CN219122482U - Reflective mirror - Google Patents

Abstract

The utility model provides a reflector, which comprises a lens, a light band, an adjusting part and a holding part, wherein the light band is arranged along the periphery of the lens; the adjusting part is connected with the holding part and the lens and adjusts the angle and/or the distance of the lens relative to the holding part. Because the reflector has the light band, consequently the reflector is applicable in the darker environment of light, just the adjustment part can be adjusted in a flexible way the reflector is located the position of being overhauld the board, makes things convenient for the engineer to overhaul the board that has narrow and small space maintenance position, avoids having the pipeline or the problem that the sight can't be observed directly perceivedly by the board because the board end stops the sight.

Description

Reflective mirror

Technical Field

The utility model relates to the technical field of overhauling, in particular to a reflector.

Background

The condition of overhauling in narrow and small space can be related to when the daily maintenance of board, because the space is too narrow and small, and the board has pipeline and low-angle obstruction sight, in effectual space, whether the engineer can't direct detection board is normal, usually needs to assist the detection with the help of reflector inspection tool this moment.

The reflector that assists board detection among the prior art is the scalable reflector of circular handle, and the telescopic whole length of adjustment reflector in handle pole department, but when meeting the condition that needs the angular position of adjustment reflector in order to adapt to the narrow and small space in the board that is detected, the handle pole can't crooked, and then can't solve and have the pipeline or the small angle to block the sight and can't observe the problem of being overhauld the board directly perceivedly because of the board end.

Disclosure of Invention

The utility model aims to provide a reflector which solves the problems that the reflector cannot be bent to adapt to a detected machine and cannot be used in a dark-light environment.

In order to solve the technical problems, the utility model provides a reflector, which comprises a lens, a light band, an adjusting part and a holding part, wherein the light band is arranged along the periphery of the lens; the adjusting part is connected with the holding part and the lens and adjusts the angle and/or the distance of the lens relative to the holding part.

Preferably, in the reflector, the adjusting part includes a first adjusting part and a second adjusting part, the first adjusting part connects the lens and the second adjusting part, and adjusts an angle of the lens relative to the second adjusting part; the second adjusting part is connected with the first adjusting part and the holding part, and adjusts the angle and/or distance of the first adjusting part relative to the holding part.

Preferably, in the reflector, the first adjusting portion includes a swinging member and a swinging seat, the swinging member is fixedly connected to the lens, the swinging seat is fixedly connected to the second adjusting portion, and the swinging member is partially supported by the swinging seat and drives the lens to do reciprocating swinging motion in the swinging seat around a fixed direction.

Preferably, in the reflector, the first adjusting portion further includes a rotating shaft, the rotating shaft connects the swinging member and the swinging seat, and the fixing direction is a direction in which an axis of the rotating shaft is located.

Preferably, in the reflector, the second adjusting part includes a rotating part and a flexible connecting part, the flexible connecting part connects the rotating part and the holding part, and the flexible connecting part deforms itself and drives the rotating part to change in angle and/or distance relative to the holding part.

Preferably, in the reflector, the rotating member includes a sphere and a sphere seat, the second adjusting portion is fixedly connected with the first adjusting portion through the sphere, and the sphere is buckled into the sphere seat and drives the first adjusting portion to rotate in the sphere seat.

Preferably, in the mirror, an adsorption unit is provided at an end of the holding portion away from the adjustment portion.

Preferably, in the reflector, the adsorption unit is a magnet.

Preferably, in the mirror, the grip surface has a plurality of protrusions, and the plurality of protrusions are arranged in a uniform manner along a length direction of the grip.

Preferably, in the reflector, the light band includes a plurality of light emitting elements, and the plurality of light emitting elements are uniformly distributed and arranged in a manner of being attached to the periphery of the lens.

In summary, the present utility model provides a reflective mirror, which includes a lens, a light band, an adjusting portion, and a holding portion, wherein the light band is attached to an outer periphery of the lens; the adjusting part is connected with the holding part and the lens and adjusts the angle and/or the distance of the lens relative to the holding part. Because the reflector has the light band, consequently the reflector is applicable in the darker environment of light, just the adjustment part can be adjusted in a flexible way the reflector is located the position of being overhauld the board, makes things convenient for the engineer to overhaul the board that has narrow and small space maintenance position, avoids having the pipeline or the problem that the sight can't be observed directly perceivedly by the board because the board end stops the sight.

Further, the holding part is provided with an adsorption unit, so that the reflector is adsorbed at a fixed position, and an engineer can conveniently release both hands for maintenance.

Furthermore, the holding part is also provided with a plurality of protruding parts, which are attached to the finger structure of the human body, so that the reflector is better controlled.

Drawings

FIG. 1 is a schematic view of a mirror structure according to an embodiment of the present utility model;

FIG. 2 is a schematic view of an adjusting part according to an embodiment of the present utility model;

wherein, each reference sign is as follows:

10-a lens; 20-band of light; 30-an adjusting part; 40-a holding part;

310-a first adjustment part; 320-a second adjustment part; 410-a boss; 420-an adsorption unit;

311-swinging member; 312-a swing seat; 321-a rotating member; 322-flexible connection;

3211-sphere; 3212-ball socket.

Detailed Description

The mirror according to the utility model is described in further detail below with reference to the drawings and the specific embodiments. Advantages and features of the utility model will become more apparent from the following description and from the claims. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for convenience and clarity in aiding in the description of embodiments of the utility model. Furthermore, the structures shown in the drawings are often part of actual structures. In particular, the drawings are shown with different emphasis instead being placed upon illustrating the various embodiments.

As used in this disclosure, the singular forms "a," "an," and "the" include plural referents, and the term "or" is generally used in the sense of including "and/or" the terms "first," "second," are used for descriptive purposes only and are not to be construed as indicating or implying any particular importance or quantity of such technical features. The terms "mounted," "connected," "coupled," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1, an embodiment of the present utility model provides a mirror, which includes a lens 10, a light band 20, an adjusting portion 30, and a holding portion 40, wherein the light band 20 is disposed along the periphery of the lens 10; the adjusting part 30 connects the holding part 40 with the lens 10 and adjusts the angle and/or distance of the lens 10 relative to the holding part 40.

As described above, when an engineer overhauls a machine having an overhauling position in a narrow space, holds the holding part 40, and has a pipeline at a machine end or blocks a line of sight at a small angle to intuitively observe the condition of the overhauled machine, the angle and/or distance of the lens 10 relative to the holding part 40 is adjusted by the adjusting part 30, and the light band 20 provides a light source for an overhauling environment due to the reflective mirror comprising the light band 20, so that the reflective mirror is suitable for an environment with darker light.

In this embodiment, the light band 20 includes a plurality of reflective elements, and a plurality of light emitting elements are uniformly distributed in the light band 20, and when the overhauled machine is in a darker environment, the light emitting elements jointly provide a light source.

To facilitate accurate adjustment of the angle and/or distance of the lens 10 relative to the holding portion 40, as shown in fig. 1, the adjusting portion 30 includes a first adjusting portion 310 and a second adjusting portion 320, wherein the first adjusting portion 310 connects the lens 10 and the second adjusting portion 320, and adjusts the angle of the lens 10 relative to the second adjusting portion 320; the second adjusting portion 320 connects the first adjusting portion 310 and the holding portion 40, and adjusts an angle and/or a distance of the first adjusting portion 310 with respect to the holding portion 40.

The engineer uses the adjusting part 30 to adjust the position of the lens 10 in the detected machine, when the angle of the lens 10 in the detected machine needs to be adjusted, optionally, uses the first adjusting part 310 to adjust the angle of the lens 10 relative to the second adjusting part 320, and further adjusts the angle of the lens 10 in the detected machine, and/or uses the second adjusting part 320 to adjust the angle of the first adjusting part 310 relative to the holding part 40, and further adjusts the angle of the lens 10 in the detected machine because the first adjusting part 310 is connected with the lens 10; when the length of the lens 10 located in the detected machine needs to be adjusted, the distance between the first adjusting portion 310 and the holding portion 40 is optionally adjusted by using the second adjusting portion 320, and the distance between the lens 10 and the holding portion 40 is further adjusted due to the connection of the first adjusting portion 310 to the lens 10, that is, the length of the lens 10 located in the detected machine is adjusted.

Referring to fig. 2, in order to achieve the function of adjusting the angle of the lens 10 relative to the second adjusting portion 320 by the first adjusting portion 310, specifically, the first adjusting portion 310 includes a swinging member 311 and a swinging seat 312, the swinging member 311 is fixedly connected to the lens 10, the swinging seat 312 is fixedly connected to the second adjusting portion 320, and the swinging member 311 is partially supported by the swinging seat 312 and drives the lens 10 to reciprocate in the swinging seat 312 around a fixed direction.

Further, the first adjusting portion 310 further includes a rotating shaft (not shown in the drawing), which connects the swinging member 311 and the swinging seat 312, and as a specific embodiment, the swinging member 311 and the swinging seat 312 have a circular hole through which the rotating shaft passes, so that the swinging member 311 swings reciprocally on the swinging seat 312 around the axis of the rotating shaft, that is, the direction in which the axis of the rotating shaft is located is the above-mentioned fixed direction. Compared with the swinging of the swinging member 311 around a point on the swinging seat 312, the swinging manner of the swinging member 311 around an axis direction provided in this embodiment makes the whole structure more stable during movement.

With continued reference to fig. 2, in order to implement the second adjusting portion 320 to adjust the angle and/or distance of the first adjusting portion 310 relative to the holding portion 40, specifically, the second adjusting portion 320 includes a rotating member 321 and a flexible connecting member 322, where the flexible connecting member 322 connects the rotating member 321 and the holding portion 40, and the flexible connecting member 322 deforms itself and drives the rotating member 321 to change the angle and/or distance relative to the holding portion 40.

Further, the rotating member 321 includes a ball 3211 and a ball seat 3212, the second adjusting portion 320 is fixedly connected to the first adjusting portion 310 through the ball 3211, and the ball 3211 is snapped into the ball seat 3212 and drives the first adjusting portion 310 to perform a rotational movement in the ball seat 3212.

It will be appreciated that the movement of the ball within the ball socket 3212 provides three degrees of freedom, namely three degrees of freedom for rotation of the ball 3211 in the spatial X, Y and Z directions, respectively, i.e. the rotational movement described above includes rotation of the ball 3211 in the spatial X, Y and Z directions, as can be seen, due to the structural limitations of the ball socket 3212, only a portion of the rotational movement is performed when the ball 3211 is rotated about the spatial X and Y axes.

In this embodiment, the flexible connecting piece 322 is subjected to external force to change its shape, and after losing the external force, it cannot recover its original shape, and continuously maintains the changed shape, and the flexible connecting piece 322 can axially stretch and retract, fold and generate a certain displacement in the vertical axial direction, so that the position of the lens 10 in the detected machine can be better adjusted, and in this embodiment, the flexible connecting piece 322 is made of latex.

Further, in order to make the flexible connecting member 322 conveniently penetrate into the detected machine to a to-be-overhauled position, the flexible connecting member 322 has a sufficient length and is required to meet the requirement that the transverse end face of the flexible connecting member 322 cannot be too large, and preferably, the flexible connecting member 322 is a lever member.

Considering that when an engineer overhauls the detected machine, there is a need to manually adjust the components of the detected machine to make the detected machine work normally, in the embodiment provided by the utility model, one end of the holding portion 40 away from the adjusting portion 30 is provided with the adsorption unit 420, so that the reflector can be adsorbed at a position, and both hands of the engineer are released, thereby facilitating the overhauling.

In some fixed application scenarios, the detected machine is made of a magnetically attractable material, and in order to make the reflector be convenient to be attracted to the detected machine, the attraction unit 420 is preferably a magnet.

In addition, since the engineer holds the grip portion 40 by hand during the maintenance, the grip portion 40 may slip with respect to the human hand, or may slip off from the human hand, so that the grip portion 40 may be grasped with increased firmness by the human hand, and as a preferred embodiment, the grip portion 40 may have a plurality of protrusions 410 on a surface thereof, the plurality of protrusions 410 may be uniformly arranged along a longitudinal direction of the grip portion 40, and the protrusions 410 may engage with a human finger structure, thereby facilitating the engineer to grasp and control the mirror better.

In summary, the present utility model provides a reflective mirror, which includes a lens, a light band, an adjusting portion, and a holding portion, wherein the light band is disposed along an outer periphery of the lens; the adjusting part is connected with the holding part and the lens and adjusts the angle and/or the distance of the lens relative to the holding part. Because the reflector has the light band, consequently the reflector is applicable in the darker environment of light, just the adjustment part can be adjusted in a flexible way the reflector is located the position of being overhauld the board, makes things convenient for the engineer to overhaul the board that has narrow and small space maintenance position, avoids having the pipeline or the problem that the sight can't be observed directly perceivedly by the board because the board end stops the sight.

It should also be appreciated that while the present application has been disclosed in the context of a preferred embodiment, the above embodiment is not intended to limit the present utility model. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art without departing from the scope of the technology, or the technology can be modified to be equivalent. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (10)

1. A mirror, the mirror comprising: a lens, a light band, an adjusting part and a holding part, wherein the light band is arranged along the periphery of the lens; the adjusting part is connected with the holding part and the lens and adjusts the angle and/or the distance of the lens relative to the holding part.

2. The mirror of claim 1, wherein the adjustment portion comprises a first adjustment portion and a second adjustment portion, the first adjustment portion connecting the lens and the second adjustment portion and adjusting an angle of the lens relative to the second adjustment portion; the second adjusting part is connected with the first adjusting part and the holding part, and adjusts the angle and/or distance of the first adjusting part relative to the holding part.

3. The mirror of claim 2 wherein the first adjustment portion includes a swinging member fixedly connected to the lens and a swinging seat fixedly connected to the second adjustment portion, the swinging member being partially supported by the swinging seat and driving the lens to reciprocate within the swinging seat about a fixed direction.

4. The mirror of claim 3, wherein the first adjustment portion further comprises a rotation shaft, the rotation shaft connects the swinging member and the swinging seat, and the fixing direction is a direction in which an axis of the rotation shaft is located.

5. The mirror of claim 2, wherein the second adjustment portion includes a rotating member and a flexible connection member that connects the rotating member and the holding portion, the flexible connection member itself being deformed and driving the rotating member to change in angle and/or distance relative to the holding portion.

6. The mirror of claim 5 wherein the rotating member comprises a ball and a ball socket, the second adjustment portion is fixedly connected to the first adjustment portion via the ball, and the ball is snapped into the ball socket and drives the first adjustment portion to rotate within the ball socket.

7. The mirror according to claim 1, wherein an end of the holding portion remote from the adjusting portion is provided with an adsorption unit.

8. The mirror of claim 7 wherein the adsorption unit is a magnet.

9. The mirror of claim 1, wherein the grip surface has a plurality of protrusions, the plurality of protrusions being disposed in a uniform arrangement along a length of the grip.

10. The mirror of claim 1 wherein said band of light comprises a plurality of light emitting elements, said plurality of light emitting elements being disposed in a uniform distribution about the periphery of said lens.

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