CN110608401A - Arrangement and use method of underground engineering construction measurement lighting device - Google Patents

Abstract

The invention discloses an arrangement and use method of an underground engineering construction measurement lighting device, wherein the adopted lighting device comprises a power supply unit, a main lighting unit and three auxiliary lighting units; the power supply unit consists of a battery box, a storage battery and a power supply distributor; the power supply distributor consists of an input interface and three output interfaces, the input interface is connected with the storage battery through a power switch, the first output interface is connected with the main lighting unit and the first auxiliary lighting unit, and the second output interface and the third output interface are respectively connected with the second auxiliary lighting unit and the third auxiliary lighting unit correspondingly; the main lighting unit consists of a main lighting lamp holder arranged at one end of the universal bending lamp neck and a first auxiliary lighting unit at the other end of the universal bending lamp neck; the first, second and third auxiliary lighting units have the same structure and are composed of a lamp shell provided with an inserting groove, lamp beads arranged on the wall of the lamp shell and a power input interface, and the device can provide constant and stable lighting light for construction measurement in a weak light or no light environment.

Description

Arrangement and use method of underground engineering construction measurement lighting device

Technical Field

The invention relates to an underground engineering construction lighting device, in particular to an arrangement and use method of an underground engineering construction measurement lighting device.

Background

In the construction process of underground structures such as tunnels and the like, the planar measurement of construction measurement control point positions or control network planar wire point positions is required. When the measuring environment is in a weak light or no light condition, the prism group and the triangular plate installed on the measuring position need to be illuminated normally to complete the measuring work. At present, under the condition of weak light or no light, the constant-brightness illumination of the prism group and the triangular plate mark is mostly finished by holding a strong-light flashlight by a special person; because the illumination duration is longer, the phenomenon of rocking can appear in the light source among the lighting process, lead to department's mirror personnel eye fatigue even cause serious visual disorder, this not only causes the injury for department's mirror personnel's body and mind, because the light source rocks direct influence measurement accuracy and work efficiency.

Disclosure of Invention

The invention aims to provide an arrangement and use method of an underground engineering construction measurement lighting device, which can provide stable normally-bright lighting rays for measurement work.

In order to achieve the purpose, the invention can adopt the following technical scheme:

the arrangement and use method of the underground engineering construction measurement lighting device comprises the steps of adopting a special lighting device, wherein the lighting device comprises a power supply unit, a main lighting unit and three auxiliary lighting units; the power supply unit consists of a battery box, a storage battery and a power supply distributor, wherein the storage battery and the power supply distributor are arranged in the battery box; the power supply distributor consists of an input interface and three output interfaces, the input interface is connected with the storage battery through a power switch, the first output interface is connected with the power supply input interfaces of the main lighting unit and the first auxiliary lighting unit, and the second output interface and the third output interface are respectively correspondingly connected with the power supply input ends of the second auxiliary lighting unit and the third auxiliary lighting unit; the main lighting unit consists of a main lighting lamp holder arranged at one end of the universal bending lamp neck and a first auxiliary lighting unit at the other end of the universal bending lamp neck; the first auxiliary lighting unit, the second auxiliary lighting unit and the third auxiliary lighting unit have the same structure and are respectively composed of a lamp shell provided with a plug-in groove, a lamp bead arranged on the wall of the lamp shell and a power input interface;

the use steps are as follows:

s1, during construction and measurement, erecting the prism group at the position of the measurement point location, and after finishing the accurate centering and the accurate leveling of the prism group to the point location, respectively inserting and fixing the inserting grooves of the first, the second and the third auxiliary lighting units with the top edge, the left edge and the right edge of the cutting board of the prism group; lamp beads of the first, second and third auxiliary lighting units respectively face the triangular marks on the top side, the left side and the right side of the prism group chopping board to provide lighting for the triangular marks;

s2, adjusting the universal bending lamp neck to enable the main lighting lamp head to be located at a position where the sight of the total station and the prism group is not obstructed, and enabling the main lighting lamp head to face the center of the prism to provide lighting for the prism;

and S3, hanging the battery box on the top edge of the prism group chopping block, correspondingly connecting the input interfaces of the main lighting unit and the three auxiliary lighting units with the output interface of the power distributor through power lines and plugs, and finally connecting the output end of the storage battery with the input interface of the power distributor, so that the power switch can be pressed down for construction measurement.

The input interface, the first output interface, the second output interface, the third output interface and the power input interfaces of the main lighting unit, the first auxiliary lighting unit, the second auxiliary lighting unit and the third auxiliary lighting unit on the power distributor are all hole type two-core jacks.

The battery case with power distributor passes through the screw connection as an organic whole, and the battery case lateral wall is equipped with the couple that is used for being connected with prism group chopping block.

The storage battery is a 12-volt rechargeable storage battery, and the lamp beads of the main lighting lamp holder and the auxiliary lighting unit are 12-volt LED lamp beads.

The invention is specially designed for underground structure construction measurement, provides constant and stable illumination light for construction measurement under the condition of weak light or no light environment, avoids visual fatigue generated by main lens measuring personnel in the normal measurement aiming reading process, improves the measurement precision and the working efficiency, simultaneously avoids manual illumination operation, and saves personnel resource allocation for auxiliary illumination of a prism group by a special person.

Drawings

Fig. 1 is a schematic structural diagram of a power supply unit according to the present invention.

Fig. 2 is a schematic top view of the structure of fig. 1.

Fig. 3 is a schematic structural view of the main lighting unit according to the present invention.

Fig. 4 is a schematic structural view of the auxiliary lighting unit according to the present invention.

Fig. 5 is a schematic diagram of the right-side structure of fig. 4.

Fig. 6 is a schematic structural diagram of the two-core power cord of the present invention.

Fig. 7 is a schematic diagram of the structure of the use state of the present invention.

Detailed Description

The present invention will be described in more detail with reference to the accompanying drawings, wherein the embodiments are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are provided, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1-7, the dedicated illumination device used in the method of the present invention includes a power supply unit, a main illumination unit, and three auxiliary illumination units.

As shown in fig. 1 and 2, the power supply unit is composed of a battery box 2 with a hook 1, a 12-volt rechargeable battery arranged in the battery box 2 and a power distributor 3, wherein the battery box 2 and the power distributor 3 are connected into a whole through a screw 4. The power supply distributor 3 consists of an input interface 5 and three output interfaces 6.1, 6.2 and 6.3, wherein the input interface 5 is connected with a storage battery through a power switch 7, the first output interface 6.1 is connected with the power supply input interfaces of the main lighting unit and the first auxiliary lighting unit, and the second output interface 6.2 and the third output interface 6.3 are respectively and correspondingly connected with the power supply input ends of the second auxiliary lighting unit and the third auxiliary lighting unit.

As shown in fig. 3, the main lighting unit is composed of a main lighting base 9 disposed at one end of the universal bending light neck 8 and a first auxiliary lighting unit at the other end.

As shown in fig. 4 and 5, the first, second and third auxiliary lighting units have the same structure, and are composed of a lamp housing 11 provided with an insertion groove 10, a row of two LED lamp beads 12 arranged on the wall of the lamp housing 11, and a power input interface.

For the convenience of carrying and dismouting, power supply unit, main lighting unit and three auxiliary lighting unit are independent respectively. The input interface 5, the first, second and third output interfaces 6.1, 6.2 and 6.3 of the power distributor 3 and the power input interfaces of the main lighting unit and the first, second and third auxiliary lighting units all adopt hole-type two-core jacks, and when in use, the two-core jacks are connected through a two-core power line as shown in fig. 6.

In the underground engineering construction measurement, the arrangement and use method of the special lighting device is carried out according to the following steps, as shown in figure 7:

s1, during construction and measurement, arranging the prism group frame 13 at the position of the measurement point location, and after finishing the accurate centering and the accurate leveling of the prism group to the point location, respectively inserting and fixing the inserting grooves 10 of the lamp shells 11 of the first, the second and the third auxiliary lighting units with the top edge, the left edge and the right edge of the prism group chopping board 14; the lamp beads of the first, second and third auxiliary lighting units respectively face the triangular marks on the top side, the left side and the right side of the prism group chopping board to provide lighting for the triangular marks;

s2, adjusting the universal bending lamp neck to enable the main lighting lamp head to be located at a position where the sight of the total station and the prism group is not obstructed, and enabling the main lighting lamp head to face the center of the prism to provide lighting for the prism;

s3, hanging the battery box on the top edge of the prism group chopping block, then correspondingly connecting the input interfaces of the main lighting unit and the three auxiliary lighting units with the output interface of the power distributor through power lines and plugs, and finally connecting the output end of the storage battery with the input interface of the power distributor, thus the power switch can be pressed down for construction measurement.

Claims (4)

1. The arrangement and use method of the underground engineering construction measurement lighting device is characterized in that: the method comprises the steps of adopting a special lighting device, wherein the lighting device comprises a power supply unit, a main lighting unit and three auxiliary lighting units; the power supply unit consists of a battery box, a storage battery and a power supply distributor, wherein the storage battery and the power supply distributor are arranged in the battery box; the power supply distributor consists of an input interface and three output interfaces, the input interface is connected with the storage battery through a power switch, the first output interface is connected with the power supply input interfaces of the main lighting unit and the first auxiliary lighting unit, and the second output interface and the third output interface are respectively correspondingly connected with the power supply input ends of the second auxiliary lighting unit and the third auxiliary lighting unit; the main lighting unit consists of a main lighting lamp holder arranged at one end of the universal bending lamp neck and a first auxiliary lighting unit at the other end of the universal bending lamp neck; the first auxiliary lighting unit, the second auxiliary lighting unit and the third auxiliary lighting unit have the same structure and are respectively composed of a lamp shell provided with a plug-in groove, a lamp bead arranged on the wall of the lamp shell and a power input interface;

the use steps are as follows:

s1, during construction and measurement, erecting the prism group at the position of the measurement point location, and after finishing the accurate centering and the accurate leveling of the prism group to the point location, respectively inserting and fixing the inserting grooves of the first, the second and the third auxiliary lighting units with the top edge, the left edge and the right edge of the cutting board of the prism group; lamp beads of the first, second and third auxiliary lighting units respectively face the triangular marks on the top side, the left side and the right side of the prism group chopping board to provide lighting for the triangular marks;

s2, adjusting the universal bending lamp neck to enable the main lighting lamp head to be located at a position where the sight of the total station and the prism group is not obstructed, and enabling the main lighting lamp head to face the center of the prism to provide lighting for the prism;

and S3, hanging the battery box on the top edge of the prism group chopping block, correspondingly connecting the input interfaces of the main lighting unit and the three auxiliary lighting units with the output interface of the power distributor through power lines and plugs, and finally connecting the output end of the storage battery with the input interface of the power distributor, so that the power switch can be pressed down for construction measurement.

2. The arrangement and use method of the underground engineering construction measurement lighting device according to claim 1, wherein: the input interface, the first output interface, the second output interface, the third output interface and the power input interfaces of the main lighting unit, the first auxiliary lighting unit, the second auxiliary lighting unit and the third auxiliary lighting unit on the power distributor are all hole type two-core jacks.

3. The arrangement and use method of the underground engineering construction measurement lighting device according to claim 1, wherein: the battery case with power distributor passes through the screw connection as an organic whole, and the battery case lateral wall is equipped with the couple that is used for being connected with prism group chopping block.

4. The arrangement and use method of the underground engineering construction measurement lighting device according to claim 1, wherein: the storage battery is a 12-volt rechargeable storage battery, and the lamp beads of the main lighting lamp holder and the auxiliary lighting unit are 12-volt LED lamp beads.