CN106979792B - Has the sensing device of detachable perceptron module - Google Patents

Abstract

The present invention is about a kind of sensing device comprising ontology waves and the detachable perceptron module of rotary module and at least one.Ontology has an accommodating space.It waves and rotary module, is set in the accommodating space of ontology, there is a turntable and a sliding rail.Turntable is clipped on ontology, and a level angle can be rotated relative to ontology.Sliding rail is set on turntable.Detachable perceptron module has an engagement unit, removably corresponding to be engaged in sliding rail, and detachable perceptron module can be made to slide a deviation angle relative to turntable in sliding on sliding rail.

Description

Has the sensing device of detachable perceptron module

Technical field

This case is about a kind of sensing device, espespecially a kind of sensing device for having detachable perceptron module.

Background technique

Environment measuring or displacement detecting technology mechanically or electronically reach monitoring object relative to environment Position or its variation relative to environment.And common displacement detecting is then mostly with infrared detector, optical camera system, sound Sound or Vibration Sensor or magnetic sensor are for it.Wherein it is preferred again with the effect and accuracy of infrared detector.This kind of shifting Dynamic detection is often limited by setting angle and position, is only able to identify the variation of image in specified region.And in limited detection angle The presence of moving object often can not be effectively detected in degree range, and avoids changing bring interference by light simultaneously.

If displacement detector can not detect the presence of static object or person person, the just safety without the personnel of progress or environment Monitoring.Therefore it is very huge to influence its performance for the detection angle range of sensing device.However it is limited to the detection angles model of sensing device It encloses, sensing device must select best position when installation, to obtain maximum detection angle range.Once sensing device Just detection angles can not be changed after installation, even more labor intensive when disassembly replacement or maintenance.

On the other hand, context also has strong influence for the sensitivity of sensing device.When detection environment changes When, different types of sensing device, detection sensitivity also will be different.Only known sensing device ring in response to arround Border is arranged and selects and dispose different types of perceptron module, to obtain optimal environmental monitoring efficiency.

Therefore a kind of sensing device for having detachable perceptron module how is provided, had modulation is arranged in response to environment Effect achievees the purpose that security monitoring, and then is widely used in varying environment, actually problem extremely to be solved in this field.

Summary of the invention

This case is designed to provide a kind of sensing device for having detachable perceptron module, can adjust and turn according to user demand The sensor of dynamic perceptron module, and larger range of detection angles are obtained, and can be in response to different monitoring environmental demands and with hand Dynamic or electronic mode modulation monitors angle.Also multiple sensors can be combined in perceptron module and increase monitoring angular range.

The another object of this case is to provide a kind of sensing device for having detachable perceptron module, and perceptron module is except can It is more dismountable outside depending on demand modulation detection angles.User can Yu Weixiu or replacement perceptron module when, easily from perceive The disassembly of perceptron module is repaired or is replaced different types of perceptron module on the ontology of device.

In order to achieve the above object, this case provides a kind of sensing device comprising ontology waves and rotary module and at least one Detachable perceptron module.Ontology has an accommodating space.It waves and rotary module, is set in the accommodating space of ontology, have There are a turntable and a sliding rail.Turntable is clipped on ontology, and a level angle can be rotated relative to ontology.Sliding rail is set to turntable On.Detachable perceptron module has an engagement unit, and removably correspondence is engaged in sliding rail, and can make in sliding on sliding rail Detachable perceptron module slides a deviation angle relative to turntable.

Detailed description of the invention

Figure 1A discloses the schematic cross-section of the sensing device of the detachable perceptron module of tool of this case preferred embodiment.

Figure 1B discloses the schematic cross-section that detachable perceptron module in Figure 1A is detached from sensing device.

Fig. 1 C discloses the partial structure diagrammatic cross-section for having the sensing device of detachable perceptron module in Figure 1A.

Fig. 1 D discloses the schematic perspective view of the sensing device of this case preferred embodiment.

Fig. 2 discloses the schematic perspective view of sensing device in Figure 1A waved with rotary module.

Fig. 3 discloses the schematic perspective view of the detachable perceptron module of sensing device in Figure 1A.

Fig. 4 discloses the schematic cross-section of the sensing device of the detachable perceptron module of tool of this case another preferred embodiment.

Fig. 5 discloses the schematic perspective view of sensing device in Fig. 4 waved with rotary module.

Fig. 6 discloses the schematic perspective view of the detachable perceptron module of sensing device in Fig. 4.

Fig. 7 discloses the schematic diagram of the sensing device of the another preferred embodiment of this case.

Fig. 8 A discloses the schematic perspective view of the sensing device of this case another preferred embodiment.

Fig. 8 B and Fig. 8 C then disclose the structural exploded view of the sensing device of Fig. 8 A.

Fig. 8 D discloses the schematic perspective view of the detachable perceptron module of sensing device in Fig. 8 A.

Fig. 9 discloses the plan view of the detachable perceptron module of this case another preferred embodiment.

Figure 10 discloses the fixed mechanism schematic diagram of this case sensing device.

Figure 11 discloses another fixed mechanism schematic diagram of this case sensing device.

Figure 12 discloses another fixed mechanism schematic diagram of this case sensing device.

Figure 13 discloses the another fixed mechanism schematic diagram of this case sensing device.

Wherein, appended drawing reference:

1: sensing device

11: ontology

111: accommodating space

111a: opening

112: clip portion

113: circuit board

1131: holes

114: exhaust side opening

115: locking screw thread

116: spring secures rail to sleeper

12: waving and rotary module

121: turntable

1211: rotation groove

1212: inner concave arc surface

122: sliding rail

1221: stop section

1222: set disengages mouth

1223: arc card limit portion

1224: groove scale

123: wiring wears groove

124: venthole

13: detachable perceptron module

131: engagement unit

132: disc shaped shell

1321: docking cambered surface

1322: detection faces

133: detection circuit

1331: indicating unit

134: sensor

135: optical transmission window

137: wiring cut

138: cyclic annular ventilation hole

139: heat release hole

15: gap

16: fixture unit

17: control module

171: wireless signal receiver

172: connecting route

18: radio signal senders

19: frame is auxiliarily fixed

191: cementation element

192: fixing slot

2: ceiling

3: lamp holder

31: fluorescent tube

Specific embodiment

The some exemplary embodiments for embodying this case features and advantages will describe in detail in the explanation of back segment.It should be understood that This case can have various variations in different aspects, all not depart from the range of this case, and explanation therein and schema It is illustrated as being used in itself, not for limitation this case.

Figure 1A to 1D is please referred to, wherein Figure 1A discloses the perception dress of the detachable perceptron module of tool of this case preferred embodiment The schematic cross-section set, Figure 1B disclose the schematic cross-section that detachable perceptron module in Figure 1A is detached from sensing device, and Fig. 1 C takes off It is preferable that the partial structure diagrammatic cross-section and Fig. 1 D for having the sensing device of detachable perceptron module in diagram 1A disclose this case The schematic perspective view of the sensing device of embodiment.As shown, the sensing device 1 of this case includes ontology 11, waves and revolve Revolving die block 12 and at least one detachable perceptron module 13.Ontology 11 has accommodating space 111.Wave with rotary module 12, It is set in the accommodating space 111 of ontology 11, and there is turntable 121 and sliding rail 122.Ontology 11 has more a clip portion 112, can By but be not only restricted to be constituted with two opposite shell snap fits, and be set at the opening 111a of accommodating space 111, to press from both sides Turntable 121 is detained, so that turntable 121 is embedded at the accommodating space 111 of ontology 11, and a horizontal angle can be rotated relative to ontology 11 Degree.In this present embodiment, at least part outer peripheral edge of turntable 121 is clipped on the clip portion 112 of ontology 11, makes turntable 121 can And counterclockwise each rotation one maximum horizontal angle clockwise relative to ontology 11, such as, but not limited to 45 °, while driving and waving Identical level angle is rotated relative to ontology 11 with the sliding rail 122 on rotary module 12.On the other hand, detachable perceptron Module 13 has an engagement unit 131, corresponding to sliding rail 122 and is releasably coupled in sliding rail 122, makes detachable perceptron Module 13 can slide a deviation angle along the opposite turntable 121 of sliding rail 122, as shown in figure iD.In this present embodiment, this is detachable Perceptron module 13 can slide into a maximum along sliding rail 122 can deviation angle, such as, but not limited to 50 °.

Fig. 2 discloses waving for the sensing device of Figure 1A and discloses Figure 1A with the schematic perspective view of rotary module and Fig. 3 Sensing device detachable perceptron module schematic perspective view.As shown in Figure 1A to 1D, 2 and 3, in embodiment of this case In, detachable perceptron module 13 further includes a disc shaped shell 132.Disc shaped shell 132 can pass through but be not only restricted to two cambered surface shells Body is constituted in a manner of hook or gluing, and it has at least one docking cambered surface 1321 and a detection faces 1322, wherein engaging unit 131 are set to an inclined side of docking cambered surface 1321.On the other hand, the docking cambered surface relative to detachable perceptron module 13 1321, waving then has an inner concave arc surface 1212 with the turntable 121 of rotary module 12.An arc can be equipped on inner concave arc surface 1212 Card limit portion 1223 makes detachable perceptron module 13 can be in supporting the docking cambered surface 1321 of detachable perceptron module 13 Required deviation angle is firmly slid on sliding rail 122.In this present embodiment, it waves with the sliding rail 122 of rotary module 12 more It for an arc groove sliding rail, is set on the inner concave arc surface 1212 of turntable 121, and sliding rail 122 has multiple groove scales 1224, To indicate detachable perceptron module 13 relative to wave with rotary module 12 slide offset deviation angle.In some implementations In example, sliding rail 121 further includes a stop section 1221 and a set of disengagement mouth 1222.Stop section 1221 is set to the one of sliding rail 122 End, the engagement unit 131 to the detachable perceptron module 13 of block is in the sliding on sliding rail 122.Set disengages mouth 1222, then sets It is placed in the other end of sliding rail 122, to be inserted in or be detached from sliding rail 122 for the engagement unit 131 of detachable perceptron module 13.I.e. With the stop section 1221 of sliding rail 122 for 0 °, then the engagement unit 131 of detachable perceptron module 13 can slide on sliding rail 122 It can deviation angle, such as, but not limited to 50 ° to the maximum.When the engagement unit 131 of detachable perceptron module 13 is in sliding rail 122 On when sliding into such as 60 °, engagement unit 131 just disengages mouth 1222 completely into set, can make to engage unit 131 at this time and dismantle It is detached from sliding rail 122.Certainly, in other embodiments, can also give the set on sliding rail 122 and disengage mouth 1222 is 0 ° of starting, another The stop section 1221 at end be maximum can deviation angle, the slip angle range of this case practical application simultaneously not only former state embodiment and is Limit can appoint according to practical application request and apply adjustment and variation.

Fig. 4 discloses the schematic cross-section of the sensing device of the detachable perceptron module of tool of this case another preferred embodiment. What Fig. 5 disclosed the sensing device of Fig. 4 waves the sensing device that Fig. 4 is disclosed with the schematic perspective view of rotary module and Fig. 6 Detachable perceptron module schematic perspective view.As shown in Fig. 4,5 and 6, the structure of the sensing device 1 of the present embodiment, Element and its function are similar to the illustrated embodiment of Figure 1A to 1D, 2 and 3, and identical element numbers represent identical structure, element With function, repeated no more in this.Compared to sensing device 1 shown in Figure 1A to 1D, 2 and 3, the sensing device 1 of the present embodiment is more Including motor 14, there is a transmission gear 141.The turntable 121 of 11 clip portion 112 of ontology is clipped on more a rotation groove 1211, it is located at least part outer peripheral edge of turntable 121, makes the transmission gear 141 of motor 14 can be with the turning gear of turntable 121 Line 1211 is meshed, and then drives turntable 121 that can respectively turn to required level relative to ontology 11 and clockwise and counterclockwise Angle, such as, but not limited to 45 °, while also driving to wave and be rotated with the sliding rail 122 on rotary module 12 relative to ontology 11 Identical level angle.In this present embodiment, sliding rail 122 has an arc card limit portion 1223, is set to and waves and rotary module 12 inner concave arc surface 1212.Detachable perceptron module 13 has a guiding hook 1311, corresponds to arc card limit portion 1223 and sets It is placed in docking cambered surface 1321, and engageable in arc card limit portion 1223, in the engagement unit of detachable perceptron module 13 131, from when covering the disengagement slide-in sliding rail 122 of mouth 1222, guide the engagement unit 131 of detachable perceptron module 13 on sliding rail 122 It firmly slides, and so that detachable perceptron module 13 is slid into a maximum relative to turntable 121 along sliding rail 122 can deviation angle Degree, such as, but not limited to 50 °.

In previous embodiment, detachable perceptron module 13 all has an at least sensor 134, is set to detection faces 1322.As shown in Figure 1A, the sensor 134 of detachable perceptron module 13, is set to the centre of detection faces 1322.In some In embodiment, as shown in figure 4, detachable perceptron module 13 has more an at least sensor 134, it is set to detection faces 1322 Inclined side makes sensor 134 have a constant offset angle relative to turntable 121, and then obtains the change of bigger detection angle range Change.In other embodiments, as shown in fig. 7, detachable perceptron module 13 may include multiple sensors 134, such as but not It is limited to four sensors 134, is set in detection faces 1322 in array.When the detection angles of single a sensor 134 are only Such as at 46 °, by the combination and configuration of four sensors 134, then detachable perceptron module 13 can be by its detection angles It expands to wider detection angles, such as, but not limited to 120 °.Certainly, the configuration of the sensor 134 of this case sensing device 1 and number Amount is not limited with previous embodiment, can be appointed according to practical application request and be applied variation and adjustment.In some embodiments, detachably Sensor 134 in perceptron module 13 can be but be not limited to an infrared sensor, optical camera system, sound or vibration Sensor, thermal sensation matrix form human body sensor, thermopile sensor, temperature and humidity sensor, magnetic sensor, gas concentration sense Survey device or combinations thereof.

Referring again to Figure 1A to 1D and Fig. 4, in previous embodiment, detachable perceptron module 13 includes a detection electricity Road 133 is set in disc shaped shell 132, and is electrically connected with sensor 134.In addition, detachable perceptron module 13 further includes one Indicating unit 1331 and an optical transmission window 135.Indicating unit 1331 can be but be not limited to a solid state light emitter indicator light, such as but It is not limited to LED light, is set in disc shaped shell 132, and is electrically connected to detection circuit 133, to indicate sensor 134 Operating state.Optical transmission window 135 is set to the detection faces 1322 of disc shaped shell 132, and is located on around sensor 134, uses To show the operating state of sensor 134, user can know indicated by indicating unit 1331 via optical transmission window 135 whereby The operating state of sensor 134.For example, when sensor 134 and detection circuit 133 perceive personnel's movement, instruction is single First 1331 capable of emitting light signals simultaneously show via optical transmission window 135, with remind user's sensing device 1 sensed personnel exist or Mobile state.In some embodiments, the disc shaped shell 132 of detachable perceptron module 13 has more a wiring cut 137 (please referring to Fig. 3 and Fig. 6), corresponding engagement unit 131 and be set in docking cambered surface 1321, with for being connected to detection circuit 133 external wire (non-icon) is worn.Sliding rail 122 constitutes a corresponding wiring wears groove 123 in inner concave arc surface 1212 simultaneously (please referring to Fig. 2 and Fig. 5) makes detachable perceptron module 13 when sliding on sliding rail 122, outside detachable perceptron module 13 Connecing conducting wire can be by wiring cut 137 with the unconstrained movement between wiring wears groove 123 of detachable perceptron module 13. In another embodiment, as shown in Figure 1 C, the ontology 11 of sensing device 1 further includes an at least circuit board 113, and it is empty to be set to accommodating Between 111, and circuit board 113 have more an at least holes 1131, worn with for 1212 part of inner concave arc surface of turntable 121.By This, the external wire of detachable perceptron module 13 can pass through the holes of wiring cut 137, wiring wears groove 123 and circuit board 113 1131 and be connected to the circuit board 113 of ontology 11, and do not make the mobile restricted system of detachable perceptron module 13.

Fig. 8 A discloses the schematic perspective view of the sensing device of this case another preferred embodiment.Fig. 8 B and Fig. 8 C are then disclosed The structural exploded view of the sensing device of Fig. 8 A.Fig. 8 D more discloses the three-dimensional knot of the detachable perceptron module of sensing device in Fig. 8 A Structure schematic diagram.As shown in Figure 8 A to 8 D, structure, element and its function and Figure 1A to 1D, 2 of the sensing device 1 of the present embodiment And 3 illustrated embodiment it is similar, and identical element numbers represent identical structure, element and function, repeat no more in this.It compares The ontology 11 of the sensing device 1 shown in Figure 1A to 1D, 2 and 3, the sensing device 1 of the present embodiment can more correspond to detachable perception The design of the shape of device module 13 and rounded disk, with installation space needed for more saving installation when using.In addition, in In the present embodiment, the disc shaped shell 132 of detachable perceptron module 13 equally has a wiring cut 137, corresponding engagement unit 131 and be set to docking cambered surface 1321 on, worn with for the external wire (non-icon) for being connected to detection circuit 133.Its Middle corresponding engagement unit 131 and more lateral be located at of wiring cut 137 dock cambered surface 1321, as in fig. 8d.Compared to aforementioned Embodiment, in this present embodiment, the extent length that corresponding engagement unit 131 is set to docking cambered surface 1321 are longer, can with wave Sliding is more securely interacted with the formation of sliding rail 122 on rotary module 12.Sliding rail 122 has an arc card limit portion 1223, setting In waving the inner concave arc surface 1212 (please referring to Fig. 2) with rotary module 12.The corresponding engagement unit of detachable perceptron module 13 131, corresponding arc card limit portion 1223, as shown in Figure 2.When corresponding engagement unit 131 slides into sliding rail 122, arc card limit portion 1223 can guide the engagement unit 131 of detachable perceptron module 13 in firmly sliding on sliding rail 122.In the present embodiment, by In detachable perceptron module 13 corresponding engagement unit 131 with wave can be formed with the sliding rail 122 of rotary module 12 it is effective Engagement range is wider, therefore the maximum that detachable perceptron module 13 can be made to slide along sliding rail 122 relative to turntable 121 can deviate Angle increases to 60 ° or more, and since wiring cut 137 is also laterally located at docking cambered surface 1321, therefore in detachable perceptron When module 13 slides into peak excursion angle, still it is enough to wear for the external wire of detection circuit 133.On the other hand, this implementation In example, the corresponding engagement unit 131 of detachable perceptron module 13 is more not limited to be arranged in the inclined side of docking cambered surface 1321 (as schemed Shown in 3 and Fig. 6), therefore the either end that can correspond to engagement unit 131 slides into the sliding rail 122 waved with rotary module 12, and can Make detachable perceptron module 13 can with respect to turntable 121 and to two relative directions respectively slide to a maximum can deviation angle, example Such as, but not limited to, 60 °.Alternatively, in other embodiments, docking cambered surface 1321 is set to by corresponding engagement unit 131 Position modulation, and corresponding engagement unit 131 slide into the direction selection waved with the sliding rail 122 of rotary module 12, detachable to feel Know device module 13 with respect to the slidable maximum of turntable 121 can deviation angle, can more increase to 90 °.Certainly, detachable perceptron module 13 relative to the slidable maximum of turntable 121 can deviation angle can also be limited to only slide into 30 ° of offset to the two sides of sliding rail 112 Angle, this case are not limited thereto.

In some embodiments, as shown in figure Figure 1A, Fig. 1 C, Fig. 1 D, Fig. 2 and Fig. 8 A to Fig. 8 C, this case sensing device 1 It waves with rotary module 12 with more an at least venthole 124, is set to the inner concave arc surface of relatively detachable perceptron module 13 1212, the thermal energy generated to the detachable perceptron module 13 of loss.In some embodiments, sensing device 1 is further included Gap 15 is set to and waves between rotary module 12 and detachable perceptron module 13, to the detachable perceptron module of loss 13 thermal energy generated.In other embodiments, ontology 11 is set to the side of ontology 11 with more at least one exhaust side opening 114 Wall, the thermal energy generated to the detachable perceptron module 13 of loss.Due to detachable perceptron module 13 in use, along with A large amount of thermal energy generates, if excessive thermal energy accumulation is more likely to cause sensor or inspection in addition to it may influence the sensitivity of detection Slowdown monitoring circuit is impaired, therefore the thermal energy loss that detachable perceptron module 13 generates is very important.In previous embodiment, detachably The thermal energy that perceptron module 13 generates can by waving the gap 15 between rotary module 12 and detachable perceptron module 13, Go out by waving the venthole 124 with rotary module 12, then by 114 loss of exhaust side opening of 11 side wall of ontology, can effectively keep away Exempting from detachable perceptron module 13 influences its detection because of excessive thermal energy accumulation.On the other hand, as previously mentioned, this case it is removable Unloading the sensor 134 in perceptron module 13 can be but be not limited to an infrared sensor, optical camera system, sound or vibration Dynamic sensor, thermal sensation matrix form human body sensor, thermopile sensor, temperature and humidity sensor, magnetic sensor, gas concentration Sensor or combinations thereof.For different sensors 134, the ventilation of loss thermal energy is equally can be set in detachable perceptron module 13 Hole.Fig. 9 discloses the plan view of the detachable perceptron module of this case another preferred embodiment.In this present embodiment, detachable sense Know that device 13 has further included at least one cyclic annular ventilation hole 138, is set in detection faces 1322, and be located at around sensor 134.It is logical The setting for crossing cyclic annular ventilation hole 138, facilitates heat caused by the detachable perceptron module 13 of loss.In addition, detachable sense Know that device module 13 can be also set in docking cambered surface 132 in comprising an at least heat release hole 139, as in fig. 8d, and with wave with The venthole 124 of rotary module 12 is opposite.Whereby, in the sensing device of this case 1, cyclic annular ventilation hole 138, heat release hole 139, sky Gap 15, venthole 124 to exhaust side opening 114 may make up a smoothly heat dissipation ventilation system, effectively avoid detachable perceptron mould Block 13 influences its detection performance because of excessive thermal energy accumulation.Certainly, detachable perceptron 13 can be directed to different sensors 134 Other additional heat dissipation ventilation elements are prepared, this case is not limited thereto, and is repeated no more.

In some embodiments, as shown in Figure 10, the ontology 11 of sensing device 1 has more a neck 15A, and the neck is extremely Small part circumferential surface has locking screw thread 115, ontology 11 is rotated with to the object 2 of a specific slot of tool, such as ceiling.Sense Know that the ontology 11 of device 1 further includes multiple spring secures rail to sleepers 116, multiple spring secures rail to sleeper 116 is set to the circumferential surface of the neck 15, with And sensing device 1 more may include one frame 19 being auxiliarily fixed, and matches with the spring secures rail to sleeper 116 of ontology 11, makes sensing device 1 can be more It is fixedly arranged on ceiling 2 to be firmly installed.The fixed form of certain this case sensing device 1 is simultaneously not merely limited to aforementioned implementation Example.Figure 11 discloses another fixed form of this case sensing device.When sensing device 1 need to be fixed on a metope that can not be dug a hole or wear Or when wall surface, sensing device 1 can have one frame 19 is auxiliarily fixed, this be auxiliarily fixed frame 19 can by a cementation element 191, such as But it is not limited to adhesive tape, and on metope or wall surface fixed needed for being pasted onto.Alternatively, this is auxiliarily fixed frame 19 and can also lead to It crosses screw and is fixed on metope or wall surface, this case is not limited thereto.In this present embodiment, frame 19 is auxiliarily fixed with multiple Fix slot 192, multiple spring secures rail to sleepers 116 of the corresponding ontology 11.When the spring secures rail to sleeper 116 of perception ontology 11 slides into auxiliary admittedly When determining the accommodating slot 192 of frame 19, it can fasten each other and frame 19 will be auxiliarily fixed and be fixed on ontology 11.

Figure 12 discloses the another fixed form of this case sensing device.As shown, sensing device 1 further includes a fixture unit 16, it is connect with ontology 11.Fixture unit 16 can be located in the fluorescent tube 31 of an object such as lamp holder 3 and fix.In some embodiments In, sensing device 1 further includes a radio signal senders 18, is set to ontology 11 and lamp holder 3 includes that a tool wireless signal connects Receive device 171 control module 17, by the radio signal senders 18 and lamp holder 3 of sensing device 1 control module 17 it is wireless Signal receiver 171 communicates, and the opening and closing actuation of the fluorescent tube 31 of lamp holder 3 is controlled using the sensing signal of sensing device 1.Figure 13 Disclose the another fixed form of this case sensing device.As shown, sensing device 1 includes equally a fixture unit 16, with ontology 11 Connection, wherein fixture unit 16 can be located on the fluorescent tube 31 of a lamp holder 3 and fix.Different from previous embodiment, sensing device 1 Ontology 11 connect route 172 by one and connect with its control module 17.Certainly, the fixed form of this case sensing device 1 is simultaneously It is not merely limited to previous embodiment, can adjust and change according to practical application request.

In conclusion this case provides a kind of sensing device for having detachable perceptron module, it can adjust and turn according to user demand The sensor of dynamic perceptron module, and larger range of detection angles are obtained, and can be in response to different monitoring environmental demands and with hand Dynamic or electronic mode modulation monitors angle.Also multiple sensors can be combined in detachable perceptron module and increases monitoring angle Range.In addition, detachable perceptron module is in addition to visual demand modulation detection angles, it is more dismountable.User can Yu Weixiu Or when replacement perceptron module, the disassembly of perceptron module is repaired or is replaced difference from the ontology of sensing device easily The perceptron module of type.

Above are only presently preferred embodiments of the present invention, not be used to limit the scope of implementation of the present invention, without departing substantially from In the case where spirit of that invention and its essence, those skilled in the art make in accordance with the present invention various to be changed accordingly Become and deform, but these corresponding changes and modifications all should fall within the scope of protection of the appended claims of the present invention.

Claims (20)

1. a kind of sensing device characterized by comprising

One ontology has an accommodating space；

One waves and rotary module, is embedded in the accommodating space of the ontology, has a turntable and a sliding rail, wherein the turntable It is clipped on the ontology, and a level angle can be rotated relative to the ontology, which is set on the turntable；And

At least one detachable perceptron module has an engagement unit, and removably correspondence is engaged in the sliding rail, and can be in the cunning It is slided on rail, the detachable perceptron module is made to slide a deviation angle relative to the turntable.

2. sensing device as described in claim 1, which is characterized in that the ontology has a clip portion, and the clip turntable makes this Turntable is embedded at the accommodating space, and rotate the turntable can relative to the ontology.

3. sensing device as described in claim 1, which is characterized in that the turntable has a rotation groove, is located on the turntable At least part outer peripheral edge.

4. sensing device as claimed in claim 3, which is characterized in that further include a motor, there is a transmission gear, with this turn The rotation groove of disk is meshed, and drives the turntable to turn to the level angle to assemble.

5. sensing device as described in claim 1, which is characterized in that it is outer that the detachable perceptron module further includes a dish There is shell at least one docking cambered surface and the turntable to have an inner concave arc surface, the docking of the corresponding detachable perceptron module Cambered surface.

6. sensing device as claimed in claim 5, which is characterized in that the engagement unit be set to the docking cambered surface one partially Side.

7. sensing device as claimed in claim 5, which is characterized in that the sliding rail is an arc groove sliding rail, and it is interior to be set to this On cancave cambered surface, there are multiple groove scales, to indicate the deviation angle of the detachable perceptron module with respect to the turntable.

8. sensing device as claimed in claim 5, which is characterized in that the sliding rail includes:

One stop section is set to one end of the sliding rail, and with block, the engagement unit of the detachable perceptron module is in the sliding rail On sliding；And

A set of disengagement mouth, is set to the other end of the sliding rail, the engagement unit of the detachable perceptron module is inserted in or It is detached from the sliding rail.

9. sensing device as claimed in claim 5, which is characterized in that the sliding rail has an arc card limit portion, and it is interior to be set to this Cancave cambered surface.

10. sensing device as claimed in claim 9, which is characterized in that the detachable perceptron module has a guiding hook, It corresponds to the arc card limit portion and is set in the docking cambered surface, and is engageable in the arc card limit portion, to guide the detachable sense Know that the engagement unit of device module is slided on the sliding rail, and the detachable perceptron module is made to slide into the offset along the sliding rail Angle.

11. sensing device as claimed in claim 5, which is characterized in that the detachable perceptron module further includes:

One detection circuit is set in the disc shaped shell；And

An at least sensor is set to a detection faces of the disc shaped shell, and is electrically connected with the detection circuit.

12. sensing device as claimed in claim 11, which is characterized in that the detachable perceptron module further includes:

One indicating unit is set in the disc shaped shell, is electrically connected to the detection circuit, to indicate the running shape of the sensor State；And

One optical transmission window, is set to the detection faces of the disc shaped shell, and is located on around the sensor, to show the sensing The operating state of device.

13. sensing device as claimed in claim 11, which is characterized in that the disc shaped shell has more a wiring cut, corresponding The engagement unit and be set in the docking cambered surface, worn for being connected to an external wire of the detection circuit.

14. sensing device as claimed in claim 11, which is characterized in that the disc shaped shell further includes:

One cyclic annular ventilation hole, is set to the detection faces of the disc shaped shell, and be located on around the sensor；And

An at least heat release hole is set to the docking cambered surface of the disc shaped shell.

15. sensing device as claimed in claim 5, which is characterized in that the ontology has more an at least circuit board, is set to this Accommodating space, and the circuit board has more an at least holes, the inner concave arc surface part of the turntable is arranged in the holes.

16. sensing device as claimed in claim 5, which is characterized in that this is waved with rotary module with more at least one ventilation Hole, is set to the inner concave arc surface, the one side wall of the ontology have at least one exhaust side opening and this wave with rotary module should Inner concave arc surface is docked with this of the detachable perceptron module has a gap between cambered surface.

17. sensing device as described in claim 1, which is characterized in that the ontology has a neck, and the neck is at least partly Circumferential surface has a locking screw thread.

18. sensing device as claimed in claim 17, which is characterized in that the ontology includes multiple spring secures rail to sleepers, is set to this Circumferential surface and the sensing device of neck further include one and frame are auxiliarily fixed, and it includes multiple fixing slots that frame, which is auxiliarily fixed, in this, right Should be in multiple spring secures rail to sleeper, wherein multiple fixing slot phase of frame is auxiliarily fixed with this for multiple spring secures rail to sleeper of the ontology Engaging, makes this that frame be auxiliarily fixed and is detachably secured to the ontology.

19. sensing device as described in claim 1, which is characterized in that further include a fixture unit, the ontology is connected, with frame Structure is fixed on an object in making the ontology sandwiched.

20. sensing device as described in claim 1, which is characterized in that the detachable perceptron module includes an infrared ray sense Survey device, an optical camera system, a sound or Vibration Sensor, a thermal sensation matrix form human body sensor, thermopile sensing Device, a temperature and humidity sensor, a magnetic sensor, a gas concentration sensor or combinations thereof.