阅读说明：本技术 一种用于电网现场作业指导的可穿戴设备 (Wearable device for power grid field operation guidance ) 是由 许锦江 于 2020-12-31 设计创作，主要内容包括：本发明公开了一种用于电网现场作业指导的可穿戴设备,其结构包括帽体、帽檐、固定板,固定板与帽体的表面嵌固连接,帽体与帽檐为一体化结构,通过收缩板反复伸缩产生的惯性力,能够使板面在弹力片的配合下反复的撞击撞击块的内壁,从而使收缩板上表面的金属屑能够被振落,有效的避免了火花掉落在帽体的顶部,长时间累积则会导致帽体的绝缘性逐渐下降的情况,通过工作人员佩戴帽体低头时,能够使滑动板沿着底置板向前滑动,且通过滑动板滑动到极致产生的振动,能够使撞击杆沿着套框向外滑动伸出,故而使受力板受到的振动能够将滑动板上表面的金属屑振落,有效的避免了收缩板不容易对上置板上表面的金属屑进行去除的情况。(The invention discloses wearable equipment for power grid field operation guidance, which structurally comprises a cap body, a brim and a fixed plate, wherein the fixed plate is fixedly connected with the surface of the cap body in an embedded manner, the cap body and the brim are of an integrated structure, the plate surface can repeatedly impact the inner wall of an impact block under the matching of an elastic sheet through the inertia force generated by repeated expansion and contraction of a contraction plate, so that metal scraps on the upper surface of the contraction plate can be vibrated down, the phenomenon that sparks fall on the top of the cap body and the insulativity of the cap body gradually decreases due to long-time accumulation is effectively avoided, when a worker wears the cap body to lower the head, a sliding plate can slide forwards along a bottom plate, and the impact rod can slide outwards along a sleeve frame through the vibration generated by the sliding plate, so that the metal scraps on the upper surface of the sliding plate can be vibrated down due to the vibration borne by the stress plate, the condition that the metal filing on the upper surface of the upper plate is not easy to remove by the contraction plate is effectively avoided.)

1. The utility model provides a wearable equipment for electric wire netting field operation is instructed, its structure includes cap body (1), brim of a hat (2), fixed plate (3) are connected with the surface of cap body (1) is embedded solid, its characterized in that: the cap body (1) and the cap peak (2) are of an integrated structure;

the helmet body (1) comprises an upper plate (11), a composite elastic sheet (12), a bottom plate (13) and a contraction plate (14), wherein the upper plate (11) is fixedly embedded on the upper surface of the contraction plate (14), and the composite elastic sheet (12) is arranged between the contraction plate (14) and the bottom plate (13).

2. The wearable device for grid field work guidance according to claim 1, wherein: the shrink plate (14) comprises a guide block (a1), a heat dissipation block (a2) and a connecting plate (a3), wherein the guide block (a1) is embedded in the inner position of the connecting plate (a3), and the heat dissipation block (a2) is of an integrated structure of the guide block (a 1).

3. The wearable device for grid field work guidance according to claim 2, wherein: the connecting plate (a3) comprises an elastic sheet (a31), a plate surface (a32) and an impact block (a33), wherein the plate surface (a32) is connected with the inner wall of the impact block (a33) through the elastic sheet (a 31).

4. The wearable device for grid field work guidance according to claim 3, wherein: the plate surface (a32) comprises a rear plate (b1), a fixed block (b2), an elastic sheet (b3) and a contraction frame (b4), the fixed block (b2) and the rear plate (b1) are of an integrated structure, and the contraction frame (b4) is movably clamped with the fixed block (b2) through the elastic sheet (b 3).

5. The wearable device for grid field work guidance according to claim 1, wherein: the upper plate (11) comprises a top plate (c1), a heat dissipation block (c2) and a bottoming plate (c3), the top plate (c1) and the bottoming plate (c3) are of an integrated structure, and the heat dissipation block (c2) is embedded in the inner side position of the top plate (c 1).

6. The wearable device for grid field work guidance according to claim 5, wherein: the top plate (c1) comprises a bottom plate (c11), a vibration mechanism (c12), a pull-back strip (c13) and a sliding plate (c14), wherein the bottom plate (c11) and the sliding plate (c14) are of an integrated structure, the vibration mechanism (c12) is embedded at the bottom position of the bottom plate (c11), the pull-back strip (c13) is installed between the inner wall of the bottom plate (c11) and the sliding plate (c14), and the sliding plate (c14) and the vibration mechanism (c12) are of an integrated structure.

7. The wearable device for grid field work guidance according to claim 6, wherein: the vibration mechanism (c12) comprises a striking rod (d1), a sleeve frame (d2), a frame (d3) and a stress plate (d4), wherein the striking rod (d1) is movably clamped with the sleeve frame (d2), the sleeve frame (d2) is embedded in the inner wall of the frame (d3), and the stress plate (d4) is embedded in the upper end of the frame (d 3).

Technical Field

The invention relates to the field of power grids, in particular to wearable equipment for power grid field operation guidance.

Background

The safety helmet for power grid field operation guidance is mainly used for protecting the head of a power grid field operation guidance worker, can resist objects falling from the air by wearing the safety helmet for power grid field operation guidance on the head and can play an insulating role, and based on the description, the inventor finds that the conventional wearable equipment for power grid field operation guidance mainly has the following defects, for example:

because the safety helmet for power grid field operation guidance is worn on the head, sparks generated by power grid field operation guidance personnel during welding of power grid wires easily fall on the top of the safety helmet, metal chips can be formed after cooling and solidification, and the insulation performance of the safety helmet is reduced due to long-time accumulation.

Disclosure of Invention

In order to solve the problems, the invention provides a wearable device for power grid field operation guidance.

In order to achieve the purpose, the invention is realized by the following technical scheme: a wearable device for power grid field operation guidance structurally comprises a cap body, a brim and a fixing plate, wherein the fixing plate is fixedly connected with the surface of the cap body in an embedded mode, and the cap body and the brim are of an integrated structure; the cap body comprises an upper plate, a complex elastic sheet, a bottom plate and a contraction plate, wherein the upper plate is fixedly embedded on the upper surface of the contraction plate, and the complex elastic sheet is arranged between the contraction plate and the bottom plate.

As a further optimization of the invention, the shrink plate comprises a guide block, a heat dissipation block and a connecting plate, the guide block is embedded and fixed in the inner position of the connecting plate, the heat dissipation block is of an integrated structure, and the guide block is made of aluminum with high heat dissipation performance.

As a further optimization of the invention, the connecting plate comprises elastic pieces, eight plate surfaces and impact blocks, wherein the plate surfaces are connected with the inner walls of the impact blocks through the elastic pieces, and the plate surfaces are uniformly and symmetrically distributed in the impact blocks.

As a further optimization of the invention, the plate surface comprises a rear plate, a fixed block, an elastic sheet and a contraction frame, the fixed block and the rear plate are of an integrated structure, the contraction frame is movably clamped with the fixed block through the elastic sheet, and the contraction frame can slide and contract rightwards along the fixed block through the reverse thrust generated by an object on the contraction frame.

As a further optimization of the invention, the upper plate comprises a top plate, a heat dissipation block and a bottoming plate, the top plate and the bottoming plate are of an integrated structure, the heat dissipation block is embedded in the inner side of the top plate, and an inner-outer through structure is formed between the top plate and the heat dissipation block.

As a further optimization of the invention, the top plate comprises a bottom plate, a vibration mechanism, a back-pull strip and a sliding plate, the bottom plate and the sliding plate are integrated, the vibration mechanism is fixedly embedded at the bottom of the bottom plate, the back-pull strip is installed between the inner wall of the bottom plate and the sliding plate, the sliding plate and the vibration mechanism are integrated, and the sliding plate can slide rightwards along the bottom plate by the swinging force generated by the head lowering action of a worker.

As a further optimization of the present invention, the vibration mechanism includes an impact rod, a sleeve frame, a frame, and a stressed plate, the impact rod is movably engaged with the sleeve frame, the sleeve frame is fixedly embedded in an inner wall of the frame, the stressed plate is fixedly embedded in an upper end of the frame, and the impact rod can slide and extend along the sleeve frame by an inertial force generated by the sliding of the mechanism.

The invention has the following beneficial effects:

1. through the inertia force that shrink board flexible production repeatedly, can make the face impact striking piece's that relapse inner wall under the cooperation of elastic sheet to make the metal fillings of shrink board upper surface can be shaken and fall, effectually avoided the spark to drop at the top of the cap body, long-time accumulation then can lead to the insulating nature condition that descends gradually of the cap body.

2. When wearing the cap body and lowering the head through the staff, can make the sliding plate slide along the bottom board of putting forward, and slide through the sliding plate and extremely send the vibration that produces, can make the impact bar stretch out along the cover frame is outwards slided, so the vibration that makes the atress board receive can shake the metal fillings of sliding plate upper surface and fall, the effectual shrink board of having avoided is difficult to the condition of getting rid of the metal fillings of overhead board upper surface.

Drawings

Fig. 1 is a schematic structural diagram of a wearable device for grid field work guidance according to the present invention.

FIG. 2 is a side view of a half-section of the cap of the present invention.

FIG. 3 is a side view of a shrink plate of the present invention in half cross-section.

Figure 4 is a side half-section schematic view of a connector tile according to the invention.

FIG. 5 is a schematic structural diagram of a side view of a panel according to the present invention.

FIG. 6 is a side view of a half-section of the upper plate according to the present invention.

Fig. 7 is a schematic structural view of a side half section of the roof of the present invention.

FIG. 8 is a side view of a half-section of the vibrating mechanism of the present invention.

In the figure: the hat body-1, the hat brim-2, the fixed plate-3, the upper plate-11, the complex spring plate-12, the bottom plate-13, the contraction plate-14, the leading-in block-a 1, the heat dissipation block-a 2, the connecting plate-a 3, the elastic sheet-a 31, the plate surface-a 32, the impact block-a 33, the rear plate-b 1, the fixed block-b 2, the elastic sheet-b 3, the contraction frame-b 4, the top plate-c 1, the heat dissipation block-c 2, the bottom plate-c 3, the bottom plate-c 11, the vibration mechanism-c 12, the pull strip-c 13, the sliding plate-c 14, the impact rod-d 1, the sleeve frame-d 2, the frame-d 3 and the stress plate-d 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides wearable equipment for power grid field operation guidance, which structurally comprises a cap body 1, a brim 2 and a fixing plate 3, wherein the fixing plate 3 is fixedly connected with the surface of the cap body 1 in an embedded manner, and the cap body 1 and the brim 2 are of an integrated structure; the cap body 1 comprises an upper plate 11, a complex elastic sheet 12, a bottom plate 13 and a contraction plate 14, wherein the upper plate 11 is embedded and fixed on the upper surface of the contraction plate 14, and the complex elastic sheet 12 is arranged between the contraction plate 14 and the bottom plate 13.

The contraction plate 14 includes an introduction block a1, a heat dissipation block a2, and a connection plate a3, the introduction block a1 is embedded in the connection plate a3, the heat dissipation block a2 is an integrated introduction block a1, the introduction block a1 is made of aluminum with high heat dissipation, and the introduction block a1 can rapidly cool the sparks on the surface of the connection plate a 3.

The connecting plate a3 comprises elastic pieces a31, a plate surface a32 and an impact block a33, wherein the plate surface a32 is connected with the inner wall of the impact block a33 through the elastic pieces a31, eight plate surfaces a32 are uniformly and symmetrically distributed in the impact block a33, and the plate surfaces a32 can repeatedly impact the inner wall of the impact block a33 under the cooperation of the elastic pieces a 31.

The plate surface a32 comprises a rear plate b1, a fixed block b2, an elastic sheet b3 and a contraction frame b4, the fixed block b2 and the rear plate b1 are of an integrated structure, the contraction frame b4 is movably clamped with the fixed block b2 through the elastic sheet b3, the contraction frame b4 can slide and contract rightwards along the fixed block b2 through the reverse thrust generated by an object on the contraction frame b4, and the contraction frame b4 can be pushed reversely through the elastic sheet b3 to reset.

The detailed use method and action of the embodiment are as follows:

in the invention, the contraction plate 14 can be repeatedly stretched under the matching of the complex spring plate 12 by the inertia force generated by head-lowering when a worker wears the cap body 1, the heat of sparks on the upper surface of the connecting plate a3 can be guided into the contraction plate by the guide block a1, the heat dissipation speed of the guide block a1 to the heat can be increased by the heat dissipation block a2, so that the speed of the sparks on the upper surface of the connecting plate a3 to be solidified into metal chips can be increased, the plate surface a32 can repeatedly impact the inner wall of the impact block a33 under the matching of the elastic sheet a31 by the inertia force generated by repeated stretching of the contraction plate 14, the contraction frame b4 can be inwards contracted along the fixed block b2 by the thrust generated by the inner wall of the impact block a33 to the contraction frame b4, the contraction frame b4 by the elastic sheet b3 can extend the contraction frame b4 outwards along the fixed block b2, so that the impact frequency of the impact block a32 to the impact block 33 can be increased, the condition that the insulation of the cap body 1 is gradually reduced due to long-time accumulation when sparks fall to the top of the cap body 1 is effectively avoided.

Example 2

As shown in fig. 6-8:

wherein, it includes top board c1, radiating block c2, bottoming plate c3 to put up board 11, top board c1 and bottoming plate c3 are the integral structure, radiating block c2 inlays the inboard position in top board c1, be inside and outside penetrating structure between top board c1 and the radiating block c2, through the clearance between top board c1 and the radiating block c2, can accelerate the spark cooling of top board c1 upper surface to become the speed of metal fillings.

The top plate c1 comprises a bottom plate c11, a vibration mechanism c12, a back-pull strip c13 and a sliding plate c14, the bottom plate c11 and the sliding plate c14 are integrated, the vibration mechanism c12 is embedded at the bottom of the bottom plate c11, the back-pull strip c13 is installed between the inner wall of the bottom plate c11 and the sliding plate c14, the sliding plate c14 and the vibration mechanism c12 are integrated, and the sliding plate c14 can slide rightwards along the bottom plate c11 by generating throwing force through head lowering of an operator, so that most metal scraps can be thrown away by the sliding plate c 14.

The vibration mechanism c12 comprises a striking rod d1, a sleeve frame d2, a frame d3 and a force-bearing plate d4, wherein the striking rod d1 is movably clamped with the sleeve frame d2, the sleeve frame d2 is embedded in the inner wall of the frame d3, the force-bearing plate d4 is embedded in the upper end of the frame d3, the striking rod d1 can slide outwards along the sleeve frame d2 through the inertia force generated by the sliding of the mechanism, and the striking rod d1 can generate striking vibration on the inner side of the force-bearing plate d 4.

The detailed use method and action of the embodiment are as follows:

in the present invention, since the sparks are dropped on the upper surface of the cap body 1, and are also attached to the upper surface of the upper plate 11, and the contraction plate 14 can only remove the metal chips on the surface of the contraction plate, if the metal chips on the upper plate 11 are accumulated for a long time, the insulation of the cap body 1 is reduced, the sparks on the upper surface of the top plate c1 can be rapidly cooled through the hollow-out between the top plate c1 and the bottom plate c3, and then when a worker wears the cap body 1 and lowers the head, the sliding plate c14 can slide forwards along the bottom plate c11, and the striking rod d1 can be extended along the sleeve frame d2 by sliding the sliding plate c14 to the extreme generated vibration, therefore, the impact rod d1 can impact the inner side of the a4, so that the vibration received by the force-bearing plate d4 can vibrate metal chips on the upper surface of the sliding plate c14, and the situation that the metal chips on the upper surface of the upper plate 11 are not easily removed by the contraction plate 14 is effectively avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.