CN220207029U - Transmissivity detection device with automatic shifting sample rack - Google Patents

Abstract

The utility model discloses a transmittance detection device with an automatic shifting sample rack, which comprises an equipment outer box, wherein the lower end of one side surface of the equipment outer box is provided with a detection groove, the inner bottom end of the detection groove is fixedly connected with a motor, the upper end of the motor is in transmission connection with a transmission shaft, the upper end of the transmission shaft is fixedly connected with the sample rack, the surface of the sample rack is provided with a fixing groove in a penetrating way, the two side surfaces of the fixing groove are both provided with connecting blocks, the inner side surface of each connecting block is provided with a buffer block, a buffer telescopic rod is arranged between each buffer block and each connecting block, and the surface of each buffer telescopic rod is provided with a buffer spring.

Description

Transmissivity detection device with automatic shifting sample rack

Technical Field

The utility model belongs to the technical field of optical element transmittance testing, and particularly relates to a transmittance detection device with an automatic shifting sample rack.

Background

Transmittance: the ratio of the radiant energy projected through an object to the total radiant energy projected onto the object during the time that the incident light flux leaves from the illuminated or medium incident surface to the other surface is referred to as the transmittance of the object.

The current transmittance detection device generally does not have the function of automatically shifting a sample rack when in use, so that when another sample needs to be detected after detection is finished, the new sample needs to be manually detached and installed, and the use mode is troublesome.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides a transmittance detection device with an automatic displacement sample rack, so as to solve the problem that the existing transmittance detection device provided in the background art generally does not have the function of automatically displacing the sample rack when in use, so that when another sample needs to be detected after detection is finished, the new sample needs to be manually detached and installed, and the use mode is troublesome.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a transmissivity detection device with automatic sample frame that shifts, includes the equipment outer box, the detection groove has been seted up to one side surface lower extreme of equipment outer box, the inside bottom fixedly connected with motor of detection groove, the upper end transmission of motor is connected with the transmission shaft, the upper end fixedly connected with sample frame of transmission shaft, the fixed slot has been seted up in the surface of sample frame throughout, the both sides surface of fixed slot all is provided with the connecting block, the inboard surface of connecting block is provided with the buffer block, be provided with the buffering telescopic link between buffer block and the connecting block, the surface of buffering telescopic link is provided with buffer spring.

Preferably, electric push rods are arranged on two sides of the fixing groove, and connecting blocks are fixedly connected to the top ends of the electric push rods.

Preferably, the buffer block and the buffer telescopic rod are mutually clamped and connected.

Preferably, the inner side surface of the buffer block is provided with a step.

Preferably, the upper end of one side surface of the equipment outer box is respectively provided with a display and a control switch, and the control switch is provided with a plurality of control switches.

Preferably, the lower end of one side surface of the equipment outer box is fixedly connected with a storage box, and the upper surface of the storage box is provided with an inclined plane.

Preferably, rubber blocks are fixedly connected to the surfaces of two sides of the interior of the storage box, and soft cushions are fixedly connected to the bottom end of the interior of the storage box.

Compared with the prior art, the utility model provides the transmittance detection device with the automatic displacement sample rack, which has the following beneficial effects:

1. according to the utility model, through the arranged sample rack, the purpose of automatically shifting the sample rack is realized by rotating the sample rack when the device is used, the purpose of automatically replacing an optical element to be detected in the device is convenient, and the problem that the existing transmittance detection device is troublesome in use mode because the device does not normally have the function of automatically shifting the sample rack and needs to be manually disassembled and installed when another sample needs to be detected after detection is completed is effectively avoided;

2. according to the utility model, through the storage box, the optical element after detection is conveniently stored, through the electric push rod, the middle buffer block is driven to slide towards the middle or two sides through the extension or shortening of the electric push rod during use, the clamping of the optical element is realized, through the structures such as the buffer telescopic rod, the buffer spring and the like, the buffer effect between the buffer block and the middle optical element is realized, the optical element is prevented from being damaged by clamping, and the buffer blocks and the buffer telescopic rod are connected in a clamping way, so that when the optical element with different shapes is detected, the buffer blocks with different shapes can be conveniently replaced to clamp and fix the optical element;

3. according to the utility model, when the transmittance of the middle optical element is detected, the optical element can be supported through the steps, so that the problem that the optical element falls off during detection is prevented, the detection device is convenient to electrically control through the display and the control switch, the cushion and the rubber block are arranged, after the detection of the optical element is finished, the cushion block is loosened, the rubber block can effectively separate the optical element after the optical element falls into the storage box, the problem that the optical element collides with each other to cause damage is prevented, the cushion can effectively play a role of buffering the optical element and the storage box, and the optical element is prevented from being damaged.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and together with the embodiments of the utility model and do not constitute a limitation to the utility model, and in which:

FIG. 1 is a schematic diagram of a transmittance detection apparatus with an automatic shifting sample rack according to the present utility model;

FIG. 2 is a schematic diagram of a sample rack in a transmittance detection apparatus with an automatic shifting sample rack according to the present utility model;

FIG. 3 is a cross-sectional view of a storage case in a transmittance testing device with an automatically displaced sample rack according to the present utility model;

FIG. 4 is a schematic diagram showing a structure of a fixing slot in a transmittance detecting device with an automatic shifting sample rack according to the present utility model;

FIG. 5 is an enlarged view of the transmittance detection apparatus with an automatically shifted sample rack according to the present utility model at A in FIG. 4;

FIG. 6 is a schematic diagram of a buffer block in a transmittance detection apparatus with an automatic shifting sample rack according to the present utility model;

in the figure: 1. an equipment outer case; 2. a detection groove; 3. a display; 4. a control switch; 5. a storage tank; 6. a soft cushion; 7. a rubber block; 8. an inclined plane; 9. a motor; 10. a transmission shaft; 11. a sample rack; 12. a fixing groove; 13. an electric push rod; 14. a connecting block; 15. a buffer telescopic rod; 16. a buffer spring; 17. a buffer block; 18. a step.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides a transmissivity detection device with automatic sample frame that shifts, including equipment outer box 1, the detection groove 2 has been seted up to one side surface lower extreme of equipment outer box 1, the inside bottom fixedly connected with motor 9 of detection groove 2, the upper end transmission of motor 9 is connected with transmission shaft 10, the upper end fixedly connected with sample frame 11 of transmission shaft 10, fixed slot 12 has been seted up in the surface penetration of sample frame 11, the both sides surface of fixed slot 12 all is provided with connecting block 14, the inboard surface of connecting block 14 is provided with buffer block 17, be provided with buffer telescopic link 15 between buffer block 17 and the connecting block 14, buffer telescopic link 15's surface is provided with buffer spring 16, through the sample frame 11 of setting up, through the purpose that rotates sample frame 11 in order to realize automatic shift sample frame 11, the purpose that makes things convenient for automatic to the inside optical element that waits to detect, the function of automatic shift of sample frame 11 at present has been avoided effectively, it needs manual and installs new sample to dismantle when detecting another sample after the completion to lead to the fact, this kind of mode of use is troublesome problem, through setting up buffer block 17 and buffer spring 16, the optical element that is lost has been realized by the buffer structure between the buffer element 17 and the middle part, the optical element is prevented from being lost.

In the present utility model, preferably, electric push rods 13 are disposed on both sides of the fixing groove 12, and a connecting block 14 is fixedly connected to the top end of the electric push rod 13, and when the electric push rod 13 is in use, the middle buffer block 17 is driven to slide to the middle or both sides by extending or shortening the electric push rod 13, so as to clamp the optical element.

In the present utility model, preferably, the buffer block 17 and the buffer telescopic rod 15 are engaged with each other, and when detecting optical elements with different shapes, the buffer block 17 with different shapes is convenient to replace and clamp and fix the optical elements by the engaged connection between the buffer block 17 and the buffer telescopic rod 15.

In the present utility model, it is preferable that the inner surface of the buffer block 17 is provided with a step 18, and the step 18 is provided to support the optical element when detecting the transmittance of the intermediate optical element, so that the problem of dropping of the optical element during detection can be prevented.

In the utility model, preferably, the upper end of one side surface of the equipment outer box 1 is respectively provided with the display 3 and the control switch 4, the control switch 4 is provided with a plurality of control switches, and the detection device is electrically controlled conveniently through the display 3 and the control switch 4 through the arranged display 3 and the control switch 4.

In the utility model, preferably, the lower end of one side surface of the equipment outer box 1 is fixedly connected with the storage box 5, the upper surface of the storage box 5 is provided with the inclined plane 8, and the optical element after detection is conveniently stored through the storage box 5 by the aid of the storage box 5.

In the utility model, preferably, rubber blocks 7 are fixedly connected to the surfaces of both sides of the interior of the storage box 5, and soft pads 6 are fixedly connected to the bottom end of the interior of the storage box 5, and through the soft pads 6 and the rubber blocks 7, after the optical elements are detected, the buffer blocks 17 are loosened, and after the optical elements fall into the interior of the storage box 5, the rubber blocks 7 can effectively separate the optical elements, so that the problem of damage caused by mutual collision between the optical elements is prevented, and the soft pads 6 can effectively play a role of buffering between the optical elements and the storage box 5, so that the optical elements are prevented from being damaged.

The working principle and the using flow of the utility model are as follows: when in use, the sample rack 11 is arranged, the purpose of automatically shifting the sample rack 11 is realized by rotating the sample rack 11 during use, the purpose of automatically replacing an optical element to be detected inside is facilitated, the problem that the existing transmittance detection device does not normally have the function of automatically shifting the sample rack 11 during use, so that the new sample needs to be manually detached and installed when another sample needs to be detected after detection is finished is solved, the use mode is troublesome is solved, the optical element after detection is conveniently stored through the storage box 5 by the storage box 5, the middle buffer block 17 is driven to slide towards the middle or two sides through the extension or shortening of the electric push rod 13 during use, the clamping of the optical element is realized, and the optical element is clamped through the structures such as the buffer telescopic rod 15, the buffer spring 16 and the like, the buffer effect between the buffer block 17 and the middle optical element is realized, the optical element is prevented from being clamped to be damaged to cause loss, the buffer block 17 and the buffer telescopic rod 15 are connected in a clamping way, when the optical element with different shapes is detected, the buffer block 17 with different shapes is convenient to replace, the optical element with different shapes is clamped and fixed, the optical element can be supported through the step 18 when the transmittance of the middle optical element is detected through the step 18, the dropping problem of the optical element during detection is prevented, the electric control on the detection device is facilitated through the display 3 and the control switch 4, the buffer block 17 is loosened after the detection of the optical element is completed through the cushion 6 and the rubber block 7, the optical element falls into the storage box 5, the rubber block 7 can effectively separate the optical elements, so that the problem of damage caused by mutual collision between the optical elements is prevented, and the soft cushion 6 can effectively play a role in buffering between the optical elements and the storage box 5, so that the optical elements are prevented from being damaged.

Although embodiments of the present utility model 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a transmissivity detection device with automatic sample frame that shifts, includes equipment outer box (1), its characterized in that: the utility model discloses a test device for a flexible cable of the equipment, including equipment outer container (1), detection groove (2) have been seted up to one side surface lower extreme of equipment outer container (1), the inside bottom fixedly connected with motor (9) of detection groove (2), the upper end transmission of motor (9) is connected with transmission shaft (10), the upper end fixedly connected with sample frame (11) of transmission shaft (10), fixed slot (12) have been seted up in the surface penetration of sample frame (11), the both sides surface of fixed slot (12) all is provided with connecting block (14), the inboard surface of connecting block (14) is provided with buffer block (17), be provided with buffering telescopic link (15) between buffer block (17) and connecting block (14), the surface of buffering telescopic link (15) is provided with buffer spring (16).

2. A transmittance detection device with an automatically displaced sample holder according to claim 1, characterized in that: electric push rods (13) are arranged on two sides of the fixing groove (12), and connecting blocks (14) are fixedly connected to the top ends of the electric push rods (13).

3. A transmittance detection device with an automatically displaced sample holder according to claim 1, characterized in that: the buffer block (17) and the buffer telescopic rod (15) are mutually clamped and connected.

4. A transmittance detection device with an automatically displaced sample holder according to claim 1, characterized in that: the inner side surface of the buffer block (17) is provided with a step (18).

5. A transmittance detection device with an automatically displaced sample holder according to claim 1, characterized in that: the upper end of one side surface of the equipment outer box (1) is respectively provided with a display (3) and a control switch (4), and the control switch (4) is provided with a plurality of switches.

6. A transmittance detection device with an automatically displaced sample holder according to claim 1, characterized in that: the lower end of one side surface of the equipment outer box (1) is fixedly connected with a storage box (5), and the upper surface of the storage box (5) is provided with an inclined plane (8).

7. The transmittance detection device with automatically displaced sample holders of claim 6 wherein: rubber blocks (7) are fixedly connected to the surfaces of two sides of the interior of the storage box (5), and soft cushions (6) are fixedly connected to the bottom end of the interior of the storage box (5).