |
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CN (1) | CN206905812U (en) |
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2017
- 2017-06-12 CN CN201720676148.6U patent/CN206905812U/en not_active Expired - Fee Related
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Granted publication date: 20180119 Termination date: 20210612 |