CN-224203760-U - Multi-foot plane mirror

Abstract

The utility model discloses a multi-foot plane mirror, which comprises a plane mirror and a support frame arranged at the bottom of the plane mirror, wherein the support frame comprises two side brackets which are arranged in parallel, the side brackets are of an inverted V-shaped structure, one side of each side bracket opposite to the side brackets is vertically and fixedly connected with a positioning plate, the plane mirror is arranged between the two positioning plates, a positioning installation structure is arranged between the plane mirror and the positioning plates, and a connecting frame is fixedly connected between the bottom of each side bracket.

Inventors

• LIU LEBING
• LIU SHAOJIA

Assignees

• 刘乐兵

Dates

Publication Date

20260505

Application Date

20250519

Claims (7)

1. 1. The utility model provides a multi-foot plane mirror, includes plane mirror (1) and installs support frame (2) in plane mirror (1) bottom, support frame (2) are including two parallel arrangement's side support (21), side support (21) are the V type structure of inversion, two the equal vertical fixedly connected with locating plate (22) in one side that side support (21) are opposite, plane mirror (1) are installed between two locating plates (22), be provided with location mounting structure between plane mirror (1) and locating plate (22), two still fixedly connected with link (23) between side support (21) bottom, link (23) are located one side of plane mirror (1) non-reflecting surface, the bottom of support frame (2) both sides stabilizer blade all is provided with anti-skidding structure.
2. 2. The multi-foot flat mirror according to claim 1, wherein the flat mirror (1) is an acrylic plate.
3. 3. The multi-foot flat mirror according to claim 1, wherein the positioning and mounting structure comprises a positioning groove (221) formed along the length direction of one side of the positioning plate (22), an embedded groove (222) communicated with the positioning groove (221) is formed in the top of the positioning plate (22), the depth of the embedded groove (222) is larger than that of the positioning groove (221), positioning gaps (11) are formed at the lower ends of two sides of the flat mirror (1), and when the flat mirror (1) is mounted between the two positioning plates (22), the positioning gaps (11) are arranged in the positioning groove (221), and part of the flat mirror (1) is arranged in the embedded groove (222).
4. 4. A multi-foot flat mirror according to claim 3, wherein the positioning plate (22) is provided with a mounting hole which is communicated with the embedded groove (222), the flat mirror (1) is provided with a through hole (12) corresponding to the mounting hole, and the flat mirror (1) and the positioning plate (22) are connected and fixed through the mounting hole and the through hole (12) by a fixing bolt (223).
5. 5. The multi-foot flat mirror according to claim 1, wherein the anti-slip structure comprises grooves (211) formed in bottoms of two support legs of the side support (21) and foot pads (3) mounted in the grooves (211), and the foot pads (3) are partially protruded out of the lower surface of the support frame (2).
6. 6. The multi-foot flat mirror according to claim 5, wherein a circle of clamping grooves (212) are formed in the inner wall of the groove (211), an embedding strip (31) is arranged on a circle of the outer wall of the foot pad (3), and the embedding strip (31) is clamped into the clamping grooves (212) in an aligned mode.
7. 7. The multi-foot flat mirror according to claim 6, wherein the bottoms of the two legs of the side bracket (21) are provided with a buckling groove at one side of the groove (211).

Description

Multi-foot plane mirror Technical Field The utility model relates to the technical field of plane mirror imaging experiments, in particular to a multi-foot plane mirror. Background The experiment of researching the imaging characteristics of the plane mirror is carried out on a physical teaching material in junior middle school, a transparent plane mirror capable of standing is needed in the experiment, the plane mirror widely used at present is made of traditional glass, the defects of the plane mirror are too many, such as easy breakage, easy hand pricking, too thick formation of two virtual images and the like, in the experiment process, the stability of the multi-foot plane mirror is poor, the plane mirror is easy to topple and shift when subjected to external force, the position of the plane mirror is difficult to locate, and the experiment result is influenced. Disclosure of utility model Aiming at the defects of the prior art, the utility model aims to provide the multi-foot plane mirror, which solves the problems of easy breakage, easy hand pricking, too thick formation of two virtual images and the like, has good stability, and is convenient for positioning the position of the plane mirror so as to reduce experimental errors. In order to achieve the above purpose, the present utility model provides the following technical solutions: The utility model provides a multi-foot plane mirror, includes the plane mirror and installs in the support frame of plane mirror bottom, the support frame includes two parallel arrangement's side support, the side support is the V type structure of inversion, two the equal vertical fixedly connected with locating plate in one side that the side support is relative, the plane mirror is installed between two locating plates, be provided with location mounting structure between plane mirror and the locating plate, two still fixedly connected with link between side support bottom, the link is located one side of plane mirror non-reflecting surface, the bottom of support frame both sides stabilizer blade all is provided with anti-skidding structure. Preferably, the plane mirror is an acrylic plate. Preferably, the positioning and mounting structure comprises a positioning groove formed along the length direction of one side of the positioning plate, an embedded groove communicated with the positioning groove is formed in the top of the positioning plate, the depth of the embedded groove is larger than that of the positioning groove, positioning gaps are formed in the lower ends of two sides of the plane mirror, and when the plane mirror is mounted between the two positioning plates, the positioning gaps are arranged in the positioning groove, and the plane mirror is partially arranged in the embedded groove. Preferably, the positioning plate is provided with a mounting hole which is communicated with the positioning plate and is positioned at the embedded groove, the plane mirror is provided with a through hole which corresponds to the mounting hole, and the plane mirror and the positioning plate are fixedly connected through the mounting hole and the through hole through a fixing bolt. Preferably, the anti-slip structure comprises a groove formed in the bottoms of the two support legs of the side support and a foot pad arranged in the groove, and the foot pad part protrudes out of the lower surface of the support frame. Preferably, a circle of clamping grooves are formed in the inner wall of the groove, an embedding strip is arranged on a circle of the outer wall of the foot pad, and the embedding strip is aligned and clamped into the clamping grooves. Preferably, the bottoms of the two support legs of the side support are provided with buckling grooves at one side of the groove. Compared with the prior art, the utility model has the beneficial effects that: According to the utility model, the plane mirror is made to be very thin by adopting the acrylic plate, so that two virtual images formed by reflecting an object twice by the plane mirror are almost completely overlapped, the imaging effect is obvious, the used material is firm and unbroken and is not pricked, the safety is improved, the side edge of the plane mirror is provided with the side edge support, the connecting frame is arranged on the non-reflecting surface of the plane mirror, a student can conveniently draw a straight line from one side of the plane mirror to the other side of the plane mirror by using a pen when drawing the straight line on paper along the bottom edge of the reflecting surface of the plane mirror, and the straight line is set as the position of the plane mirror, so that the positioning accuracy of the plane mirror is ensured during the imaging experiment of the plane mirror. Drawings FIG. 1 is a schematic diagram of the overall structure of a multi-leg flat mirror; FIG. 2 is a schematic diagram of a support frame structure; FIG. 3 is an enlarged schematic view of the structure of the area