WO2007054017A1 - Linkage of microscope slide holders - Google Patents

Abstract

A linkage of microscope slide holders comprises two slide holders (1,2) and an in-between link member (5) provided between two slide holders (1,2). One end of one slide holder (1) is pressed by one end of the in-between link member (5); one end of another slide holder (1) is pressed by another end of the in-between link member (5). The two slide holders (1,2) and the in-between link member (5) are fixed on the stage (7) by compression springs (3) and bolt shafts (4) at two pressing part. When the in-between link member (5) is pressed, the two slide holders (1,2) can move upwards simultaneously, in other words, the two slide holders (1,2) achieve linkage.

Description

 Microscope slide clamp linkage

Technical field

 The utility model relates to a microscope slide clamp linkage device.

Background technique

 In a conventional microscope, the holding of a slide (a glass piece in which a biological specimen is placed in a microscopic specimen) is usually carried out in two ways. One method is to use a clip body of a mechanical stage to clamp and fix a slide glass, and the fixed claws and the movable claws of the mechanical implant table clip body are pressed against the left and right sides of the slide glass, and the mechanical type is controlled. The X- and Y-direction movements of the stage move the slides in the front-rear and left-right directions to observe and detect the specimen. This type of film holder is relatively expensive, and since the slide glass is relatively thin, the slide glass is easily damaged when the side surface of the slide glass is clamped. Another way is to use two separate clips to hold the fixed slide. In this manner, the two wafer holders are pressed against the upper surface of the slide glass, and since the upper surface of the slide glass is relatively large, the slide glass is not easily damaged. The two separate clip bodies are respectively fixed at two positions of the stage, and the movement of one sheet clip cannot drive the movement of the other sheet holder. When mounting glass slides and moving slides, it is necessary to remove the two clips at the same time, which is inconvenient.

Utility model content

 The object of the present invention is to provide a microscope slide clip linkage device which is convenient for holding and fixing a slide glass and is not easy to damage the slide glass.

 In order to achieve the above purpose, the utility model adopts the following solutions: A microscope slide clamp linkage device, which is composed of two chip clamp bodies, one intermediate connection body, two compression springs and two axial position screws. The intermediate connecting body is disposed between the two piece clamping bodies; the two compression springs are respectively placed between the left piece clamping body, the right piece clamping body and the stage, the intermediate connecting body and the pressing parts of the two piece clamping bodies It is fixed to the stage by springs and shaft screws.

 The two axial screws are respectively screwed into the two screw holes of the stage through their threads. The inner diameters of the two compression springs are slightly larger than the outer diameter of the intermediate portion of the axial position screws, and the intermediate portions of the two axial position screws are respectively inserted into the inner holes of the compression spring.

The above-mentioned axial screw size and compression spring force can adjust the pressing force of the left and right piece clamps. the size of.

 Both ends of the intermediate connecting body are respectively pressed at one ends of the two chip holders.

 The two chip holders are a left piece body and a right piece body, and the angle between the left and right piece pieces can be adjusted.

 The intermediate connecting body is placed above the left piece folder and the right piece body, the one end hole of the intermediate connecting body is aligned with the left piece body hole, and the other end hole is aligned with the hole of the right piece body, and then the axial position is The screws are respectively inserted into the holes of the middle connecting body and the left piece body and the right piece body, and are spirally connected with the holes on the stage, thereby fixing the left piece body, the right piece body and the intermediate connecting body on the stage. .

 The above solution facilitates the clamping and fixing of the slide glass, and is not easy to damage the slide glass, thereby improving the use efficiency. In use, when removing the left and right two-piece clips at the same time, as long as a certain pressure is applied to the intermediate connecting body, the finger is gently pressed against the intermediate connecting body by the principle of the lever and the transmission of the force. The pressure exerted on the intermediate connecting body is uniformly applied to the left and right two piece clamping bodies, so that the slide glass clips can be linked, thereby controlling the clamping faces of the left and right two piece clamping bodies to be separated or pressed against the supporting glass. Chip.

DRAWINGS

 1 is a schematic view of a microscope slide clamp linkage device of the present invention;

 Figure 2 is a partial enlarged view of the left piece of the utility model;

 Figure 3 is a partially enlarged cross-sectional view of the right piece of the present invention.

detailed description

As shown in Figures 1, 2, and 3, the microscope slide clamp linkage device of the present invention comprises a left piece clamp body 1, a right piece clamp body 2, two compression springs 3, and two shafts. The bit screw ⁴ is composed of an intermediate connector ⁵ . The slide glass 6 is placed at the intermediate portion of the stage 7. Two compression springs 3 are respectively placed between the left piece body 1, the right piece body 2 and the stage 7, and the intermediate connection body 5 is placed above the left piece body 1 and the right piece body 2, and the middle One end of the connecting body 5 is aligned with the hole of the left piece body 1 and the hole of the compression spring 3, and the other end of the intermediate piece 5 is aligned with the hole of the right piece 2 and the hole of the other compression spring 3, and then two The axial screw 4 is inserted into the intermediate connecting body ⁵ and the left piece body 1 and the compression spring ³ , and the other end of the intermediate connecting body ⁵ and the right piece body 2 and the hole of the compression spring 3. Further, the screw thread 41 at the front portion of the shaft screw 4 is screwed into the screw hole of the stage 7, whereby the left sheet body 1, the right sheet body 2, and the intermediate connecting body 5 are fixed to the stage 7. When a proper pressure is applied above the right portion 51 of the intermediate connecting body 5, the force is transmitted to both ends of the intermediate connecting body 5, and the force is applied to the right end portion 11 of the left piece body I and the right piece. The right end portion 21 of the body 2 is located. When the right end portion 11 of the left piece body 1 is subjected to pressure at the right end portion 21 of the right piece body 2, the left end of the left piece body 1 and the right piece body 2 are pressed against the slide glass 6 by the principle of leverage. The part will rise so that the slide 6 can be attached and detached. By controlling the length of the intermediate portion 42 of the axial screw 4 and the elastic force of the compression spring 3, it is possible to control the magnitude of the force of the left piece body 1 and the right piece body 2 against the slide glass 6. Thus, as long as the finger is gently pressed against the intermediate connecting body 5, the left piece body can be controlled to be separated from the glass slide 6 at the same time as the portion of the right piece body 2 which is pressed against the slide glass 6. The pressure on the intermediate connecting body 5 is canceled, and the left piece body 1 and the right piece body 2 can automatically press the slide glass 6 again.

Claims

Claim

 A microscope slide clamp linkage device, comprising: two chip holders, an intermediate connector, and a connecting device, wherein the intermediate connector is disposed between the two plate holders, the intermediate connector One end is pressed against one end of one of the clip bodies, and the other end of the intermediate connecting body is pressed against one end of the other clip body, and the pressed portions at both ends are fixed to the stage through the connecting device.

 2. A microscope slide clamp linkage as claimed in claim 1, wherein: the attachment means consists of two compression springs, two shaft screws, and two compression springs are respectively placed in two pieces. Between the body and the stage.

 3. A microscope slide clamp linkage device as claimed in claim 1, wherein: the device is arranged from the top to the bottom with an intermediate connector, a clip body, a compression spring hole, and a carrier, and the intermediate connector The two ends of the two ends of the two clamping bodies are aligned with the compression spring holes and the holes on the stage, and the axial screws are respectively inserted into the intermediate connecting body and the left piece clamping body and the right piece clamping body hole. Inside, it is spirally connected to the hole on the stage.

 A microscope stage slide clamp linkage apparatus as claimed in claim 2, wherein the inner diameters of said two compression springs are slightly larger than the outer diameter of the intermediate portion of the axial position screws.

 5. A microscope slide clip linkage as claimed in claim 2, wherein: controlling the size of the axial screw and the compression spring force control the force of the two wafer clamps to compress the slide.

 6. A microscope slide clamp linkage as disclosed in claim 1, wherein the angle between the two wafer clamps is adjustable.

 7. A microscope slide clamp linkage device as claimed in claim 1, wherein the intermediate connector between the two wafer clamps is pressed against both ends of the two wafer clamps.