CN109884958A - A kind of intelligent monitoring terminal can be used for Internet of Things - Google Patents
A kind of intelligent monitoring terminal can be used for Internet of Things Download PDFInfo
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- CN109884958A CN109884958A CN201910250195.8A CN201910250195A CN109884958A CN 109884958 A CN109884958 A CN 109884958A CN 201910250195 A CN201910250195 A CN 201910250195A CN 109884958 A CN109884958 A CN 109884958A
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- monitoring terminal
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 32
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims description 26
- 238000003466 welding Methods 0.000 claims description 7
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- 230000006855 networking Effects 0.000 claims 1
- 238000013461 design Methods 0.000 abstract description 26
- 230000017525 heat dissipation Effects 0.000 abstract description 5
- 230000000694 effects Effects 0.000 abstract description 4
- 238000010276 construction Methods 0.000 abstract description 2
- 238000000034 method Methods 0.000 description 8
- 210000003128 head Anatomy 0.000 description 6
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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Abstract
A kind of intelligent monitoring terminal can be used for Internet of Things, CCD camera assembly including ontology and assembling on the body, the CCD camera assembly and ontology are pivotally connected, it is formed with the accommodating space for accommodating CCD camera assembly on the ontology and forms window, the CCD camera assembly includes cradle portion, it is fixed in the cradle portion and has the camera module of camera lens, motor, chip module and radiating subassembly, the camera lens of the camera module is exposed by window, the motor driven CCD camera assembly opposing body rotation, the camera module and chip module are fixed in cradle portion, the motor is fixed in cradle portion of the cradle portion far from camera lens side, the radiating subassembly is fixed in cradle portion and close to motor position, the radiating subassembly forms conductive post, the conductive post fits on chip module.It is designed by the special construction of radiating subassembly, while the relative positional relationship of chip module and the second motor being cooperated to design, heat dissipation effect can be improved, while improving intrinsic space utilization rate.
Description
[technical field]
The present invention relates to a kind of intelligent monitoring terminal more particularly to a kind of intelligent monitoring terminals that can be used for Internet of Things.
[background technique]
Camera (CAMERA or WEBCAM) is also known as camera computer, computer eye, electronic eyes etc., is that a kind of video input is set
It is standby, widely applied to video conference, tele-medicine and real time monitoring etc..Common people can also be each other by camera shooting
Head carries out image, the talk for having sound and communication in network.In addition, people can also be used for the number of current various prevalences
Code image, sound processing etc..In particular with the continuous hair of network communication technology, internet and technology of Internet of things in recent years
Exhibition, intelligent video camera head end product are even more to be widely applied, incorporated in the daily life of each ordinary people and nowhere not
?.Meanwhile the usage scenario of camera is also more and more extensive, function be also it is increasingly powerful, at the same time, camera terminal produce
The structure of product be also it is increasingly sophisticated, internal structure is compact to design and cooperation is complicated, and the manufacturing process and assembling difficulty of product are got over
Come bigger.
Chinese invention patent CN205336447U discloses a kind of intelligent video camera head, including front housing, photosensitive sensors, infrared
Lampshade, sealing ring, camera lens, work light, universal joint, pedestal, magnet, rear shell, buzzer, microphone, Android serial ports and multiple
The components such as position button.In addition, Chinese invention patent CN204887184U discloses a kind of household network intelligent video camera head and prison
Control system, including pedestal, the IP Camera main body being connected on pedestal, pedestal is detachably connected with IP Camera main body,
IP Camera main body includes shell, the bracket being connected with shell and is arranged in the intracorporal first circuit board of shell, camera, wheat
Gram wind, first group of indicator light, wireless transport module, loudspeaker, memory and the structural members such as reset key and circuit board.
Increasingly powerful however as the function of intelligent video camera head end product, structure is increasingly sophisticated, discloses in the prior art
Some structures cooperation be unable to satisfy demand.Therefore it is ingenious how to design a structure cooperation, it is simple for assembly process, and pass through
The intelligent monitoring terminal product for helping durable is the problem of related dealer must think deeply now place.
In view of this, it is necessary to previous intelligent monitoring terminal product be improved, to realize better product function
It is required that.
[summary of the invention]
Aiming at the problems existing in the prior art, the present invention is intended to provide a kind of packaging technology is more simple, structure cooperation
More stable and economy and durability intelligent monitoring terminal.
The invention is realized by the following technical scheme:
A kind of intelligent monitoring terminal can be used for Internet of Things, the camera group including ontology and assembling on the body
Part, the CCD camera assembly and ontology are pivotally connected, and form accommodating space and formation for accommodating CCD camera assembly on the ontology
Gate, the CCD camera assembly includes cradle portion, is fixed in the cradle portion and the camera module with camera lens, electricity
The camera lens of machine, chip module and radiating subassembly, the camera module is exposed by the gate, the motor driven camera shooting
Head assembly opposing body rotation, the camera module and chip module are fixed in cradle portion, and the motor is fixed to bracket
In cradle portion of the portion far from camera lens side, the radiating subassembly is fixed in cradle portion and close to motor position, the heat dissipation
Component forms conductive post, and the conductive post fits on chip module.
Further, receiving notch is formed on the radiating subassembly, the motor is at least partially housed in the receipts of radiating subassembly
Hold in notch, the motor and radiating subassembly realize heat transfer.
Further, the radiating subassembly to the position for being less than conductive post rear forms grid-like radiating part, the conductive post
It is arranged side by side with motor.
Further, the cradle portion includes the fore-stock shell and after-poppet shell mutually fastened, and the fore-stock shell runs through shape
At the gate, mould group space, the camera module and chip dies are collectively formed in the fore-stock shell and after-poppet shell
Block assembling is contained in mould group space, and the radiating subassembly and the second motor are assembled to after-poppet shell rear position.
Further, output shaft is arranged in the motor, and the output shaft is protruded out by cradle portion side and directly consolidated with ontology
It is fixed, between the output shaft and ontology can not relative rotation, the cradle portion where far from output shaft the other side of side it is outer
Surface forms shaft, and shaft position is corresponded on the inner wall of the accommodating space of the inner casing and forms auxiliary section, the shaft
It is pivotally connected with auxiliary section, the relatively described ontology of the cradle portion for being installed with motor can realize opposite rotation by shaft of output shaft
Turn.
Further, the ontology includes inner casing and the shell for being assembled in inner casing periphery, the CCD camera assembly direct-assembling
It is articulated in the inner casing, the intelligent monitoring terminal that can be used for Internet of Things further includes welding bell group, the outside wall surface of the inner casing
It is recessed inwardly to form flared channels, the loudspeaker module group assembling is fixed in flared channels, and the shell is from top to bottom set in described
Inner casing periphery.
Further, further include pedestal, central axis is installed with below the ontology, the central axis passes through a bearing and pedestal
Pivot joint, the central axis are made of metal material.
It further, further include the fixture nut cooperated with the central axis, the ontology further includes support plate, the ontology
Lower position forms cavity, is covered below the cavity by support plate, the support plate is fixed with ontology, and the central axis is fixed
In the support plate middle position, the pedestal includes bottom case and bottom plate, and the bottom case forms the accommodating space of upward opening, institute
It states base plate cover to be fixed as one above accommodating space and with bottom case, the bottom plate corresponds to cental axial position and opens up matching hole, institute
Bearing is stated to be contained in matching hole, the central axis pass through bearing and by the fixture nut by bottom plate and support plate in upper and lower
Direction limit, the bottom plate and support plate can realize the rotation of horizontal direction using central axis as shaft.
Further, satellite hole is formed in central axis adjacent position in the support plate, is installed with first in the support plate
Motor, first motor is within the cavity, and the first motor is equipped with rotating output shaft, and the rotating output shaft protrudes into satellite hole
It is interior, it is fixed with satellite gear on the rotating output shaft, is fixed with master gear, the main tooth immediately below the matching hole of the bottom plate
Wheel is coaxial with central axis, and the satellite gear is engaged with master gear.
Further, the central axis in hollow tubular and forms mesoporous, and the mesoporous is by the appearance of the cavity of ontology and pedestal
It is connected between emptying.
Compared with prior art, in the present invention, designed by the special construction of radiating subassembly, at the same cooperate chip module,
And second motor relative positional relationship design, heat dissipation effect can be improved, while improving intrinsic space utilization rate.
[Detailed description of the invention]
Fig. 1 is the perspective view of the design intelligent monitoring terminal.
Fig. 2 is the part isometric exploded view of the design intelligent monitoring terminal, and which show shells when separating from inner casing
Perspective view.
Fig. 3 is the perspective view that Fig. 2 is seen from another angle.
Fig. 4 is the further exploded view of Fig. 3.
Fig. 5 is the further exploded view of Fig. 4.
Fig. 6 is the part isometric exploded view of the design intelligent monitoring terminal, and which show welding bell group and shells from inner casing
Perspective view when upper separation.
Fig. 6-1 is the perspective view of the radiating subassembly of the design intelligent monitoring terminal.
Fig. 7 is the further exploded view of Fig. 2.
Fig. 8 is the part isometric exploded view of the design intelligent monitoring terminal.
Fig. 9 is the part isometric exploded view of the design intelligent monitoring terminal.
Figure 10 is the further exploded view of Fig. 9.
Figure 11 is the part isometric exploded view of the design intelligent monitoring terminal.
Figure 12 is the cross-sectional view of the line A-A along Fig. 1.
Figure 13 is the cross-sectional view of the line B-B along Fig. 1.
[specific embodiment]
To keep the purposes, technical schemes and advantages of the application clearer, below in conjunction with the specific embodiment of the application
And technical scheme is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only the application
A part of the embodiment, instead of all the embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not having
Every other embodiment obtained under the premise of creative work is made, shall fall in the protection scope of this application.
Here, it should also be noted that, in order to avoid having obscured the application because of unnecessary details, in the accompanying drawings only
The structure and/or processing step closely related with the section Example of the application are shown, and the part with the application is omitted
The little other details of embodiment relationship.
In addition, it should also be noted that, the terms "include", "comprise", " having " or its any other variant are intended to contain
Lid non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.
For the accuracy of description, herein it is all be related to direction please without exception using Fig. 1 as reference, the wherein extension side of X-axis
To for left and right directions (wherein X-axis forward direction be left), the extending direction of Y-axis is front-rear direction (before wherein Y-axis forward direction is), Z axis
Extending direction is up and down direction (wherein Z axis forward direction is upper).For convenience, the top to bottom, left and right, front and rear orientation in the application
For relative position, does not constitute a limitation realization and limit.
Fig. 1 to Figure 13 is please referred to, the design discloses a kind of intelligent monitoring terminal that can be used for Internet of Things, and shape is substantially
It is cylindrical, including pedestal 1, the ontology being assembled on pedestal 12 and the CCD camera assembly 3 being assembled on ontology 2.The ontology 2
It is rotatablely connected between pedestal 1, ontology 2 can realize 360 degree rotation in horizontal direction with respect to pedestal 1.The CCD camera assembly 3 with
Rotate connection between ontology 2,3 opposing body 2 of CCD camera assembly can realize that (the design is for the rotation of certain angle in vertical direction
Substantially 90 degree).
Please refer to Fig. 2 to Fig. 8, the ontology 2 include inner casing 21, the support plate 22 for being assembled in 21 lower section of inner casing and by up to
Under be sheathed on the shell 23 of inner casing 21 and the periphery of support plate 22.Cavity (not marking), the chamber are formed with below the inner casing 21
It is covered below body by support plate 22.The inner casing 21 has been upwardly formed a pair of support arms 211 in opposite sides in the top of cavity.
Accommodating space 210 is formed between described two support arms 211.The inner casing 21 is formed between cavity and accommodating space 210
Barrier rib 2101.The close top position of one of support arm 211, which is run through, matching hole 2111, the matching hole 2111
Cross sectional shape be it is non-circular, in the design, 2111 cross-sectional shape of matching hole is combined by a rectangle and two semicircles
It is formed (similar to the shape of playground runway), certainly in other embodiments, the matching hole 2111 can be rectangular, oval
Shape, trapezoidal, polygon etc.;The upper end position of another support arm 211 forms auxiliary section 2112, described to match in the design
It is that the upper edge of support arm 211 is recessed downwards arc-shaped recess structure (certainly, the auxiliary section 2112 of formation that conjunction portion 2112 is practical
It also can be through-hole structure).The matching hole 2111 of the support arm 211 and auxiliary section 2112 are for cooperating CCD camera assembly 3.
It please refers to shown in Fig. 1,2,3,8, the shell 23 is substantially cylindrical, and the shell 23 is opened up close to top position
By through hole shape window 230, the support plate 22 is assembled in 21 lower section of inner casing and is fixed by bolt (not marking) and inner casing 21.Institute
It states fixed by bolt (not marking) between shell 23 and inner casing 21.The support plate 22 is formed with assembly hole in middle position
220, satellite hole 221 is formed in 220 adjacent position of assembly hole.Central axis is fixed in the assembly hole 220 of the support plate 22
222, the central axis 222 is in hollow tubular and forms mesoporous 2220.In the design, the central axis 222 and support plate 22 it
Between cannoted rotate relative to each other in horizontal plane direction, specially on 222 periphery wall of central axis formed corner cut 2221, by corner cut 2221 with
The inner wall fit structure of assembly hole 220 realizes limit.Downward 22 lower surface of convex support plate of the central axis 222.The center
The periphery of axis 222 is arranged with bearing 223 close to 22 lower surface position of support plate, and 222 periphery of central axis is rectangular under bearing 223
At there is external screw thread 224, the central axis 222 further includes the fixture nut 226 with the external screw thread 224 cooperation.
In the design, the central axis 222, which is made of metal material, (can be any solid metal, is preferably not easy to get rusty
And metal material, such as stainless steel, aluminium alloy with certain physical strength etc., copper alloy etc.), the central axis 222 cooperates
The smaller of fit clearance between both design can be so conducive to main body 2 and pedestal 1 by bearing 223 (metal bearing)
Between pivot joint stablize, while can avoid as far as possible or reduces main body 2 with respect to pedestal 1 rotation when shaking amplitude, raising
The shooting stability of CCD camera assembly 3.
The mesoporous 2220 of the central axis 222 is used for the cabling of conducting wire 6.The upper end and lower ending opening edge position of central axis 222
The inside set is equipped with smooth arc guidance part 2222, when for preventing shell 2 from rotating relative to pedestal 1, is located in mesoporous 2220
6 scraping damage of conducting wire.
Fig. 8,10,11 are please referred to, 22 upper surface of support plate is fixed with first motor 225, and first motor 225 is located at chamber
In vivo, the first motor 225 is equipped with rotating output shaft (not marking), and the rotating output shaft protrudes into satellite hole 221, institute
It states and is arranged with satellite gear 2251 on rotating output shaft.The satellite gear 2251 is corresponding to be cooperated with pedestal 1.
Fig. 5,6 are please referred to, the CCD camera assembly 3 includes cradle portion 31, camera module 32, chip module 33, second
Motor 34 and radiating subassembly 35, the cradle portion 31 are substantially in hollow hemispherical.The shape of the CCD camera assembly 3 is designed
At can accommodate between a pair of support arms 211 of inner casing 21.The cradle portion 31 include the fore-stock shell 311 that mutually fastens and
After-poppet shell 312, the fore-stock shell are formed there through gate (not marking), and the camera lens of the camera module 32 exposes mirror
Mould group space (not marking), the camera module 32 is collectively formed in head window mouth, the fore-stock shell 311 and after-poppet shell 312
And the assembling of chip module 33 is contained in mould group space, the radiating subassembly 35 and the second motor 34 are assembled to after-poppet shell
312 rear positions.
Second motor 34 is equipped with output shaft 341, and the correspondence of output shaft 341 protrudes out in matching hole 2111, and defeated
The peripheral shape of shaft 341 is designed to match with matching hole 2111, so that can not be opposite between output shaft 341 and support arm 211
Rotation.In the design, the outside of the support arm 211 is by sealed with output shaft 341, realization output shaft 341 and support arm 211
Absolute fixation.The cradle portion 31 is protruded outward far from the side of output shaft 341 is formed with the rounded shaft of peripheral cross-section
Portion 313, the shaft 313 are carried on 2112 top of auxiliary section of corresponding support arm 211.Specific 313 shape of shaft
At on after-poppet shell 312.
Second motor 34 drives output shaft 341 to rotate, so that CCD camera assembly 3 be driven to realize vertically with respect to inner casing 21
Direction rotates, to realize the camera lens of camera module 32 in realization rotation in the window 230 of shell 23.It please refers to shown in Fig. 4,
It is inwardly projecting on 211 medial surface of a wherein support arm of the inner casing 21 to be formed with limited post 2113, the CCD camera assembly 3
31 corresponding position of cradle portion protrusion is formed with limiting section 312.When the opposite inner casing 21 of the CCD camera assembly 3 realizes vertical direction rotation
Turn, the correspondence of limiting section 312 is held in limited post 2113, to realize the rotation angular dimension for limiting CCD camera assembly 3.Originally it sets
In meter, by the ingenious syntagmatic of the second motor 34, cradle portion 31 and inner casing 21, so that overall package simple process, and take the photograph
As 3 opposing body of head assembly, 2 spin stabilization and smooth, long service life.
It please refers to shown in Fig. 6-1, the radiating subassembly 35 is made of the good metal material of heating conduction, the heat dissipation group
35 front position of part is formed with receiving notch 351, and radiating subassembly 35 is located at the adjacent position of receiving notch 351 and protrudes out to be formed forward
There is a conductive post 352,35 back-end location of radiating subassembly be (position at 352 rear of conductive post of radiating subassembly 35 and radiating subassembly 35
Accommodate the position at 351 rear of notch) it protrudes out and is formed with grid-like radiating part 353.The radiating subassembly 35 passes through bolt and bracket
Portion 31 is fixed, and second motor 34 is at least partially housed in the receiving notch 351 of radiating subassembly 35, so can be to second
Motor 34 is protected, while heat transmitting can be mutually generated between the second motor 34.After the conductive post 352 advances through
Bracket shell 312 is protruded out in mould group space and is contacted with chip module 33.The shape of the radiating subassembly 35 designs and cooperation the
The mutual alignment relation of two motors 34 allows radiating subassembly 35 while passively being radiated to chip module 33 with
Heat transmitting is generated between two motors 34, and (the heat transmitting generated between radiating subassembly 35 and the second motor 34 herein can be directly
The heat transmitting of contact is also possible to the very close and mutual heat transmitting generated indirectly due to leaning between the two), from heat
For the function of transmitting, the second motor 34 is together in series by radiating subassembly 35, is synchronized to chip module 33 and is passively radiated, such as
This improves the utilization rate in space, while utmostly improving heat dissipation effect.
It please refers to shown in Fig. 6, the periphery wall of the inner casing 21, which is recessed inwardly, flared channels 212, group in the flared channels 212
Equipped with welding bell group 4.The welding bell group 4 includes horn main body 41, horn bracket 42, EVA foam 43 and Air Filter 44.Institute
State the fool proof ear that horn bracket 42 includes roughly annular rack body 421 and extended to form by 421 two sides of rack body
422.The corresponding fool proof ear 422 of the flared channels 212 is formed with and the matched fool proof slot 2121 of fool proof ear 422.The loudspeaker
Horn bracket is fixed in flared channels 212 by latching in the bolt in fool proof ear 422 by bracket 212, described two anti-
Slow-witted ear 422 is designed to non-centrosymmetry shape and the horn bracket 42 can only be installed in one direction (can not revolve
Turnback installation), it can so guarantee that 42 outer surface of horn bracket is concordant with the lateral surface of inner casing 21, to reduce design tolerance
And the required precision of assembling.42 outer surface of horn bracket is installed with EVA foam 43, and EVA foam 43 is outer close to there is Air Filter
44.In addition, being also provided with the only one cabling notch 4211 for cable of stepping down on the rack body 421, only it is arranged
One cabling notch 4211 also has fool proof effect (preventing horn bracket 42 from reversely installing).
When welding bell group 4 in the design assembles, first horn main body 41 and horn bracket 42 are assembled into one, then by group
Horn bracket 42 equipped with horn main body 41 is installed in the flared channels 212 of inner casing 21, is then increased in 42 outer surface of horn bracket
If EVA foam 43, then close to Air Filter 44 on the lateral surface of inner casing 21, so that Air Filter 44 covers entire flared channels 212
It realizes dust reduction capability, finally completes to assemble outside inner casing 21 by 23 sets of shell.In the design, welding bell group 4 is passed through into bracket
Be mounted on inner casing 21, last package shell 23, so can with the inner space of the ontology 2 of rational deployment intelligent monitoring terminal,
It can be conducive to the assembling of shell 23 simultaneously.Air Filter 44 is close to the overall appearance that can guarantee intelligent monitoring terminal simultaneously in inner casing
Aesthetics.
It please refers to shown in Fig. 3 to Figure 13, the pedestal 1 includes substantially in bowl-shape bottom case 11 and being covered on bottom case 11
Bottom plate 12.It is bolted between the bottom case 11 and bottom plate 12.Accommodating space 10, institute are formed with above the bottom case 11
It states bottom plate 12 and is covered on 10 top of accommodating space, circuit board module group 13 is installed in the accommodating space 10.In the bottom plate 12
Between correspond to 222 position of central axis and offer matching hole 121.Master gear 122, the main tooth are fixed with immediately below the matching hole
Wheel 122 is coaxial with central axis 222.The assembling of above-mentioned bearing 223 is fixed in matching hole 121 that (the design is especially by bottom plate 12
The inner wall and master gear 122 of matching hole 121 mutually limit bearing 223).The central axis 222 passes through bearing 223 and passes through institute
It states fixture nut 226 and limits bottom plate 12 and support plate 22 in up and down direction, while bottom plate 12 and support are made by bearing 223
Plate 22 can be the rotation that shaft realizes horizontal direction with central axis 222.The above-mentioned correspondence of satellite gear 2251 is nibbled with master gear 122
It closes.In use, driving satellite gear 2251 to rotate by first motor 225, satellite gear 2251 drives master gear 122 to rotate,
To realize the mutual rotation between bottom plate 12 and support plate 22, and then the mutual rotation between realization body 2 and pedestal 1.
It please refers to shown in Fig. 3 to Figure 13, the 226 neighboring position whole design of fixture nut is arc-shaped smoothed
Structure 2260 is crossed, the fixture nut 226 only forms two planar operating surfaces 2261 in the opposite sides position of periphery, described
Operating surface 2261 provides spanner stress surface, for tightening fixture nut 226.The operating surface 2261 and the length of radial direction are excellent
Choosing is less than the half of the internal diameter of fixture nut 226, when being so used to prevent shell 2 from rotating relative to pedestal 1, is located at mesoporous
6 scraping damage of conducting wire in 2220.Certainly, in other embodiments, the planar operating surface 2261 can be designed to one,
It can also be designed to multiple, when being designed to multiple certainly, each planar operating surface 2261 is discontinuous, to subtract as far as possible
The small influence to conducting wire 6.
The circuit board module group 13 is fixed by bolts in the bottom case 11, and the specially described circuit board module group 13 is opposite
Two sides pass through a bolt respectively and fix in bottom case, and the other two sides of circuit board module group 13 are carried on the correspondence step surface of bottom case 11
On without being fixed with bottom case 11, so improve the integral smoothness of circuit board module group 13, avoid many places locked by bolt
And circuit board module group 13 is made to generate unnecessary distortion.
It please refers to shown in Fig. 3,4,5,10,11, is formed through cable hole 2102 on the barrier rib 2101 of the inner casing 21,
The cable hole 2102 is located at inner casing 21 close to rear position (rear position for being located at camera module 32), the cable hole
2102 are connected to the cavity of 21 lower position of inner casing with the accommodating space of 21 top position of inner casing, while passing through central axis 222
Mesoporous 2220 is connected to the accommodating space of bottom case 11, forms the channel for wiring that a up and down direction extends.It is designed in this way
32 opposing body 2 of camera module rotation can be reduced as far as possible, influence when ontology 2 is rotated relative to pedestal 1 to conducting wire 6 is prevented
Only conducting wire 6 is broken by ordinary bending.Wherein specifically, in 32 opposing body of camera module, 2 rotation process, so that conducting wire
6 bending positions are away as far as possible the conductive position connecting with component, and are bent along 6 length direction of conducting wire, and such conducting wire 6 is not
Easily lose fracture.Furthermore can be made when ontology 2 is rotated relative to pedestal 1 due to the longer wiring channel of up and down direction perforation
It obtains conducting wire 6 not to be bound in the longer unlimited channel, such conducting wire 6 is not easy to lose fracture.
It please refers to shown in Figure 10 and Figure 11, the bottom plate 12 is formed with position limiting structure towards the surface protrusion of support plate 22
127, the corresponding position limiting structure 127 of the support plate 22 is formed with fit structure 227, described when main body 2 is rotated relative to pedestal 1
Rotary stopper is realized in fit structure 227 and the collision of position limiting structure 127, so for determining zero-bit position of the main body 2 with respect to pedestal 1
It sets.Position limiting structure 127 described in the design and fit structure 227 are projection cube structure.
Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example
Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned
Embodiment is changed, modifies, replacement and variant, and the technical solution after above-mentioned change, modification, replacement and modification is in the present invention
Protection scope in.
Claims (10)
1. a kind of intelligent monitoring terminal that can be used for Internet of Things, it is characterised in that: on the body including ontology and assembling
CCD camera assembly, the CCD camera assembly and ontology are pivotally connected, and the receiving formed on the ontology for accommodating CCD camera assembly is empty
Between and form gate, the CCD camera assembly includes cradle portion, is fixed in the cradle portion and the camera shooting with camera lens
Head mould group, motor, chip module and radiating subassembly, the camera lens of the camera module are exposed by the gate, the electricity
Machine drives CCD camera assembly opposing body rotation, and the camera module and chip module are fixed in cradle portion, the motor
It is fixed in cradle portion of the cradle portion far from camera lens side, the radiating subassembly is fixed in cradle portion and close to motor position
It sets, the radiating subassembly forms conductive post, and the conductive post fits on chip module.
2. a kind of intelligent monitoring terminal that can be used for Internet of Things as described in claim 1, which is characterized in that the radiating subassembly
Upper formation accommodates notch, and the motor is at least partially housed in the receiving notch of radiating subassembly, the motor and radiating subassembly
Realize heat transfer.
3. a kind of intelligent monitoring terminal that can be used for Internet of Things as claimed in claim 2, which is characterized in that the radiating subassembly
Grid-like radiating part is formed to the position less than conductive post rear, the conductive post and motor are arranged side by side.
4. a kind of intelligent monitoring terminal that can be used for Internet of Things as described in claim 1, which is characterized in that the cradle portion packet
The fore-stock shell and after-poppet shell mutually fastened is included, the fore-stock shell is formed there through the gate, the fore-stock shell
And mould group space is collectively formed in after-poppet shell, the camera module and chip module assembling are contained in mould group space,
The radiating subassembly and the second motor are assembled to after-poppet shell rear position.
5. a kind of intelligent monitoring terminal that can be used for Internet of Things as described in claim 1, which is characterized in that the motor setting
Output shaft, the output shaft are protruded out by cradle portion side and are directly fixed with ontology, can not between the output shaft and ontology
Relative rotation, cradle portion outer surface of the other side of side where far from output shaft form shaft, the receipts of the inner casing
Hold and correspond to shaft position formation auxiliary section on the inner wall in space, the shaft and auxiliary section are pivotally connected, described to be installed with motor
The relatively described ontology of cradle portion can using output shaft as shaft realize relative rotation.
6. a kind of intelligent monitoring terminal that can be used for Internet of Things as described in claim 1, which is characterized in that the ontology includes
Inner casing and the shell for being assembled in inner casing periphery, the CCD camera assembly direct-assembling is articulated in the inner casing, described to can be used for object
The intelligent monitoring terminal of networking further includes welding bell group, and the outside wall surface of the inner casing is recessed inwardly to form flared channels, the loudspeaker
Module group assembling is fixed in flared channels, and the shell is from top to bottom set in the inner casing periphery.
7. a kind of intelligent monitoring terminal that can be used for Internet of Things as described in any one of claim 1 to 6, feature exist
In, further include pedestal, central axis be installed with below the ontology, the central axis is pivotally connected by a bearing and pedestal, it is described in
Mandrel is made of metal material.
8. a kind of intelligent monitoring terminal that can be used for Internet of Things as claimed in claim 7, which is characterized in that further include with it is described
The fixture nut of central axis cooperation, the ontology further includes support plate, the ontology lower position formation cavity, under the cavity
Side is covered by support plate, and the support plate is fixed with ontology, and the central axis is fixed on the support plate middle position, the bottom
Seat includes bottom case and bottom plate, and the bottom case forms the accommodating space of upward opening, and the base plate cover is set to above accommodating space simultaneously
Be fixed as one with bottom case, the bottom plate corresponds to cental axial position and opens up matching hole, and the bearing is contained in matching hole, it is described in
Mandrel passes through bearing and is limited bottom plate and support plate in up and down direction by the fixture nut, and the bottom plate and support plate can
Using the rotation for realizing horizontal direction using central axis as shaft.
9. a kind of intelligent monitoring terminal that can be used for Internet of Things as claimed in claim 8, which is characterized in that in the support plate
Satellite hole is formed in central axis adjacent position, is installed with first motor in the support plate, first motor is within the cavity, described
First motor is equipped with rotating output shaft, and the rotating output shaft protrudes into satellite hole, is fixed with and defends on the rotating output shaft
The matching hole underface of star gear, the bottom plate is fixed with master gear, and the master gear is coaxial with central axis, the satellite gear
It is engaged with master gear.
10. a kind of intelligent monitoring terminal that can be used for Internet of Things as claimed in claim 8, which is characterized in that the central axis
In hollow tubular and mesoporous is formed, the cavity of ontology is connected to by the mesoporous with the accommodating space of pedestal.
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CN201910250195.8A CN109884958A (en) | 2019-03-29 | 2019-03-29 | A kind of intelligent monitoring terminal can be used for Internet of Things |
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