CN211270758U - Eye fine measuring instrument - Google Patents

Abstract

The utility model relates to the technical field of medical shaping auxiliary appliances, in particular to an eye fine measuring instrument, which comprises an eyeshade, wherein a measuring mechanism placing cavity positioned on the bottom wall of the eyeshade is opened in the eyeshade, a horizontally arranged chute is arranged above the measuring mechanism placing cavity in the eyeshade, two sliders are arranged in the chute in a sliding way, and driving mechanisms for driving the sliders are arranged at two ends of the chute in the measuring mechanism placing cavity; the end part of the slider, which is close to the center of the eye patch, is provided with a first screw hole perpendicular to the sliding direction of the slider, a first screw rod which is matched with the first screw hole and has one end positioned at the bottom end of the cavity for placing the measuring mechanism is arranged in the first screw hole, and a rubber base which is positioned at the bottom end of the cavity for placing the measuring mechanism is arranged on the first screw rod. The utility model discloses comparatively accurate realization to the measurement of the length of eyelid, avoided because the range estimation leads to measuring error's production.

Description

Eye fine measuring instrument

Technical Field

The utility model relates to an utensil technical field is assisted in the medical treatment plastic, and specifically speaking relates to an eye measuring instrument that becomes more meticulous.

Background

Plastic surgery is now gaining increased acceptance and more people are also participating in the team of plastic surgery. The eye shaping and beautifying operation comprises the cosmetic shaping of the upper eyelid, the lower eyelid, the eyebrow and other parts. The eye shaping plays an important role in the whole department of facial plastic surgery and plays a role in pointing to the appearance of people. Wherein the eye shaping comprises the steps of cutting double eyelids, opening the canthus, removing the pouch and the like, and the eye shaping internationally has an eye beautifying golden standard, namely, the eye meeting the requirements of the standard on the radian, the length and the like of the eye is the most beautiful eye. Wherein, the accurate measurement of the eyes of the person to be reshaped is needed before and after the reshaping operation, such as the radian of the upper eyelid, the length of the eyelid, the width of the double eyelid, etc. When various double-fold eyelid operations are carried out, no eye measuring tool which is convenient to use is used by doctors all the time, so that the eye plastic operation is very troublesome, and the plastic effect is relatively poor.

Patent document with application number of CN201721205926.X discloses an eye reshaping designer, which comprises a first handle, a first measuring foot connected with the first handle, a second handle and a second measuring foot connected with the second handle, wherein the first handle is hinged with the second handle, a hinged rivet is arranged at a joint point, and a spiral spring is sleeved on the hinged rivet; the tail parts of the first handle and the second handle are provided with measuring branch scales, scale marks are arranged on the measuring branch scales, and the scale values of the scale marks correspond to the distance between the first measuring foot and the second measuring foot. Although the utility model has the advantages of simple structure, the length of measurement eyelid that can be comparatively convenient, but only rely on the range estimation to adjust the distance between first survey foot and the second survey foot in actual use, length between two eyelids of unable comparatively accurate measurement.

SUMMERY OF THE UTILITY MODEL

The defect that the ordinary eye measuring instrument that exists can't carry out accurate measurement to the eye among the prior art, the utility model provides an eye measuring instrument that becomes more meticulous. It can realize comparatively accurate carry out measuring function to the eye.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

an eye fine measuring instrument comprises an eye patch, wherein a measuring mechanism placing cavity with an opening positioned on the bottom wall of the eye patch is arranged in the eye patch, a horizontally arranged chute is arranged above the measuring mechanism placing cavity in the eye patch, two sliding blocks are slidably arranged in the chute, and driving mechanisms for driving the sliding blocks are arranged at two ends of the chute in the measuring mechanism placing cavity; the end part of the slider, which is close to the center of the eye patch, is provided with a first screw hole perpendicular to the sliding direction of the slider, a first screw rod which is matched with the first screw hole and has one end positioned at the bottom end of the cavity for placing the measuring mechanism is arranged in the first screw hole, and a rubber base which is positioned at the bottom end of the cavity for placing the measuring mechanism is arranged on the first screw rod.

Through the utility model discloses a setting of slider, actuating mechanism and first screw rod can make the user when carrying out the measurement of eye, place the eye-shade above the eyes of accepting the person of measuring, then observe the position of first screw rod through the spout, adjust the position of every slider through actuating mechanism and make the first screw rod on the slider be located the both ends of eyelid respectively, later make rubber base support gently through rotating first screw rod and lean on the edge part of eyelid, when screwing first screw rod, the person of accepting the measurement need inform the user at any time whether rubber base touches with the eyelid, prevent that rubber base from causing the damage around the eyelid of accepting the person of measuring; and finally, driving the sliding block to finely adjust the first screw rods, taking down the eyeshade from the eyes of the person receiving the eye measurement when the rubber base is lightly abutted against the edge of the eyelids of the person receiving the measurement, and measuring the distance between the two first screw rods by using a measuring tool such as a vernier caliper to obtain the length of the eyelids of the person receiving the measurement. The utility model discloses compare the setting that eye plastic designer in the contrast file passes through eye-shade, slider and first screw rod, support at the edge of eyelid through rubber base on the first screw rod for it is more accurate to the measurement of the length of eyelid, avoided because the range estimation and lead to measuring error's production, through the use of eye-shade, also prevented when using rubber base touch the eye of accepting the eye measurement person and cause the damage of eye.

Preferably, the two ends of the sliding groove in the eye patch are both provided with second screw holes which are communicated with the sliding groove and are horizontally arranged, and the end parts of the second screw holes penetrate through the side wall of the eye patch; the driving mechanism comprises a second screw matched with the second screw hole and the end part of the second screw penetrates out of the side wall of the eyeshade, a connecting cavity which is horizontally arranged and has an opening diameter smaller than the diameter of the inner wall is arranged at the end part of the sliding block close to the second screw, and a connecting seat in clearance fit with the connecting cavity is arranged at the end part of the second screw.

The utility model discloses in, through the setting of second screw and second screw rod, can realize the removal of slider through rotating the second screw rod to make this utility model have the stability of preferred when using.

Preferably, the connecting seat includes that the setting is at the tip of second screw rod and with the first connecting block of the opening clearance fit of connecting the chamber, the tip of first connecting block stretches into connecting the chamber, and the tip that stretches into connecting the chamber on the first connecting block outwards expands along its circumference and forms the diameter and be greater than connecting the chamber opening diameter and be less than the second connecting block of connecting the intracavity wall diameter.

The utility model discloses in, through the setting of the concrete structure of connecting seat, can be comparatively simple realize the second screw rod and be connected with the slider to make this utility model have the stability of preferred when using.

Preferably, the two ends of the eye patch positioned on the sliding groove are inwards sunken to form an observation port communicated with the measuring mechanism placing cavity.

The utility model discloses in, through the setting of viewing aperture, can conveniently use this utility model to observe the position of first screw rod to daily use has been made things convenient for.

Preferably, the upper surface of the sliding block is provided with a first nut used for being matched with the first screw rod, the side wall of the eyeshade, which is close to the second screw rod, is inwards sunken to form a nut placing cavity with a horizontal bottom surface, and a second nut used for being matched with the second screw rod is arranged in the nut placing cavity.

The utility model discloses in, through the setting of first nut and second nut, can make can twist when removing first screw rod to relevant position and move first nut and second nut and fix the position of first screw rod to prevent the removal of first screw rod and second screw rod and lead to measuring the error, thereby promoted this utility model accuracy to eye measurement.

Preferably, the end portions of the first screw and the second screw are connected to screwing seats with threads on the surfaces.

The utility model discloses in, through the setting of twisting the seat, can the person of facilitating the use twist and move first screw rod and second screw rod to daily use has been made things convenient for.

Drawings

Fig. 1 is a schematic structural diagram of an eye refinement measurement instrument in embodiment 1;

FIG. 2 is a sectional view of the eye fine measuring instrument according to embodiment 1;

FIG. 3 is an enlarged view of part A in example 1;

fig. 4 is a schematic structural diagram of the connection socket in embodiment 1.

The names of the parts indicated by the numerical references in the drawings are as follows:

110. eye masks; 120. a chute; 130. a slider; 140. a first screw; 150. a second screw; 160. a viewing port; 170. a first nut; 180. a nut placing cavity; 181. a second nut; 190. screwing the seat; 210. a measuring mechanism placing cavity; 220. a rubber base; 230. a second screw hole; 310. a first screw hole; 320. a connecting cavity; 330. a connecting seat; 410. a first connection block; 420. and a second connecting block.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention only and are not limiting.

Example 1

As shown in fig. 1-4, the present embodiment provides an eye fine measurement instrument, which includes an eye mask 110, a measurement mechanism placing cavity 210 with an opening located on the bottom wall of the eye mask 110 is provided in the eye mask 110, a horizontally disposed chute 120 is provided in the eye mask 110 above the measurement mechanism placing cavity 210, two sliders 130 are slidably provided in the chute 120, and driving mechanisms for driving the sliders 130 are provided at two ends of the chute 120 in the measurement mechanism placing cavity 210; the end of the slider 130 near the center of the eye mask 110 is provided with a first screw hole 310 perpendicular to the sliding direction of the slider 130, a first screw 140 is provided in the first screw hole 310, the first screw hole 310 is matched with the first screw hole 310, one end of the first screw 140 is located at the bottom end of the measuring mechanism placing cavity 210, and a rubber base 220 is provided on the first screw 140, located at the bottom end of the measuring mechanism placing cavity 210.

Through the arrangement of the sliding blocks 130, the driving mechanism and the first screw rods 140 in the embodiment, when a user performs eye measurement, the eye mask 110 is placed above eyes of a person to be measured, then the position of the first screw rods 140 is observed through the sliding grooves 120, the position of each sliding block 130 is adjusted through the driving mechanism, so that the first screw rods 140 on the sliding blocks 130 are respectively positioned at two ends of an eyelid, then the rubber base 220 is lightly abutted against the edge part of the eyelid by rotating the first screw rods 140, when the first screw rods 140 are screwed, the person to be measured needs to inform the user whether the rubber base 220 is in contact with the eyelid at any time, and the rubber base 220 is prevented from being damaged around the eyelid of the person to be measured; finally, the sliding block 130 is driven to finely adjust the first screw rods 140, when the rubber base 220 lightly abuts against the edge of the eyelid of the person receiving the measurement, the eyeshade 110 can be taken down from the eye of the person receiving the eye measurement, and the length of the eyelid of the person receiving the measurement can be obtained by measuring the distance between the two first screw rods 140 by a measuring tool such as a vernier caliper. Compared with the eye shaping designer in the comparison document, the eye fine measurement instrument in the embodiment is arranged through the eye cover 110, the sliding block 130 and the first screw rod 140, the rubber base 220 on the first screw rod 140 is abutted against the edge of the eyelid, so that the length of the eyelid is more accurately measured, the generation of measurement errors caused by visual inspection is avoided, and meanwhile, the damage to the eyes caused by the fact that the rubber base 220 touches the eyes of a person receiving the eye measurement when the eye fine measurement instrument is used is prevented through the use of the eye cover 110. Meanwhile, the eye fine measuring instrument has the characteristics of simple structure and convenience in operation. It should be noted that, in order to observe the position of the first screw 140 more conveniently, the eye mask 110 is preferably made of transparent material.

Referring to fig. 2, in the present embodiment, the eye cover 110 has second screw holes 230 at two ends of the sliding slot 120, which are communicated with the sliding slot 120 and horizontally disposed, and the ends of the second screw holes 230 penetrate through the side wall of the eye cover 110; the driving mechanism comprises a second screw 150 which is matched with the second screw hole 230 and the end part of which penetrates out of the side wall of the eye mask 110, a connecting cavity 320 which is horizontally arranged and the opening diameter of which is smaller than the diameter of the inner wall is arranged at the end part of the sliding block 130 which is close to the second screw 150, and a connecting seat 330 which is in clearance fit with the connecting cavity 320 is arranged at the end part of the second screw 150.

Through the arrangement of the second screw hole 230 and the second screw 150 in the embodiment, the movement of the slider 130 can be realized by rotating the second screw 150, so that the eye fine measurement instrument has better stability when in use.

In this embodiment, the connection holder 330 includes a first connection block 410 disposed at an end of the second screw 150 and in clearance fit with the opening of the connection cavity 320, the end of the first connection block 410 extends into the connection cavity 320, and an end of the first connection block 410 extending into the connection cavity 320 expands outward along a circumferential direction thereof to form a second connection block 420 having a diameter larger than the opening diameter of the connection cavity 320 and smaller than the diameter of the inner wall of the connection cavity 320.

Through the specific structure of the connecting seat 330 in this embodiment, the connection between the second screw 150 and the slider 130 can be realized more simply, so that the eye fine measurement instrument has better stability when in use.

In this embodiment, the eye cup 110 is formed with the observation port 160 communicating with the measurement mechanism placing chamber 210 by recessing both ends of the chute 120 inward.

Through the arrangement of the observation port 160 in the embodiment, the position of the first screw rod 140 can be conveniently observed by using the eye fine measurement instrument, so that the daily use is facilitated.

In this embodiment, the upper surface of the sliding block 130 is provided with a first nut 170 for engaging with the first screw 140, the side wall of the eyecup 110 near the second screw 150 is recessed inward to form a nut placing cavity 180 with a horizontal bottom surface, and a second nut 181 for engaging with the second screw 150 is provided in the nut placing cavity 180.

Through the arrangement of the first nut 170 and the second nut 181 in the embodiment, when the first screw rod 140 is moved to the corresponding position, the first nut 170 and the second nut 181 can be screwed to fix the position of the first screw rod 140, so that the measurement error caused by the movement of the first screw rod 140 and the second screw rod 150 is prevented, and the accuracy of the eye fine measurement instrument for eye measurement is improved.

In this embodiment, the end portions of the first screw 140 and the second screw 150 are connected to a screwing seat 190 with threads on the surface.

Through the arrangement of the screwing seat 190 in the embodiment, a user can conveniently screw the first screw rod 140 and the second screw rod 150, thereby facilitating daily use.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (6)

1. Eye fine-tuning measuring instrument, its characterized in that: the eye patch comprises an eye patch (110), wherein a measuring mechanism placing cavity (210) with an opening positioned on the bottom wall of the eye patch (110) is arranged in the eye patch (110), a horizontally arranged sliding chute (120) is arranged above the measuring mechanism placing cavity (210) in the eye patch (110), two sliding blocks (130) are arranged in the sliding chute (120) in a sliding manner, and driving mechanisms for driving the sliding blocks (130) are arranged at two ends of the measuring mechanism placing cavity (210) positioned in the sliding chute (120); the end part of the slider (130) close to the center of the eye cover (110) is provided with a first screw hole (310) perpendicular to the sliding direction of the slider (130), the first screw hole (310) is internally provided with a first screw rod (140) which is matched with the first screw hole (310) and one end of which is positioned at the bottom end of the measuring mechanism placing cavity (210), and the first screw rod (140) which is positioned at the bottom end of the measuring mechanism placing cavity (210) is provided with a rubber base (220).

2. The eye refinement and measurement instrument of claim 1, wherein: two ends of the eye cover (110) positioned in the sliding groove (120) are respectively provided with a second screw hole (230) which is communicated with the sliding groove (120) and is horizontally arranged, and the end part of the second screw hole (230) penetrates through the side wall of the eye cover (110); the driving mechanism comprises a second screw rod (150) which is matched with the second screw hole (230) and the end part of which penetrates out of the side wall of the eye patch (110), a connecting cavity (320) which is horizontally arranged and the opening diameter of which is smaller than the diameter of the inner wall is arranged at the end part, which is close to the second screw rod (150), of the sliding block (130), and a connecting seat (330) which is in clearance fit with the connecting cavity (320) is arranged at the end part of the second screw rod (150).

3. The eye refinement and measurement instrument of claim 2, wherein: the connecting seat (330) comprises a first connecting block (410) which is arranged at the end part of the second screw rod (150) and is in clearance fit with the opening of the connecting cavity (320), the end part of the first connecting block (410) extends into the connecting cavity (320), and the end part of the first connecting block (410) extending into the connecting cavity (320) is outwards expanded along the circumferential direction to form a second connecting block (420) with the diameter larger than the opening diameter of the connecting cavity (320) and smaller than the diameter of the inner wall of the connecting cavity (320).

4. The eye refinement and measurement instrument of claim 3, wherein: the two ends of the eye cover (110) positioned on the sliding groove (120) are inwards sunken to form an observation port (160) communicated with the measuring mechanism placing cavity (210).

5. The eye refinement and measurement instrument of claim 4, wherein: the upper surface of slider (130) is equipped with and is used for with first screw rod (140) matched with first nut (170), and the lateral wall that is close to second screw rod (150) on eye-shade (110) is inside sunken to form bottom surface horizontally nut and places chamber (180), is equipped with in the nut places chamber (180) to be used for with second screw rod (150) matched with second nut (181).

6. The eye refinement and measurement instrument of claim 5, wherein: the end parts of the first screw rod (140) and the second screw rod (150) are connected with screwing seats (190) with threads on the surfaces.

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