CN219134046U - Camera mounting structure and car is clapped device - Google Patents

Abstract

The utility model discloses a camera mounting structure and a vehicle shooting device, wherein the camera mounting structure comprises a mounting seat and a base, the mounting seat comprises two movable blocks which are transversely spaced and can be slidably mounted, the opposite side surfaces of the two movable blocks are concavely provided with containing grooves which are upwardly and transversely penetrated, the lower wall surface of each containing groove is provided with two first grooves which are longitudinally and alternately arranged, and the wall surfaces, deviating from the first grooves, of the two first grooves are correspondingly penetrated. The base is provided with two mounting ends which are opposite in the transverse direction, the two mounting ends are respectively inserted and mounted in the two accommodating grooves, and the base can incline relative to the movable block under the action of external force, so that each mounting end can extend into the corresponding first groove at one longitudinal end, and the base is used for mounting a shooting camera or a mounting rod for mounting the shooting camera.

Description

Camera mounting structure and car is clapped device

Technical Field

The utility model relates to the technical field of photographic equipment, in particular to a camera mounting structure and a vehicle shooting device.

Background

The existing car flapper is often matched with a mounting rod through a cow headstock, the mounting rod is used for bearing a camera, the mounting rod is inserted and straightened on the ground when in use, the cow headstock is mainly positioned and mounted by taking a side door of a car, but a side door plate of the car in the market at present is not completely vertical, and the exposed surface of the car door is generally curved, so that after the car flapper is mounted, the whole cow headstock is inclined under the influence of the appearance of the car door, and the whole car is inclined under the influence of different road surfaces, so that the cow headstock is inclined.

Disclosure of Invention

The utility model mainly aims to provide a camera mounting structure and a vehicle shooting device, which can adapt to the tilting action matched with pitching, so that the camera can smoothly tilt and roll by means of a mounting rod, and the use experience of a user is improved.

In order to achieve the above object, the present utility model provides a camera mounting structure comprising:

the mounting seat comprises two movable blocks which are transversely spaced and can be slidably mounted, the opposite side surfaces of the two movable blocks are concavely provided with accommodating grooves which are upwardly and transversely penetrated, the lower wall surface of each accommodating groove is provided with two first grooves which are longitudinally spaced, and the wall surfaces, facing away from each other, of the two first grooves are correspondingly penetrated and arranged on the movable blocks; the method comprises the steps of,

the base, the base has two installation ends along transversely opposite, two the installation end is inserted respectively and is installed two in the accommodation groove, just the base can be under the exogenic action relative movable block slope, so that each the installation end can stretch into in the first inslot of correspondence in fore-and-aft one end, the base is used for supplying the installation pole installation of installing shooting camera.

Optionally, a second groove is further arranged between the two first grooves;

the middle parts of the side faces, away from the mounting ends, are concavely provided with grooves which are arranged in a penetrating way up and down;

the camera mounting structure further comprises two sliding bearings which are respectively rotatably mounted in the two grooves along the axis extending transversely, and the lower end of each sliding bearing is in contact with the second groove.

Optionally, the camera mounting structure further includes two first locking bolts, and two first locking bolts respectively thread through two the side that the movable block deviates from is in order to stretch into in the accommodation groove, and is used for with the side butt fit that the base corresponds.

Optionally, an annular avoidance groove is formed on the thread section of each first locking bolt;

the camera mounting structure further includes:

the two locking blocks are respectively arranged between the two mounting ends and the corresponding side walls of the accommodating groove, at least three matching grooves which are longitudinally spaced are formed in the side faces of the locking blocks, which are away from each other, the matching grooves in the middle are used for the first locking bolts to penetrate, and the upper wall surfaces of the matching grooves in the middle are provided with first threaded holes;

the elastic pieces are respectively arranged in the plurality of matching grooves positioned at the side edges, and the end parts of the elastic pieces are abutted against the side walls of the corresponding accommodating grooves; the method comprises the steps of,

and each connecting screw is in threaded installation with the corresponding first threaded hole so as to extend into the corresponding annular avoidance groove.

Optionally, the camera mounting structure further includes a plug assembly, the plug assembly includes two plug structures and a connection structure, the two plug structures are located at two sides of the base along a longitudinal direction, and each plug assembly includes:

the inserting block body comprises a first plate body extending vertically and a second plate body extending towards the base, a slope inclined from top to bottom towards the direction deviating from the base is formed on the side surface of the second plate body towards the base, a second threaded hole extending longitudinally is formed in the middle of the first plate body, the inserting block body can be movably inserted into two corresponding first grooves, and the slope is enabled to be in contact with the lower wall surface of the first grooves;

the plurality of spring positioning grooves are respectively arranged on two sides of the base along the longitudinal direction and on two sides of the second threaded hole along the transverse direction; the method comprises the steps of,

the springs are arranged between the first plate body and the base and are respectively inserted into the corresponding spring positioning grooves;

the connecting structure is used for connecting the two plug block bodies and the base.

Optionally, the connecting structure comprises two second locking bolts, and each second locking bolt is threaded through the second threaded hole and can be inserted into the base.

Optionally, two first guide through holes spaced along the transverse direction are formed on the side faces of the two first plate bodies facing away from each other;

the connection structure includes:

the matching plate is arranged on one side, away from the base, of one of the insert block bodies, an adjusting threaded hole is formed in the middle of the matching plate, and second guide through holes are respectively formed in two lateral sides of the adjusting threaded hole;

the end part of the connecting rod passes through the middle part of the first plate body at the side opposite to the matching plate and is mounted on the base through threads;

the guide rods are respectively and movably arranged in the second guide through holes and the first guide through holes corresponding to the insertion block bodies in a penetrating mode; the method comprises the steps of,

the locking threaded rod, the both ends of locking bolt install to respectively the cooperation board with the base, the middle part of locking threaded rod can pass corresponding insert block body, locking threaded rod department is in join in marriage the board with correspond be equipped with backstop portion on the paragraph between the insert block body, backstop portion with join in marriage the board with correspond all overlap between the insert block body and be equipped with adjusting nut.

Optionally, the upper ends of two opposite side walls of each accommodating groove along the longitudinal direction are provided with baffles extending towards each other, two sides of the locking block along the longitudinal direction are convexly provided with first stop blocks, and the upper end surfaces of the stop blocks are propped against the two corresponding baffles.

Optionally, a positioning groove is formed in the middle of the upper end face of the base, and a through hole is formed in the bottom wall of the positioning groove;

the camera mounting structure further comprises a fixing seat and a locking piece, wherein the fixing seat is formed with a penetrating channel which penetrates through the through hole vertically and is used for being provided with a mounting rod of a shooting camera to penetrate through the through hole, two extending arms which are arranged transversely and oppositely are formed at the upper end of the fixing seat, the two extending arms are positioned at two sides of the penetrating channel and are used for propping against the outer surface of the mounting rod provided with the shooting camera, connecting threaded holes are formed in the opposite side surfaces of the two extending arms, and the locking piece sequentially penetrates through the two connecting threaded holes in a threaded mode so as to lock the mounting rod into the fixing seat.

The utility model also provides a vehicle beating device, which is characterized by comprising:

the bracket comprises a supporting seat and a mounting frame, wherein the supporting seat extends transversely and is used for being detachably mounted to a side door of a vehicle body, the mounting frame comprises two mounting beams which extend longitudinally and are spaced transversely, and one ends of the two mounting beams are fixedly connected with the supporting seat; the method comprises the steps of,

in the camera mounting structure, the two movable blocks are slidably mounted to the two mounting beams.

According to the technical scheme, initially, the base can be in contact with the lower wall surface of the accommodating groove, the base is horizontally arranged as a whole, the base is kept stable, when the base is required to tilt forward, the mounting rod is pushed, the base is inclined by external force, the front ends of the mounting ends extend into the corresponding first grooves, the rear ends of the mounting ends are tilted, the pitching action of the camera is based on the movable blocks and does not influence the sliding of the movable blocks, the position of the movable blocks is kept horizontal, and only the bottom plate is inclined, so that friction caused by the angle interference between the circular arc line movement mode and the cow headstock during pitching and swaying movement can be avoided, the camera is smooth when the camera is in pitching and swaying by means of the mounting rod, and the use experience of a user is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of an embodiment of a vehicle beating device according to the present utility model;

FIG. 2 is a perspective view of the camera mounting structure of FIG. 1;

FIG. 3 is a schematic perspective view of the connection structure of FIG. 1;

FIG. 4 is a perspective view of the base of FIG. 1;

FIG. 5 is a schematic perspective view of the movable block of FIG. 1;

FIG. 6 is a perspective view of the latch block of FIG. 4;

FIG. 7 is a schematic perspective view of the insert block body of FIG. 4;

FIG. 8 is a schematic perspective view of another embodiment of a vehicle beating device according to the present utility model;

fig. 9 is a perspective view of the camera mounting structure of fig. 8.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Camera mounting structure	7111	First plate body
11	Movable block	7112	Second plate body
				111	Accommodating groove	7112a	Inclined plane
1111	First groove	712	Spring positioning groove
				1112	Second groove	713	Spring
112	Baffle plate	721	Second locking bolt
				2	Base seat	722	Fitting plate
21	Groove	723	Connecting rod
				22	Positioning groove	724	Guide rod
3	Sliding bearing	725	Locking threaded rod
				4	First locking bolt	726	Adjusting nut
41	Annular avoidance groove	8	Connecting screw
				5	Locking block	9	Fixing seat
51	Matching groove	91	Extension arm
				52	First stop block	200	Niu Toujia
6	Elastic piece	210	Mounting beam
				711	Plug body	300	Mounting rod

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the case where a directional instruction is involved in the embodiment of the present utility model, the directional instruction is merely used to explain the relative positional relationship, movement condition, etc. between the components in a specific posture, and if the specific posture is changed, the directional instruction is changed accordingly.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The existing car flapper is often matched with a mounting rod through a cow headstock, the mounting rod is used for bearing a camera, the mounting rod is inserted and straightened on the ground when in use, the cow headstock is mainly positioned and mounted by taking a side door of a car, but a side door plate of the car in the market at present is not completely vertical, and the exposed surface of the car door is generally curved, so that after the car flapper is mounted, the whole cow headstock is inclined under the influence of the appearance of the car door, and the whole car is inclined under the influence of different road surfaces, so that the cow headstock is inclined.

In view of the above, the present utility model provides a camera mounting structure and a vehicle photographing device, which solve the problem of pitch clamping stagnation in the prior art, and fig. 1 to 9 are embodiments of the camera mounting structure provided by the present utility model.

Referring to fig. 1 to 3, the camera mounting structure 100 includes a mounting base and a base 2, where the mounting base includes two movable blocks 11 that are spaced apart laterally and can be slidably mounted, two opposite sides of the movable blocks 11 are concavely provided with an accommodating groove 111 that is disposed to be penetrated upwards, a lower wall surface of each accommodating groove 111 is provided with two first grooves 1111 that are disposed to be spaced apart longitudinally, and two opposite wall surfaces of the first grooves 1111 are disposed to be penetrated by corresponding movable blocks 11. The base 2 has two mounting ends opposite to each other in the transverse direction, the two mounting ends are respectively inserted and mounted in the two accommodating grooves 111, and the base 2 can incline relative to the movable block 11 under the action of external force, so that one end of each mounting end in the longitudinal direction can extend into the corresponding first groove 1111, and the base 2 is used for mounting a shooting camera or a mounting rod 300 for mounting the shooting camera.

In the technical scheme of the utility model, initially, the base 2 can be in contact with the lower wall surface of the accommodating groove 111, the whole base 2 is horizontal, the base 2 is kept stable, when the base needs to be leaned forward, the mounting rod 300 is pushed, the base 2 is inclined under external force, the front end of each mounting end stretches into the corresponding first groove 1111, the rear end of each mounting end is tilted, the pitching action of the camera is based on the movable block 1141 and does not influence the sliding of the movable block 11, the position of the movable block 11 is kept horizontal, and only the bottom plate is inclined, so that the situation that friction occurs due to the angular interference between the circular arc line movement mode and the cow headstock when the camera is in pitching and swinging by means of the mounting rod 300 can be avoided, the smoothness of the camera is improved, and the use experience of a user is improved.

Further, a second groove 1112 is further provided between the two first grooves 1111, and a groove 21 formed by penetrating up and down is concavely provided in the middle of the side surface of the two mounting ends facing away from each other; the camera mounting structure 4 further includes two slide bearings 3 rotatably mounted in the two grooves 21 along axes extending in the lateral direction, respectively, and a lower end of each of the slide bearings 3 is in contact with the second groove 1112. The two sliding bearings 3 are high-speed miniature bearings, can be used as fulcrums, and roll in the second groove 1112 when the base 2 is inclined, so that friction force is reduced, and pitching stability is ensured.

Furthermore, in this embodiment, the camera mounting structure further includes two first locking bolts 4, and the two first locking bolts 4 respectively thread through two sides facing away from the movable block 11 so as to extend into the accommodating groove 111, and are used for being in tight fit with corresponding sides of the base 2. Thereby providing a connection between the base 2 and the movable block 11, and fixing the relative positions of the two

In an embodiment, referring to fig. 2 and 6, the camera mounting structure 4 further includes two locking blocks 5 and a plurality of elastic members 6, the two locking blocks 5 are respectively disposed between the two mounting ends and the corresponding side walls of the accommodating groove 111, at least three matching grooves 51 spaced longitudinally are disposed on the sides of each locking block 5 facing away from each other, the matching groove 51 located in the middle is used for the first locking bolt 4 to pass through, the plurality of elastic members 6 are respectively mounted in the plurality of matching grooves 51 located at the side edges, the end portions of each elastic member 6 abut against the corresponding side wall of the accommodating groove 111, the locking blocks 5 are used for compensating the matching gap between the base 2 and the accommodating groove 111, and the elastic members 6 provide a pre-tightening force to ensure the position of the locking blocks 5 and the tightly matched state with the base 2.

It should be noted that the elastic member 6 is preferably a pre-tightening spring, and in other embodiments, a rubber member may be used, which is not limited herein.

Furthermore, in an embodiment, referring to fig. 8 to 9, an annular avoidance groove 41 is formed on a threaded section of each first locking bolt 4, a first threaded hole is formed on an upper wall surface of the matching groove 51 located in the middle, and the camera mounting structure further includes two connection screws 8, where each connection screw 8 is screwed to the corresponding first threaded hole so as to extend into the corresponding annular avoidance groove 41. During steady state, first locking bolt 4 supports tightly base 2, latch segment 5 receives the elasticity of elastic component 6, keeps steady state for the both sides of base 2 can be tensioning balance, guarantee firm when needs base 2 activity, first locking bolt 4 is released, and this moment latch segment 5 receives connecting screw 8's restriction, therefore can be in the common back under the drive of first locking bolt 4, elastic component 6 is compressed this moment, latch segment 5 with base 2 separation, base 2 can swing, so set up still can prevent follow after first locking bolt 4 is released in the accommodation groove 111 is complete to be withdrawed from, avoids the user to be difficult for counterpointing because of reassembled each part.

In order to ensure that the locking blocks 5 cannot pop up after being mounted, in this embodiment, referring to fig. 5 to 6, the upper ends of two opposite side walls of each of the accommodating grooves 111 along the longitudinal direction are provided with baffles 112 extending toward each other, two sides of each of the locking blocks 5 along the longitudinal direction are convexly provided with first stoppers 52, the upper end surfaces of each of the stoppers abut against the corresponding two baffles 112, and at this time, the locking blocks 5 are limited in position by the first stoppers 52, and cannot be lifted up under the action of elastic force, and meanwhile, can maintain a relatively stable orientation with the movable blocks 11, and it can be understood that the transverse movable travel of the locking blocks 5 should not exceed the transverse dimension of the baffles 112.

It should be noted that the two related technical features may be set at the same time or alternatively, and the setting effect is better.

Further, when the sliding bearing 3 is arranged, the upper ends of the opposite side surfaces of the locking blocks 5 are convexly provided with second stop blocks, and the second stop blocks extend to the upper side of the base 2 and can cover the sliding bearing 3, so that the overall appearance after being matched is ensured, and meanwhile, the sliding bearing 3 can be protected.

In order to fix the base 2 in different orientations, referring to fig. 2 and 8, the camera mounting structure 4 further includes a plug assembly, the plug assembly includes two plug structures and a connection structure, the two plug structures are located between the two mounting beams 210 and located at two sides of the base 2 along the longitudinal direction, each plug structure includes a plug body 711, a spring positioning groove 712, and a plurality of springs 713, the plug body 711 includes a first plate 7111 extending vertically and a second plate 7112 extending toward the base 2, a side of the second plate 7112 facing the base 2 is formed with a slope 7112a sloping from top to bottom toward a direction away from the base 2, the plug body 711 is capable of being movably inserted into the corresponding two first grooves 1111, and the slope 7112a contacts with a lower wall surface of the first grooves 1111, the plurality of spring positioning grooves 712 are respectively disposed on two sides of the base 2 along the transverse direction, the plurality of springs 713 are disposed between the first plate 7111 and the base 2 and respectively inserted into the corresponding spring positioning grooves 712, when the base 2 is in a balanced state, the second plate 7112 can be inserted into the first groove 1111, at this time, the relative positions of the insert bodies 711 and the base 2 are maintained under the action of the connecting structure and the spring force, so as to compensate the gap between the bottom plate and the bottom wall of the first groove 1111, to provide a stable supporting plane for the base 2, the first plate 7111 maintains a stable position under the combined action of the spring 713 and the connecting structure, and is in a tensioned state, at this time, the inclined surface 7112a does not function, when the base 2 is adjusted to incline, the connection structure is firstly adjusted to increase the distance between the insert body 711 and the base 2, the spring 713 is stretched to drive the second plate body 7112 to leave the first groove 1111, after the base 2 is inclined, the length of the second plate body 7112 of each insert body 711 which can be inserted is reasonably adjusted according to the remaining gap in the first groove 1111, it can be understood that the lengths of the two second plate bodies 7112 which are inserted at two longitudinal sides are different, at this time, the insert body 711 is always connected with the base 2 through the idle of the connection structure and is inclined together with the base 2, so that the section of the remaining gap of the first groove 1111 is triangular, at this time, the inclined surface 7112a plays a role of being attached to the bottom wall surface of the first groove 1111, thereby realizing the limit of the base 2 and limiting the limit of the base 2 at a specific inclination angle. So that the base 2 can be fixed in any state.

It should be noted that, in an embodiment, referring to fig. 8 to fig. 9, a second threaded hole extending longitudinally is provided in the middle of each first plate 7111, the connection structure includes two second locking bolts 721, each second locking bolt 721 is threaded through the second threaded hole and can be inserted into the base 2, where a plurality of spring positioning slots 712 are respectively provided on two sides of the second threaded hole in the transverse direction. The second locking bolt 721 needs to be always inserted into the base 2 to a certain depth, so that the state of the spring 713 is automatically changed by screwing or unscrewing the second locking bolt 721 under different adjustment requirements, thereby enabling adjustment of the insert body 711.

In another embodiment, please refer to fig. 2, 3 and 7, two first guide through holes are respectively formed on opposite sides of the first plate body 7111 along a transverse interval, the connection structure includes a mating plate 722, a connecting rod 723, two guide rods 724 and a locking threaded rod 725, the mating plate 722 is disposed on one side of the insert block body 711 away from the base 2, an adjusting threaded hole is formed in a middle portion of the mating plate 722, second guide through holes are respectively formed in two transverse sides of the adjusting threaded hole, an end portion of the connecting rod 723 passes through a middle portion of the first plate body 7111 facing away from one side of the mating plate 722, and is threadedly mounted on the base 2, each guide rod 724 is movably disposed in the corresponding first guide through hole on the second guide through hole and each insert block body 711, two ends of the locking bolt 725 are threadedly mounted on the mating plate 722 and the base 2, a middle portion of the locking threaded rod can pass through the corresponding insert block body, the locking bolt 725 is disposed between the corresponding insert block body 722 and the corresponding insert block body 711, and the corresponding adjusting nut 711 is disposed between the corresponding insert block body 711 and the corresponding stop portion 711. The two adjusting nuts are arranged on one side close to the car window, so that the direct operation of a user is facilitated, the matching plate 722 is preferably arranged on one side towards the car door, the user can extend hands, the inserted depth of the two insert block bodies 711 can be changed only by operating the two adjusting nuts, therefore, the inclination angle of the base 2 is limited, the operation steps are simpler, in the embodiment, the adjusting nuts close to the car window correspondingly adjust the positions of the insert block bodies 711 away from the car window (the limiting positions of the adjusting nuts towards the car window direction are shown in the drawing), the adjusting nuts far away from the car window correspondingly adjust the positions of the other insert block body 711 close to the adjusting nuts, the two guide rods 724 play the roles of connecting and guiding, the connecting rod 723 and the locking bolt 725 play the roles of connecting the two insert block bodies 711 and the base 2 at the same time, it can be understood that the corresponding insert block bodies 711 move relatively to the two insert block bodies 724 under the action of spring force, and the connecting rod 723 and the locking bolt 725 are in clearance fit, and therefore, the two insert blocks 711 are not pressed by the two longitudinal elastic force of the connecting rod 713 and can not be driven by the two longitudinal force of the connecting rods 713.

Based on the above embodiment, the specific adjustment steps are as follows, in the beginning, the plurality of springs 713 corresponding to each insert body 711 extend, opposite sides of the two insert bodies 711 are abutted against the base 2 by the springs 713, opposite sides are limited by nuts at ends of the two guide rods 724, at this time, the connecting rod 723 acts to connect the insert bodies 711 and the base 2, and limit limits are provided for the extension of the springs 713, when the insertion depth of each insert body 711 needs to be adjusted, the user rotates two adjustment nuts, and the movement direction and movement distance of the two adjustment nuts may be different, so that the corresponding insert bodies 711 are directly pushed or indirectly pushed by the springs, thereby realizing the position adjustment of the two insert bodies 711 under the combined action of thrust and spring force, and changing the insertion depth.

In the conventional tripod, when the locking structure is a hand-rotated fastening sleeve structure, generally made of PVC, and is locked by clockwise rotation and unlocked by anticlockwise rotation, when the structure is in use, when a reverse force is applied, the locking state may be loosened, and if the tripod is applied in a cow headstock, there is a risk that the mounting rod 300 falls down, therefore, in the embodiment, referring to fig. 1, 2 and 4, a positioning groove 22 is provided in the middle of the upper end surface of the base 2, and a through hole is provided in the bottom wall of the positioning groove 22; the camera mounting structure further comprises a fixing seat 9 and a locking piece, wherein the fixing seat 9 is provided with a penetrating channel which penetrates through the through hole vertically and is used for being provided with a mounting rod 300 provided with a shooting camera to penetrate through the through hole for mounting, the upper end of the fixing seat 9 is provided with two extending arms 91 which are arranged transversely oppositely, the two extending arms 91 are positioned on two sides of the penetrating channel, the two extending arms 91 are used for propping against the outer surface of the mounting rod 300 provided with the shooting camera, the two opposite sides of the extending arms 91 are provided with connecting threaded holes, and the locking piece sequentially penetrates through the two connecting threaded holes in a threaded mode so as to lock the mounting rod 300 into the fixing seat 9. The fixing seat 9 with the base 2 can be dismantled and be connected, the positioning groove 22 does the installation of fixing seat 9 provides the location, and both can pass through the screw cooperation, and the installation pole 300 is in proper order run through establish the passageway with the through-hole is realized holding tightly and releasing installation pole 300 through the adjustment locking piece to can carry out the high regulation of installation pole 300 relative ground, stability is good, convenient operation.

The utility model also provides a vehicle beating device, which comprises the supporting structure 100 with the horizontal adjusting function, and the vehicle beating device comprises all the technical characteristics of the supporting structure 100 with the horizontal adjusting function, so that the vehicle beating device also has the technical effects brought by all the technical characteristics, and the technical effects are not repeated herein.

Specifically, the racket device further comprises a bracket 200, the bracket 200 comprises a supporting seat and a mounting frame, the supporting seat extends transversely and is used for being detachably mounted on a side door of a vehicle body, the mounting frame comprises two mounting beams 210 extending longitudinally and being spaced transversely, and one ends of the two mounting beams 210 are fixedly connected with the supporting seat. The two movable blocks 11 are slidably mounted to the two mounting beams 210. Thereby effecting the pitching and panning of the camera.

Further, the sides of the two movable blocks 11 facing away from each other are slidably mounted on the two mounting beams 210 by providing sliding grooves.

In addition, referring to fig. 1 again, the two mounting beams 210 are provided with stop bolts extending in the transverse direction at the ends far away from the supporting seat, the two stop bolts can abut against the two movable seats, and when the two movable blocks 11 slide, the two stop bolts can serve as limiting members to prevent the movable blocks 11 from sliding off, and meanwhile, when the two movable blocks 11 are located at the end portions of the mounting beams 210, the two stop bolts can also limit the two movable blocks 11 at the end portions in an abutting manner.

Furthermore, the movable block 11 and the mounting beam 210 may be slidably mounted in a pulley sliding rail engaged manner, which is not limited herein.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. A camera mounting structure, characterized by comprising:

the mounting seat comprises two movable blocks which are transversely spaced and can be slidably mounted, the opposite side surfaces of the two movable blocks are concavely provided with accommodating grooves which are upwardly and transversely penetrated, the lower wall surface of each accommodating groove is provided with two first grooves which are longitudinally spaced, and the wall surfaces, facing away from each other, of the two first grooves are correspondingly penetrated and arranged on the movable blocks; the method comprises the steps of,

the base, the base has two installation ends along transversely opposite, two the installation end is inserted respectively and is installed two in the accommodation groove, just the base can be under the exogenic action relative movable block slope, so that each the installation end can stretch into in the first inslot of correspondence in fore-and-aft one end, the base is used for supplying the installation pole installation of installing shooting camera.

2. The camera mounting structure of claim 1, wherein a second slot is further provided between the two first slots;

the middle parts of the side faces, away from the mounting ends, are concavely provided with grooves which are arranged in a penetrating way up and down;

the camera mounting structure further comprises two sliding bearings which are respectively rotatably mounted in the two grooves along the axis extending transversely, and the lower end of each sliding bearing is in contact with the second groove.

3. The camera mounting structure of claim 1 or 2, further comprising two first locking bolts threaded through the facing-away sides of the two movable blocks respectively to extend into the receiving groove and for abutting engagement with the corresponding sides of the base.

4. The camera mounting structure of claim 3, wherein the camera mounting structure further comprises:

the two locking blocks are respectively arranged between the two mounting ends and the corresponding side walls of the accommodating groove, at least three matching grooves which are longitudinally spaced are formed in the side surfaces of the locking blocks, which are away from each other, and the matching grooves in the middle are used for the first locking bolts to pass through; the method comprises the steps of,

the elastic pieces are respectively arranged in the plurality of matching grooves at the side edges, and the end parts of the elastic pieces are abutted against the side walls of the corresponding accommodating grooves.

5. The camera mounting structure of claim 4, further comprising a plug assembly including two plug structures and a connection structure, the two plug structures being located on either side of the mount in a longitudinal direction, each plug assembly comprising:

the inserting block body comprises a first plate body extending vertically and a second plate body extending towards the base, a slope inclined from top to bottom towards a direction deviating from the base is formed on the side surface of the second plate body towards the base, and the inserting block body can be movably inserted into the two corresponding first grooves, and the slope is contacted with the lower wall surface of the first grooves;

the spring positioning grooves are respectively arranged on two sides of the base along the transverse direction; the method comprises the steps of,

the springs are arranged between the first plate body and the base and are respectively inserted into the corresponding spring positioning grooves;

the connecting structure is used for connecting the two plug block bodies and the base.

6. The camera mounting structure of claim 5, wherein a second threaded hole extending in a longitudinal direction is formed in a middle portion of each of the first plate bodies, the connection structure includes two second locking bolts, and each of the second locking bolts is threaded through the second threaded hole and can be inserted into the base;

the plurality of spring positioning grooves are respectively arranged on two sides of the second threaded hole along the transverse direction.

7. The camera mounting structure of claim 5, wherein two first guide through holes spaced apart in a lateral direction are formed in both of the sides of the two first plate bodies facing away from each other;

the connection structure includes:

the matching plate is arranged on one side, away from the base, of one of the insert block bodies, an adjusting threaded hole is formed in the middle of the matching plate, and second guide through holes are respectively formed in two lateral sides of the adjusting threaded hole;

the end part of the connecting rod passes through the middle part of the first plate body at the side opposite to the matching plate and is mounted on the base through threads;

the guide rods are respectively and movably arranged in the second guide through holes and the first guide through holes corresponding to the insertion block bodies in a penetrating mode; the method comprises the steps of,

the locking threaded rod, the both ends of locking bolt install to respectively the cooperation board with the base, the middle part of locking threaded rod can pass corresponding insert block body, locking threaded rod department is in join in marriage the board with correspond be equipped with backstop portion on the paragraph between the insert block body, backstop portion with join in marriage the board with correspond all overlap between the insert block body and be equipped with adjusting nut.

8. The camera mounting structure according to claim 4, wherein upper ends of two longitudinally opposite side walls of each of the accommodating grooves are provided with baffle plates extending toward each other, two longitudinally opposite sides of the locking block are provided with first stop blocks in a protruding manner, and upper end surfaces of the stop blocks are abutted against the corresponding two baffle plates; and/or the number of the groups of groups,

the camera mounting structure further comprises two connecting screws, and each connecting screw is mounted to the corresponding first threaded hole so as to extend into the corresponding annular avoidance groove.

9. The camera mounting structure of claim 1, wherein a positioning groove is formed in the middle of the upper end surface of the base, and a through hole is formed in the bottom wall of the positioning groove;

the camera mounting structure further comprises a fixing seat and a locking piece, wherein the fixing seat is formed with a penetrating channel which penetrates through the through hole vertically and is used for being provided with a mounting rod of a shooting camera to penetrate through the through hole, two extending arms which are arranged transversely and oppositely are formed at the upper end of the fixing seat, the two extending arms are positioned at two sides of the penetrating channel and are used for propping against the outer surface of the mounting rod provided with the shooting camera, connecting threaded holes are formed in the opposite side surfaces of the two extending arms, and the locking piece sequentially penetrates through the two connecting threaded holes in a threaded mode so as to lock the mounting rod into the fixing seat.

10. A vehicle beating device, comprising:

the bracket comprises a supporting seat and a mounting frame, wherein the supporting seat extends transversely and is used for being detachably mounted to a side door of a vehicle body, the mounting frame comprises two mounting beams which extend longitudinally and are spaced transversely, and one ends of the two mounting beams are fixedly connected with the supporting seat; the method comprises the steps of,

a camera mounting structure as claimed in any one of claims 1 to 9, two of the movable blocks being slidably mounted to two of the mounting beams.

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