RU2141243C1 - Device for selection of frame and lenses of corrective spectacles - Google Patents

Abstract

FIELD: medical engineering, namely ophthalmologic instruments. SUBSTANCE: device has lens- carrying bridge taking into account differences in anthropometric structure of patient's heads. Device also includes changeable nose rest positioned immovably and telescopically separated behind-ear members, length of which is fixed by means of stops. Behind-ear members are provided with changeable inserts with bent end pieces and separated measuring scales. Position of device on patient's head is highly stable. Device is convenient to handle. When device is in operation optical axes of lenses are arranged along centers of pupils and axes of patient's vision, which facilitates selection of corrective lenses. EFFECT: enhanced reliability. 6 cl, 11 dwg

Description

 The proposal relates to medical equipment, namely, to ophthalmic tests intended for the selection of frames and lenses of corrective glasses by the method of subjective testing.

Correctly selected frames and lenses of corrective glasses must satisfy the following requirements:
- the frame must be firmly held on the patient's face, not falling from the bridge of the nose when moving the head;
- the elements of the nasal emphasis of the rim and temples should be selected in accordance with the anthropometry data of the front of the patient’s head and not cause him any inconvenience or discomfort;
- the optical axis of the lenses must coincide with the centers of the pupils of the patient and with the direction of his gaze directly in front of him (Brief reference book of medical optics. MD Model. M .: Medicine, 1970).

 A well-known universal frame for the selection of glasses (L.S. Urmacher, L.N. Aizenshtat. Ophthalmic devices. M: Medicine, 1988). The frame contains a frame with two lens holders, an emphasis for a nose bridge and temples. The emphasis is movable and can be fixed in height in any position with a clamping screw.

 The design of the earhooks of the frame is such that in the working position of the frame the earhooks cover the patient’s head, rest on the bases of the auricles, are adjusted and fixed with screws.

 A known frame for the selection of glasses, in which the earhooks are made of elastic sheet material, rigidly connected to the frame, curved and spring-loaded towards each other and have additional elastic elements mounted with the possibility of longitudinal and orthogonal fixation, and the nose support is made self-mounted on an elastic suspension bracket, fixed on the frame (see RF patent N 2086171, IPC 6 A 61 B 3/04).

 A known measuring device for fitting and centering spectacle glasses to a selected frame (see German patent DE 3217940, A 61 B 3/04). The device comprises a frame fastening system, including fastening means in the form of rollers installed in a spacer in the facet grooves of the frame. The load-bearing element of the device is a centering navigation bridge, on which the horizontal bar with rollers and L-shaped levers with vertically moving carriages carrying the same rollers are movably mounted. On the carriages mounted with the possibility of horizontal movement of the rack with screens having central holes for aligning corrective lenses.

 The device is not intended for the selection of frames and lens alignment corrective glasses.

 Known measuring glasses for installing spherical, prismatic and cylindrical glasses, containing a bridge with two carriages moving along it, carrying swivel clips of lens holders, with a nose height meter and with length-adjustable earhooks. The nose height meter is equipped with self-locking brakes.

 On the carriage, measuring scales are provided for measuring the interpupillary distance and circular measuring scales for the angles of rotation of the holder of the lens holder to determine the main meridians of astigmatic eyes. Lens deflectors are equipped with spring ribs for fixing centering inserts with opaque screens having central holes, or test eyeglass lenses.

 The longitudinal movements of the carriages are carried out using the adjustment screws. The device provides a mechanism for turning the holder of the lens holders for spherical and prismatic correction.

 The earhooks are fixed by means of telescopically sliding elements and an eccentric hinge, see European patent EP 0567817, B1, IPC A 61 B 3/04.

 The device allows you to measure the center-to-center distance, the height of the nose stop relative to the optical centers of the lenses, the length of the earhooks and the angle of their installation to the frame of the device.

 However, the constant rigid connection between the bridge and the lens holder when changing the height of the nasal stop leads to an undesirable change in the angle between the optical axes of the lenses and the visual axes of the patient’s eyes.

 A rigid connection between the earhooks and lens holders does not allow a sufficiently high degree of accuracy to take into account differences in the anthropometric structure of the patient’s head, to compensate for its natural asymmetry, and to ensure the asymmetry of the location of the lenses and earholes relative to the center of the nose at equal angles of opening of the earholes.

 In addition, additional errors in the measurement of the parameters of the required frame and lens alignment of corrective glasses are due to the presence of insufficiently accurate adjustment mechanisms, measuring scales and fixation elements for test eyeglass lenses in the lens holders: the test eyeglass lenses are radially pressed to the surfaces of the nests in the holders, offset from the axis of the lens holders.

 These shortcomings significantly increase the inaccuracies in measuring the parameters of the required frame and alignment of the optical axes of the test lenses of the corrective glasses, thereby reducing the correction efficiency of optical-functional visual impairments.

 The technical result of the proposal is to obtain data for the production of corrective glasses that ensure the highest visual acuity achieved during the selection and increase the accuracy of their measurement and, thereby, the effectiveness of correction of visual impairment.

 To achieve this result, a second bridge is additionally introduced into the device, including a lens-bearing bridge with a nasal stop and longitudinal guides at the ends, drop-down earhooks of adjustable length, a suspension in the form of squares with measuring scales and carriages with lens holders equipped with rotation mechanisms from clips and circular measuring scales. , with measuring scales and movably mounted on it with the possibility of longitudinal movement of the sliders with earhooks, also having measuring scales, and p odolnye linzonesuschego rails bridge rails and carriages linzoderozhateley have a vernier scale.

 In this case, the nasal emphasis is made removable, fixedly installed, with the supporting surfaces of the nose pads, the frames of the plastic frame of the corresponding size and taking into account the differences in the anthropometric structure of the patients nose.

 In addition, the nose stop and the sliders with earhooks are fixed by means of stoppers, each of which is made in the form of a screw with a decorative head, a pressure washer, a nut, a fastening screw head and a pressure washer, the locking parts motionless to each other, and a spring pressing the screw head and pressure lockable parts to each other with the possibility of their mutual movement, and on each lens holder there is an element for fixing test eyeglass lenses, made in the form of a thin elastic plate, curved arcuate with slots at the end x along an arc to form on each socket linzoderzhdatelya fixing petals with shaped end shoulders, bent to the center of lens holder and in contact with the V-ledges in the insets and trial spectacle lenses.

 In FIG. 1-4 shows views of the device, respectively, front, top, rear and side.

 In FIG. 5 - a diagram of the centering of the lens holders is given.

 In FIG. 6 is a view B of the back of the lens holder.

 In FIG. 7 is a side view B of the lens holder.

 In FIG. 8 is a view G of the lens holder from above.

 In FIG. 9 is a view of DD. Cutaway stopper.

 In FIG. 10 is a view of MF. Section guides of the lens-bearing bridge.

 In FIG. 11 - centering insert.

 The device comprises a lens-bearing bridge 1 in the form of a metal strip with end parts forming the guides 1a and 1b.

 In the guide rails of the bridge are installed horizontal ends with the possibility of longitudinal movement of the squares 2 and 3, on which the horizontal measuring scales 2a, 3a and vertical measuring scales 2b, 3b are applied.

 At the vertical ends of the squares, carriages 4 and 5 are movably mounted, which have guides 4a and 5a for squares and lens holders 6, 7 equipped with measuring dials 6a, 7a. Lens holders contain rotary clips 8 and 9 with sockets for accommodating centering inserts 10 or test eyeglass lenses 11, each of which has identical rims with a locking groove 10a at the bottom, a shank 10b at the top, and wedge ledges 10b at the sides. Centering inserts have opaque screens with a central hole of small diameter d. Cage nests are formed by a series of internal cylindrical bores, with a cut of the upper half of the cage above the bores and cutouts in the lower part. The width of the nests b is made corresponding to the width of the landing belt of the inserts. The clips with trial eyeglass lenses can rotate around their central axis with the handwheels 12 and 13 of the gear rotation mechanisms.

 Longitudinal movements of the lens holders are carried out by adjusting screws 14 and 15, moving the squares 2 and 3 in the guides of the bridge 1.

 Vertical movements of the lens holders are made by adjusting screws 16 and 17, which move the carriages 4 and 5 along the angles 2 and 3.

 In the middle part of the bridge 1 one of the adjacent nose stops 18 is fixedly fixed, having a shank with a groove. The nose stop is fixed with a stop 19, including a screw 20 with a decorative head, a nut 21 with a spring 22 and a pressure washer 23.

The second bridge 24 is fixedly mounted on the lens-bearing bridge 24 with measuring scales 24a, 24b and with the sliders 25 and 26 moving along it, which are fixed on the bridge by the same stoppers 19. At the lower ends of the sliders on the axes of hinges 27 and 28, the opening earhooks 29 and 30 are fixed. The adjacent plane of the earhook is separated from the hinge axis at a distance of a. The angle of inclination of the ear hooks to the lens holder frame β = 80-85 ^° . The angle of opening of the earhooks α is regulated by screws 31 and 32. The earhooks have a telescopically extendable design, which includes guides 33 and 34 pivotally connected to the sliders, removable inserts 35 and 36 movably mounted in them with measuring scales and curved tips, of a corresponding size and taking into account differences in anthropometric the structure of the bases of the ears of the patients, as well as the stopper 19 for fixing the selected and measured length L ₁ earhooks.

 The retainer 37 rates 10, and test eyeglass lenses 11 is made in the form of an elastic arcuate plate made of thin-sheet high-carbon steel and worn in a bent position.

 The arcuate plate of the retainer at the ends has a series of slots along the arc and a jumper left in the middle, which has holes for mounting on the holder of the lens holder. The slots form elastic petals with profiled shoulders bent to the axis of the lens holder above each holder nest. Due to this, the end sections of the petals provide a preload in the radial direction of the centering inserts and test eyeglass lenses through their wedge protrusions 10b to the inner surface of the nests, thereby reducing the errors of centering of the inserts with screens and test eyeglass lenses relative to the lens holder axes.

 The measuring scales of the angles 2a, 3a and 2b, 3b and the circular scales 6a, 7a of the lens holders have additional nonius scales, 38, 39 and 40, respectively.

 Work with the device is performed in the following order.

 Taking into account the anthropological structure of the head, a replaceable nose stop 18 and replaceable inserts 35 and 36 are selected corresponding to a particular patient, install them in the device and stoppers 19, the replaceable nose stop 18 is fixedly fixed on the bridge 1 and the sliders 25 and 26 are pressed to move the bridge 24 and interchangeable inserts 35 and 36 to the rails 33 and 34.

 As a frame for corrective glasses, they put the device on the patient’s face, achieve a tight but not pressing fit of the nose stop 18 to the surface of the nose, and the behind the ears 29 and 30 to the temporal-occipital surface of the head and to the upper-back of the bases of the auricles, with the stoppers 19 fixed the locking parts pressed against each other and, thereby, ensure a stable position on the patient's face of the device simulating the frame of corrective glasses.

Determine the parameters of the required frame of corrective glasses by the number of interchangeable nose stop 18, the number of interchangeable inserts 35, 36, and also taking readings L ₁ , C _p and C _l according to measuring scales at interchangeable rates 25, 36 and on the second bridge 24.

In this case, the reference point in the process of measuring the coordinates of the axes of the lens holder and the rim parameters is considered to be the point O of the replaceable nose stop lying in the vertical plane of symmetry NN and at the intersection of surfaces with radii R and R _{1 of the} replaceable nose stop 18, whose centers also lie in the plane of symmetry NN .

According to preliminary measurements of the interpupillary distance A, for example, using a measuring ruler or a photopopter, screws 14 and 15 on scales 2a, 3a carry out a preliminary installation of lens holders, for sizes A ' _p and A' _l .

By rotating the adjustment screws 16, 17 on scales 2b, 3b, the axes of the lens holders are arbitrarily pre-set at the heights h ' _p and h' _l .

 The centering inserts 10 are inserted into the lens holder 6, 7 closest to the eyes of the lens holders, first passing them into the guide ends of the latch 37, and then pushing them all the way, while controlling the slight elastic compression of the wedge ledges 10b on the insert by the petal shoulders of the latch 37.

At the intersection of the visual axes Z ' _p E and Z' _l E (Fig. 5) in the state of maximum relaxation of the oculomotor muscles right in front of the patient at a distance a _E from the anterior major points of the eye, H _p and H _l set the fixation point of the eyes E (for example, a cross) and offer the patient to fix a look at her.

Clarify the position of the optical axis of the lenses by moving the lens holders with centering inserts horizontally with screws 14, 15 and vertically with screws 16, 17, and combining the holes of small diameter d inserts with the visual axes of the patient’s eyes. At the same time, keeping a glance at the fixation point E, will ensure the merging of the images of the cross on the retinas of both eyes into a single visual image (fusion). The coordinates of the optical axes of the test eyeglass lenses A ' _p , A' _l and h ' _p , h' _{l are} determined by reading the indications on scales 2a, 3a and 2b, 3b and refining them according to the corresponding nonius scales 38 and 39.

 The centering inserts are removed from the nests and test eyeglass lenses are selected using the known subjective method to obtain the highest visual acuity for the eyes.

 When correcting astigmatism and squint, spherocylindrical or prismatic eyeglass lenses are installed, respectively. The rotation of the lens holder clips in determining the position of the directions of the main sections of the astigmatic and prismatic lens bases is made by the handwheels 12 and 13, and the rotation angles are counted on circular scales 6a and 7a with the refinement of their readings on the vernier scales 40.

 The introduction to the design of the device of the second bridge 24, on which the drop-down removable earhooks of adjustable length are mounted with the possibility of longitudinal movement, provides regardless of the position of the lens holders the possibility of separately adjusting the position of the earhooks relative to the measuring base - the central point O of the nose stop 18, and thus allows to take into account all the differences in the anthropometric structure and the natural asymmetry of the front part of the patient’s head, thereby significantly reducing measurement errors the measured parameters of the spectacle frame.

 The second bridge, which is fixedly connected to the lens-bearing bridge, with measuring scales, on which the earhooks are mounted with the possibility of separate and independent longitudinal movement from the lens holders, taking into account differences in the anthropometric structure of the patient’s head, interchangeable and fixed mounted nose stops and interchangeable inserts with measuring scales and curved tips of telescopically extendable earhooks and stoppers, lens holder suspensions, including carriages, squares and measuring scales, centering The inserts and spring clips of their position in the lens holders increase the stability of the device’s position on the patient’s face and make it easier to work with, provide the optical axis of the lenses along the centers of the pupils and visual axes of the patient, facilitate the selection of corrective lenses that provide the highest visual acuity, modeling of action corrective glasses on the patient and more accurate measurement of the parameters of the frames of the corrective glasses and the coordinates of the corrective lenses in them, allowing them to produce corrective glasses, providing visual acuity achieved in the selection.

 The presence of vernier scales 38, 39, 40 also increases the accuracy of measuring scales 2a, 2b and 3a, 3b, as well as circular scales 6a and 7a.

Claims (6)

 1. A device for selecting frames and lenses of corrective glasses, containing a lens-bearing bridge with a nose stop, with end longitudinal guides and angles movably placed in each of the guides and equipped with horizontal and vertical measuring scales, carriages mounted on angles, lens holders mounted on carriages and equipped with a rotation mechanism, clamps of test eyeglass lenses and circular measuring scales, adjusting screws for moving squares and carriages respectively in g horizontal and vertical and opening earhooks, characterized in that it contains a second bridge fastened to the lens-bearing bridge with measuring scales, on which telescopically sliding earhooks are mounted with the possibility of independent longitudinal movement.  2. The device according to claim 1, characterized in that the sliding earhooks are made in the form of guides with stoppers and interchangeable inserts with measuring scales and with curved tips of the corresponding size and taking into account differences in the anthropometric structure of the bases of the ears of the patients.  3. The device according to claims 1 and 2, characterized in that each of the stoppers is made in the form of a screw with a decorative head, a pressure washer, a nut, a fastening screw head and a pressure washer, locking parts and springs motionless to each other, the screw head and pressure lockable parts to each other with the possibility of their mutual movement.  4. The device according to claim 1, characterized in that the nasal emphasis is removable, fixed, with supporting surfaces for the nose of the frame of a plastic frame of the appropriate size and taking into account differences in the anthropometric structure of the nose of patients.  5. The device according to claim 1, characterized in that the clamp of the test eyeglass lenses is made in the form of an elastic arcuate plate with slots at the ends along the arc and a jumper in the middle with the formation of fixing petals under each socket of the lens holder with profiled end shoulders, bent towards the center of the lens holder .  6. The device according to claim 1, characterized in that the lens-bearing bridge, carriages and lens holders have additional vernier scales.

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