CN104883484A - Security system, security shooting module, and manufacturing method thereof - Google Patents

Abstract

The invention provides a security system, a security shooting module, and a manufacturing method thereof. The security shooting module comprises an optical lens, a photosensitive element, a filtering element, and a lens structure, the lens structure further comprises a lens seat and a shell, the optical lens is arranged on the lens seat and positioned on a photosensitive path of the photosensitive element, the shell and the lens seat are integrally formed, the filtering element is arranged on the shell in an operable manner, and the filtering element can filter light from the optical lens to the security shooting module. The lens seat and the shell are integrally formed so that machining errors and assembling errors between the lens seat and the shell in the prior art can be eliminated, and the imaging quality of the security shooting module can be improved.

Description

Safety-protection system, security protection camera module and manufacture method thereof

Technical field

The present invention relates to camera head, in particular to a kind of safety-protection system, security protection camera module and manufacture method thereof, wherein said security protection camera module provides a mirror-seat structure, the microscope base of described mirror-seat structure and housing are the structures of integral type, like this, greatly can reduce and eliminate and be present in mismachining tolerance between described microscope base and described housing and rigging error, thus improve described security protection camera module image quality.

Background technology

Relative to other camera module, the main feature of security protection camera module has been configured an optical-filter switcher, and its effect makes security protection camera module no matter be by day or can obtain the image of residing environment at night.

Specifically, Fig. 1 and Fig. 2 shows the security protection camera module of prior art.Described security protection camera module comprise arrange along depth direction a camera lens 10P, a microscope base 20P, an optical-filter switcher 30P, a sensitive chip 40P and a mainboard 50P, wherein said camera lens 10P is arranged at described microscope base 20P, described microscope base 20P is installed on described optical-filter switcher 30P by screw, described sensitive chip 40P is mounted on described mainboard 50P, described mainboard 50P is installed on described optical-filter switcher 30P by screw, and described camera lens 10P is positioned on the photosensitive path of described sensitive chip 40P.By day or when using described security protection camera module in the stronger environment of other light, described optical-filter switcher 30P can filter the infrared light etc. in light, only allow the light of other types by being accepted by described sensitive chip 40P after described camera lens 10P, and effectively can avoid color distortion; Correspondingly, when using described security protection camera module in night or the more weak environment of other light, described optical-filter switcher 30P allows all light by being accepted by described sensitive chip 40P after described camera lens 10P, thus substantially increasing the Infravision of described security protection camera module, the image that night is obtained is more clear.

But, the described microscope base 20 of the security protection camera module of prior art and the housing of described optical-filter switcher 30 adopt the mode of separate type, that is, described microscope base 20 and described optical-filter switcher 30 need to be made, and then it is mounted to be configured to security protection camera module by the mode of assembling, in this process, the described microscope base 20 of separate type and described optical-filter switcher 30 create many problems.

Because adopt described microscope base 20 and described optical-filter switcher 30 to adopt the design of separate type, thus in the process of assembling at the security protection camera module of prior art, not only increase the assembly process of security protection camera module, but also because there is mismachining tolerance and rigging error between described microscope base 20 and described optical-filter switcher 30, after described security protection camera module has been assembled, the problem occurring between described microscope base 20 and described optical-filter switcher 30 tilting can be caused, and then seriously have impact on consistency and the imaging effect thereof of described security protection camera module.

In addition, the assembling process of the described security protection camera module of prior art is located by machinery to assemble described camera lens 10P, the components such as described microscope base 20P and described optical-filter switcher 30P, that is, in this process, first described camera lens 10P is installed on described microscope base 20P, again described microscope base 20P is fixed on the precalculated position of described optical-filter switcher 30P by installation elements, and then described optical-filter switcher 30P is screwed the precalculated position in described mainboard 50P, the location of described camera lens 10P and described sensitive chip 40P is indirectly realized by such mode, but, there is error in the locate mode of machinery location on the one hand, on the other hand, also error is there is between each component of described security protection camera module, such mode is easy to cause described camera lens 10P to be not orthogonal to the photosurface of described sensitive chip 40P, to such an extent as to affect the image quality of described security protection camera module.

In addition, each component of the described security protection camera module of prior art needs to carry out individually processing and making, and described optical-filter switcher 30P processes because the restriction of material cannot enter into dust-free workshop, this causes the numerous and diverse of the assembling process exception of described security protection camera module, the production efficiency of described security protection camera module not only can be caused low, and when assembling described security protection camera module in the environment of routine, the components and parts of described security protection camera module inside also can be caused contaminated, to such an extent as to cause dirty bad point in the inside of described security protection camera module, thus affect the product yield of described security protection camera module.

In addition, described sensitive chip 40P is directly mounted on described mainboard 50P, on the one hand because the heat conduction of described mainboard 50P and heat dispersion poor, on the other hand because described mainboard 50P is also provided with other electronic devices and components, these electronic devices and components operationally can produce a large amount of heats equally, thus, there will be the situation of interference mutually between the electronic devices and components between described sensitive chip 40P and described mainboard 50P, to such an extent as to affect the precision of described sensitive chip 40P.

In addition, when described security protection camera module work, described optical-filter switcher 30P needs to realize being electrically connected with control circuit, so that the switching of the state of described optical-filter switcher 30P can be completed under the control of described control circuit, in the prior art, described optical-filter switcher 30P is connected by electric wire with between described control circuit, and this connected mode exists a series of problems such as processed complex, complex structure and useful life is short.

Summary of the invention

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, wherein said security protection camera module provides a mirror-seat structure, the microscope base of described mirror-seat structure and housing are the structures of integral type, like this, greatly can reduce and eliminate and be present in mismachining tolerance between described microscope base and described housing and rigging error, thus improve described security protection camera module image quality.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, wherein said microscope base and described housing adopt the structure of integral type, thus, the assembling of described security protection camera module is carried out in dust-free workshop, like this, described security protection can be improved to make a video recording the automatization level do not organized in the fabrication process.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, in the assembling process of described security protection camera module, can effectively pollute by the inner member of preventing pollution thing to described security protection camera module.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, it provides a filtering assembly, the filter element of described filtering assembly can operatively be moved to the photosensitive path of photo-sensitive cell, thus, described filter element can filter the some light type in the light entering described security protection camera module, and then the image fault preventing described security protection camera module from gathering.Such as, described filter element can be infrared filtering element, so that the infrared part of the light entering into described security protection camera module can be filtered, and then, make described security protection camera module by day or in strong light environment, also can gather the image information clearly of environment residing for described security protection camera module.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, wherein said filtering assembly can also comprise an induction module, it is for responding to the light of the surrounding environment of described security protection camera module, with subsequently through the state automatically controlling described filter element, described security protection camera module can both be used in any light environment.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, wherein said photo-sensitive cell does not paste and is directly mounted on mainboard, but a heat-dissipating space is formed between described photo-sensitive cell and described mainboard, for the heat conduction produced by described photo-sensitive cell and radiateing, thus improve the heat-sinking capability of described security protection camera module.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, wherein said heat-dissipating space can also avoid other electronic devices and components on described photo-sensitive cell and described mainboard to occur situation about mutually disturbing, to improve the useful life of described security protection camera module.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, wherein said security protection camera module also provides a substrate, described substrate and described photo-sensitive cell are all mounted on a wiring board, wherein said substrate not only makes described photo-sensitive cell and described wiring board more smooth by what mount, and described substrate can also improve the heat-sinking capability of described security protection camera module.

One object of the present invention is to provide a kind of safety-protection system, security protection camera module and manufacture method thereof, compact conformation, the compact of wherein said security protection camera module.

In order to achieve the above object, the invention provides a kind of security protection camera module, it comprises:

One optical lens;

One photo-sensitive cell;

One filter element; And

One lens construction, described lens construction comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said housing and described microscope base form, and described filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens.

According to a preferred embodiment of the present invention, described security protection camera module also comprises a conducting subassembly, and described conducting subassembly is arranged at described housing, and described conducting subassembly comprises a wiring board, and described photo-sensitive cell is electrically connected on described wiring board.

According to a preferred embodiment of the present invention, described security protection camera module also comprises a mainboard, described housing is installed on described mainboard, and forms a heat-dissipating space between described conducting subassembly and described mainboard, goes out for the heat conduction produced by described photo-sensitive cell.

According to a preferred embodiment of the present invention, described conducting subassembly also comprises a substrate, and described photo-sensitive cell and described substrate are mounted on the not homonymy of described wiring board respectively.

According to a preferred embodiment of the present invention, described conducting subassembly also comprises a substrate, and described substrate comprises a radiating part and at least one heat-conducting part, and every described heat-conducting part extends described radiating part integratedly; Correspondingly, described wiring board is provided with at least one perforation, and described radiating part is mounted on described wiring board, and every described heat-conducting part passes and is held in the every described perforation of described wiring board, and described photo-sensitive cell is mounted on every described heat-conducting part.

According to a preferred embodiment of the present invention, described conducting subassembly also comprises a substrate, and described photo-sensitive cell and described wiring board are mounted on the not homonymy of described substrate respectively.

According to a preferred embodiment of the present invention, described conducting subassembly also comprises a cap member, and described cap member is covered in described photo-sensitive cell, and light is able to be accepted by described photo-sensitive cell through described cap member.

According to a preferred embodiment of the present invention, described conducting subassembly also comprises a full spectrum light element, and described full spectrum light element is arranged at described housing, and described full spectrum light element is positioned at the photosensitive path of described photo-sensitive cell.

According to a preferred embodiment of the present invention, described housing is provided with at least one fixing body, every described fixing body extends to described mainboard from described housing respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.

According to a preferred embodiment of the present invention, described mainboard is provided with at least one fixing body, every described fixing body extends to described housing from described mainboard respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.

The present invention also provides a kind of security protection camera module, and it comprises:

One optical lens;

One photo-sensitive cell;

One filter element;

One mainboard;

One conducting subassembly, described photo-sensitive cell can conductively be arranged at described conducting subassembly; And

One mirror-seat structure, described mirror-seat structure comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens; Wherein said housing is installed on described mainboard, and forms a heat-dissipating space between described conducting subassembly and described mainboard, goes out for the heat conduction produced by described photo-sensitive cell.

According to a preferred embodiment of the present invention, described housing is provided with at least one fixing body, every described fixing body extends to described mainboard from described housing respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.

The present invention also provides a kind of safety-protection system, and for carrying out monitor and managment to a region, wherein said safety-protection system comprises:

At least one acquisition module; With

One administration module, the every described acquisition module of described administration module management, wherein said administration module comprises further:

One control data corporation; With

At least one district management unit, is connected to described control data corporation to every described district management unit communication; Wherein described Region dividing is at least one administrative unit by every described district management unit, every described acquisition module gathers the image information of corresponding every described administrative unit, and generate a communication signal relevant to every described administrative unit, then described communication signal is transferred to described control data corporation and manages, thus described safety-protection system realizes the monitor and managment to described region.

According to a preferred embodiment of the present invention, every described acquisition module is a security protection camera module, and wherein said security protection camera module comprises further:

One optical lens;

One photo-sensitive cell;

One filter element; And

One lens construction, described lens construction comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said housing and described microscope base form, and described filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens.

According to a preferred embodiment of the present invention, every described acquisition module is a security protection camera module, and wherein said security protection camera module comprises further:

One optical lens;

One photo-sensitive cell;

One filter element;

One mainboard;

One conducting subassembly, described photo-sensitive cell can conductively be arranged at described conducting subassembly; And

One mirror-seat structure, described mirror-seat structure comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens; Wherein said housing is installed on described mainboard, and forms a heat-dissipating space between described conducting subassembly and described mainboard, for saying that the heat conduction that described photo-sensitive cell produces is gone out.

The present invention also provides a kind of manufacture method of security protection camera module, and wherein said method comprises the steps:

A () provides a mirror-seat structure, wherein said mirror-seat structure comprises a microscope base and a housing, and described microscope base and described housing are made integratedly;

B () arranges a photo-sensitive cell corresponding to described housing;

C () installs an optical lens in described microscope base, with the photosensitive path making described optical lens be positioned at described photo-sensitive cell; And

D () operationally arranges a filter element in described housing, wherein said filter element is filtered the light entering into described security protection camera module via described optical lens.

According to a preferred embodiment of the present invention, in above-mentioned steps (a), described microscope base and described housing are formed by Shooting Technique.

According to a preferred embodiment of the present invention, in the above-mentioned methods, also comprise step: arrange a conducting subassembly in described housing, wherein said conducting subassembly comprises a wiring board, and described photo-sensitive cell is electrically connected on described wiring board.

According to a preferred embodiment of the present invention, in the above-mentioned methods, also comprise step: described housing and a mainboard are installed, and form a heat-dissipating space between described mainboard and described conducting subassembly, go out for the heat conduction produced by described photo-sensitive cell.

According to a preferred embodiment of the present invention, described housing is provided with at least one fixing body, every described fixing body extends to described mainboard from described housing respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the security protection camera module of prior art.

Fig. 2 is that the peace meal of prior art is to the decomposing schematic representation of camera module.

Fig. 3 is the schematic perspective view of security protection camera module according to a preferred embodiment of the present invention.

Fig. 4 is the decomposing schematic representation of the security protection camera module according to above preferred embodiment of the present invention.

Fig. 5 partly cuts open schematic diagram according to the mirror-seat structure of above preferred embodiment of the present invention.

Fig. 6 is the cross-sectional schematic of a using state of security protection camera module according to above preferred embodiment of the present invention.

Fig. 7 is the cross-sectional schematic of another using state of security protection camera module according to above preferred embodiment of the present invention.

Fig. 8 is the cross-sectional schematic of an execution mode of photo-sensitive cell, conducting subassembly and mainboard according to above preferred embodiment of the present invention.

Fig. 9 is the cross-sectional schematic of a variant embodiment of security protection camera module according to above preferred embodiment of the present invention.

Figure 10 is the cross-sectional schematic of an another execution mode of photo-sensitive cell, conducting subassembly and mainboard according to above preferred embodiment of the present invention.

Figure 11 is the schematic perspective view of the individual again execution mode of photo-sensitive cell, conducting subassembly and mainboard according to above preferred embodiment of the present invention.

Figure 12 is the cross-sectional schematic of security protection camera module when a state according to a further advantageous embodiment of the invention.

Figure 13 is according to the security protection camera module of the above preferred embodiment of the present invention cross-sectional schematic when another state.

Figure 14 is the block diagram representation of the safety-protection system according to above preferred embodiment of the present invention.

Figure 15 to Figure 17 is the schematic diagram of a concrete environment for use of safety-protection system according to above preferred embodiment of the present invention respectively.

Figure 18 to Figure 20 is the schematic diagram of another the concrete environment for use according to the safety-protection system of above preferred embodiment of the present invention respectively.

Figure 21 is the manufacturing process schematic diagram of the security protection camera module according to above preferred embodiment of the present invention.

Embodiment

Below describe and realize the present invention for disclosing the present invention to enable those skilled in the art.Preferred embodiment in below describing only as an example, it may occur to persons skilled in the art that other apparent modification.The general principle of the present invention defined in the following description can be applied to other embodiments, deformation program, improvement project, equivalent and not deviate from the other technologies scheme of the spirit and scope of the present invention.

Be security protection camera module according to a preferred embodiment of the present invention as shown in Figures 3 to 5, wherein said security protection camera module comprises photo-sensitive cell 10, optical lens 20, filtering assembly 30, mirror-seat structure 40 and other possible components.

Specifically, described mirror-seat structure 40 comprises microscope base 41 and a housing 42 further, and described microscope base 41 and described housing 42 form.Preferably, the described microscope base 41 of described mirror-seat structure 40 and described housing 42 can be formed by Shooting Technique.

Described optical lens 20 is installed in described microscope base 41; Described filtering assembly 30 comprises a filter element 31 further, and described filter element 31 can be operatively arranged at described housing 42; Correspondingly, described photo-sensitive cell 10 is arranged at described housing 42 accordingly, and described photo-sensitive cell 10 has a photosurface 11 to be suitable for towards described optical lens 20 direction.That is, described optical lens 20 is positioned on the photosensitive path of described photo-sensitive cell 10, thus is suitable for being accepted by the described photosurface 11 of described photo-sensitive cell 10 by the light that described optical lens 20 enters into described security protection camera module.In addition, described filter element 31 can be operated to move on the photosensitive path of described photo-sensitive cell 10, in the present invention, described filter element 31 can between described optical lens 20 and described photo-sensitive cell 10, that is, entered into the light of described security protection camera module by described optical lens 20, can also be filtered by described filter element 31, then be accepted by the described photosurface 11 of described photo-sensitive cell 10.In other words, described optical lens 20, described filter element 31 and described photo-sensitive cell 10 can be arranged by along depth direction.

It is worth mentioning that, in another embodiment of the invention, described optical lens 20 also can be arranged between described filter element 31 and described photo-sensitive cell 10, that is, described filter element 31, described optical lens 20 and described photo-sensitive cell 10 can be arranged by along depth direction, and like this, first the light of reflections off objects can filter via described filter element 31, be processed into light signal by described optical lens 20 again, then accepted by the described photosurface 11 of described photo-sensitive cell 10.

Security protection camera module of the present invention has greatly different from the structure of the security protection camera module of prior art.Specifically, in the present invention, the described microscope base 41 of described mirror-seat structure 40 and described housing 42 adopt the structure of integral type, like this, can eliminate and be present in mismachining tolerance between described microscope base 41 and described housing 42 and rigging error, thus, after the described microscope base 41 being arranged at described mirror-seat structure 40 respectively when described optical lens 20 and described photo-sensitive cell 10 and described housing 42, the optical axis of described optical lens 20 can perpendicular to the described photosurface 11 of described photo-sensitive cell 10, thus, described photosurface 11 light making described photo-sensitive cell 10 follow-up evenly, according to this, improve the image quality of described security protection camera module, this is that the security protection camera module of prior art is unexpected, and this structure of security protection camera module of the present invention, the image quality of described security protection camera module is made to obtain great lifting.

It is worth mentioning that, the described filter element 31 of described filtering assembly 30 can be operatively arranged at the described housing 42 of described mirror-seat structure 40, with the photosensitive path making described filter element 31 can be positioned at described photo-sensitive cell 10, thus described filter element 31 is for filtering the some light type of the light entering into described security protection camera module.Such as, described filter element 31 can be cutoff filter, like this, enter into the infrared part of the light of described security protection camera module, can be filtered through during described filter element 31 at light, by such mode, the image of described security protection camera module collection can be made to avoid distortion.What it will be appreciated by those skilled in the art that is, according to the difference of the environment for use of described security protection camera module, the type of described filter element 31 can be unrestricted, such as smalt etc., in addition, the all right superimposed use of described filter element 31 of multiple identical or different type, to strengthen the filter effect of described security protection camera module.

Further, the position of definition when described filter element 31 is positioned at the photosensitive path of described photo-sensitive cell 10 is a primary importance of described filter element 31; Correspondingly, the position defined when described filter element 31 moves apart the photosensitive path of described photo-sensitive cell 10 is a second place of described filter element 31, described filter element 31 can move between described primary importance and the described second place, with the image information enabling described security protection camera module gather residing environment in different light environments.

Specifically, as shown in Figure 6, when described security protection camera module is by day or when using under strong light environment, described filter element 31 can be moved to described primary importance by from the described second place, namely, described filter element 31 is positioned on the opticpath of described photo-sensitive cell 10, now, the light of reflections off objects can be processed to be converted into light signal by described optical lens 20 successively, corresponding light type is filtered by described filter element 31, such as infrared light, finally accepted by the described photosurface 11 of described photo-sensitive cell 10, to complete described security protection camera module to the collection of the image information of residing surrounding environment, by such mode, the image information can avoiding the collection of described security protection camera module by day or the situation of the image fault gathered under strong light environment occur.

Correspondingly, as shown in Figure 7, when using under the environment of described security protection camera module in night or dark, described filter element 31 can be moved to the described second place by from described primary importance, namely, described filter element 31 can be moved apart the photosensitive path of described photo-sensitive cell 10, now, the light of reflections off objects can be processed to be converted into light signal by described optical lens 20 successively, then all accepted by the described photosurface 11 of described photo-sensitive cell 10, to make full use of all light, the image information of object is gathered by described security protection camera module, thus the image quality of described security protection camera module is improved.That is, when described filter element 31 is in the described second place, the light entering into described security protection camera module is not filtered by described filter element 31, thus the infrared portions that the light entering into described security protection camera module comprises also can be accepted by the described photosurface 11 of described photo-sensitive cell 10, like this, even if when using described security protection camera module in the environment that light is poor, the image information comparatively clearly of environment residing for described security protection camera module also can be collected.

Preferably, in certain embodiments, described filter element 31 can do the rotary motion relative to described housing 42, that is, described filter element 31 also can be switched in rotary manner by driving between described primary importance and the described second place, by such mode, make the use of described filtering assembly 30 can not increase the thickness of described security protection camera module, thus make that the volume of described security protection camera module is less, more compact structure, meet the demand for described security protection camera module on market.

Preferably, in further embodiments, described filter element 31 can be slidably disposed in described housing 42, that is, described filter element 31 also can be switched in a sliding manner by driving between described primary importance and the described second place, by such mode, the use of described filtering assembly 30 also can not increase the thickness of described security protection camera module, thus makes that the volume of described security protection camera module is less, more compact structure.

Further, as shown in Figure 3, described filter element 30 can also comprise a driving element 32, described driving element 32 is arranged at described housing 42, described filter element 31 can be operatively arranged at described driving element 32, thus described filter element 31 under the driving of described driving element 32, can switch between described primary importance and the described second place.Further, described driving element 32 can comprise one drive circuit 321 and a driving mechanism 322, wherein said drive circuit 321 is connected to described driving mechanism 322, described driving mechanism 322 is operably connected to described filter element 31, follow-up, described drive circuit 321 can provide actuating force to described driving mechanism 322, described filter element 31 is driven to switch between described primary importance and the described second place to make described driving mechanism 322, thus, make described security protection camera module can be used for gathering the image information of residing environment under any light environment.

Further, as shown in Figure 3, described filtering assembly 30 can also comprise an induction module 33, the described drive circuit 321 of described driving element 32 is electrically connected on described induction module 33, wherein said induction module 33 is for responding to the environment of the surrounding residing for described security protection camera module, and produce the instruction relevant to surrounding environment, with the state of filter element 31 described in subsequent control.

Specifically, when the light intensity of the environment that described induction module 33 senses residing for described security protection camera module strengthens and reaches default threshold value, described induction module 33 can produce instruction related to this, and produce actuating force by described drive circuit 321, to move to from the described second place to operate described filter element 31 by described driving mechanism 322 further and to be held in described primary importance, now, the infrared part being entered into the light of described security protection camera module by described optical lens 20 can be filtered by described filter element 31, then, accepted by the described photosurface 11 of described photo-sensitive cell 10 again, to carry out follow-up photoelectric conversion, thus, can make described security protection camera module avoid because by day or the image fault gathered under strong light environment situation occur.

Correspondingly, when described induction module 33 senses the light intensity decreasing of the environment residing for described security protection camera module and reaches default threshold value, described induction module 33 can produce instruction related to this, and produce actuating force by described drive circuit 321, the described second place is moved to from described primary importance to operate described filter element 31 by described driving mechanism 322 further, now, the light being entered into described security protection camera module by described optical lens 20 all can be accepted by the described photosurface 11 of described photo-sensitive cell 10, thus, described security protection camera module can utilize light fully, to collect image information clearly under darker light environment.

It will be appreciated by those skilled in the art that, by described induction module 33, described security protection camera module changes according to the light of residing environment, automatically can adjust the position of described filter element 31 to meet different use needs.In addition, described induction module 33 may be implemented as but be not limited to photo resistance.It is worth mentioning that, the threshold value of described induction module 33 can be pre-arranged, and the threshold value of described induction module 33 is relevant to the power of the light intensity of the residing environment of described induction module 33, this also means when installing described security protection camera module in respective environment, the threshold value of described induction module 33 can be preset, and at described security protection camera module by the process that uses, the threshold value of described induction module 33 also can be adjusted, thus expands the scope of application of described security protection camera module.

In addition, described security protection camera module can also comprise a conducting subassembly 50, described photo-sensitive cell 10 is electrically connected on described conducting subassembly 50, and wherein said conducting subassembly 50 is gone out for the electrical signal conduction generated after carrying out photoelectric conversion by described photo-sensitive cell 10, with in follow-up synthetic image information.Specifically, described conducting subassembly 50 comprises a wiring board 51, and described photo-sensitive cell 10 is electrically connected on described wiring board 51.

As shown in Figure 8, in certain embodiments, described photo-sensitive cell 10 is mounted on described wiring board 51, described wiring board 51 is mounted on described housing 42, thus, described wiring board 51 for described photo-sensitive cell 10 is packaged in described housing 42, and in the process used at described security protection camera module, all the time make the optical axis of described optical lens 20 perpendicular to the described photosurface 11 of described photo-sensitive cell 10, thus ensure the image quality of described security protection camera module.

Preferably, described wiring board 51 can be PCB, like this, when described security protection camera module is used, the heat that described photo-sensitive cell 10 operationally produces is not easy the distortion causing described wiring board 51, thus described photo-sensitive cell 10 can not be made to occur the situation of inclination.

Further, described conducting subassembly 50 can also comprise a substrate 52, described substrate 52 is mounted on described wiring board 51, that is, described photo-sensitive cell 10 and described substrate 52 are mounted on the both sides of described wiring board 51 respectively, thus, the intensity of described wiring board 51 can be increased by described substrate 52, in hot environment or wet environment, the situation of being out of shape is there is to avoid described wiring board 51, thus, guarantee that the described wiring board 10 be mounted on described wiring board 51 can not tilt.Preferably, described substrate 52 can be made up of stainless steel material, aluminum alloy materials or aluminium etc., by such mode, not only can ensure the intensity of described substrate 52, but also described security protection camera module can be assisted to dispel the heat.That is, the heat that described photo-sensitive cell 10 operationally produces can be conducted by described pedestal 52 and be radiated to the external environment condition of described security protection camera module, thus, the temperature of described security protection camera module inside can be reduced, thus extend the useful life of described security protection camera module.

It is worth mentioning that, in further embodiments, described wiring board 51 also can not use PCB to make, but be flex circuit application by the Material selec-tion of the described wiring board 51 of making, thus, described wiring board 51 is realized by substrate 52 described in the surface mount of described wiring board 51 with the evenness of described photo-sensitive cell 10, thus, at described security protection camera module by the process that uses, described wiring board 51 can not produce distortion, and the evenness between described photo-sensitive cell 10 and described optical lens 20 also can not be affected, and then, guarantee that described security protection camera module is by the reliability and stability in the process that uses.

In addition; described conducting subassembly 50 can also comprise a transparent cap member 53; described cap member 53 can be covered in the described photosurface 11 of described photo-sensitive cell 10; described photosurface 11 for the described photo-sensitive cell 10 of protection is not contaminated; and described cap member 53 allows the light being entered into described security protection camera module inside by described optical lens 20 to pass, to be accepted by the described photosurface 11 of described photo-sensitive cell 10 further.Preferably, described cap member 53 can be made up of glass material, by such mode, the light being entered into described security protection camera module by described optical lens 20 can without being accepted by the described photosurface 11 of described photo-sensitive cell 10 with losing, thus the use of described cap member 53 can not affect the photosensitive effect of described photo-sensitive cell 10.

As shown in Figure 5, the described housing 42 of described mirror-seat structure 40 is provided with a mount components 421, for the described wiring board 51 of the described conducting subassembly 50 of attachment.Specifically, the surrounding of described wiring board 51 extends to the described mount components 421 of described housing 42 respectively, thus, the periphery of described wiring board 51 optionally can be mounted on end or the inwall of the described mount components 421 of described housing 42, by such mode, the described photo-sensitive cell 10 being mounted on described wiring board 51 can be packaged in the inside of described housing 42.Preferably, described wiring board 51 can be mounted on the described mount components 421 of described housing 42 by the execution mode of sticker or equivalence, such as, described sticker can be glue.More preferably, the plane at the place, end of described mount components 421 protrudes from the plane at described housing 42 place, so that mounted and described mount components 421 by described wiring board 51.

As shown in Figure 3 and Figure 4, described security protection camera module also comprises a mainboard 60, and described mainboard 60 is provided with various electronic devices and components with the image information coordinating described security protection camera module to gather residing environment.The described wiring board 51 of described conducting subassembly 50 can be electrically connected on described mainboard 60, in addition, described filtering assembly 30 can also be provided with a Connection Element 34, described Connection Element 34 is electrically connected on described drive circuit 321, and described Connection Element 34 can be a standard connector, like this, described filtering assembly 30 can be electrically connected on described mainboard 60 by the mode of installing, relative to the mode of prior art by welding, this mode provided by the invention can not only improve the efficiency of assembling of described security protection camera module, and the reliability of connection between described filtering assembly 30 and described mainboard 60 also can be improved significantly.Correspondingly, the described housing 42 of described mirror-seat structure 40 can be installed on described mainboard 60, to make described security protection camera module.

Further, after the described housing 42 of described mirror-seat structure 40 is installed on described mainboard 60, a heat-dissipating space 100 is formed, for the heat radiation operationally produced by described photo-sensitive cell 10 to the external environment condition of described security protection camera module between described conducting subassembly 50 and described main body 60.What it will be appreciated by those skilled in the art that is, unlike the prior art, the described wiring board 51 of security protection camera module of the present invention is not mounted on described mainboard 60, but described wiring board 51 is mounted on described housing 42, and not contact between described wiring board 51 and described mainboard 60, thus, the heat that described photo-sensitive cell 10 produces can not be conducted on described mainboard 60, and then, other electronic devices and components be arranged on described mainboard 60 can not be exerted an adverse impact, to ensure that described security protection camera module is by the reliability and stability in the process that uses.

Specifically, in specific embodiments more of the present invention, described housing 42 is provided with at least one fixing body 422, every described fixing body 422 extends to from described housing 42 and is installed on described mainboard 60, thus every described fixing body 422 makes to form described heat-dissipating space between described mainboard 60 and described housing 42.In other specific embodiments of the present invention, every described fixing body 422 also can be arranged at described mainboard 60 (accompanying drawing is not shown), thus, every described fixing body 422 extends to from described mainboard 60 and is installed on described housing 42, and the height of every described fixing body 422 is greater than the thickness of described conducting subassembly 50, thus every described fixing body 422 makes to form described heat-dissipating space 100 between described mainboard 60 and described conducting subassembly 50.In addition, can also arrange a pad between described housing 42 and described mainboard 60, the height of described pad is greater than the thickness of described conducting subassembly 50, forms described heat-dissipating space 100 between described conducting subassembly 50 and described mainboard 60.

The execution mode of a distortion according to above preferred embodiment of the present invention as shown in Figure 9, wherein said filtering assembly 30 can also comprise a full spectrum light element 35, wherein said full spectrum light element 35 is arranged at described housing 42, and described full spectrum light element 35 is positioned on the photosensitive path of described photo-sensitive cell 10, like this, the light entering into described security protection camera module by described optical lens 30 can be accepted by the described photosurface 11 of described photo-sensitive cell 10 through described full spectrum light element 35.

Described full spectrum light element 35 optionally can be arranged at the both sides of described filter element 31, namely, in one embodiment, the light being entered into described security protection camera module by described optical lens 20 first can pass described full spectrum light element 35, again through described filter element 31, then accepted by the described photosurface 11 of described photo-sensitive cell 10; In another embodiment, the light being entered into described security protection camera module by described optical lens 20 first can pass described filter element 31, then through described full spectrum light element 35, is then accepted by the described photosurface 11 of described photo-sensitive cell 10.

Such as, described security protection camera module is when by use, when the light of the environment that described induction module 33 senses residing for described security protection camera module strengthens and reaches default threshold value, described induction module 33 can produce instruction related to this, and produce actuating force by described drive circuit 321, described primary importance is moved to from the described second place to operate described filter element 31 by the described driving mechanism 322 being electrically connected on described drive circuit 321 further, namely, described filter element 31 is moved to and is in the photosensitive path of described photo-sensitive cell 10, now, first the light being entered into described security protection camera module by described optical lens 20 can pass described full spectrum light element 35, and then through described filter element 31, to filter the infrared part in light, then the light after being filtered by described filter element 31 can be accepted by the described photosurface 11 of described photo-sensitive cell 10.

Correspondingly, when the light of the environment that described induction module 33 senses residing for described security protection camera module weakens and reaches default threshold value, described induction module 33 can produce instruction related to this, and produce actuating force by described drive circuit 321, the described second place is moved to from described primary importance to operate described filter element 31 by the described driving mechanism 322 being electrically connected on described drive circuit 321 further, namely, this element 31 of described hotel is moved apart the photosensitive path of described photo-sensitive cell 10, now, the light being entered into described security protection camera module by described filter element 31 can pass described full spectrum light element 35, and accept at the described photosurface 11 of follow-up and described photo-sensitive cell 10.That is, when the insufficient light of the environment residing for described security protection camera module, the light being entered into described security protection camera module by described optical lens 20 can't be filtered infrared part, but all through described full spectrum light element 35, to enable described security protection camera module utilize light fully, obtain the image information of high definition.

Preferably, described full spectrum light element 35 can be full spectrum light glass elements.

Another variant embodiment according to above preferred embodiment of the present invention as shown in Figure 10, wherein said security protection camera module comprises a conducting subassembly 50A, described photo-sensitive cell 10 is electrically connected on described conducting subassembly 50A, the wherein said assembly 50A that passes to is for going out the electrical signal conduction that described photo-sensitive cell 10 is carrying out generating after photoelectricity turns, with in follow-up synthetic image information.Specifically, described conducting subassembly 50A comprises an a wiring board 51A and substrate 52A, and described wiring board 51A is mounted on described wiring board 51A, and described photo-sensitive cell 10 is mounted on described substrate 52A, and described photo-sensitive cell 10 is electrically connected on described wiring board 51A.That is, described photo-sensitive cell 10 does not contact with described wiring board 51A, thus, even if described wiring board 51A creates the evenness that deformation also can not affect described photo-sensitive cell 10.

More particularly, described substrate 52A comprises a radiating part 521A and at least one heat-conducting part 522A integrated with described radiating part 521A, and every described heat-conducting part 522A extends described radiating part 521A respectively; Described wiring board 51A has at least one perforation 511A, the every described heat-conducting part 522A of described substrate 52A is each passed through and is held in the every described perforation 511A of described wiring board 51A, described photo-sensitive cell 10 is mounted on the every described heat-conducting part 522A of described substrate 52A, like this, the signal of telecommunication that described photo-sensitive cell 10 generates can be transferred out by the described wiring board 51A being electrically connected on described photo-sensitive cell 10, and the heat that described photo-sensitive cell 10 produces can be undertaken conducting and radiation by the described heat-conducting part 522A that mounted by described photo-sensitive cell 10 and described radiating part 521A.

Preferably, the height of described heat-conducting part 522A is greater than the thickness of described wiring board 51A, and like this, after described photo-sensitive cell 10 is mounted on described heat-conducting part 522A, described photo-sensitive cell 10 can not contact with described wiring board 51A.

Another variant embodiment according to above preferred embodiment of the present invention as shown in figure 11, wherein said security protection camera module comprises a conducting subassembly 50B, described conducting subassembly 50B comprises an a wiring board 51B and substrate 52B further, wherein said photo-sensitive cell 10 and described wiring board 51B are mounted on the both sides of described substrate 52B respectively, and described photo-sensitive cell 10 is electrically connected on described wiring board 51B.That is, described substrate 52B is between described photo-sensitive cell 10 and described wiring board 51B, thus described photo-sensitive cell 10 is not mounted on described wiring board 51B, but be mounted on the good described substrate 52B of evenness, and then, even if when described wiring board 51B produces distortion because of the impact of the environment such as high temperature or humidity, also can not have an impact to the evenness of described photo-sensitive cell 10.By such mode, the optical axis of described optical lens 20 all the time perpendicular to the described photosurface 11 of described photo-sensitive cell 10, thus can be conducive to the image quality ensureing described security protection camera module.

Security protection camera module according to a further advantageous embodiment of the invention as shown in Figure 12 and Figure 13.Described security protection camera module comprises a photo-sensitive cell 10C, an optical lens 20C, a filtering assembly 30C and a mirror-seat structure 40C, the housing 42C that described mirror-seat structure 40C comprises a microscope base 41C further and is integrally formed with described microscope base 41C.Described photo-sensitive cell 10C corresponds to described housing 42C and arranges, and wherein said photo-sensitive cell 10C has a photosurface 11C for accepting light signal, described optical lens 20C is installed on described microscope base 41C, wherein said optical lens 20C is positioned on the photosensitive path of described photo-sensitive cell 10C, accepted by the described photosurface 11C of described photo-sensitive cell 10 to allow the light being entered described security protection camera module by described optical lens 20C, preferably, the optical axis of described optical lens 20C is perpendicular to the described photosurface 11C of described photo-sensitive cell 10C, like this, the described photosurface 11C light equably of described photo-sensitive cell 10C can be made, described filtering assembly 30C comprises a filter element 31C, described filter element 31C can be operatively arranged at described housing 42C, and described filter element 31C is able to form a filter layer 311C on the photosensitive path of described photo-sensitive cell 10C, for the some types being filtered through described optical lens 20C and entering in the light of described security protection camera module, such as, the described filter layer 311C of described filter element 31C can filter the infrared part in light, thus make described security protection camera module by day or under strong light environment, also can obtain the image information clearly of residing surrounding environment.

Further, described filtering assembly 30C can also comprise a driving element 32C, described driving element 32C is arranged at described housing 42C, described filter element 31C can be operatively arranged at described driving element 32C, thus, described filter element 31C under the driving of described driving element 32C, the photosensitive path of described photo-sensitive cell 10C can form described filter layer 311C.

Further, described filtering assembly 30C can also comprise an induction module 33C, described driving element 32C is electrically connected on described induction module 33C, wherein said induction module 33C is for responding to the environment of the surrounding residing for described security protection camera module, and produce the instruction relevant to surrounding environment, with the state of filter element 31C described in subsequent control.

Specifically, when the light of the environment that described induction module 33C senses residing for described security protection camera module strengthens and reaches default threshold value, described induction module 33C can produce instruction related to this, and operate described filter element 31C by described driving element 32C, to form described filter layer 311C on the photosensitive path of described photo-sensitive cell 10C, now, the Infrared being entered into the light of described security protection camera module inside by described optical lens 20C can be filtered by described filter layer 311C, then, accepted by the described photosurface 11C of described photo-sensitive cell 10C again.

Correspondingly, when the light of the environment that described induction module 33C senses residing for described security protection camera module strengthens and reaches default threshold value, described induction module 33C can produce instruction related to this, and operate described filter element 31C by described driving element 32C, at this moment, described filter element 31C does not form described filter layer 311C on the photosensitive path of described photo-sensitive cell 10C, now, the light entering described security protection camera module by described optical lens 20C all can be accepted by the described photosurface 11C of described photo-sensitive cell 10C.

Different from first embodiment of security protection camera module of the present invention, in this embodiment, described filter layer 311C can be that described filter element 31C is formed by the mode of projection, thus, the space of reserved described filter element 31C switching position is not needed in described housing 42C, thus the internal structure of described security protection camera module can be made more compact, and then make the volume of described security protection camera module less.

As shown in figure 14, the present invention also provides a kind of safety-protection system, and described safety-protection system is used for carrying out monitor and managment to a region 1400.Specifically, described safety-protection system comprises an administration module 1410 and at least one acquisition module 1420, every described acquisition module 1420 signal is connected to described administration module 1410, every described acquisition module 1420 can be managed to make described administration module 1410, wherein every described acquisition module 1420 can gather the image information in described region 1400 and generate a communication signal, and described communication signal is transferred to described administration module 1410 to carry out managing and processing.

Preferably, every described acquisition module 1420 can realize being connected by communication network with described administration module 1410, to enable the layout of described safety-protection system more flexible, and communication network can ensure the reliability of described communication signal in the process of transmission.

Further, described administration module 1410 comprises a control data corporation 1411 and at least one district management module 1412 further, every described district management module 1412 can be connected to described control data corporation 1411 communicatedly, and every described acquisition module 1420 is managed by every described district management module 1412.As shown in figure 14, every described district management module 1412 is for being divided at least one administrative unit 1401 by described region 1400, every described acquisition module 1420 monitors the state of every described administrative unit 1401 respectively, and the image information of the every described administrative unit 1401 of synchronization gain is to generate described communication signal, described communication signal after be transferred to described control data corporation 1411.

Preferably, the every described administrative unit 1401 in described region 1400 is separate, every described acquisition module 1420 is for gathering the image information in administrative unit 1401 described at least one, such as, the scope that two described acquisition modules 1420 can gather there will be situation about mutually covering, by such mode, all positions in described region 1400 can be made to be monitored to, thus to improve the safety in described region 1400.

Further, described safety-protection system can also comprise a terminal installation 1430, described administration module 1410 can be connected to described terminal installation 1430 communicatedly, preferably, described control data corporation 1411 can be connected to described terminal installation 1430 communicatedly, and described terminal installation 1430 can be used in the image information showing the described region 1400 that every described acquisition module 1420 gathers.Such as described terminal installation 1430 can be but be not limited to display unit.

In safety-protection system of the present invention, described acquisition module 1420 may be implemented as described security protection camera module, when using described safety-protection system, every described security protection camera module is installed in every described administrative unit 1401, like this, every described security protection camera module 1420 is by day or night etc. all has the image information that can collect every described administrative unit 1401, to ensure reliability when described safety-protection system is used under any light environment.

As shown in Figure 15 to Figure 17 be of the present invention as described in the schematic diagram of the concrete execution mode of of safety-protection system.Specifically, described safety-protection system is used for carrying out monitor and managment to by a community (i.e. described region 1400 of the present invention).Described safety-protection system comprises a described administration module 1410 and acquisition module 1420 described at least one, every described acquisition module 1420 can also comprise a described security protection camera module, every described security protection camera module is arranged at the entrance of described community, for gathering the pedestrian and the vehicle that are passed in and out described community by described gateway.Every described acquisition module 1420 can be connected to described administration module 1410 communicatedly, thus, the image that every described acquisition module 1420 gathers can be transferred to described administration module 1410, and showing subsequently through the described terminal installation 1430 being connected to described administration module 1410 communicatedly, that is, described terminal installation 1430 carries out with described security protection camera module alternately.

As shown in Figure 16 and Figure 17, every described security protection camera module can gather the image information of the described gateway of described community by the mode of pictures taken.What it will be appreciated by those skilled in the art that is, every described security protection camera module can also gather the image information of the described gateway of described community by the mode of capture video, thus carries out monitor and managment follow-up can realization to the described gateway of described community.

In safety-protection system of the present invention, described security protection camera module can collect the image information clearly of the described entrance of described community under any possible light, such as, when waiting light better by day, the described filter element 31 of described security protection camera module can be moved to described primary importance by driving from the described second place, thus described filter element 31 can be filtered through the light that described optical lens 20 enters into described security protection camera module, and then accepted by the described photosurface 11 of described photo-sensitive cell 10, thus effectively can prevent the distortion of image, as shown in figure 16, correspondingly, when waiting light poor at night, described security protection camera module can be moved to the described second place by driving from described primary importance, thus described filter element 31 can not be filtered through the light that described optical lens 20 enters into described security protection camera module at this moment, to make all light can both be accepted by the described photosurface 11 of described photo-sensitive cell 10, thus obtain image information clearly.By described security protection camera module, described safety-protection system can carry out monitor and managment to described community effectively.

It is the schematic diagram of another the concrete execution mode according to safety-protection system of the present invention as shown in Figure 18 to Figure 20.Specifically, described safety-protection system is used for being carried out monitor and managment by the running environment of vehicle periphery.Described safety-protection system comprises a described administration module 1410 and at least one acquisition module 1420, every described acquisition module 1420 is installed in top or the inside of vehicle, wherein every described acquisition module 1420 can also comprise a described security protection camera module, for the running environment around collection vehicle.The image that every described acquisition module 1420 gathers can be transferred to described administration module 1410, and showing subsequently through the described terminal installation 1430 being connected to described administration module 1410 communicatedly, that is, described terminal installation 1430 carries out with described security protection camera module alternately.

It will be appreciated by those skilled in the art that, described acquisition module 1420 may be implemented as a drive recorder.When vehicle is by day or when travelling in the good environment of other light, the described filter element 31 of described security protection camera module can be moved to described primary importance by driving from the described second place, thus described filter element 31 can be filtered through the light that described optical lens 20 enters into described security protection camera module, then accepted by the described photosurface 11 of described photo-sensitive cell 10, thus effectively can prevent image fault, as shown in figure 19; Correspondingly, when vehicle is at night or when travelling in the poor environment of other light, the described filter element 31 of described security protection camera module can be moved to the described second place by driving from described primary importance, thus all light entered in described security protection camera module by described optical lens 20 can both be accepted by the described photosurface 11 of described photo-sensitive cell 10, thus obtain image information clearly.To be made a video recording not group by described security protection, described safety-protection system can carry out management and supervision to the driving safety of vehicle effectively.

As shown in figure 21, the present invention also provides a kind of manufacture method of security protection camera module, and wherein said method comprises the steps:

A () provides a mirror-seat structure 40, wherein said mirror-seat structure 40 comprises microscope base 41 and a housing 42, described microscope base 41 and described housing 42 are made integratedly, by such mode, relative to the security protection camera module of prior art, the described mirror-seat structure 40 of integral type can eliminate the rigging error be present between described microscope base 41 and described housing 42.

B () arranges a photo-sensitive cell 10 corresponding to described housing 42;

C () installs an optical lens 20 in described microscope base 41, with the photosensitive path making described optical lens 20 be positioned at described photo-sensitive cell 10; And

D () operationally arranges a filter element 31 in described housing 42, wherein said filter element 31 is filtered the light entering into described security protection camera module via described optical lens 20.

It is worth mentioning that, in the present invention, the order of described step (a), described step (b), described step (c) and described step (d) in no particular order, such as first described filter element 31 can be operationally arranged at described housing 42, and then described photo-sensitive cell 10 and described optical lens 20 are installed respectively.

Preferably, in described step (a), described microscope base 41 and described housing 42 are formed by Shooting Technique.

Preferably, the manufacture method of described security protection camera module also comprises step: arrange a conducting subassembly 50 in described housing, wherein said conducting subassembly 50 comprises a wiring board 51, and described photo-sensitive cell 10 is electrically connected on described wiring board 51.

Preferably, the manufacture method of described security protection camera module also comprises step: install described housing 42 and a mainboard 60, and between described mainboard 60 and described conducting subassembly 50, form a heat-dissipating space 100, go out for the heat conduction that described photo-sensitive cell 10 is produced.

One skilled in the art will understand that the embodiments of the invention shown in foregoing description and accompanying drawing only limit the present invention as an example and not.Object of the present invention is complete and effectively realize.Function of the present invention and structural principle are shown in an embodiment and are illustrated, do not deviating under described principle, embodiments of the present invention can have any distortion or amendment.

Claims (20)

1. a security protection camera module, is characterized in that, comprising:

One optical lens;

One photo-sensitive cell;

One filter element; And

One lens construction, described lens construction comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said housing and described microscope base form, and described filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens.

2. security protection camera module as claimed in claim 1, also comprise a conducting subassembly, described conducting subassembly is arranged at described housing, and described conducting subassembly comprises a wiring board, and described photo-sensitive cell is electrically connected on described wiring board.

3. security protection camera module as claimed in claim 2, also comprise a mainboard, described housing is installed on described mainboard, and forms a heat-dissipating space between described conducting subassembly and described mainboard, goes out for the heat conduction produced by described photo-sensitive cell.

4. security protection camera module as claimed in claim 3, wherein said conducting subassembly also comprises a substrate, and described photo-sensitive cell and described substrate are mounted on the not homonymy of described wiring board respectively.

5. security protection camera module as claimed in claim 3, wherein said conducting subassembly also comprises a substrate, and described substrate comprises a radiating part and at least one heat-conducting part, and every described heat-conducting part extends described radiating part integratedly; Correspondingly, described wiring board is provided with at least one perforation, and described radiating part is mounted on described wiring board, and every described heat-conducting part passes and is held in the every described perforation of described wiring board, and described photo-sensitive cell is mounted on every described heat-conducting part.

6. security protection camera module as claimed in claim 3, wherein said conducting subassembly also comprises a substrate, and described photo-sensitive cell and described wiring board are mounted on the not homonymy of described substrate respectively.

7., as the security protection camera module as described in arbitrary in claim 2 to 6, wherein said conducting subassembly also comprises a cap member, and described cap member is covered in described photo-sensitive cell, and light is able to be accepted by described photo-sensitive cell through described cap member.

8. as the security protection camera module as described in arbitrary in claim 2 to 6, wherein said conducting subassembly also comprises a full spectrum light element, described full spectrum light element is arranged at described housing, and described full spectrum light element is positioned at the photosensitive path of described photo-sensitive cell.

9. security protection camera module as claimed in claim 3, wherein said housing is provided with at least one fixing body, every described fixing body extends to described mainboard from described housing respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.

10. security protection camera module as claimed in claim 3, wherein said mainboard is provided with at least one fixing body, every described fixing body extends to described housing from described mainboard respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.

11. 1 kinds of security protection camera modules, is characterized in that, comprising:

One optical lens;

One photo-sensitive cell;

One filter element;

One mainboard;

One conducting subassembly, described photo-sensitive cell can conductively be arranged at described conducting subassembly; And

One mirror-seat structure, described mirror-seat structure comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens; Wherein said housing is installed on described mainboard, and forms a heat-dissipating space between described conducting subassembly and described mainboard, goes out for the heat conduction produced by described photo-sensitive cell.

12. security protection camera modules as claimed in claim 11, wherein said housing is provided with at least one fixing body, every described fixing body extends to described mainboard from described housing respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.

13. 1 kinds of safety-protection systems, for carrying out monitor and managment to a region, is characterized in that, comprising:

At least one acquisition module; With

One administration module, the every described acquisition module of described administration module management, wherein said administration module comprises further:

One control data corporation; With

At least one district management unit, is connected to described control data corporation to every described district management unit communication; Wherein described Region dividing is at least one administrative unit by every described district management unit, every described acquisition module gathers the image information of corresponding every described administrative unit, and generate a communication signal relevant to every described administrative unit, then described communication signal is transferred to described control data corporation and manages, thus described safety-protection system realizes the monitor and managment to described region.

14. safety-protection systems as claimed in claim 13, wherein every described acquisition module is a security protection camera module, and wherein said security protection camera module comprises further:

One optical lens;

One photo-sensitive cell;

One filter element; And

One lens construction, described lens construction comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said housing and described microscope base form, and described filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens.

15. safety-protection systems as claimed in claim 13, wherein every described acquisition module is a security protection camera module, and wherein said security protection camera module comprises further:

One optical lens;

One photo-sensitive cell;

One filter element;

One mainboard;

One conducting subassembly, described photo-sensitive cell can conductively be arranged at described conducting subassembly; And

One mirror-seat structure, described mirror-seat structure comprises further:

One microscope base, wherein said optical lens is installed on described microscope base, and described optical lens is positioned at the photosensitive path of described photo-sensitive cell; With

One housing, wherein said filter element is operationally arranged at described housing, and described filter element is filtered the light entering into described security protection camera module via described optical lens; Wherein said housing is installed on described mainboard, and forms a heat-dissipating space between described conducting subassembly and described mainboard, for saying that the heat conduction that described photo-sensitive cell produces is gone out.

The manufacture method of 16. 1 kinds of security protection camera modules, is characterized in that, described method comprises the steps:

A () provides a mirror-seat structure, wherein said mirror-seat structure comprises a microscope base and a housing, and described microscope base and described housing are made integratedly;

B () arranges a photo-sensitive cell corresponding to described housing;

C () installs an optical lens in described microscope base, with the photosensitive path making described optical lens be positioned at described photo-sensitive cell; And

D () operationally arranges a filter element in described housing, wherein said filter element is filtered the light entering into described security protection camera module via described optical lens.

17. manufacture methods as claimed in claim 16, in above-mentioned steps (a), described microscope base and described housing are formed by Shooting Technique.

18. manufacture methods as claimed in claim 17, in the above-mentioned methods, also comprise step: arrange a conducting subassembly in described housing, wherein said conducting subassembly comprises a wiring board, and described photo-sensitive cell is electrically connected on described wiring board.

19. manufacture methods as claimed in claim 18, in the above-mentioned methods, also comprise step: described housing and a mainboard are installed, and form a heat-dissipating space between described mainboard and described conducting subassembly, go out for the heat conduction produced by described photo-sensitive cell.

20. manufacture methods as claimed in claim 19, wherein said housing is provided with at least one fixing body, every described fixing body extends to described mainboard from described housing respectively, wherein the height of every described fixing body is greater than the thickness of described conducting subassembly, thus forms described heat-dissipating space between described conducting subassembly and described mainboard.