CN116255534A

CN116255534A - Mobile intelligent safety monitoring equipment with damping unit

Info

Publication number: CN116255534A
Application number: CN202310466729.7A
Authority: CN
Inventors: 谢飞; 邓罗文; 熊海波
Original assignee: Ambrera Shenzhen Intelligent Technology Co ltd
Current assignee: Ambrera Shenzhen Intelligent Technology Co ltd
Priority date: 2021-12-07
Filing date: 2021-12-07
Publication date: 2023-06-13
Also published as: CN114151662B; CN114151662A

Abstract

The invention relates to the technical field of construction safety equipment, in particular to mobile intelligent safety monitoring equipment with a damping unit. The device comprises a transport box and two silica gel blocks, wherein the two groups of silica gel blocks are respectively and fixedly installed at corners of the bottoms of the outer walls of the two sides of the corresponding transport box, and damping inner cavities are formed in the silica gel blocks; a plurality of groups of first buffer strips are distributed in the damping inner cavity at equal intervals, two ends of each first buffer strip are respectively arranged on two side walls of the damping inner cavity, which are parallel to the transport case, and each first buffer strip is of a corrugated structure; a plurality of groups of second buffer strips are fixed between two adjacent groups of first buffer strips.

Description

Mobile intelligent safety monitoring equipment with damping unit

The application is a divisional application of an invention patent with the application number of 202111486222.5, the application date of 2021.12.07 and the name of mobile intelligent safety supervision equipment.

Technical Field

The invention belongs to the technical field of construction safety equipment, and particularly relates to mobile intelligent safety supervision equipment.

Background

Construction involves multiple aspects of safety construction management, and at present, safety supervision on a construction site is generally completed by dedicated supervision equipment.

The monitoring devices are generally classified into a mobile type and a fixed type, wherein the mobile type is widely used due to advantages such as convenience in installation and the like. Nowadays, along with the progress of technology, the monitoring equipment is also increasingly developed towards intelligence. The monitoring scheme is mainly characterized in that the network control holder is used for carrying out image acquisition on a construction site, and then the industrial gateway is used for transmitting image information to the main control end, so that monitoring personnel can realize real-time monitoring without going to the construction site.

The movable network control holder is usually fixed by the support unit, and because the whole volume of the support unit is smaller, and the working place of the network control holder is usually in an outdoor construction site, the network control holder is extremely easy to be interfered by external force under the influence of environmental factors, so that the support unit sends shaking or even tilting and side turning, the stability of the network control holder is directly influenced, and the shooting quality is reduced.

Disclosure of Invention

Aiming at the problems, the invention provides mobile intelligent safety monitoring equipment which comprises a transportation box, an upper cover, a bracket connecting unit, a bracket unit and a network Gao Qingbu control holder; the top of the transport box is of an open structure, and one side of the upper cover is hinged to the edge of one side of the top of the transport box; the support connecting unit is arranged in the transport case and comprises a first telescopic rod and a support mounting plate; one end of the first telescopic rod is hinged to the connecting column, the other end of the first telescopic rod is fixedly connected with the support mounting plate, and the central axis of the support mounting plate coincides with the central axis of the first telescopic rod; the edge of a side wall of the support mounting plate, which is close to the first telescopic rod, takes the central axis of the first telescopic rod as the center, a plurality of groups of second telescopic rods are hinged in an annular array, and the number of the second telescopic rods is not less than three; the network Gao Qingbu control holder is movably arranged on the support mounting plate; an industrial gateway is installed in the transport box and is electrically connected with a network Gao Qingbu control cradle head.

Further, a storage battery is arranged in the transport case and is electrically connected with the bracket unit and the industrial gateway respectively.

Further, a foam block is fixedly arranged in the transport box, a support limit groove is formed in the top of the foam block, and one end, close to the support unit, of the support limit groove is of an open structure; the bracket unit can be movably inserted into the bracket limiting groove; an equipment limiting groove is formed in one side of the support limiting groove, and the network Gao Qingbu control cradle head is movably inserted into the equipment limiting groove.

Further, the monitoring device further comprises two groups of damping units, wherein the damping units comprise silica gel blocks; the two groups of silica gel blocks are respectively and fixedly arranged at corners at the bottoms of the outer walls of the two sides of the transport case, and a damping inner cavity is formed in each silica gel block; a plurality of groups of first buffer strips are distributed in the damping inner cavity at equal intervals, two ends of each first buffer strip are respectively arranged on two side walls parallel to the damping inner cavity and the transport case, and each first buffer strip is of a corrugated structure.

Further, the bracket connecting unit comprises a connecting column base and a connecting column; the connecting column base is arranged in the transport case; an annular groove is formed in the top of the connecting column base, the connecting column is installed in the annular groove, and the central axis of the connecting column coincides with the central axis of the annular groove; the outer wall of the connecting column is distributed with a plurality of groups of return springs in an annular array, and the other ends of the groups of return springs are respectively arranged on the inner walls around the annular groove.

Further, one end of the bracket unit is hinged to the connecting column, a bracket clamping block is fixedly arranged on the outer wall of one side of the connecting column, which is close to the bracket limiting groove, and the bracket clamping block is positioned right above the joint of the bracket unit and the connecting column; the output end of the bracket unit can be movably clamped on the bracket clamping block.

Further, the stand unit further includes a rotation motor; the rotary motor is fixedly arranged on one side wall, far away from the first telescopic rod, of the support mounting plate, and the network Gao Qingbu control holder is movably clamped on the output end of the rotary motor.

Further, the first telescopic rod comprises an outer sleeve rod; the outer sleeve rod is movably clamped on the bracket clamping block; one end of the outer sleeve rod is hinged to the connecting column, and the other end of the outer sleeve rod is provided with a telescopic groove.

Further, the first telescopic rod further comprises a lifting rod; one end of the lifting rod is positioned in the telescopic groove, and the other end of the lifting rod can movably penetrate through the outer part of the telescopic groove and is fixedly connected with the support mounting plate.

Further, an equipment socket is fixedly mounted on the side wall of one end, close to the support mounting plate, of the lifting rod, and the equipment socket can be electrically connected with the network Gao Qingbu control cradle head.

The beneficial effects of the invention are as follows:

1. through the joint relation between first telescopic link and the spliced pole for the whole casing of support unit is fixed on the transport case. Then, the stability of the bracket unit is increased by utilizing the weight of the transport case and the weight of the balance weight, and the anti-interference capability of the network Gao Qingbu control cradle head during working is improved.

2. When the support unit is affected by external force, the connecting column is driven to displace, and then the connecting column transmits the external force to the reset springs distributed in the annular array. External force is counteracted by using the elasticity of the reset spring, the connecting column returns to the original position, and the shooting effect is prevented from being influenced by displacement or vibration of the network Gao Qingbu control holder, so that the working quality of the network Gao Qingbu control holder is improved.

3. When the network Gao Qingbu control holder works, firstly, a plug of the network Gao Qingbu control holder is inserted into an equipment socket, and then electric energy of the storage battery is transmitted to the network high-definition control holder by utilizing an electric wire body built in the outer sleeve rod and the lifting rod. The network Gao Qingbu control cradle head is not required to be powered by an open wire, so that the convenience of equipment use is improved.

4. When the transport case collides in moving, part of the collision force is first absorbed by the outer wall of the silicone block, and the remaining collision force is transferred to one or several sets of first bumper strips corresponding to the collision point. The elastic force of the first buffer strip is increased due to the characteristic of the corrugated structure of the first buffer strip. Thus, when an impact force acts on the first bumper strip, it is substantially absorbed by the first bumper strip, and the remaining impact force is transferred to the other sets of first bumper strips via the second bumper strips. Avoiding the crash force received by the transport case and thereby improving the shock absorption of the transport case.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural diagram of an inspection apparatus according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a monitoring device according to an embodiment of the present invention after being stored;

FIG. 3 shows a schematic cross-sectional view of a monitoring device after storage according to an embodiment of the invention;

fig. 4 shows a schematic structural view of a transport case according to an embodiment of the present invention;

FIG. 5 shows a schematic cross-sectional view of a shock absorbing unit according to an embodiment of the present invention;

FIG. 6 shows a schematic top view of a bracket connection unit according to an embodiment of the invention;

fig. 7 shows a schematic structural view of a rack unit according to an embodiment of the present invention;

FIG. 8 illustrates a schematic cross-sectional view of a first telescoping rod in accordance with an embodiment of the present invention;

fig. 9 shows an end sectional schematic view of a power line module according to an embodiment of the invention.

In the figure: 100. a transport box; 110. a foam block; 120. a bracket limit groove; 130. a device limit groove; 200. an upper cover; 210. limiting foam plates; 300. a storage battery; 400. a shock absorbing unit; 410. a silica gel block; 420. a shock absorbing cavity; 430. a first buffer bar; 440. a second buffer bar; 500. a bracket connection unit; 510. a connecting column base; 520. an annular groove; 530. a connecting column; 540. a return spring; 550. a bracket clamping block; 600. a stand unit; 610. a first telescopic rod; 611. an outer sleeve rod; 612. a telescopic slot; 613. a lifting rod; 614. a wire installation groove; 615. a wire coil fixing rod; 616. a device receptacle; 617. a wire coil body; 620. a bracket mounting plate; 630. a rotary motor; 640. a second telescopic rod; 650. a power line module; 651. an outer insulating sleeve; 652. an electric wire body; 653. a clockwork spring; 700. a balance weight; 800. network Gao Qingbu controls the head.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides mobile intelligent safety supervision equipment. Comprises a transport case 100, an upper cover 200, a bracket connection unit 500, a bracket unit 600 and a network Gao Qingbu control cradle head 800. As shown in fig. 1, 2 and 3, the top of the transport case 100 is in an open structure, one side of the upper cover 200 is hinged to the edge of one side of the top of the transport case 100, and the other side of the upper cover 200 is movably clamped with the transport case 100.

The storage battery 300 is arranged in the transport case 100, and the bracket connection unit 500 is positioned above the storage battery 300.

One end of the stand unit 600 is hinged to the stand connection unit 500, and the stand unit 600 is electrically connected to the battery 300. The stand unit 600 is used for supporting the network Gao Qingbu to control the cradle head 800.

An industrial gateway is fixedly installed in the transport case 100, and the industrial gateway is electrically connected with the storage battery 300 and the network Gao Qingbu control cradle 800 respectively. The industrial gateway is used to provide wireless network connection for the network Gao Qingbu control cradle head 800.

A group of shock absorbing units 400 are respectively arranged at the edges of two sides of the bottom of the outer wall of the transport case 100. The damage of the transport case 100 due to external force can be prevented by the shock absorbing unit 400.

The output end of the stand unit 600 is movable through to the outside of the transport case 100. The network Gao Qingbu control cradle head 800 can be movably clamped on the output end of the stand unit 600.

As shown in fig. 4, the transport case 100 is fixedly provided with a foam block 110, a support limiting groove 120 is formed in the top of the foam block 110, and one end of the support limiting groove 120, which is close to the support unit 600, is in an open structure. The bracket unit 600 is movably inserted into the bracket limiting groove 120. An equipment limiting groove 130 is formed in one side of the support limiting groove 120, and the network Gao Qingbu control cradle head 800 is movably inserted into the equipment limiting groove 130. A balance weight 700 is fixedly installed on the inner wall of the bottom of the transport case 100.

Preferably, a limiting foam plate 210 is fixedly installed in the inner cavity of the upper cover 200, and the limiting foam plate 210 is movably attached to the top of the foam block 110.

When the equipment is idle, the bracket unit 600 is received and then inserted into the bracket limiting groove 120, the network Gao Qingbu control holder 800 is detached from the output end of the bracket unit 600 and inserted into the equipment limiting groove 130, and the foam block 110 provides protection for the bracket unit 600 and the network Gao Qingbu control holder 800, so that damage to the bracket unit 600 and the network Gao Qingbu control holder 800 due to external force is prevented.

At the same time, the stability of the pod 100 is increased by the use of the weights 700.

The shock absorbing unit 400 includes a silicone block 410. As shown in fig. 5, the silica gel block 410 is fixedly installed at a corner of the bottom of the outer wall of the transport case 100, and a damping cavity 420 is formed in the silica gel block 410. A plurality of groups of first buffer bars 430 are distributed in the shock absorption inner cavity 420 at equal intervals, two ends of each first buffer bar 430 are respectively arranged on two parallel side walls of the shock absorption inner cavity 420 and the transport case 100, and each first buffer bar 430 is of a corrugated structure. A plurality of sets of second buffer bars 440 are fixedly installed between two adjacent sets of first buffer bars 430.

When the crash occurs in the movement of the case 100, it is first brought into contact with the outer wall of the silicone block 410, and then a portion of the crash force can be absorbed by the outer wall of the silicone block 410 and the remaining crash force can be transferred to one or several sets of the first bumper strips 430 corresponding to the crash point. The elastic force of the first buffer bar 430 is increased due to the characteristics of the corrugated structure of the first buffer bar 430. Thus, when an impact force acts on the first bumper 430, it is substantially absorbed by the first bumper 430, and the remaining impact force is transferred to the other sets of first bumper 430 through the second bumper 440. Avoiding the crash force received by the pod 100 and thereby improving the shock absorption of the pod 100.

The bracket connection unit 500 includes a connection post base 510 and a connection post 530. Illustratively, as shown in fig. 6, the connection post base 510 is fixedly installed in the transport case 100, and the connection post base 510 is located at a side of the bracket limit groove 120 near the opening. An annular groove 520 is formed in the top of the connecting column base 510, the connecting column 530 is fixedly mounted in the annular groove 520, and the central axis of the connecting column 530 coincides with the central axis of the annular groove 520. A plurality of groups of return springs 540 are distributed on the outer wall of the connecting column 530 in an annular array, and the other ends of the groups of return springs 540 are respectively and fixedly arranged on the inner walls around the annular groove 520. One end of the bracket unit 600 is hinged to the connecting post 530, a bracket clamping block 550 is fixedly mounted on the outer wall of one side of the connecting post 530, which is close to the bracket limiting groove 120, and the bracket clamping block 550 is located right above the joint of the bracket unit 600 and the connecting post 530. The output end of the stand unit 600 is movably clamped on the stand clamping block 550.

Before the device is used, the bracket unit 600 is first taken out from the bracket limiting groove 120 and clamped on the bracket clamping block 550. The stand unit 600 is then opened and the network Gao Qingbu control cradle head 800 is mounted on the output of the stand unit 600. The stand unit 600 and the network Gao Qingbu control cradle head 800 are fixed by the connection posts 530, so that the stand unit 600 is fixed on the transport case 100. When the support unit 600 is affected by external force during the use process of the device, the connecting columns 530 are driven to displace, and then the connecting columns 530 transmit the external force to the reset springs 540 distributed in the annular array. The external force is counteracted by using the elasticity of the reset spring 540, and the connecting column 530 returns to the original position, so that the influence of the network Gao Qingbu on the shooting effect caused by displacement or vibration of the cradle head 800 is avoided, and the working quality of the network Gao Qingbu on the cradle head 800 is improved.

The stand unit 600 includes a first telescopic rod 610, a stand mounting plate 620, and a rotation motor 630. For example, as shown in fig. 7, one end of the first telescopic rod 610 is hinged to the connecting post 530, and the other end is fixedly connected to the bracket mounting plate 620, and the central axis of the bracket mounting plate 620 coincides with the central axis of the first telescopic rod 610. The edge of the side wall of the bracket mounting plate 620, which is close to the first telescopic rod 610, is centered on the central axis of the first telescopic rod 610, and a plurality of groups of second telescopic rods 640 are hinged in an annular array, and the number of the second telescopic rods 640 is not less than three. The rotary motor 630 is fixedly mounted on a side wall of the bracket mounting plate 620 far away from the first telescopic rod 610, and the network Gao Qingbu control cradle head 800 is movably clamped on an output end of the rotary motor 630.

When the network Gao Qingbu is installed to control the pan-tilt 800, the first telescopic rod 610 is first taken out from the bracket limiting groove 120 and rotated along the hinge point of the first telescopic rod 610 and the connecting column 530, so that one end of the first telescopic rod 610 away from the hinge point is vertically upwards, and the rod body of the first telescopic rod 610 can be clamped on the bracket clamping block 550. The first telescopic rods 610 are then pulled apart to a corresponding length according to the required photographing height, and the plurality of sets of second telescopic rods 640 are all extended, so that one ends of the plurality of sets of second telescopic rods 640, which are far from the bracket mounting plate 620, may be supported on the ground around the transport case 100 in an annular array. The supporting function of the network Gao Qingbu control holder 800 is realized, and the whole housing of the bracket unit 600 is fixed on the transport case 100 through the clamping connection relationship between the first telescopic rod 610 and the connecting column 530. The stability of the stand unit 600 is then increased by the weight of the transport pod 100 and the weight of the counterweight 700, which also increases the anti-interference capability of the network Gao Qingbu to control the operation of the pan-tilt-zoom device 800.

The first telescopic rod 610 includes an outer jacket rod 611 and a lifting rod 613. Illustratively, as shown in fig. 8, the outer jacket pole 611 is movably engaged with the rack block 550. One end of the outer sleeve 611 is hinged to the connecting post 530, and the other end of the outer sleeve 611 is provided with a telescopic slot 612. One end of the lifting rod 613 is located in the telescopic slot 612, and the other end of the lifting rod 613 can movably penetrate through the telescopic slot 612 and is fixedly connected with the bracket mounting plate 620. The lifting rod 613 is fixedly provided with an equipment socket 616 on a side wall of one end of the lifting rod near the support mounting plate 620, and the equipment socket 616 can be electrically connected with the network Gao Qingbu control cradle 800. The one end that flexible groove 612 is close to spliced pole 530 is equipped with electric wire mounting groove 614, fixed mounting has a set of drum dead lever 615 on the inner wall of electric wire mounting groove 614 both sides respectively, two sets of rotate between the drum dead lever 615 and be connected with drum body 617, the winding has power cord module 650 on the drum body 617, power cord module 650 one end with battery 300 electric connection, the power cord module 650 other end runs through to in the lifter 613, and with equipment socket 616 electric connection.

The power cord module 650 includes a cord body 652, as shown in fig. 9, for example, an outer insulating sleeve 651 is sleeved outside the cord body 652, a spiral spring 653 is fixedly installed in an inner wall of the outer insulating sleeve 651, and one end of the spiral spring 653, far from the equipment socket 616, is fixedly connected to the coil body 617.

Preferably, an electrically conductive slip ring is fixedly installed on the central axis of the wire coil body 617, and the wire body 652 is electrically connected with the battery 300 through the electrically conductive slip ring.

When the lifting rod 613 is pulled open, the power cord module 650 on the coil body 617 is pulled out. When the lifting lever 613 is contracted, the power cord module 650 is rewound on the coil body 617 under the elastic force of the power spring 653. The purpose of winding the power line module 650 is achieved, and the situation that the power line module 650 is knotted is avoided.

When the network Gao Qingbu controls the cradle head 800 to work, firstly, a plug of the network Gao Qingbu controls the cradle head 800 is plugged into the equipment socket 616, and then the power wire module 650 built in the outer sleeve rod 611 and the lifting rod 613 is utilized to transmit the electric energy of the storage battery 300 to the network high-definition control cradle head 800. The network Gao Qingbu control cradle head 800 is not required to be powered by an open wire, so that the convenience of equipment use is improved.

The bracket unit 600 is integrally fixed to the transport case 100 by the snap-fit relationship between the first telescopic link 610 and the connection post 530. The stability of the stand unit 600 is then increased by the weight of the transport pod 100 and the weight of the counterweight 700, which also increases the anti-interference capability of the network Gao Qingbu to control the operation of the pan-tilt-zoom device 800. When the support unit 600 is affected by an external force, the connecting columns 530 are driven to displace, and then the connecting columns 530 transmit the external force to the reset springs 540 distributed in the annular array. The external force is counteracted by using the elasticity of the reset spring 540, and the connecting column 530 returns to the original position, so that the influence of the network Gao Qingbu on the shooting effect caused by displacement or vibration of the cradle head 800 is avoided, and the working quality of the network Gao Qingbu on the cradle head 800 is improved. When the network Gao Qingbu controls the cradle head 800 to work, firstly, a plug of the network Gao Qingbu controls the cradle head 800 is plugged into the equipment socket 616, and then the power wire module 650 built in the outer sleeve rod 611 and the lifting rod 613 is utilized to transmit the electric energy of the storage battery 300 to the network high-definition control cradle head 800. The network Gao Qingbu control cradle head 800 is not required to be powered by an open wire, so that the convenience of equipment use is improved. When the crash occurs in the movement of the pod 100, a portion of the impact force is first absorbed by the outer wall of the silicone block 410 and the remaining impact force is transferred to one or several sets of the first bumper strips 430 corresponding to the impact point. The elastic force of the first buffer bar 430 is increased due to the characteristics of the corrugated structure of the first buffer bar 430. Thus, when an impact force acts on the first bumper 430, it is substantially absorbed by the first bumper 430, and the remaining impact force is transferred to the other sets of first bumper 430 through the second bumper 440. Avoiding the crash force received by the pod 100 and thereby improving the shock absorption of the pod 100.

Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. The mobile intelligent safety monitoring device with the damping units is characterized by comprising a transport box (100) and two silica gel blocks (410), wherein two groups of silica gel blocks (410) are respectively and fixedly installed at corners at the bottoms of the outer walls of two sides of the corresponding transport box (100), and damping inner cavities (420) are formed in the silica gel blocks (410); a plurality of groups of first buffer strips (430) are distributed in the damping inner cavity (420) at equal intervals, two ends of each first buffer strip (430) are respectively arranged on two parallel side walls of the damping inner cavity (420) and the transport case (100), and each first buffer strip (430) is of a corrugated structure; a plurality of groups of second buffer strips (440) are fixed between two adjacent groups of first buffer strips (430); when an impact force acts on the first bumper strips (430), the impact force is substantially absorbed by the first bumper strips (430), and the remaining impact force is transferred to the other sets of first bumper strips (430) through the second bumper strips (440) to improve the shock absorption of the transport case (100).

2. The mobile intelligent security monitoring apparatus with shock absorbing unit of claim 1, further comprising an upper cover (200), a bracket connection unit (500), a bracket unit (600) and a network Gao Qingbu control cradle head (800); the top of the transport box (100) is of an open structure, and one side of the upper cover (200) is hinged to the edge of one side of the top of the transport box (100); the bracket connection unit (500) is installed in the transport case (100), and the bracket unit (600) includes a first telescopic rod (610) and a bracket installation plate (620); one end of the first telescopic rod (610) is hinged to the bracket connecting unit (500), the other end of the first telescopic rod is fixedly connected with the bracket mounting plate (620), and the central axis of the bracket mounting plate (620) coincides with the central axis of the first telescopic rod (610); the edge of a side wall of the bracket mounting plate (620) close to the first telescopic rod (610) is hinged with a plurality of groups of second telescopic rods (640) in an annular array by taking the central axis of the first telescopic rod (610) as the center, and the number of the second telescopic rods (640) is not less than three; the network Gao Qingbu control cradle head (800) is movably arranged on the bracket mounting plate (620); an industrial gateway is installed in the transport box (100), and the industrial gateway is electrically connected with the network Gao Qingbu control cradle head (800).

3. The mobile intelligent security monitoring device with shock absorbing unit of claim 2, wherein: a storage battery (300) is arranged in the transport case (100), and the storage battery (300) is respectively and electrically connected with the bracket unit (600) and the industrial gateway.

4. The mobile intelligent security monitoring device with shock absorbing unit of claim 2, wherein: a foam block (110) is fixedly arranged in the transport box (100), a bracket limiting groove (120) is formed in the top of the foam block (110), and one end, close to the bracket unit (600), of the bracket limiting groove (120) is of an open structure; the output end of the bracket unit (600) is movably clamped on the bracket clamping block (550) or the bracket unit (600) is movably inserted in the bracket limiting groove (120); an equipment limiting groove (130) is formed in one side of the support limiting groove (120), and the network Gao Qingbu control cradle head (800) is movably inserted into the equipment limiting groove (130).

5. The mobile intelligent security monitoring device with shock absorbing unit of claim 2, wherein: the bracket connection unit (500) comprises a connection column base (510) and a connection column (530); the connecting column base (510) is arranged in the transport case (100); an annular groove (520) is formed in the top of the connecting column base (510), the connecting column (530) is installed in the annular groove (520), and the central axis of the connecting column (530) coincides with the central axis of the annular groove (520); a plurality of groups of return springs (540) are distributed on the outer wall of the connecting column (530) in an annular array, and the other ends of the groups of return springs (540) are respectively arranged on the inner walls around the annular groove (520).

6. The mobile intelligent security monitoring apparatus with shock absorbing unit of claim 5, wherein: one end of the bracket unit (600) is hinged to the connecting column (530), a bracket clamping block (550) is fixedly arranged on the outer wall of one side of the connecting column (530) close to the bracket limiting groove (120), and the bracket clamping block (550) is positioned right above the joint of the bracket unit (600) and the connecting column (530); the output end of the bracket unit (600) is movably clamped on the bracket clamping block (550).

7. The mobile intelligent security monitoring apparatus with shock absorbing unit of claim 6, wherein: the stand unit (600) further includes a rotation motor (630); the rotary motor (630) is fixedly arranged on one side wall, far away from the first telescopic rod (610), of the support mounting plate (620), and the network Gao Qingbu control holder (800) is movably clamped on the output end of the rotary motor (630).

8. The mobile intelligent security monitoring apparatus with shock absorbing unit of claim 7, wherein: the first telescopic rod (610) comprises an outer sleeve rod (611) and a lifting rod (613); the outer sleeve rod (611) is movably clamped on the bracket clamping block (550); one end of the outer sleeve rod (611) is hinged to the connecting column (530), and the other end of the outer sleeve rod (611) is provided with a telescopic groove (612); one end of the lifting rod (613) is positioned in the telescopic groove (612), and the other end of the lifting rod (613) can movably penetrate through the telescopic groove (612) and is fixedly connected with the bracket mounting plate (620); an equipment socket (616) is fixedly arranged on the side wall of one end of the lifting rod (613) close to the support mounting plate (620), and the equipment socket (616) can be electrically connected with the network Gao Qingbu control cradle head (800); the utility model discloses a wire installation groove, including flexible groove (612), spliced pole (530) and wire installation groove (614), fixed mounting has a set of drum dead lever (615) on electric wire installation groove (614) both sides inner wall respectively, two sets of rotate between drum dead lever (615) and be connected with drum body (617), the winding has power cord module (650) on drum body (617), power cord module (650) one end with battery (300) electric connection, the power cord module (650) other end run through to in lifter (613), and with equipment socket (616) electric connection.

9. The mobile intelligent security monitoring apparatus with shock absorbing unit of claim 8, wherein: and the central axis of the wire coil body (617) is fixedly provided with a conductive slip ring, and the wire body (652) is electrically connected with the storage battery (300) through the conductive slip ring.

10. The mobile intelligent security monitoring apparatus with shock absorbing unit of claim 8, wherein: the power line module (650) comprises an electric wire body (652), an outer insulating sleeve (651) is sleeved outside the electric wire body (652), a clockwork spring (653) is fixedly installed in the inner wall of the outer insulating sleeve (651), and when the lifting rod (613) is contracted, the power line module (650) is wound on the wire coil body (617) again under the action of the elasticity of the clockwork spring (653).