CN219588589U - Movable security monitoring equipment - Google Patents

Abstract

The utility model belongs to the technical field of monitoring devices, and discloses movable security monitoring equipment, which comprises a first annular piece and a second annular piece; the first annular piece is provided with a plurality of first concave pieces which are distributed at equal intervals around the circumference of the axis of the first annular piece, the second annular piece is sleeved outside the first annular piece, and the second annular piece is provided with a plurality of second concave pieces which are arranged corresponding to the first concave pieces; the side wall of each second concave part is rotationally connected with a first rotating part, one side of the first rotating part, which is close to the adjacent first concave part, is connected with a second rotating part, and one side of the first rotating part, which is far away from the second rotating part connected with the first rotating part, is connected with a third rotating part. The control of the process that the second rotating piece rotates into the adjacent first concave piece or is separated from the adjacent first concave piece is realized by the first rotating piece, and further the control of the rotation process of the first ring piece driving monitor is realized.

Description

Movable security monitoring equipment

Technical Field

The disclosure belongs to the technical field of monitoring devices, and particularly relates to movable security monitoring equipment.

Background

With the continuous development of technology, the monitoring device is gradually applied in various fields, such as shooting, monitoring, video recording, etc.

When the existing monitoring device is used, in order to realize omnibearing monitoring, the omnibearing monitoring is generally realized by using a plurality of monitoring devices at the same time, so that the monitoring direction of the monitoring device is generally fixed in the use process, and when a single monitoring device is damaged, the implementation of omnibearing monitoring can be influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the purpose of the present disclosure is to provide a movable security monitoring device, which solves the problem that when a single monitoring device is damaged during the omnibearing monitoring, the implementation of the omnibearing monitoring is possibly affected.

The purpose of the disclosure can be achieved by the following technical scheme:

a mobile security monitoring device comprising:

the first ring piece is used for driving the second ring piece to rotate;

the second ring piece is connected with the first supporting piece and used for driving the monitor to rotate; the monitor is detachably arranged on the first supporting piece;

the first annular piece is provided with a plurality of first concave pieces which are distributed at equal intervals around the circumference of the axis of the first annular piece, the second annular piece is sleeved outside the first annular piece, and the second annular piece is provided with a plurality of second concave pieces which are arranged corresponding to the first concave pieces;

the side wall of each second concave part is rotationally connected with a first rotating part, one side of the first rotating part, which is close to the adjacent first concave part, is connected with a second rotating part, and one side of the first rotating part, which is far away from the second rotating part connected with the first rotating part, is connected with a third rotating part.

The technical scheme has the following principle and effects:

the monitor is set to serve as security monitoring equipment, other existing equipment can be adopted to serve as security monitoring equipment according to actual conditions, and a plurality of security monitoring equipment can be installed at the same time.

For realizing the rotation of monitor, this disclosure sets up second ring spare and drives first support piece, monitor and rotate, and all can drive the second ring spare and rotate when avoiding first ring spare to rotate, and this disclosure sets up second ring spare and is not connected with first ring spare. When the first ring piece is required to drive the second ring piece to rotate, the first ring piece can indirectly drive the monitor to rotate by rotating the first rotating piece to enable the second rotating piece to rotate into the adjacent first concave piece.

And one end of the second annular piece, which is far away from the first supporting piece, is provided with a third annular concave piece, the third annular concave piece is communicated with each second concave piece, a first annular sliding piece is connected in a sliding manner in the third annular concave piece, and one side, which is close to the first supporting piece, of each first annular sliding piece is connected with one side, which is far away from the first supporting piece, of each third rotating piece.

The cylinder has been placed to the inboard of first ring spare, and the outer wall of cylinder is connected with the inner wall of first ring spare, and one side that the cylinder kept away from first support piece is connected with first power portion.

The outside cover of cylinder is equipped with second square support piece, and second square support piece is not connected with the cylinder, is connected with third support piece between second square support piece and the first power portion.

The outer side of the cylinder is sleeved with two driving gears, the driving gears are connected with the cylinder, a fourth hollow supporting piece is arranged below the driving gears, and the top of the fourth hollow supporting piece is connected with a plurality of fifth supporting pieces;

the driving gear close to the first supporting piece is connected with a first traction piece, and one end of the first traction piece far away from the driving gear is connected with a single fifth supporting piece on the fourth hollow supporting piece close to the first traction piece;

the driving gear far away from the first supporting piece is connected with a second traction piece, and one end of the second traction piece far away from the driving gear is connected with a single fifth supporting piece on the fourth hollow supporting piece close to the second traction piece.

One side of the second square support piece, which is close to the fourth hollow support piece, is connected with at least one second sliding piece, and one end, which is far away from the second square support piece, of the second sliding piece sequentially penetrates through the two fourth hollow support pieces.

One side of the second square support piece, which is close to the first support piece, is connected with a third annular piece, and one end of the third annular piece, which is close to the first support piece, is provided with a plurality of fourth concave pieces which are distributed at equal intervals around the circumference of the axis of the third annular piece;

one side of the first supporting piece, which is close to the third annular piece, is connected with a limit piece which is arranged in a telescopic way.

The noun, conjunctive or adjective parts referred to in the above technical solutions are explained as follows:

and (3) connection: refers to the process of connecting two separate profiles or parts into one complex part or component by using fasteners such as screws, bolts, rivets and the like;

an axis: refers to a straight line that divides a plane or volume into symmetrical parts.

The beneficial effects of the present disclosure are:

the control of the process of rotating the second rotating piece into or out of the adjacent first concave piece is realized by utilizing the first rotating piece, so that the control of the process of driving the monitor to rotate by the first annular piece is realized;

the limiting piece is arranged to limit the monitor, and the rotation of the monitor can be avoided by inserting the limiting piece into the single fourth concave piece; in addition, in order to avoid that the limiting piece cannot be separated from the fourth concave piece and the rotation of the monitor cannot be regulated and controlled, the limiting piece is a telescopic limiting piece;

for realizing that the monitor can move in the horizontal direction along multi-directions or realize that the monitor resets after moving along a direction, this disclosure sets up to drive the gear and rotates first traction piece, second traction piece through following the cylinder and wind, and for being convenient for wind first traction piece, second traction piece, can set up the depressed part on the teeth of a cogwheel that drives the gear.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described, and it will be apparent to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic overall construction of an embodiment of the present disclosure;

FIG. 2 is a schematic view of a first ring member and a peripheral structure according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of a fourth hollow support and peripheral structure of an embodiment of the present disclosure;

fig. 4 is a schematic diagram of a limiting member and a peripheral structure according to an embodiment of the disclosure.

Detailed Description

The following description of the technical solutions in the embodiments of the present disclosure will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are only some embodiments of the present disclosure, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments in this disclosure without inventive faculty, are intended to fall within the scope of this disclosure.

Referring to fig. 1 to 4, a movable security monitoring device includes a first ring member 1, a second ring member 2 sleeved on an outer side of one end of the first ring member 1, the second ring member 2 not connected with the first ring member 1, a first supporting member 4 connected to a side of the second ring member 2 far away from the first ring member 1, and a monitor 3 detachably mounted on the first supporting member 4.

The present disclosure sets the monitor 3 as a security monitoring device, and may also adopt other existing devices as security monitoring devices according to actual conditions, and may install a plurality of security monitoring devices at the same time.

The first annular piece 1 is provided with a plurality of first concave pieces 7 which are distributed at equal intervals around the circumference of the axis of the first annular piece, the second annular piece 2 is provided with a plurality of second concave pieces 8 which are distributed at equal intervals around the circumference of the axis of the second annular piece 2 and correspond to the first concave pieces 7, the number of the second concave pieces 8 is the same as that of the first concave pieces 7, and the second concave pieces 8 are communicated with the first concave pieces 7 close to the first concave pieces;

the side wall of each second concave part 8 is rotatably connected with a first rotating part 9, one side of the first rotating part 9 close to the adjacent first concave part 7 is connected with a second rotating part 10, and one side of the first rotating part 9 far away from the second rotating part 10 connected with the first rotating part is connected with a third rotating part.

For realizing the rotation of monitor 3, this disclosure sets up second ring spare 2 and drives first support piece 4, monitor 3 and rotate, and all can drive second ring spare 2 and rotate for avoiding first ring spare 1 to rotate the time, and this disclosure sets up second ring spare 2 and is not connected with first ring spare 1. When the first ring piece 1 is required to drive the second ring piece 2 to rotate, the first ring piece 1 can indirectly drive the monitor 3 to rotate by rotating the first rotating piece 9 to enable the second rotating piece 10 to rotate into the adjacent first concave piece 7.

The movable security monitoring equipment provided by the utility model is further described below with reference to the accompanying drawings and the implementation modes.

The second annular piece 2 has been seted up the third annular concave part far away from the one end of first support piece 4, and third annular concave part and each second concave part 8 intercommunication are connected with first annular slider 11 in the slip of third annular concave part, and one side that first annular slider 11 is close to first support piece 4 is connected with one side that each third rotation piece kept away from first support piece 4.

The first annular sliding member 11 can slide along the horizontal direction, and can drive the third rotating member to rotate during the sliding process, so that the second rotating member 10 can rotate into the adjacent first concave member 7.

The cylinder 5 has been placed to the inboard of first ring spare 1, and the outer wall of cylinder 5 is connected with the inner wall of first ring spare 1, and one side that cylinder 5 kept away from first support piece 4 is connected with first power portion 6.

In this embodiment, the first power portion 6 may be a motor, and the rotation of the cylinder 5 and the first ring member 1 may be sequentially realized by driving the first power portion 6, so that the monitor 3 rotates, and the monitoring range of the monitor 3 is adjusted.

The outside cover of cylinder 5 is equipped with second square support piece 12, and second square support piece 12 is not connected with cylinder 5, is connected with third support piece 13 between second square support piece 12 and the first power portion 6.

Two driving gears 14 are sleeved on the outer side of the cylinder 5, the driving gears 14 are connected with the cylinder 5, a fourth hollow supporting piece 15 is arranged below the driving gears 14, and the top of the fourth hollow supporting piece 15 is connected with a plurality of fifth supporting pieces 16;

the driving gear 14 close to the first supporting piece 4 is connected with a first traction piece 17, and one end of the first traction piece 17 far away from the driving gear 14 is connected with a single fifth supporting piece 16 on a fourth hollow supporting piece 15 close to the first traction piece;

the driving gear 14 remote from the first support 4 is connected with a second traction member 18, and the end of the second traction member 18 remote from the driving gear 14 is connected with a single fifth support member 16 on a fourth hollow support member 15 close thereto.

The driving gear 14 can wind the first traction piece 17 and the second traction piece 18 by following the rotation of the cylinder 5, and in order to facilitate the winding of the first traction piece 17 and the second traction piece 18, concave parts can be formed on the gear teeth of the driving gear 14.

In order to realize that the monitor 3 can move in multiple directions in the horizontal direction or reset after the monitor 3 moves in one direction, the extending directions of the first traction member 17 and the second traction member 18 away from one end of the driving gear 14 need to be set in opposite directions, so that the second traction member 18 unwinds when the first traction member 17 winds, and the first traction member 17 unwinds when the second traction member 18 winds.

It should be noted that, in order to facilitate the movement of the monitor 3 in the horizontal direction, the fourth hollow supporting member 15 may be fixed with the ground or other structures by means of threaded connection, etc., and the length of the fourth hollow supporting member 15, the number of the fifth supporting members 16, the lengths of the first traction member 17 and the second traction member 18 may be designed and adjusted according to the actual situation, so as to control the movement distance of the monitor 3 in the horizontal direction.

One side of the second square support piece 12 close to the fourth hollow support piece 15 is connected with at least one second sliding piece 19, and one end, far away from the second square support piece 12, of the second sliding piece 19 sequentially penetrates through the two fourth hollow support pieces 15.

The second sliding member 19 can support the second square supporting member 12 and the structure connected thereto, and can be slidably connected to the fourth hollow supporting member 15 according to practical situations.

One side of the second square support piece 12, which is close to the first support piece 4, is connected with a third annular piece 20, and one end of the third annular piece 20, which is close to the first support piece 4, is provided with a plurality of fourth concave pieces which are distributed at equal intervals around the axis of the fourth concave pieces in a circumferential manner;

one side of the first support member 4, which is close to the third annular member 20, is connected with a telescopically arranged limiting member 21.

When the first power part 6 drives the cylinder 5 to rotate, the rotation of the monitor 3 and the movement along the horizontal direction can be realized simultaneously, when the monitor 3 does not need to be rotated, the second rotating part 10 is separated from the adjacent first concave part 7 by moving the first annular sliding part 11, at this time, the monitor 3 is easy to rotate, and therefore, the present disclosure sets the limiting part 21 to limit the monitor 3, and the rotation of the monitor 3 can be avoided by inserting the limiting part 21 into a single fourth concave part. In addition, in order to avoid that the limiting piece 21 cannot be separated from the fourth concave piece so that the rotation of the monitor 3 cannot be regulated and controlled, the present disclosure sets the limiting piece 21 to be a telescopic limiting piece 21.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features, and advantages of the present disclosure. It will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, and that the embodiments and descriptions described herein are merely illustrative of the principles of the disclosure, and various changes and modifications may be made without departing from the spirit and scope of the disclosure, which are within the scope of the disclosure as claimed.

Claims (8)

1. A mobile security monitoring device, comprising:

the first annular piece (1) is used for driving the second annular piece (2) to rotate;

the second ring piece (2) is connected with the first supporting piece (4) and is used for driving the monitor (3) to rotate; the monitor (3) is detachably arranged on the first supporting piece (4);

a plurality of first concave parts (7) are arranged on the first circular ring part (1), the second circular ring part (2) is sleeved outside the first circular ring part (1), and a plurality of second concave parts (8) which are arranged corresponding to the first concave parts (7) are arranged on the second circular ring part (2);

the side wall of each second concave part (8) is rotatably connected with a first rotating part (9), and one side of each first rotating part (9) close to the adjacent first concave part (7) is connected with a second rotating part (10).

2. The movable security monitoring device according to claim 1, characterized in that a third rotating member is connected to a side of the first rotating member (9) remote from the second rotating member (10) connected thereto; and one end of the second circular ring piece (2) far away from the first supporting piece (4) is provided with a third annular concave piece, the third annular concave piece is communicated with each second concave piece (8), a first annular sliding piece (11) is connected in a sliding manner in the third annular concave piece, and one side of the first annular sliding piece (11) close to the first supporting piece (4) is connected with one side of each third rotating piece far away from the first supporting piece (4).

3. The movable security monitoring device according to claim 1, characterized in that a cylinder (5) is placed on the inner side of the first circular ring member (1), the outer wall of the cylinder (5) is connected with the inner wall of the first circular ring member (1), and one side of the cylinder (5) far away from the first supporting member (4) is connected with a first power part (6).

4. A movable security monitoring device according to claim 3, characterized in that the outer side of the cylinder (5) is sleeved with a second square support (12), the second square support (12) is not connected with the cylinder (5), and a third support (13) is connected between the second square support (12) and the first power part (6).

5. A movable security monitoring device according to claim 3, characterized in that two driving gears (14) are sleeved on the outer side of the cylinder (5), the driving gears (14) are connected with the cylinder (5), fourth hollow supporting members (15) are placed below the driving gears (14), and a plurality of fifth supporting members (16) are connected to the top of the fourth hollow supporting members (15).

6. The movable security monitoring device according to claim 5, characterized in that the driving gear (14) close to the first support (4) is connected with a first traction member (17), and one end of the first traction member (17) far away from the driving gear (14) is connected with a single fifth support (16) on a fourth hollow support (15) close thereto;

the driving gear (14) far away from the first supporting piece (4) is connected with a second traction piece (18), and one end of the second traction piece (18) far away from the driving gear (14) is connected with a single fifth supporting piece (16) on the fourth hollow supporting piece (15) close to the second traction piece.

7. The movable security monitoring device according to claim 5, wherein one side of the second square support (12) close to the fourth hollow support (15) is connected with at least one second sliding piece (19), and one end of the second sliding piece (19) far away from the second square support (12) sequentially penetrates through the two fourth hollow support (15).

8. The movable security monitoring device according to claim 4, wherein a third annular member (20) is connected to one side of the second square support member (12) close to the first support member (4), and a plurality of fourth concave members distributed at equal intervals around the circumference of the axis of the second square support member are arranged at one end of the third annular member (20) close to the first support member (4);

one side of the first supporting piece (4) close to the third annular piece (20) is connected with a limit piece (21) which is arranged in a telescopic way.