CN211580352U - Time mark measuring and monitoring device - Google Patents

Abstract

The utility model discloses a time scale measuring and monitoring device, including equipment shell and metal slide bar, the articulated sealed chamber door that is fixed with in the outside of equipment shell, and the outside of sealed chamber door is connected with clear glass, be provided with rotatory piece directly over the equipment shell, and be provided with the equipment layer board under the rotatory piece, the metal slide bar runs through the setting in the equipment layer board outside, and is provided with the support base directly over the equipment layer board, be connected with the lead screw under the rotatory piece, and the outside threaded connection of lead screw has the equipment board, the outside of equipment board is connected with the surveillance camera head, and the upper surface of equipment board has seted up the draw-in groove, the left and right sides of equipment board is connected with the rectangle slide rail, and the outside of rectangle slide rail runs through and has seted up the locating hole. This time mark measurement monitoring device adopts the metal slide bar, and the outside that drives the equipment shell through the metal slide bar slides, is convenient for carry out spacing fixed to the outside of equipment shell on the one hand.

Description

Time mark measuring and monitoring device

Technical Field

The utility model relates to a time mark equipment technical field specifically is time mark measuring and monitoring device.

Background

The timing electronic tag used by people can be used for monitoring and accurately measuring and calculating time information, the existing timing tag generally comprises an RFID electronic tag with a timing function, and the RFID electronic tag is directly placed at a certain position to monitor the equipment.

At present, the time scales need to be monitored by equipment in the using process, a device for monitoring a plurality of groups of time scales simultaneously is absent at present, the difficulty of monitoring the plurality of groups of time scales is increased, and the height and the position of monitoring equipment are difficult to adjust according to the positions of the time scales.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a time scale measuring and monitoring device to solve the present device that lacks one kind and carry out simultaneous monitoring to the multiunit time scale that proposes in the above-mentioned background art, and be difficult to according to the position control supervisory equipment's of time scale height and the problem of position.

In order to achieve the purpose, the utility model provides a time scale measuring and monitoring device, which comprises an equipment shell and a metal sliding rod, wherein the outer side of the equipment shell is hinged and fixed with a sealing box door, the outer side of the sealing box door is connected with transparent glass, a rotating block is arranged right above the equipment shell, an equipment supporting plate is arranged right below the rotating block, the metal sliding rod is arranged right above the equipment supporting plate in a penetrating way, a supporting base is arranged right above the equipment supporting plate, a lead screw is connected right below the rotating block, the outer side of the lead screw is in threaded connection with an equipment plate, the outer side of the equipment plate is connected with a monitoring camera, the upper surface of the equipment plate is provided with a clamping groove, the left side and the right side of the equipment plate are connected with rectangular sliding rails, the outer side of the rectangular sliding rails is provided with positioning holes in a penetrating way, and the outer, and the outside of supporting panel is connected with the battery, the outside of equipment shell is run through and is provided with the louvre, the left and right sides of supporting panel is provided with the slider.

Preferably, the number of the sealing box doors and the number of the transparent glass groups are two, the number of each transparent glass group is six, and the transparent glass and the monitoring camera are parallel to each other.

Preferably, the equipment supporting plate, the metal sliding rod and the equipment shell form a sliding structure, and the equipment supporting plate and the metal sliding rod are symmetrically distributed around the center line of the equipment shell.

Preferably, the equipment plate, the screw rod, the rotating block, the rectangular sliding rail and the sliding block form a lifting structure, and the equipment plate is connected with the monitoring camera through a bolt.

Preferably, the positioning holes are distributed on the rectangular sliding rails at equal intervals, the rectangular sliding rails are connected with the equipment plate through the sliding blocks, and the bottom of the equipment plate is of a mesh structure.

Preferably, the support panel and the equipment plate form a clamping structure, and the width of the equipment plate is consistent with that of the support panel.

Compared with the prior art, the beneficial effects of the utility model are that: the time mark measuring and monitoring device;

1. the metal sliding rod is adopted, and the metal sliding rod drives the outer side of the equipment shell to slide, so that the outer side of the equipment shell is convenient to limit and fix, the metal sliding rod drives the equipment supporting plate to slide, and the convenience of moving the equipment supporting plate is improved;

2. adopt lead screw and draw-in groove, drive the equipment board through the lead screw and carry out the vertical slip, be convenient for according to the height of time scale and the position of position control equipment board, increase the convenience to the daily control of multiunit time scale to utilize the draw-in groove to support supporting panel, ensure the stability of equipment daily operation.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the internal structure of the equipment housing of the present invention;

FIG. 3 is a schematic side view of the present invention;

fig. 4 is a schematic view of the overlooking structure of the rectangular slide rail of the present invention.

In the figure: 1. an equipment housing; 2. sealing the box door; 3. transparent glass; 4. rotating the block; 5. an equipment pallet; 6. a metal slide bar; 7. a support base; 8. a screw rod; 9. an equipment board; 10. a surveillance camera; 11. a card slot; 12. a rectangular slide rail; 13. positioning holes; 14. a support panel; 15. a storage battery; 16. heat dissipation holes; 17. a slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the time scale measuring and monitoring device comprises an equipment shell 1, a sealed box door 2, transparent glass 3, a rotating block 4, an equipment supporting plate 5, a metal sliding rod 6, a supporting base 7, a screw rod 8, an equipment plate 9, a monitoring camera 10, a clamping groove 11, a rectangular sliding rail 12, a positioning hole 13, a supporting panel 14, a storage battery 15, a radiating hole 16 and a sliding block 17, wherein the sealed box door 2 is hinged and fixed on the outer side of the equipment shell 1, the transparent glass 3 is connected on the outer side of the sealed box door 2, the rotating block 4 is arranged right above the equipment shell 1, the equipment supporting plate 5 is arranged right below the rotating block 4, the metal sliding rod 6 penetrates through the outer side of the equipment supporting plate 5, the supporting base 7 is arranged right above the equipment supporting plate 5, the screw rod 8 is connected right below the rotating block 4, the equipment plate 9 is in threaded connection with the outer side of the screw rod 8, the monitoring camera 10 is connected on the, and the upper surface of the equipment board 9 is provided with a clamping groove 11, the left side and the right side of the equipment board 9 are connected with a rectangular sliding rail 12, the outer side of the rectangular sliding rail 12 is penetrated and provided with a positioning hole 13, the outer side of the clamping groove 11 is provided with a supporting panel 14, the outer side of the supporting panel 14 is connected with a storage battery 15, the outer side of the equipment shell 1 is penetrated and provided with a heat dissipation hole 16, and the left side and the right side of the supporting panel 14 are provided with sliders.

The quantity that sealed chamber door 2 and transparent glass 3 set up is two sets of, and 3 every group quantity of transparent glass is six to transparent glass 3 is parallel to each other with surveillance camera head 10, protects the surveillance camera head 10 outside through transparent glass 3, ensures the security of surveillance camera head 10 daily use.

The equipment supporting plate 5, the metal sliding rod 6 and the equipment shell 1 form a sliding structure, the equipment supporting plate 5 and the metal sliding rod 6 are symmetrically distributed about the central line of the equipment shell 1, the equipment shell 1 is driven to horizontally move through the metal sliding rod 6, and the stability of daily use of the equipment shell 1 is ensured.

The equipment plate 9, the lead screw 8, the rotating block 4, the rectangular sliding rail 12 and the sliding block 17 form a lifting structure, the equipment plate 9 is connected with the monitoring camera 10 through bolts, the height of the equipment plate 9 can be conveniently adjusted according to the height of the time marks, and convenience of the monitoring camera 10 in monitoring multiple groups of time marks is improved.

The locating holes 13 are distributed on the rectangular sliding rails 12 at equal intervals, the rectangular sliding rails 12 are connected with the equipment board 9 through the sliding blocks 17, the bottom of the equipment board 9 is of a mesh-shaped structure, the outer sides of the rectangular sliding rails 12 are fixed through the equipment board 9, and heat at the bottom of the monitoring camera 10 is evacuated through the equipment board 9.

The support panel 14 and the equipment plate 9 form a clamping structure, the width of the equipment plate 9 is consistent with that of the support panel 14, the equipment plate 9 is supported through the support panel 14, and the stability of daily use of the equipment plate 9 is ensured.

The working principle is as follows: when the time scale measurement monitoring device is used, according to the graph shown in fig. 1, fig. 2 and fig. 4, an operator firstly opens the sealing box door 2, then holds the rotary block 4, the rotary block 4 drives the screw rod 8 to rotate, the screw rod 8 drives the equipment plate 9 to move up and down, the equipment plate 9 slides on the outer side of the rectangular slide rail 12 through the slide blocks 17 on the left side and the right side, when the two groups of equipment plates 9 move to the outer side of the time scale, the rotary block 4 stops rotating, then the bolt is inserted into the slide blocks 17 to complete the fixation of the equipment plate 9, the operator inserts the support panel 14 with the corresponding length into the clamping groove 11 on the outer side of the equipment plate 9 to support the equipment plates 9 on the upper side and the lower side, and provides power for the outer side of the monitoring camera 10 by using the storage battery 15, and then directly closes the sealing box door 2 on the outer side of the equipment shell 1;

according to the figures 1, 2 and 3, an operator inserts the metal slide bar 6 into the equipment supporting plates 5 on the upper side and the lower side of the equipment shell 1 respectively, fixes the metal slide bar 6 at the height corresponding to the time scale, and pushes the equipment shell 1 to enable the equipment shell 1 to slide on the outer side of the metal slide bar 6, so that the positions of the equipment shell 1 and the monitoring camera 10 are moved, the monitoring camera 10 monitors the number of the time scales on the left side and the right side of the equipment shell 1 through the transparent glass 3, the condition that the time scales fixed above the specific object fall off is avoided, monitoring and accurate time information of the specific object by multiple groups of time scales are facilitated, and heat generated in the operation process of the monitoring camera 10 is directly dissipated by the heat dissipation hole 16.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. Time scale measurement monitoring device, including equipment shell (1) and metal slide bar (6), its characterized in that: the outer side of the equipment shell (1) is hinged and fixed with a sealing box door (2), the outer side of the sealing box door (2) is connected with transparent glass (3), a rotating block (4) is arranged right above the equipment shell (1), an equipment supporting plate (5) is arranged right below the rotating block (4), a metal sliding rod (6) is arranged right above the equipment supporting plate (5) in a penetrating mode, a supporting base (7) is arranged right above the equipment supporting plate (5), a lead screw (8) is connected right below the rotating block (4), an equipment plate (9) is in threaded connection with the outer side of the lead screw (8), a monitoring camera (10) is connected to the outer side of the equipment plate (9), a clamping groove (11) is formed in the upper surface of the equipment plate (9), rectangular sliding rails (12) are connected to the left side and the right side of the equipment plate (9), and positioning holes (13) are formed in the outer side of the rectangular sliding rails (12) in a penetrating mode, the outside of draw-in groove (11) is provided with support panel (14), and the outside of support panel (14) is connected with battery (15), the outside of equipment shell (1) is run through and is provided with louvre (16), the left and right sides of support panel (14) is provided with slider (17).

2. The timescale monitoring device of claim 1, further comprising: the number that sealed chamber door (2) and transparent glass (3) set up is two sets of, and every group quantity of transparent glass (3) is six to transparent glass (3) are parallel to each other with surveillance camera head (10).

3. The timescale monitoring device of claim 1, further comprising: the equipment supporting plate (5), the metal sliding rod (6) and the equipment shell (1) form a sliding structure, and the equipment supporting plate (5) and the metal sliding rod (6) are symmetrically distributed around the center line of the equipment shell (1).

4. The timescale monitoring device of claim 1, further comprising: the equipment plate (9), the screw rod (8), the rotating block (4), the rectangular sliding rail (12) and the sliding block (17) form a lifting structure, and the equipment plate (9) is connected with the monitoring camera (10) through a bolt.

5. The timescale monitoring device of claim 1, further comprising: the positioning holes (13) are distributed on the rectangular sliding rails (12) at equal intervals, the rectangular sliding rails (12) are connected with the equipment plate (9) through the sliding blocks (17), and the bottom of the equipment plate (9) is of a mesh structure.

6. The timescale monitoring device of claim 1, further comprising: the supporting panel (14) and the equipment plate (9) form a clamping structure, and the width of the equipment plate (9) is consistent with that of the supporting panel (14).

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