CN215017427U

CN215017427U - Heavy eyelid measuring designer

Info

Publication number: CN215017427U
Application number: CN202120512541.8U
Authority: CN
Inventors: 陈磊
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-10
Filing date: 2021-03-10
Publication date: 2021-12-07
Anticipated expiration: 2031-03-10

Abstract

The utility model provides a heavy eyelid measurement designer, which relates to the technical field of micro plastic surgery and comprises an eye space measuring component and two double eyelid design components; one of the double eyelid design components is hinged at one end of the eye distance measuring component, and the other of the double eyelid design components is hinged at the other end of the eye distance measuring component. Compared with the prior art, the double eyelid measurement designer provided by the application can measure the double eyelid width and the interocular distance of the double eyes of a patient simultaneously through the two double eyelid design components and the interocular distance measurement component of the double eyelid measurement designer during actual use. For a single eyelid patient, the double eyelid measuring designer can design a good-looking double eyelid for the patient according to the requirements and aesthetic principles of the patient and draw lines accurately.

Description

Heavy eyelid measuring designer

Technical Field

The utility model belongs to the technical field of little plastic surgery technique and specifically relates to a designer is measured to heavy eyelid.

Background

The double eyelid surgery is also called double eyelid surgery, and is one of the most common operations in plastic surgery. There are various surgical methods such as a line-burying method and an incision method, but in any method, an operator needs to design a double eyelid shape according to the patient's own aesthetic principle and the patient's own needs, design and draw lines before the operation of the patient, and draw the lines to perform the operation.

At present, the design of the double eyelid operation is that a doctor designs manually according to personal experience, the efficiency is low, and time and labor are wasted. For the formed double eyelid, no existing measuring tool exists, and only indirect measurement can be carried out according to the current simple tool. And the measurement and design can be carried out only on one side, and the measurement and design can not be carried out simultaneously on two sides.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a design ware is measured to heavy eyelid to the design of solving current heavy eyelid art is that the doctor is according to personal experience, manual design, and efficiency is lower, wastes time and energy. For the formed double eyelid, no existing measuring tool exists, and only indirect measurement can be carried out according to the current simple tool. And the measurement and design can be only carried out on one side, and the measurement and design can not be carried out on two sides simultaneously.

The utility model provides a heavy eyelid measuring designer, which comprises an eye distance measuring component and two double eyelid designing components;

one of the double eyelid design components is hinged at one end of the eye distance measuring component, and the other of the double eyelid design components is hinged at the other end of the eye distance measuring component.

Further, the double eyelid design assembly comprises a first positioning rod and a second positioning rod;

the first positioning rod is arc-shaped corresponding to the radian of the upper eyelid, one end of the first positioning rod is connected with the eye distance measuring assembly, and one end of the second positioning rod is connected with the middle point of the first positioning rod.

Furthermore, the double eyelid design assembly further comprises a third positioning rod, and the first positioning rod is a flexible piece;

the two ends of the third positioning rod are respectively hinged with the two ends of the first positioning rod, the second positioning rod is a telescopic rod, one end of the second positioning rod is hinged with the middle point of the first positioning rod, and the other end of the second positioning rod is hinged with the middle point of the third positioning rod.

Further, the third positioning rod comprises a middle section, a first telescopic section and a second telescopic section; one end, far away from the first positioning rod, of the second positioning rod is hinged with the middle section;

one end of the first telescopic section is connected with one end of the first positioning rod, and the other end of the first telescopic section is connected with one end of the middle section;

one end of the second telescopic section is connected with the other end of the first locating rod, and the other end of the second telescopic section is connected with one end, far away from the second telescopic section, of the first locating rod.

Furthermore, scales are arranged on the first positioning rod;

and/or scales are arranged on the second positioning rod.

Further, the inter-eye distance measuring assembly comprises a first supporting piece, a second supporting piece, a hinge shaft and a support rod;

one end of the first supporting piece and one end of the second supporting piece are hinged with one end of the supporting rod through the hinge shaft, and the other end of the first supporting piece is hinged with one double-fold eyelid design component; the other end of the second supporting piece is hinged with the other double-fold eyelid design component.

Furthermore, the eye distance measuring assembly also comprises a measuring plate, the measuring plate is semicircular, and scales are arranged on the measuring plate and used for indicating the distance between the two eyes;

the measuring plate is fixed at the hinged position of the first supporting piece and the second supporting piece, and the hinged shaft is located at the circle center of the measuring plate.

Further, still include first extensible member, the one end of first extensible member with first support piece is kept away from the one end of articulated shaft is articulated, the other end of first extensible member with second support piece is kept away from the one end of articulated shaft is articulated.

Furthermore, scales are arranged on the first telescopic piece.

Further, the heavy eyelid measurement designer further comprises a handle, and the handle is connected to the bottom of the support rod.

The utility model provides a heavy eyelid measuring designer, which comprises an eye distance measuring component and two double eyelid designing components; one of the double eyelid design components is hinged at one end of the eye distance measuring component, and the other of the double eyelid design components is hinged at the other end of the eye distance measuring component.

Compared with the prior art, the double eyelid measurement designer provided by the application can measure the double eyelid width and the interocular distance of the double eyes of a patient simultaneously through the two double eyelid design components and the interocular distance measurement component of the double eyelid measurement designer during actual use. For a single eyelid patient, the double eyelid measuring designer can design a good-looking double eyelid for the patient according to the requirements and aesthetic principles of the patient and draw lines accurately.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a first form of structure diagram of a heavy eyelid measurement designer according to an embodiment of the present invention;

fig. 2 is a structural diagram of a second form of a heavy eyelid measurement designer according to an embodiment of the present invention;

fig. 3 is a structural diagram of a double eyelid design assembly of a second form of a double eyelid measurement designer according to an embodiment of the present invention;

fig. 4 is a structural diagram of a third form of the heavy eyelid measurement designer according to the embodiment of the present invention;

fig. 5 is a structural diagram of a fourth embodiment of the heavy eyelid measurement designer according to the present invention.

Icon: 100-eye distance measurement assembly; 110-a first support; 120-a second support; 130-articulated shaft; 140-measurement plate; 150-strut; 160-a first telescoping member; 170-a second telescoping member; 180-a handle; 200-double eyelid design component; 210-a first positioning bar; 220-a second positioning rod; 230-a third positioning rod; 231-a first telescoping section; 232-middle section; 233-second telescoping section.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

There are various methods such as a catgut embedding method and an incision method in the double eyelid surgery, but in any method, it is necessary to design and draw a line before the surgery and to draw a line to perform the surgery. The inner canthus excrescence correction needs to measure the length of the eye cleft and the inter-ocular distance before operation and carries out line drawing design according to the measurement result. At present, there is not the specialized tool to double eyelid measurement and design in the market, also does not have the instrument and can directly carry out the measurement of eye space, more does not have the instrument that can carry out double eyelid measurement and design to the binocular simultaneously to can measure eye space.

As shown in fig. 1 to 5, the double eyelid measurement designer according to the present embodiment can measure and design double eyelids of both eyes simultaneously, and can measure the inter-ocular distance, specifically including an inter-ocular distance measuring assembly 100 and two double eyelid designing assemblies 200.

One double eyelid design assembly 200 is hinged at one end of the eye distance measuring assembly 100 and the other double eyelid design assembly 200 is hinged at the other end of the eye distance measuring assembly 100.

Compared with the prior art, the double eyelid measurement designer provided by the application can measure the double eyelid width and the eye distance of the two eyes of a patient at the same time through the two double eyelid design components 200 and the eye distance measurement component 100 of the double eyelid measurement designer during actual use. For a single eyelid patient, the double eyelid measuring designer can design a good-looking double eyelid for the patient according to the requirements and aesthetic principles of the patient and draw lines accurately.

As shown in fig. 1, further, the double eyelid design assembly 200 includes a first positioning rod 210 and a second positioning rod 220.

The first positioning rod 210 has an arc shape corresponding to the radian of the upper eyelid, one end of the first positioning rod 210 is connected to the eye distance measuring unit 100, and one end of the second positioning rod 220 is connected to the midpoint of the first positioning rod 210.

Preferably, the first positioning rod 210 is provided with a scale; and/or, a scale is arranged on the second positioning rod 220. In this embodiment, the first positioning rod 210 and the second positioning rod 220 are provided with scales.

Specifically, the first positioning rod 210 is shaped in accordance with the arc of the upper eyelid and is provided with a scale for the design of double eyelid. In the double eyelid design, when the first positioning rods 210 of the two double eyelid design components 200 of the double eyelid measurement designer can respectively support the corresponding positions of the upper eyelid under the eye closing condition, the patient can open the eyes to generate double eyelids, and the simulation of the double eyelids before the operation can be realized. If the simulated double eyelids on the two sides are symmetrical and attractive, the patient can close the eyes and draw lines along the first positioning rod 210, the two sides of the drawn lines are required to be symmetrical, and the operation is required to be performed along the drawn lines during the operation.

It should be noted that, the arc-shaped first positioning rod 210 is used to support the corresponding position of the upper eyelid, the second positioning rod 220 is used to position the distance between the first positioning rod 210 (i.e. the position to be scribed) and the lower edge of the upper eyelid, i.e. the width of the double eyelids, for example, 7mm or 6mm, and after simulation, the eyes are closed to scribe, so that the operation is simple and convenient, and the practicability is high.

It should be noted that second locating lever 220 is articulated with first locating lever, and also is equipped with the scale on the second locating lever 220, and the scale uses the millimeter as the unit, and second locating lever 220 is used for the measurement of double eyelid width, to the customer that has double eyelid, places second locating lever 220 in double eyelid line position, can directly measure the width of double eyelid through the scale on second locating lever 220. For a patient who needs to perform a double-fold eyelid operation, an ideal double-fold eyelid can be designed according to a certain width by the scale on the second positioning rod 220.

As shown in fig. 2 and fig. 3, further, the double eyelid designing assembly 200 further includes a third positioning rod 230, and the first positioning rod 210 is a flexible member.

The two ends of the third positioning rod 230 are hinged to the two ends of the first positioning rod 210, the second positioning rod 220 is a telescopic rod, one end of the second positioning rod 220 is hinged to the midpoint of the first positioning rod 210, and the other end of the second positioning rod 220 is hinged to the midpoint of the third positioning rod 230.

Specifically, the third positioning rod 230 is also provided with a scale, and the third positioning rod 230 is used for measuring the length of the eye. When measuring the double eyelid, the end is located on the eyelid margin, i.e. the root of the eyelash. The medial side is located at the inner canthus, and the corresponding scale of the outer canthus is the length of one eye.

It should be noted that the second positioning rod 220 may include an inner rod and an outer rod, the inner rod is inserted into the outer rod, and the inner rod can slide relative to the outer rod to extend and retract the second positioning rod 220.

Preferably, third positioning rod 230 includes a middle section 232, a first telescoping section 231, and a second telescoping section 233; the end of the second positioning rod 220 away from the first positioning rod 210 is hinged to the middle section 232.

One end of the first telescopic section 231 is connected with one end of the first positioning rod 210, and the other end of the first telescopic section 231 is connected with one end of the middle section 232.

One end of the second telescopic section 233 is connected with the other end of the first positioning rod 210, and the other end of the second telescopic section 233 is connected with one end of the first positioning rod 210 far away from the second telescopic section 233.

Because of everyone's eye size difference, consequently with second locating lever 220 and third locating lever 230 design for the telescopic structure, because of first locating lever 210 is flexible pole, at this moment, through the length of adjustment second locating lever 220 and third locating lever 230 to realize the change of first locating lever 210 radian, thereby improve this design ware is measured to double eyelid's commonality. Wherein, the third locating lever 230 designs the first flexible section 231 that connects gradually, interlude 232 and the flexible section 233 of second, the length that also is the first flexible section 231 of interlude 232 both sides and the flexible section 233 of second all can be adjusted, consequently, the one end of keeping away from first locating lever 210 with second locating lever 220 is connected with interlude 232, through adjusting first flexible section 231 and the flexible section 233 of second respectively, can protect the intermediate position that second locating lever 220 and interlude 232's hookup location is in the intermediate position of third locating lever 230 all the time, be convenient for the width of second locating lever 220 measurement double-edged eyelid.

It should be noted that the first telescopic section 231 and the second telescopic section 233 may be respectively inserted into the middle section 232, and both can slide relative to the middle section 232 to achieve length adjustment.

In the present embodiment, the eye distance measuring assembly 100 includes a first support 110, a second support 120, an articulated shaft 130, and a strut 150.

One end of the first supporter 110 and one end of the second supporter 120 are hinged to one end of the strut 150 through the hinge shaft 130, and the other end of the first supporter 110 is hinged to a double eyelid design assembly 200; the other end of the second support 120 is hinged to another double eyelid design assembly 200.

Specifically, since the first support 110 and the second support 120 are hinged by the hinge shaft 130, the angle between the first support 110 and the second support 120 can be adjusted to make the hinge joint of the first support 110 and one of the double eyelid design components 200 correspond to the inner canthus of one eye, and the hinge joint of the second support 120 and the other of the double eyelid design components 200 correspond to the inner canthus of the other eye, so as to obtain the inter-ocular distance by measuring the distance between the two hinge joints, and comparing the inter-ocular distance with the measured value of the length of the eye to determine whether to perform the correction of the inner canthus excrescence and the degree of correction.

Preferably, the inter-eye distance measuring assembly 100 further includes a measuring plate 140, the measuring plate 140 is semicircular, and the measuring plate 140 is provided with scales, the scales are arranged along the circumferential direction of the measuring plate 140, and the scales are used for indicating the distance between the two eyes; the measuring plate 140 is fixed at the hinge joint of the first support 110 and the second support 120, and the hinge shaft 130 is located at the center of the measuring plate 140.

Specifically, since the first support 110 and the second support 120 are hinged to enable the first support 110 and the second support 120 to be opened, the hinge of the first positioning rod 210 and the first support 110 can be aligned with the inner canthus of one eye, and the hinge of the other first positioning rod 210 and the second support 120 can be aligned with the inner canthus of the other eye, so as to directly read the interocular distance according to the scale on the measurement board 140.

It should be noted that, the first supporting member 110 and the second supporting member 120 may also be provided with scales, the measuring plate 140 is provided with a plurality of scales, the angle between the first supporting member 110 and the second supporting member 120 may be measured by the measuring plate 140, and the interocular distance may also be derived according to the angle.

As shown in fig. 4, it should be noted that a second telescopic member 170 is disposed between the first support member 110 and the second support member 120, one end of the second telescopic member 170 is hinged to the first support member 110, and the other end is hinged to the second support member 120, wherein the second telescopic member 170 also includes an inner rod and an outer rod that are sleeved with each other, and the inner rod can slide relative to the outer rod, so as to achieve the function of adjusting the length of the second telescopic rod.

As shown in fig. 5, as another implementation of the present application for measuring the inter-ocular distance, the inter-ocular distance measuring assembly 100 may further include a first telescopic member 160, one end of the first telescopic member 160 is hinged to one end of the first support 110 away from the hinge shaft 130, and the other end of the first telescopic member 160 is hinged to one end of the second support 120 away from the hinge shaft 130.

Preferably, a scale is provided on the first telescopic member 160.

Specifically, the inter-ocular distance measuring assembly 100 includes a first support 110, a second support 120, a hinge shaft 130 and a first telescopic member 160, wherein one ends of the first support 110 and the second support 120 are respectively hinged through the hinge shaft 130, one end of the first telescopic member 160 is respectively hinged with the first support 110 and the first positioning member, the other end of the first telescopic member 160 is respectively hinged with the second support 120 and the other first positioning member, and the inter-ocular distance can be directly read through adjusting the length of the first telescopic member 160 and through the scale on the first telescopic member. During measurement, two end points of the first telescopic member 160 are placed at the inner canthus points on two sides, the length of the first telescopic member 160 is the interocular distance, and then the measured interocular distance is compared with the measured value of the ocular length to determine whether the inner canthus excrescence correction and the correction degree are needed.

Further, the heavy eyelid measurement designer further includes a handle 180, and the handle 180 is attached to the bottom of the strut 150.

Specifically, the bottom of the supporting rod 150 is provided with a handle 180 for easy holding, and the shape of the supporting rod is limited, and can be circular, triangular or the like for easy holding.

The double eyelid measurement designer provided by the embodiment can realize the following functions:

firstly, measurement: the width of the existing double eyelid, the length of the eyes and the distance between the eyes are measured.

Secondly, designing: the shape of the double eyelid is designed according to different widths, and the effect after the double eyelid operation is simulated before the operation.

Thirdly, drawing lines: and drawing a line along the simulated design end by using a line drawing pen according to the shape of the double-eyelid designed by the designer.

The existing double eyelid measuring and designing tool can only carry out the design of a single eye, and the double eyelid measuring and designing device can simultaneously carry out the measurement and design of eyes at two sides and can simultaneously see the effect of double eyelid at two sides after being formed.

To sum up, the utility model provides a heavy eyelid measurement designer, which comprises an eye distance measuring component 100 and two double eyelid design components 200; one double eyelid design assembly 200 is hinged at one end of the eye distance measuring assembly 100 and the other double eyelid design assembly 200 is hinged at the other end of the eye distance measuring assembly 100. Compared with the prior art, the double eyelid measurement designer provided by the application can measure the double eyelid width and the eye distance of the two eyes of a patient at the same time through the two double eyelid design components 200 and the eye distance measurement component 100 of the double eyelid measurement designer during actual use. For a single eyelid patient, the double eyelid measuring designer can design a good-looking double eyelid for the patient according to the requirements and aesthetic principles of the patient and draw lines accurately.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims

1. The double eyelid measurement designer is characterized by comprising an interocular distance measurement component and two double eyelid design components;

2. The double eyelid measurement designer according to claim 1, wherein the double eyelid design assembly includes a first positioning rod and a second positioning rod;

3. The double eyelid measurement designer according to claim 2, wherein the double eyelid design assembly further comprises a third positioning rod, the first positioning rod being a flexible member;

4. The heavy eyelid measurement designer of claim 3, wherein the third positioning rod comprises a middle section, a first telescoping section, and a second telescoping section; one end, far away from the first positioning rod, of the second positioning rod is hinged with the middle section;

5. The heavy eyelid measurement designer according to any one of claims 2-4, characterized in that the first positioning rod is provided with a scale;

and/or scales are arranged on the second positioning rod.

6. The heavy eyelid measurement designer of claim 1, wherein the interocular distance measurement assembly comprises a first support, a second support, an articulated shaft, and a strut;

7. The double eyelid measurement designer according to claim 6, wherein the eye distance measurement assembly further comprises a measurement plate, the measurement plate is semicircular and is provided with a scale for indicating the distance between the two eyes;

8. The heavy eyelid measurement designer according to claim 6, further comprising a first telescoping member, one end of the first telescoping member being hinged to the end of the first support member distal from the hinge axis, the other end of the first telescoping member being hinged to the end of the second support member distal from the hinge axis.

9. The heavy eyelid measurement designer of claim 8, wherein the first telescoping member is provided with a scale.

10. The heavy eyelid measurement designer of claim 6, further comprising a handle attached to the bottom of the strut.