CN201163795Y - Three-axis semi-sphere camera - Google Patents

Abstract

The utility model discloses a triaxial hemispheric photographing device, comprising a fixing base, a support base plate, a lens base plate, a lens and a transparent cover. The support base plate is connected with the fixing base and can rotate relative to the fixing base, the lens base plate is connected with a lug arranged on the support base plate by a second horizontal rotating shaft, and a hemispheric outer cover is connected with the support base plate; the triaxial hemispheric photographing device further comprises a third rotating shaft and a lens board for setting the lens, and the lens board is connected with the lens base plate by the third rotating shaft. The triaxial hemispheric photographing device allows the lens to rotate in three directions by adding the third rotating shaft between the lens base plate and the lens, thereby no matter how the lens of the photographing device is arranged, the accurate positioning of a visible area or a target object can be achieved by adjusting the three rotating shafts, which is convenient for installation and debugging and greatly improves efficiency of installing and debugging of the photographing device.

Description

A kind of three hemisphere camera heads

Technical field

The utility model relates to a kind of camera head, relates in particular to a kind of three hemisphere camera heads.

Background technology

At present, public places such as many residential quarters, market, street all are equipped with closed monitor system, because its camera head is diaxon rotation, imaging effect is regulated in the relative rotation of two rotating shafts that installation personnel can only be by the Installation and Debugging camera head.

Yet, in a single day this diaxon camera head is fixed on some positions, and this moment its to image frame that target object became for stand upside down, during deflection, this just needs Installation and Debugging personnel repeated multiple times to turn on retaining thread, reselect the appropriate location and fixedly mount, make the picture of imaging of target object consistent with the situation that observes visually.This dismounting, Installation and Debugging operation repeatedly wasted time and energy, and is difficult to hold the imaging effect after camera head is mounted.

China's utility model patent (Granted publication number: CN 2888770Y) disclose a kind of comprehensive ball-type night vision camera device, this device comprises lens, video camera, camera lens, near infrared light source component, motor, mechanical rotation mechanism, control board assembly, power supply, translucent cover, housing, support are formed, wherein, this device also comprises two supports, an inverted U support, a disk-shaped bracket, translucent cover is a hemisphere, and fixedlys connected with disk-shaped bracket.Yet this camera head adopts two axle construction, can only be rotated debugging on vertical and horizontal direction when Installation and Debugging, and installation also needs later on video camera is pulled down, need reselect suitable fixed installation position, its Installation and Debugging are loaded down with trivial details, waste time and energy.

Therefore, prior art awaits improving and development.

The utility model content

Problem to be solved in the utility model is to provide a kind of three hemisphere camera heads, and it can simplify the Installation and Debugging process, and makes target object reach the optimal imaging effect.

In order to solve the problems of the technologies described above, the technical solution of the utility model is as follows:

The utility model provides a kind of three hemisphere camera heads, comprise firm banking, support base plate, lens base plate, camera lens and translucent cover, described support base plate is connected with described firm banking, and can rotate relatively, described lens base plate is connected with lug on being arranged on described support base plate by second feathering axis, and described hemisphere outer cover is connected with described support base plate; It is characterized in that described three hemisphere camera heads also comprise the 3rd rotating shaft, and are used to be provided with the lens board of described camera lens, this lens board is connected with described lens base plate by described the 3rd rotating shaft.

Wherein, described the 3rd rotating shaft is a hollow cylinder, one end of described hollow cylinder is provided with a circular ring plate to outer lug, the other end is provided with at least two clasps in directed outwards space, described hollow cylinder by being arranged on its two ends circular ring plate and clasp respectively be located at described lens board and be connected with the circular hole on the lens base plate is adaptive.

Wherein, described the 3rd rotating shaft is a hollow cylinder that is arranged on the described lens base plate, this hollow cylinder and adaptive being rotationally connected of a circular hole that is arranged on the described lens board, and by being arranged at least two clasps on the described hollow cylinder edge, lens board is stated in the left-hand thread residence.

Wherein, described the 3rd rotating shaft is a hollow cylinder that is arranged on the described lens board, this hollow cylinder and adaptive being rotationally connected of a circular hole that is arranged on the described mirror base plate, and by being arranged at least two clasps on the described hollow cylinder edge, lens base plate is stated in the left-hand thread residence.

Wherein, be provided with at least two clasps that are used for the described support base plate of snap close at the edge of described firm banking.

Wherein, the quantity of described lug is two, is symmetrically distributed along described support base plate central axis.

Wherein, described three hemisphere camera heads also comprise a U type lens bracket, its A/F and described lug spacing are suitable, and described U type lens bracket is rotationally connected by described second feathering axis and described lug, and described lens base plate is arranged on the openend of described U type lens bracket.

Wherein, respectively offer an arc-shaped slot, and respectively be provided with a projection, be connected with described arc-shaped slot is adaptive in the outside of the openend of described U type lens bracket in the lateral location of two described lugs, but and slide relative.

Wherein, on the inboard opposite position of described U type lens bracket, respectively be provided with a chute, described chute be arranged on described lens base plate side on adaptive connection of traveller, but and slide relative; On an opposite side of described U type lens bracket, respectively be provided with an inwardly outstanding flange, and on described flange, offer the rectangle slotted eye, the length of described rectangle slotted eye and the length of described chute are suitable, and be slightly less than the height of U type lens bracket, described rectangle slotted eye by screw thread be arranged on described lens base plate on adaptive connection of screwed hole of relevant position, and described lens base plate can be along the slotted eye slide relative under the effect of screw thread.

Wherein, described three hemisphere camera heads also comprise a jump ring, be arranged on the described firm banking, and be provided with the clasp that is used to pin described translucent cover on this jump ring, are connected with lockhole buckle on being arranged on described translucent cover base.

Compared with prior art, three hemisphere camera heads that the utility model provides, by between lens base plate and camera lens, increasing by the 3rd rotating shaft, make camera lens on three directions, realize rotation, like this, no matter how the camera lens of video camera is installed, can pass through to regulate the accurate location of three rotating shafts realizations to visible range or target object, make things convenient for the installation and debugging operation, greatly improved the Installation and Debugging efficient of camera head.

Description of drawings

Fig. 1 is the assembling schematic diagram of three hemisphere camera heads of the utility model;

Fig. 2 is the internal structure schematic diagram of three hemisphere camera heads of the utility model;

Fig. 3 is the U type lens bracket structural representation of three hemisphere camera heads of the utility model;

Fig. 4 is in three hemisphere camera heads of the utility model, the structural representation after U type lens bracket and the lens base plate assembling;

Fig. 5 is in three hemisphere camera heads of the utility model, the structural representation after camera lens, lens board, pcb board and the lens base plate assembling;

Fig. 6 is the front schematic view of overlapping in the arc of three hemisphere camera heads of the utility model;

Fig. 7 is the jump ring structural representation of three hemisphere camera heads of the utility model;

Fig. 8 is in three hemisphere camera heads of the utility model, the structural representation after the assembling of infraluminescence device.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in further detail.

As shown in Figure 1, the utility model provides a kind of three hemisphere camera heads, comprises firm banking 101, support base plate 102, lens base plate 103, camera lens 104, translucent cover 105, lens board 106 and U type lens bracket 107.The contour structures of described firm banking 101 is rounded, and is provided with three clasps 115 that are symmetrical distribution on its edge, as shown in Figure 1; Described clasp 115 is used for the suitable support base plate 102 of snap close one and described firm banking 101, this support base plate 102 is in the form of annular discs, as shown in Figure 2, and described support base plate 102 can carry out 360 degree rotations with respect to described firm banking 101 faces under the effect of clasp 115, like this, can make things convenient for the installation and debugging of camera head.

Be provided with a pair of lug 116 on the same base plate face of described support base plate 102, as illustrated in fig. 1 and 2, described lug 116 is symmetrically distributed along the central axis of support base plate 102.The longitudinal axis of two described lugs 116 to and be positioned at its top end and be provided with axis hole 117, be used for adaptive described second feathering axis that is rotationally connected.On two described lugs 116 and be positioned at described axis hole 117 next doors and offer arc-shaped slot 118, its radian is approximately 90 degree, as illustrated in fig. 1 and 2, can control the anglec of rotation of described U type lens bracket 107 like this.

Realize being rotatably connected in order to make between U type lens bracket 107 and the described lug 116, described U type lens bracket 107 patches in the axis hole 117 on described lug 116, as illustrated in fig. 1 and 2 by described second feathering axis; Wherein, the height of described U type lens bracket 107 and the height of lug 116 are about the same, and its both sides width is suitable with the width of described lug 116 basically.Wherein, in the present embodiment, described second feathering axis is the column spinner 119 that a pair of symmetrical distribution is arranged on port, described U type lens bracket 107 outside, and shown in Fig. 1,3 and 4, the size of described column spinner 119, profile and described axis hole 117 are suitable; Like this, described U type lens bracket 107 just can rotate around axis hole 117 by column spinner 119.

In the outside of described U type lens bracket 107 and be positioned at described column spinner 119 next doors and respectively be provided with a projection 120, as shown in Figure 3, its with described lug 116 on 118 adaptive connections of arc-shaped slot, as shown in Figure 2.When described U type lens bracket 107 during around 119 rotations of described column spinner, described projection 120 slides along described arc-shaped slot 118, and controls the rotation angle range of U type lens bracket 107 by the arc length of described arc-shaped slot 118.

Relative position in described U type lens bracket 107 inboards is provided with a pair of chute 121, and as shown in Figure 3, the length of described chute 121 is slightly less than the height of lug 116.Be provided with a pair of inwardly outstanding flange 122 at described U type lens bracket 107 sides, as shown in Figure 4, the height of the length of described flange 122 and described U type lens bracket 107 is suitable, and offer rectangle slotted eye 123 on described flange 122, the length of the length of described rectangle slotted eye 123 and described chute 121 is suitable.

It is in order to settle described lens base plate 103 that described chute 121 and rectangle slotted eye 123 are set on described U type lens bracket 107, shown in Fig. 1,4 and 5, makes described lens base plate 103 carry out smooth sliding on described chute 121 and rectangle slotted eye 123.Therefore, the width of the openend of the length of described lens base plate 103 and described U type lens bracket 107 is suitable, and its width is slightly less than the width of described U type lens bracket 107.Two short sides at described lens base plate 103 respectively are provided with a traveller 124, as shown in Figure 5; With described chute 121 adaptive being slidingly connected, be respectively equipped with screwed hole 125 at the two ends of 103 1 long sides of described lens base plate simultaneously, as shown in Figure 5.

When described lens base plate 103 is installed, in the chute 121 that the traveller 124 that is arranged on the described lens base plate 103 is inserted on the described U type lens bracket 107; Simultaneously, retaining thread 126 passes described rectangle slotted eye 123, and screws in the described screwed hole 125, fixing described lens base plate 103, as shown in figs. 1 and 4.Regulate described lens base plate 103 if desired on described U type lens bracket 107 during the position, turn on described retaining thread, slide described lens base plate 103 to the position that needs, such as, when the camera lens 104 on being installed in described lens base plate 103 is long, lens base plate 103 can be adjusted to the bottom of described U type lens bracket 107, otherwise, be adjusted to the openend of described U type lens bracket 107.Like this, be convenient to install or change the camera lens 104 of different length, when full length shot is installed, lens base plate 103 slided into the bottom of U type lens bracket 107; Otherwise, slide into the openend of U type lens bracket 107.

Offer a circular hole 127 in the center of described lens base plate 103, as shown in Figure 1, be used for adaptive connection the 3rd rotating shaft, and described the 3rd rotating shaft is a hollow cylinder 114, as shown in Figure 1, and on the outer wall of described hollow cylinder 114 1 ends, a circular ring plate is set, is used to block described lens base plate 103, on the other end outer wall of described hollow cylinder 114, be provided with three clasps that outwards point to, be used for the described lens board 106 of left-hand thread; Like this, can prevent lens board 106 swings, improve the imaging stability of camera lens 104; Wherein, the lead that is used for controls lens 104 passes from the inner chamber of described hollow cylinder 106.

When described lens board 106 when described hollow cylinder 114 is done 360 degree rotations; the camera lens 104 that drive is arranged on the lens board 106 rotates; thereby regulate camera lens 104 present positions; make it pounce on the target object that receives and on display screen, present normal pictures; such as; when if the imaging picture of target object is the handstand picture, rotating lens plate 106 is to suitable position, and the target object imaging picture of this moment is upright.

Wherein, described the 3rd rotating shaft can also be a hollow cylinder that is arranged on the described lens board 106, the diameter of the circular hole 127 on the diameter of this hollow cylinder and the described lens base plate 103 is suitable, and be provided with the clasp in three orientation of its axis outsides at the edge of described hollow cylinder, be used for the fixing described lens board 106 of left-hand thread, and described clasp is about the same with the thickness of described lens board 106 to described lens base plate 103 distances; Like this, can prevent lens board 106 swings, improve the imaging stability of camera lens 104; Perhaps described hollow cylinder also can be arranged on the center of described lens base plate 103, and the circular hole that is used to install described hollow cylinder is arranged on described lens board 106, and by being arranged on the clasp at described hollow cylinder edge, lens base plate 103 is stated in the left-hand thread residence.

On the panel of described lens board 106, be symmetrically distributed and be provided with four contour pillars 128, shown in Fig. 1,4 and 5, and pillar 128 is provided with internal thread hole, support and be fixed for the pcb board 129 of controls lens 104, shown in Fig. 1 and 5, and described camera lens 104 is fixedly installed on the described pcb board 129, carries out circuit with control circuit on the pcb board 129 and is connected.

Sometimes in order to protect described translucent cover 105 to occur exerting oneself excessive and disrepair phenomenon that occur in the Installation and Debugging process, at shell that shields 108 of the outside of described translucent cover 105 suit, and described shell 108 is a double-decker, as shown in Figure 1, and be provided with a plurality of ladder posts 130 at the internal layer of described shell 108, as shown in Figure 1, be used for replacing the edge of described translucent cover 105, and block described translucent cover 105; Simultaneously, offer a notch 131, be used to install a jump ring 109, and, offer lockhole 132, be used to install the lock hook that is arranged on the described jump ring 109 with described notch 131 relative positions at the internal layer of described shell 108 on the outer base of described shell 108.

Described jump ring 109 comprises outer wall 133, inwall 134 and spring members 135, as shown in Figure 7, described jump ring 109 is arranged on the recess 136 of described support base plate 102, as shown in Figure 1, and described elastomeric element 135 is inserted in the space between described support base plate 102 and the described firm banking 101, described jump ring 109 rotates with described support base plate 102, as shown in Figure 8; Described outer wall 133, inwall 134 and spring members 135 are wholely set moulding, and the contour structures of described outer wall 133 and described shell 108 are suitable, and on described inwall 134, be provided with the lock hook 137 that points to outer wall 133, described lock hook 137 is connected under the restitution of elastomeric element 135 in the described lockhole 132, pin described shell 108, prevent that it from coming off.When pushing described outer wall 133, the lock hook 137 on the described inwall 134 breaks away from the lockhole 132 on the internal layer of described shell 108, and rotates described shell 108 gently, just can desheathing 108 and translucent cover 105.

Inner chamber at described translucent cover 105 is nested with an inner casing 110 by nontransparent material moulding, the shape and structure of this inner casing 110 and described translucent cover 105 are suitable, and on described 110, offer one to its sphere top a circular hole 138 is arranged by its base, and offer an arcuation loophole 141 respectively in the circular hole both sides, and the radian of circular hole 138 and arcuation loophole 141 is approximately about 90 degree, as shown in Figure 1.Described inner casing 110 can block infrared light, does not make infrared light interfere with camera lens and produces aperture, can also cover inner structure, has strengthened the aesthetic conceptions of surface structure; And described circular hole 138 is used to install described camera lens 104, and described arcuation loophole 141 is used to install described infrarede emitting diode 111, is convenient to infrared light and shines on the target object.

Obtain target object for three hemisphere camera heads can be pounced under the darker condition of light, the present invention has also done further improvement to technical scheme, and described three hemisphere camera heads also comprise an infraluminescence device.This infraluminescence device comprises several infrarede emitting diodes 111 and the interior cover 112 of arc, and as shown in Figure 1, the profile of cover 112 structure and described inner casing 110 are suitable in the described arc, place in the inner chamber of described inner casing 110; In described arc, offer a shooting hole 139 on the cambered surface of cover 112, as shown in Figure 6, its size, shape and described camera lens 104 are suitable, be used to settle described camera lens 104, a plurality of described infrarede emitting diodes 111 form four rows and per two rows constitute a pair of being embedded on the interior cover 112 of described arc, and be symmetrically distributed and be arranged on 139 both sides, described shooting hole, as shown in Figure 6; The PCB circuit board that is used to control described infrarede emitting diode 111 is arranged on the inner chamber of cover 112 in the described arc.

The edge of cover 112 is provided with the bearing 140 of pair of parallel in described arc, shown in Fig. 1 and 8, the spacing of the spacing of two bearings 140 and described lug 116 is complementary, and on two bearings 140, offer two holes respectively, with described column spinner 119 and 120 adaptive connections of projection that are arranged on the described U type lens bracket 107, and cover 112 rotates around described column spinner 120 with described U type lens bracket 107 in the described arc.

In sum, three hemisphere camera heads that the utility model provides, at first, by between lens base plate and camera lens, increasing by the 3rd rotating shaft, make camera lens on three directions, realize rotation, like this, no matter how the camera lens of video camera is installed, can make things convenient for the installation and debugging operation by regulating the accurate location of three rotating shafts realizations, greatly improve the Installation and Debugging efficient of camera head visible range or target object; Secondly, be provided with chute and flange on U type lens bracket, and be provided with slotted eye on flange, lens base plate can slide up and down along chute and slotted eye, is convenient to be provided with on lens base plate the camera lens of different length; Then, under the effect of infraluminescence device, this camera head can be realized round-the-clock visible range or target object being monitored; At last, when video camera install adjust after, as long as shell is directly buckled into just passable, need not to use screw to fix shell, in the dismounting and on safeguarding easily.

Should be understood that, for those of ordinary skills, can be improved according to the above description or conversion, and all these improvement and conversion all should belong to the protection range of the utility model claims.

Claims (10)

1, a kind of three hemisphere camera heads, comprise firm banking, support base plate, lens base plate, camera lens and translucent cover, described support base plate is connected with described firm banking, and can rotate relatively, described lens base plate is connected with lug on being arranged on described support base plate by second feathering axis, and described hemisphere outer cover is connected with described support base plate; It is characterized in that described three hemisphere camera heads also comprise the 3rd rotating shaft, and are used to be provided with the lens board of described camera lens, this lens board is connected with described lens base plate by described the 3rd rotating shaft.

2, three hemisphere camera heads according to claim 1, it is characterized in that, described the 3rd rotating shaft is a hollow cylinder, one end of described hollow cylinder is provided with a circular ring plate to outer lug, the other end is provided with at least two clasps in directed outwards space, described hollow cylinder by being arranged on its two ends circular ring plate and clasp respectively be located at described lens board and be connected with the circular hole on the lens base plate is adaptive.

3, three hemisphere camera heads according to claim 1, it is characterized in that, described the 3rd rotating shaft is a hollow cylinder that is arranged on the described lens base plate, this hollow cylinder and adaptive being rotationally connected of a circular hole that is arranged on the described lens board, and by being arranged at least two clasps on the described hollow cylinder edge, lens board is stated in the left-hand thread residence.

4, three hemisphere camera heads according to claim 1, it is characterized in that, described the 3rd rotating shaft is a hollow cylinder that is arranged on the described lens board, this hollow cylinder and adaptive being rotationally connected of a circular hole that is arranged on the described mirror base plate, and by being arranged at least two clasps on the described hollow cylinder edge, lens base plate is stated in the left-hand thread residence.

5, three hemisphere camera heads according to claim 1 is characterized in that, are provided with at least two clasps that are used for the described support base plate of snap close at the edge of described firm banking.

6, three hemisphere camera heads according to claim 1 is characterized in that, the quantity of described lug is two, are symmetrically distributed along described support base plate central axis.

7, three hemisphere camera heads according to claim 6, it is characterized in that, described three hemisphere camera heads also comprise a U type lens bracket, its A/F and described lug spacing are suitable, described U type lens bracket is rotationally connected by described second feathering axis and described lug, and described lens base plate is arranged on the openend of described U type lens bracket.

8, three hemisphere camera heads according to claim 7, it is characterized in that, respectively offer an arc-shaped slot, and respectively be provided with a projection in the outside of the openend of described U type lens bracket in the lateral location of two described lugs, be connected with described arc-shaped slot is adaptive, but and slide relative.

9, three hemisphere camera heads according to claim 7, it is characterized in that, on the inboard opposite position of described U type lens bracket, respectively be provided with a chute, described chute be arranged on described lens base plate side on adaptive connection of traveller, but and slide relative; On an opposite side of described U type lens bracket, respectively be provided with an inwardly outstanding flange, and on described flange, offer the rectangle slotted eye, the length of described rectangle slotted eye and the length of described chute are suitable, and be slightly less than the height of U type lens bracket, described rectangle slotted eye by screw thread be arranged on described lens base plate on adaptive connection of screwed hole of relevant position, and described lens base plate can be along the slotted eye slide relative under the effect of screw thread.

10, three hemisphere camera heads according to claim 1, it is characterized in that, described three hemisphere camera heads also comprise a jump ring, be arranged on the described firm banking, and on this jump ring, be provided with the clasp that is used to pin described translucent cover, be connected with lockhole buckle on being arranged on described translucent cover base.

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