CN116182111A

CN116182111A - High-power lighting miner lamp for mine and installation and use method thereof

Info

Publication number: CN116182111A
Application number: CN202310045942.0A
Authority: CN
Inventors: 王要善; 张�杰; 隋学军; 张伟东; 范允鑫
Original assignee: Shandong Gold Group Penglai Mining Industry Co ltd
Current assignee: Shandong Gold Group Penglai Mining Industry Co ltd
Priority date: 2023-01-30
Filing date: 2023-01-30
Publication date: 2023-05-30

Abstract

The invention discloses a mine high-power lighting miner lamp and an installation and use method thereof, belonging to the field of mine lighting equipment, and comprising a miner lamp body; a protective cover; the plurality of groups of fixing components are fixedly arranged on the mounting plate and penetrated by the protective cover; the two ends of the mounting plate are fixedly provided with side lugs; and the pressing component is detachably arranged on the bottom surface of the miner lamp body. According to the mine high-power lighting miner lamp and the mounting and using method thereof, the first pressing piece is pressed by the transverse plate piece through the pressing component, so that the first pressing piece positions the mounting plate from the direction vertical to the upper end face of the mounting plate, the stabilizing rod moves to the direction vertical to the right end face of the mounting plate to be attached to the right end face of the mounting plate so as to fix the position of the mounting plate, the mounting plate is relatively fast and stable when being assembled with the mounting plate through the pressing component, and meanwhile, the mounting plate can be prevented from being detached from the pre-mounting surface for multiple times.

Description

High-power lighting miner lamp for mine and installation and use method thereof

Technical Field

The invention belongs to the field of mine lighting equipment, and particularly relates to a mine high-power lighting miner lamp and an installation and use method thereof.

Background

The miner's lamp is a short name of mine lamp or industrial and mining lamp, and the purpose-made lighting lamp used in the mine is generally called. The miner's lamp developed and sold by the open electric appliance is suitable for places with gas coal dust explosion danger under mine; the tunnel of the well bottom mining area can also be used in the tunnel and the chamber of the foundation mine with larger water spray. The main application is as follows: the lighting device is used for safety lighting, emergency rescue and disaster relief lighting in environments with inflammable and explosive combustible gases, such as mines, petroleum, chemical industry, railways, transportation, storage and the like.

In the prior art, when the mine lamp is installed in a shaft bottom mining area roadway, a pre-installation plate at the bottom of a lamp holder of the mine lamp is generally attached to an installation plane on the shaft bottom mining area roadway, and then a plurality of screws are used for positioning and installing, when the mine lamp is detached, replaced and maintained, the screws are required to be detached for replacement, but the structure of the pre-installation plate at the bottom of the mine lamp holder and the screws on the shaft bottom mining area roadway is limited, when the mine lamp is detached, a user needs to detach the screws to detach the mine lamp, and when the mine lamp is reinstalled after detachment, the pre-installation plate at the bottom of the mine lamp holder is attached to the installation plane of the shaft bottom mining area roadway again, so that the convenience in use is not realized, and later disassembly, maintenance and replacement of the mine lamp are required to be improved.

Disclosure of Invention

Aiming at one or more of the defects or improvement demands of the prior art, the invention provides a mine high-power lighting miner lamp and an installation and use method thereof, and the mine high-power lighting miner lamp has the advantage of being convenient for quick disassembly and assembly of the miner lamp.

The invention provides a mine high-power lighting miner lamp and a mounting and using method thereof, wherein the miner lamp comprises a miner lamp body, a lamp holder, a lamp tube, a plug, an LED lamp panel, a glass lampshade, a mounting plate and a plurality of positioning holes, wherein the lamp tube is connected to the lamp holder;

the protective cover is inserted into the plurality of positioning holes;

the fixing pieces are fixedly arranged on the mounting plate and penetrated by the protective cover, and are used for reinforcing the position of the protective cover in the positioning hole;

the mounting plate is fixedly provided with side lugs at two ends; and

the pressing component is detachably arranged on the bottom surface of the miner lamp body and is provided with a bearing piece, a first pressing piece, an operating piece and a second pressing piece, the bearing piece is provided with a bonding plate, a vertical plate connected to the bonding plate and a transverse plate piece arranged on the vertical plate in a rotating mode, the first pressing piece is inserted into the transverse plate piece in a penetrating mode, the first pressing piece is used for positioning the position of the mounting plate in the direction perpendicular to the upper end face of the mounting plate, the operating piece is provided with a positioning screw rod inserted into the transverse plate piece in a sliding mode, the upper end of the positioning screw rod is connected with a pressing ring in a threaded mode, the second pressing piece is provided with a base fixed on the bottom surface of the miner lamp body, the base is provided with a vertical rod in a penetrating mode along the direction perpendicular to the upper end face of the base, the upper end face of the vertical rod is provided with a rod cavity through which the positioning screw rod penetrates, the base is provided with a stabilizing rod in a sliding mode along the direction perpendicular to the left end face of the base, and the outer circle is provided with a first notch through which the stabilizing rod penetrates;

when the compression ring moves towards the direction of the joint transverse plate and the positioning screw rod is inserted into the rod cavity, the transverse plate extrudes the first pressing piece to enable the first pressing piece to position the mounting plate from the direction perpendicular to the upper end face of the mounting plate, and meanwhile the stabilizing rod moves towards the direction perpendicular to the right end face of the mounting plate to joint the right end face of the mounting plate so as to fix the position of the mounting plate.

As a further improvement of the invention, the fixing piece is provided with a bottom plate fixedly arranged on the mounting plate, the upper end face of the bottom plate is provided with an insertion hole through which the protective cover passes, the front end face of the bottom plate is provided with a screw in a threaded manner, one end of the screw, which is far away from the bottom plate, is fixedly provided with a hand wheel, the upper end face of the bottom plate is fixedly provided with two groups of lug plates, each group of lug plates is respectively positioned at two ends of the insertion hole, each group of lug plates is composed of two lug plates, a deflector rod is arranged between the two lug plates, a semicircular ring is rotatably inserted between the two lug plates, the semicircular ring passes through the deflector rod, the upper end face of the deflector rod is fixedly provided with a semicircular ring, and the inner circumferential surface of the semicircular ring is internally provided with a magnetic sheet.

As a further improvement of the invention, the upper end surface of the bottom plate is also fixedly provided with two groups of first positioning columns, each group of first positioning columns is respectively positioned at two ends of the jack, the side surface of the deflector rod is also fixedly provided with a second positioning column, and a column cavity with the size matched with that of the first positioning column is arranged in the second positioning column.

As a further improvement of the invention, the transverse plate member is provided with a first transverse plate, a first transverse plate inclined section and a second transverse plate, one end of the first transverse plate inclined section is connected with the first transverse plate, the other end of the first transverse plate inclined section is connected with the second transverse plate, the second transverse plate is parallel to the first transverse plate, the second transverse plate is positioned below the first transverse plate, one end of the first transverse plate is provided with a notch matched with the vertical plate in size, the first transverse plate is penetrated by the first pressing member, and the second transverse plate is penetrated by the positioning screw rod.

As a further improvement of the invention, the first pressing piece is provided with a sliding rod penetrating through the first transverse plate, one end of the sliding rod penetrating through the first transverse plate is fixedly provided with a pressing plate, both ends of the pressing plate are fixedly provided with pressing plate inclined sections, the area clamped by the pressing plate inclined sections and the pressing plate is horn-shaped, the sliding rod is also sleeved with a first spring, the first spring is positioned between the pressing plate and the first transverse plate, one end of the sliding rod, far away from the pressing plate, is fixedly provided with a sealing plate, and the sealing plate is used for preventing the sliding rod from falling off from the first transverse plate.

As a further improvement of the invention, the upper end surface of the pressing ring is in an opening shape, a plurality of annular protrusions are fixedly arranged on the outer circumferential surface of the pressing ring, the size of the pressing ring is matched with the size of the positioning screw rod, and the cross section area of the positioning screw rod is smaller than that of the rod cavity.

As a further improvement of the invention, a trapezoidal pressing plate is fixedly arranged at one end of the stabilizing rod, which is close to the mounting plate, and pressing blocks are fixedly arranged at the tail ends of the two inclined sections of the trapezoidal pressing plate.

As a further improvement of the invention, the cross-sectional area of the first opening is a right trapezoid, the cross-sectional area of the tail end of the stabilizing rod inserted into the base is also a right trapezoid, and the cross-sectional area of the tail end of the stabilizing rod inserted into the base is smaller than the cross-sectional area of the first opening, wherein when the upright rod moves downwards along the direction perpendicular to the base, the hypotenuse of the right trapezoid cross-section of the tail end of the stabilizing rod is attached to the hypotenuse of the right trapezoid cross-section of the first opening, and when the two right-angle sides of the right trapezoid cross-section of the tail end of the stabilizing rod are attached to the two right-angle sides of the right trapezoid cross-section of the first opening, the stabilizing rod is positioned in the first opening.

As a further improvement of the invention, a second notch is further formed at the tail end of the stabilizing rod inserted into the base, the cross section area of the second notch is rectangular, a supporting rod is fixedly arranged in the base and inserted into the second notch, the supporting rod is used for preventing the stabilizing rod from falling off from the base, a rebound piece is fixedly arranged in the second notch, the rebound piece is provided with a rebound seat fixed in the second notch, the rebound seat is hollow, a first seat plate and a second seat plate are fixedly and slidingly arranged in the rebound seat, the first seat plate and the second seat plate are respectively attached to the inner wall of the rebound seat, a second spring is further arranged between the first seat plate and the second seat plate, a pressing rod is fixedly arranged on one side surface of the second seat plate, which is far away from the second spring, and the pressing rod penetrates out of the rebound seat.

The invention provides a mounting and using method of a mine high-power lighting miner lamp, which comprises the following steps:

s1, attaching the side lugs to an installation plane on a shaft bottom mining area roadway and fixing the side lugs to the installation plane by using screws;

s2, taking the whole miner lamp body onto the mounting plate, holding the ring to convexly pull the positioning screw rod, enabling the positioning screw rod to be separated from the rod cavity, rotating the compression ring anticlockwise in the direction away from the rod cavity, enabling the transverse plate to rotate around the vertical plate, inserting the compression member into the mounting plate, and enabling one side surface of the mounting plate to be attached to the side surface of the vertical plate;

s3, holding the ring boss to rotate the pressing ring clockwise, so that the pressing ring rotates clockwise along the positioning screw rod, when the pressing ring is attached to the upper end face of the second transverse plate, continuing to rotate the pressing ring, enabling the pressing ring to press the second transverse plate to move downwards, enabling the positioning screw rod to be inserted into the rod cavity, enabling the vertical rod to move downwards, enabling the inclined edge of the right trapezoid cross section of the tail end of the stabilizing rod to be attached to the inclined edge of the right trapezoid cross section of the first opening, enabling the pressing rod to press on the supporting rod when two right-angle edges of the right trapezoid cross section of the tail end of the stabilizing rod are attached to two right-angle edges of the right trapezoid cross section of the first opening, enabling the stabilizing rod to be positioned in the first opening, enabling the pressing block on the trapezoid pressing plate to be pressed to the right end face of the mounting plate to be fixed in the horizontal direction, enabling the first transverse plate to press the first spring to enable the pressing plate inclined section on the pressing plate to move towards the direction close to the upper end face of the mounting plate to enable the pressing plate inclined section to be pressed to the upper end face of the mounting plate to be fixed in the vertical direction;

s4, inserting the protective cover into the positioning hole, clockwise rotating the hand wheel to enable the screw rod to be attached to the protective cover, and simultaneously poking the poking rods at two ends of the jack, so that the two semicircular rings are attached and fixed to the protective cover.

In general, the above technical solutions conceived by the present invention have the beneficial effects compared with the prior art including:

according to the mine high-power lighting mine lamp and the mounting and using method thereof, the mounting plate is firstly mounted on the pre-mounting surface through the arranged pressing component, the pressing component is inserted into the mounting plate, the pressing ring is rotated clockwise to move in the direction of the joint transverse plate, the positioning screw is inserted into the rod cavity, the transverse plate extrudes the first pressing component to enable the first pressing component to position the mounting plate from the direction vertical to the upper end surface of the mounting plate, meanwhile, the stabilizing rod moves towards the direction vertical to the right end surface of the mounting plate to attach to the right end surface of the mounting plate so as to fix the position of the mounting plate, the mounting plate can be fast and stable when the pressing component is used for assembly with the mounting plate, the mounting plate can be prevented from being detached from the pre-mounting surface for a plurality of times, the mine lamp body on the pressing component is convenient to replace and maintain, the mine lamp body is high in practicality, the mine lamp can be removed by a plurality of screws when the mine lamp is removed, the mine lamp is required to be detached again, the pre-mounting plate at the bottom of the mine lamp is required to be attached to the bottom of the shaft when the mine lamp is detached, and the mine lamp is not convenient for the user to detach and maintain the mine lamp.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a mine high-power lighting miner's lamp;

FIG. 2 is a schematic view of the structure of the high power lighting miner's lamp of the invention as seen from the bottom;

FIG. 3 is an exploded view of the high power lighting miner's lamp of the mine of the invention;

FIG. 4 is a schematic view of the structure of the mounting plate of the present invention;

FIG. 5 is a schematic view of the structure of the mounting plate and pressing member of the present invention when combined;

FIG. 6 is a schematic structural view of the pressing member of the present invention;

FIG. 7 is a schematic view of the press-fit member of the present invention from another left side angle;

FIG. 8 is a partial cross-sectional view of a compression member of the present invention;

FIG. 9 is an enlarged view of the invention at A of FIG. 8;

fig. 10 is a schematic structural view of the fixing member of the present invention.

Like reference numerals denote like technical features throughout the drawings, in particular:

1. a miner's lamp body; 11. a lamp tube; 12. a plug; 13. a lamp holder; 14. an LED lamp panel; 15. a glass lampshade; 16. a mounting plate; 17. positioning holes;

2. a protective cover;

3. a fixing member; 31. a bottom plate; 311. a jack; 312. a screw; 313. a hand wheel; 314. a first positioning column; 32. ear plates; 33. a deflector rod; 331. a second positioning column; 332. a column cavity; 34. a semicircular ring; 35. a magnetic sheet;

4. a mounting plate; 41. a lateral ear;

5. a pressing member;

51. a carrier; 511. bonding plates; 512. a vertical plate; 513. a cross plate member; 5131. a notch; 5132. a first cross plate; 5133. a first cross plate diagonal segment; 5134. a second cross plate;

52. a first pressing member; 521. a slide bar; 522. a pressing plate; 523. a platen tilt section; 524. a sealing plate; 525. a first spring;

53. an operating member; 531. a compression ring; 532. a ring bulge; 533. positioning a screw;

54. a second pressing member; 541. a base; 5411. a support rod; 542. a vertical rod; 5421. a rod cavity; 5422. a first opening; 543. a stabilizing rod; 5431. a second opening; 5432. a rebound member; 54321. a rebound seat; 54322. a first seat plate; 54323. a second spring; 54324. a second seat plate; 54325. a pressing rod;

55. a trapezoidal pressure plate; 56. and (5) briquetting.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

In the embodiment, as shown in fig. 1-10, a mine high-power lighting miner lamp comprises a miner lamp body 1, wherein the miner lamp body 1 is provided with a lamp holder 13, a lamp tube 11 connected to the lamp holder 13, a plug 12 connected to the lamp tube 11, an LED lamp panel 14 arranged on the lamp holder 13, a glass lampshade 15 sleeved on the LED lamp panel 14, a mounting plate 16 covered on the lamp holder 13 and penetrated by the glass lampshade 15, and a plurality of positioning holes 17 arranged on the mounting plate 16; firstly, it should be noted that the lamp tube 11, the plug 12, the lamp holder 13, the LED lamp panel 14 and the glass lampshade 15 are all components in the prior art, the LED lamp panel 14 can adopt LED big lamp beads to achieve the use effect of high-power strong light, when the plug 12 is communicated with a power supply, the LED lamp panel 14 can be opened, the protective cover 2 is used for protecting the LED lamp panel 14 and the glass lampshade 15 from being damaged by sundries occurring in a mine, and the protective cover 2 is inserted into the positioning holes 17; the plurality of groups of fixing pieces 3, the plurality of groups of fixing pieces 3 are fixedly arranged on the mounting plate 16 and penetrated by the protective cover 2, it is to be noted that the protective cover 2 is provided with a plurality of antenna sections matched with the positioning holes 17, in the embodiment, the protective cover 2 is inserted into the positioning holes 17, namely, the antenna sections of the protective cover 2 are inserted into the positioning holes 17, and the fixing pieces 3 are used for reinforcing the positions of the protective cover 2 in the positioning holes 17; the mounting plate 4, both ends of the mounting plate 4 are fixedly provided with the side ears 41, in this embodiment, it is required to be specific that the side ears 41 are vertical to the vertical section of the mounting plate 4, and interference does not occur when the pressing member 5 passes through the horizontal section of the mounting plate 4; the pressing component 5 is detachably arranged on the bottom surface of the miner lamp body 1, and it is to be noted that the pressing component 5 is detachably arranged on the bottom surface of the miner lamp body 1 so as to be convenient for multiple use when the whole miner lamp body 1 is replaced at the later stage, the pressing component 5 is provided with a bearing piece 51, a first pressing piece 52, an operating piece 53 and a second pressing piece 54, the bearing piece 51 is provided with an attaching plate 511, a vertical plate 512 connected to the attaching plate 511 and a transverse plate 513 rotationally arranged on the vertical plate 512, the first pressing piece 52 is inserted in the transverse plate 513 in a penetrating manner, the first pressing piece 52 is used for positioning the position of the mounting plate 4 from the direction perpendicular to the upper end surface of the mounting plate 4, the operating piece 53 is provided with a positioning screw 533 which is inserted in the transverse plate 513 in a sliding manner, the upper end of the positioning screw 533 is in threaded manner with a 531, the second pressing piece 54 is provided with a base 541 fixed on the bottom surface of the miner lamp body 1, the base 541 is inserted with a vertical rod 542 along the direction perpendicular to the upper end surface thereof, the upper end surface of the vertical rod 542 is provided with a cavity 533 for the positioning screw to penetrate through the transverse plate 513, the first fastening rod 543 is provided with a firm opening 543 which penetrates through the left end surface 541 along the direction perpendicular to the upper end surface of the base 541; when the compression ring 531 moves in a direction of fitting the cross plate member 513 and the positioning screw 533 is inserted into the rod cavity 5421, the cross plate member 513 presses the first pressing member 52 to position the mounting plate 4 from a direction perpendicular to the upper end surface of the mounting plate 4, and the stabilizing rod 543 moves in a direction perpendicular to the right end surface of the mounting plate 4 to fit the right end surface of the mounting plate 4 to fix the position of the mounting plate 4.

When the mine lamp body 1 is integrally installed in the embodiment, the side lugs 41 are attached to the installation plane on the shaft bottom mining area roadway and the side lugs 41 are fixed to the installation plane by using screws, and the supplementary explanation is that the installation plane on the shaft bottom mining area roadway can be any horizontal plane of the mining area roadway, so long as the side lugs 41 can be attached to the plane; the miner lamp body 1 is integrally taken onto the mounting plate 4, the positioning screw 533 is lifted, the positioning screw 533 is separated from the rod cavity 5421, the compression ring 531 is rotated anticlockwise in the direction away from the rod cavity 5421, the transverse plate 513 is rotated around the vertical plate 512, then the pressing member 5 is inserted into the mounting plate 4, and one side surface of the mounting plate 4 is attached to the side surface of the vertical plate 512; holding the ring boss 532 rotates the pressing ring 531 clockwise, so that the pressing ring 531 rotates clockwise along the positioning screw 533, when the pressing ring 531 is attached to the upper end surface of the second diaphragm 5134, the pressing ring 531 continues to rotate, the pressing ring 531 presses the second diaphragm 5134 to move downward, the positioning screw 533 is inserted into the rod cavity 5421, the vertical rod 542 moves downward, the diaphragm member 513 presses the first pressing member 52 to position the upper end surface of the mounting plate 4 from the direction perpendicular to the upper end surface of the mounting plate 4, and the stabilizing rod 543 moves to attach to the mounting plate 4 in the direction perpendicular to the right end surface of the mounting plate 4 to fix the position of the right end surface of the mounting plate 4.

In some embodiments, in order to make the cross plate 513 capable of extruding the cross plate 513, on one hand, the first pressing member 52 is capable of integrally pressing the upper end face of the mounting plate 4, and simultaneously, the stabilizing rod 543 is capable of pressing the right end face of the mounting plate 4, the cross plate 513 has a first cross plate 5132, a first cross plate inclined section 5133 and a second cross plate 5134, one end of the first cross plate inclined section 5133 is connected with the first cross plate 5132, the other end of the first cross plate inclined section 5133 is connected with the second cross plate 5134, the second cross plate 5134 is parallel to the first cross plate 5132, the second cross plate 5134 is located below the first cross plate 5132, one end of the first cross plate 5132 is provided with a notch 5131 matched with the upright plate 512, the first cross plate 5132 is penetrated by the first pressing member 52, the second cross plate 5134 is penetrated by the positioning screw 533, the cross plate 513 is further required to be repeatedly processed, the second cross plate 5134 is not longer than the first cross plate 5132, and the second cross plate 5134 can be rotated to be three times the length of the first cross plate 5132.

In some embodiments, in order to make the pressing effect of the first pressing member 52 on the upper end surface of the mounting plate 4 better, the first pressing member 52 has a sliding rod 521 passing through the first transverse plate 5132, one end of the sliding rod 521 passing through the first transverse plate 5132 is fixedly provided with a pressing plate 522, both ends of the pressing plate 522 are fixedly provided with pressing plate inclined sections 523, an area sandwiched by the pressing plate inclined sections 523 and the pressing plate 522 is in a horn shape, that is, the tail ends of the two pressing plate inclined sections 523 are in contact with the upper end surface of the mounting plate 4 for pressing and fixing, a first spring 525 is further sleeved on the sliding rod 521, the first spring 525 is located between the pressing plate 522 and the first transverse plate 5132, one end of the sliding rod 521, away from the pressing plate 522, is fixedly provided with sealing plates 524, 524 for preventing the sliding rod 521 from falling off from the first transverse plate 5132, when the pressing contact of the first spring 525 is released, the first transverse plate 5132 is pushed upwards due to the action of each other, so that the first transverse plate 5132 can be reset quickly.

In some embodiments, in order to enable the pressure ring 531 to move on the positioning screw 533 and enable the pressure ring 531 to completely penetrate into the positioning screw 533, the upper end surface of the pressure ring 531 is in an opening shape, a plurality of annular protrusions 532 are fixedly arranged on the outer circumferential surface of the pressure ring 531, a user can conveniently use the pressure ring 531 through the arranged annular protrusions 532, the size of the pressure ring 531 is matched with the size of the positioning screw 533, and the cross-sectional area of the positioning screw 533 is smaller than that of the rod cavity 5421.

In some embodiments, in order to make the effect that the stabilizing rod 543 presses the right end face of the fixed mounting plate 4 better, one end of the stabilizing rod 543, which is close to the mounting plate 4, is further fixedly provided with a trapezoidal pressing plate 55, the tail ends of two inclined sections of the trapezoidal pressing plate 55 are fixedly provided with pressing blocks 56, and the pressing effect of the pressing blocks 56 between the pressing blocks and the mounting plate 4 can be improved again through the pressing blocks 56.

In some embodiments, the cross-sectional area of the first opening 5422 is a right trapezoid, the cross-sectional area of the tail end of the stabilizing rod 543 inserted into the base 541 is also a right trapezoid, the cross-sectional area of the tail end of the stabilizing rod 543 inserted into the base 541 is smaller than the cross-sectional area of the first opening 5422, wherein when the upright rod 542 moves downward along the direction perpendicular to the base 541, the hypotenuse of the right trapezoid cross-section of the tail end of the stabilizing rod 543 is attached to the hypotenuse of the right trapezoid cross-section of the first opening 5422, and when the two right-angle sides of the right trapezoid cross-section of the tail end of the stabilizing rod 543 are attached to the two right-angle sides of the right trapezoid cross-section of the first opening 5422, the stabilizing rod 543 is positioned in the first opening 5422.

In a specific embodiment, the stabilizing rod 543 is illustrated as a rod, and the oblique side of the cross section of the tail end of the stabilizing rod 543 is an oblique plane in a three-dimensional state, and similarly, the oblique side of the cross section of the first opening 5422 is an oblique plane in a three-dimensional state.

In some embodiments, in order to prevent the stabilizing rod 543 from being separated from the base 541, and enable the stabilizing rod 543 to quickly reset when the limit of two right-angle sides of the stabilizing rod 543 separated from the first opening 5422 is separated from the first opening 5422, a second opening 5431 is further formed at the tail end of the stabilizing rod 543 inserted into the base 541, the cross-sectional area of the second opening 5431 is rectangular, a supporting rod 5411 is further fixedly disposed inside the base 541, the supporting rod 5411 is inserted into the second opening 5431, the supporting rod 5411 is used for preventing the stabilizing rod 543 from falling off from the base 541, a rebound member 5432 is fixedly disposed inside the second opening 5431, the rebound member 5432 has a rebound seat 54321 fixed inside the second opening 5431, the rebound seat 54321 is hollow, the inside of the rebound seat 54321 is fixedly slidably provided with a first seat plate 54322 and a second seat plate 54324, the first seat board 54322 and the second seat board 54324 are both attached to the inner wall of the rebound seat 54321, a second spring 54323 is further disposed between the first seat board 54322 and the second seat board 54324, a side surface of the second seat board 54324 away from the second spring 54323 is fixedly provided with a pressing rod 54325, the pressing rod 54325 penetrates out of the rebound seat 54321, in some embodiments, the support rod 5411 is illustrated by a rod shape, the support rod 5411 is provided, so that the fixing rod 543 can not fall off from the base 541 when passing through the limitation of the support rod 5411, when the fixing rod 543 is separated from the limitation of the two right-angle edges of the first notch 5422, due to the compression of the second spring 54323, when losing the limitation, the fixing rod 543 is quickly released, so that the rebound piece 5432 is forced to drive the fixing rod 543 to rebound integrally, thereby being convenient for quick reset.

The other technical problem to be solved by the invention is that, in order to facilitate the assembly of the protective cover 2 with the mounting plate 16, and enable the protective cover 2 to be fixed in the positioning hole 17 relatively stably, the fixing piece 3 is provided with a bottom plate 31 fixed on the mounting plate 16, the upper end surface of the bottom plate 31 is provided with an insertion hole 311 for the protective cover 2 to pass through, the front end surface of the bottom plate 31 is inserted with a screw 312 in a threaded manner, one end of the screw 312 far away from the bottom plate 31 is fixedly provided with a hand wheel 313, the upper end surface of the bottom plate 31 is fixedly provided with two groups of lugs 32, each group of lugs 32 is respectively positioned at two ends of the insertion hole 311, each group of lugs 32 is composed of two lugs, a deflector 33 is arranged between the two lugs 32, a semicircle 34 is inserted between the two lugs 32 in a rotating manner, the semicircle 34 passes through the deflector 33, the upper end surface of the semicircle 34 is fixedly provided with a semicircle 34, and the inner circumference of the semicircle 34 is embedded with a magnetic sheet 35.

In a specific embodiment, the number of the fixing parts 3 is two, when the fixing parts 3 are used, the protective cover 2 is inserted into the positioning hole 17, the hand wheel 313 is rotated clockwise to enable the screw 312 to be attached to the protective cover 2, and meanwhile the deflector rods 33 at two ends of the insertion holes 311 are poked, so that the two semicircular rings 34 are attached to and fixed on the protective cover 2, and the integral reinforcement of the protective cover 2 is completed.

In some embodiments, in order to facilitate quick retraction of the shifter lever 33, two sets of first positioning columns 314 are fixedly disposed on the upper end surface of the bottom plate 31, each set of first positioning columns 314 is respectively located at two ends of the jack 311, a second positioning column 331 is fixedly disposed on a lateral surface of the shifter lever 33, and a column cavity 332 with a size matching that of the first positioning column 314 is formed in the second positioning column 331, and when the shifter lever 33 is retracted, the shifter lever 33 is rotated, so that the first positioning columns 314 are inserted into the column cavity 332, and retraction of the shifter lever 33 can be completed.

The invention provides a mounting and using method of the mine high-power lighting miner lamp, which comprises the following steps,

s1, attaching the side lugs 41 to a mounting plane on a shaft bottom mining area roadway and fixing the side lugs 41 to the mounting plane by using screws;

s2, taking the whole miner lamp body 1 onto the mounting plate 4, holding the ring boss 532, lifting the positioning screw 533, separating the positioning screw 533 from the rod cavity 5421, rotating the compression ring 531 anticlockwise in a direction away from the rod cavity 5421, rotating the transverse plate 513 around the vertical plate 512, inserting the pressing member 5 into the mounting plate 4, and attaching one side surface of the mounting plate 4 to the side surface of the vertical plate 512;

s3, holding the ring boss 532 to rotate the pressing ring 531 clockwise, so that the pressing ring 531 rotates clockwise along the positioning screw 533, when the pressing ring 531 is attached to the upper end face of the second cross plate 5134, continuing to rotate the pressing ring 531, the pressing ring 531 presses the second cross plate 5134 to move downwards, the positioning screw 533 is inserted into the rod cavity 5421, the upright rod 542 moves downwards, the inclined edge of the right trapezoid cross section of the tail end of the stabilizing rod 543 is attached to the inclined edge of the right trapezoid cross section of the first opening 5422, when the two right-angle edges of the right trapezoid cross section of the tail end of the stabilizing rod 543 are attached to the two right-angle edges of the right trapezoid cross section of the first opening 5422, the pressing rod 54325 presses on the supporting rod 5411, the stabilizing rod 543 is positioned in the first opening 5422, meanwhile, the stabilizing rod 543 moves towards the direction close to the right end face of the mounting plate 4, the pressing block 56 on the trapezoidal pressing plate 55 presses to the position of the mounting plate 4 in the horizontal direction, the first cross plate 5132 presses the first spring, the pressing plate 522 moves towards the inclined end face of the upper end face of the pressing plate 523 close to the mounting plate 4, and the inclined end face of the pressing plate 523 moves towards the inclined end face of the mounting plate 4, and the inclined end face of the mounting plate 523 moves towards the position of the upper end face of the mounting plate 523 is fixed to the position of the upper plate 523;

s4, inserting the protective cover 2 into the positioning hole 17, rotating the hand wheel 313 clockwise to enable the screw 312 to be attached to the protective cover 2, and simultaneously poking the poking rods 33 positioned at two ends of the jack 311 to enable the two semicircular rings 34 to be attached to and fixed on the protective cover 2.

In summary, through the pressfitting component 5 that sets up, install mounting panel 4 to the pre-installation face earlier, insert pressfitting component 5 to mounting panel 4 in, clockwise rotation press ring 531 moves to laminating the direction of cross plate 513 and makes locating screw 533 insert pole chamber 5421, cross plate 513 extrudees first pressfitting 52 in order to make first pressfitting 52 follow the position of mounting panel 4 in the direction of perpendicular to mounting panel 4 up end, simultaneously firm pole 543 moves the right-hand member face of laminating mounting panel 4 in order to fix the position of mounting panel 4 towards the direction of perpendicular to mounting panel 4 right-hand member face, can make the user comparatively swiftly and stable when using pressfitting component 5 to assemble with mounting panel 4, simultaneously can avoid mounting panel 4 to dismantle from the pre-installation face a plurality of times again, comparatively convenient and the practicality is higher when carrying out the change maintenance to miner's lamp body 1 on pressfitting component 5, it need remove to dismantle a plurality of screw to take down the miner's lamp, still need again to laminate the mounting panel of lamp bottom the pre-installation face to install the screw to the bottom of the lamp again when demolish and take down the miner's lamp to take down the problem of the mine lamp to the roadway and take down the time of the installation face of the roadway to be convenient for the maintenance.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A mine high-power lighting miner's lamp is characterized by comprising

The miner lamp comprises a miner lamp body (1), wherein the miner lamp body (1) is provided with a lamp holder (13), a lamp tube (11) connected to the lamp holder (13), a plug (12) connected to the inside of the lamp tube (11), an LED lamp panel (14) arranged on the lamp holder (13), a glass lampshade (15) sleeved on the LED lamp panel (14), a mounting disc (16) which is covered on the lamp holder (13) and penetrated by the glass lampshade (15) and a plurality of positioning holes (17) arranged on the mounting disc (16);

the protective cover (2) is inserted into the plurality of positioning holes (17);

the plurality of groups of fixing pieces (3), the plurality of groups of fixing pieces (3) are fixedly arranged on the mounting plate (16) and penetrated by the protective cover (2), and the fixing pieces (3) are used for reinforcing the position of the protective cover (2) in the positioning hole (17);

the mounting plate (4), both ends of the mounting plate (4) are fixedly provided with side lugs (41); and

the pressing component (5), the pressing component (5) is detachably arranged on the bottom surface of the miner lamp body (1), the pressing component (5) is provided with a bearing piece (51), a first pressing piece (52), an operation piece (53) and a second pressing piece (54), the bearing piece (51) is provided with a bonding plate (511), a vertical plate (512) connected to the bonding plate (511) and a transverse plate (513) rotatably arranged on the vertical plate (512), the first pressing piece (52) is inserted in the transverse plate (513) in a penetrating manner, the first pressing piece (52) is used for positioning the mounting plate (4) from a direction perpendicular to the upper end surface of the mounting plate (4), the operation piece (53) is provided with a positioning screw (533) which slides in the transverse plate (513), the upper end of the positioning screw (533) is in threaded connection with a pressing ring (531), the second pressing piece (54) is provided with a base (541) fixed on the bottom surface of the miner lamp body (1), the base (533) is provided with a vertical rod (542) which is inserted in the vertical direction perpendicular to the vertical rod (541), the vertical rod (542) is provided with a positioning screw (533) which slides in the vertical rod (542), the outer circumferential surface of the fixing rod (545) is provided with a first opening (5422) for the fixing rod (543) to pass through;

wherein, when clamping ring (531) to laminating transverse plate spare (513) direction motion and locating screw rod (533) inserts pole chamber (5421), transverse plate spare (513) extrusion first pressfitting piece (52) so that first pressfitting piece (52) follow perpendicular to mounting panel (4) up end's direction location mounting panel (4) position, simultaneously stabilizer bar (543) are towards perpendicular to mounting panel (4) right-hand member face direction motion laminating mounting panel (4) right-hand member face in order to fix mounting panel (4) position.

2. The mine high-power lighting miner lamp of claim 1, characterized in that the fixing piece (3) is provided with a bottom plate (31) fixedly arranged on the mounting plate (16), an insertion hole (311) through which the protective cover (2) passes is formed in the upper end face of the bottom plate (31), a screw (312) is inserted in the front end face of the bottom plate (31), a hand wheel (313) is fixedly arranged at one end, far away from the bottom plate (31), of the screw (312), two groups of lug plates (32) are fixedly arranged at the upper end face of the bottom plate (31), each group of lug plates (32) is respectively arranged at two ends of the insertion hole (311), each group of lug plates (32) is formed by two lug plates, a deflector rod (33) is arranged between the two lug plates (32), a semicircular ring (34) is rotatably inserted between the two lug plates (32), the semicircular ring (34) passes through the deflector rod (33), the upper end face of the deflector rod (33) is fixedly provided with a semicircular ring (34), and the inner circumferential surface (35) of the semicircular ring is embedded.

3. The mine high-power lighting miner lamp of claim 2, characterized in that the upper end face of the bottom plate (31) is further fixedly provided with two groups of first positioning columns (314), each group of first positioning columns (314) are respectively located at two ends of the jack (311), a second positioning column (331) is further fixedly arranged on the side face of the deflector rod (33), and a column cavity (332) with the size matched with that of the first positioning column (314) is formed in the second positioning column (331).

4. The mine high-power lighting lamp as set forth in claim 1 or 2, wherein the cross plate member (513) has a first cross plate (5132), a first cross plate inclined section (5133) and a second cross plate (5134), one end of the first cross plate inclined section (5133) is connected with the first cross plate (5132), the other end of the first cross plate inclined section (5133) is connected with the second cross plate (5134), the second cross plate (5134) is parallel to the first cross plate (5132), and the second cross plate (5134) is located below the first cross plate (5132), a notch (5131) matched with the vertical plate (512) in size is formed in one end of the first cross plate (5132), the first cross plate (5132) is penetrated by the first pressing member (52), and the second cross plate (5134) is penetrated by the positioning screw (533).

5. The mine high-power lighting miner lamp as set forth in claim 4, characterized in that the first pressing member (52) has a sliding rod (521) passing through the first transverse plate (5132), one end of the sliding rod (521) passing through the first transverse plate (5132) is fixedly provided with a pressing plate (522), two ends of the pressing plate (522) are fixedly provided with pressing plate inclined sections (523), an area clamped by the pressing plate inclined sections (523) and the pressing plate (522) is bell mouth-shaped, the sliding rod (521) is further sleeved with a first spring (525), the first spring (525) is located between the pressing plate (522) and the first transverse plate (5132), one end of the sliding rod (521) far away from the pressing plate (522) is further fixedly provided with a sealing plate (524), and the sealing plate (524) is used for preventing the sliding rod (521) from falling off from the first transverse plate (5132).

6. The mine high-power lighting miner lamp of claim 1, characterized in that the upper end face of the press ring (531) is in an opening shape, a plurality of annular protrusions (532) are fixedly arranged on the outer circumferential surface of the press ring (531), the size of the press ring (531) is matched with the size of the positioning screw (533), and the cross section area of the positioning screw (533) is smaller than the cross section area of the rod cavity (5421).

7. The mine high-power lighting miner lamp according to claim 1, characterized in that one end of the stabilizing rod (543) close to the mounting plate (4) is fixedly provided with a trapezoid pressing plate (55), and the tail ends of two inclined sections of the trapezoid pressing plate (55) are fixedly provided with pressing blocks (56).

8. The mine high power lighting lamp as set forth in claim 1, wherein the cross-sectional area of the first cutout (5422) is a right trapezoid, the cross-sectional area of the tail end of the stabilizing rod (543) inserted into the base (541) is also a right trapezoid, and the cross-sectional area of the tail end of the stabilizing rod (543) inserted into the base (541) is smaller than the cross-sectional area of the first cutout (5422), wherein when the upright (542) moves downward in a direction perpendicular to the base (541), the hypotenuse of the right trapezoid cross-section of the tail end of the stabilizing rod (543) is fitted to the hypotenuse of the right trapezoid cross-section of the first cutout (5422), and when the two right-angle sides of the right trapezoid cross-section of the tail end of the stabilizing rod (543) are fitted to the two right-angle sides of the right trapezoid cross-section of the first cutout (5422), the stabilizing rod (543) is positioned in the first cutout (5422).

9. The mine high-power lighting miner's lamp according to claim 1, characterized in that, a second opening (5431) has still been seted up to the tail end that firm pole (543) inserted base (541), just the cross-sectional area of second opening (5431) is rectangular form, the inside of base (541) is still fixed and is equipped with a bracing piece (5411), bracing piece (5411) inserts to in second opening (5431), bracing piece (5411) are used for preventing firm pole (543) drops from base (541), the interior still fixed of second opening (5431) is provided with rebound piece (5432), rebound piece (5432) have one and are fixed in rebound seat (54321) in second opening (5431), just rebound seat (54321) are inside hollow form, the inside fixed slip of rebound seat (54321) is provided with first bedplate (54322) and second bedplate (54324), first bedplate (54322) and second bedplate (62321) with rebound seat (5495) are provided with rebound piece (5448) in the second bedplate (54935) rebound piece (5448) and second bedplate (54935) are kept away from in the pressfitting (5495).

10. The method for installing and using the mine high-power illumination lamp according to any one of claims 1 to 9, characterized in that,

s1, attaching the side lugs (41) to an installation plane on a shaft bottom mining area roadway and fixing the side lugs (41) to the installation plane by using screws;

s2, integrally taking the miner lamp body (1) onto the mounting plate (4), holding the annular protrusion (532) to lift the positioning screw (533), enabling the positioning screw (533) to be separated from the rod cavity (5421), rotating the compression ring (531) anticlockwise in a direction away from the rod cavity (5421), enabling the transverse plate (513) to rotate around the vertical plate (512), then inserting the pressing component (5) into the mounting plate (4), and enabling one side surface of the mounting plate (4) to be attached to the side surface of the vertical plate (512);

s3, holding the ring boss (532) to rotate the pressing ring (531) clockwise, so that the pressing ring (531) rotates clockwise along the positioning screw rod (533), when the pressing ring (531) is attached to the upper end face of the second transverse plate (5134), continuing to rotate the pressing ring (531), the pressing ring (531) presses the second transverse plate (5134) to move downwards, meanwhile, the positioning screw rod (533) is inserted into the rod cavity (5421), the vertical rod (542) moves downwards, the hypotenuse of the right trapezoid cross section of the tail end of the stabilizing rod (543) is attached to the hypotenuse of the right trapezoid cross section of the first notch (5422), when two right-angle edges of the right trapezoid cross section of the tail end of the stabilizing rod (543) are attached to two right-angle edges of the right trapezoid cross section of the first notch (5422), the pressing rod (54325) is pressed on the supporting rod (5411), the stabilizing rod (543) is positioned in the first notch (5422), meanwhile, the stabilizing rod (543) moves towards the direction close to the right end face of the right trapezoid pressing plate (544) so that the pressing plate (55) moves towards the right end face of the first trapezoid (56) to press the right end face of the mounting plate (522), and the pressing plate (522) moves towards the right end face of the right trapezoid (56) of the first end of the first trapezoid (544), so that the pressing plate inclined section (523) is pressed to the upper end surface of the mounting plate (4) to fix the position of the mounting plate (4) in the vertical direction;

s4, inserting the protective cover (2) into the positioning hole (17), rotating the hand wheel (313) clockwise to enable the screw rod (312) to be attached to the protective cover (2), and simultaneously stirring the deflector rods (33) positioned at two ends of the jack (311) to enable the two semicircular rings (34) to be attached to and fixed on the protective cover (2).