CN214157517U - Precision instrument transfer disc for ophthalmology - Google Patents

Abstract

The utility model belongs to the technical field of medical instrument, especially, ophthalmic precision instruments is transferred and is coiled, including the apparatus dish main part of transferring, the top of apparatus dish main part is opened downwards has a plurality of dishes check of different specifications, the inner chamber of every dish check all bonds and has first rubber buffering anticollision layer, the left and right sides homogeneous body shaping of apparatus dish main part of transferring has the hand-held device board, the slipmat embedded groove has all been opened to the top and the bottom of hand-held device board, all link up between the top surface of both ends about the apparatus dish main part and the bottom surface and have transferred dish lid to buckle the interface, apparatus dish main part of transferring has the dish top cap of transferring through transferring dish lid to buckle the interface connection, the bottom surface of both ends all is equipped with T type spout about the apparatus dish main part of transferring, the inside sliding connection of T type spout has the slip to unlock the piece, the categorised placing of the surgical instruments of this device being convenient for, still can prevent to appear the condition that jolting and making the surgical instruments and dish check and the dish top cap and the collision lead to surgical instruments to the deformation appear in the transportation.

Description

Precision instrument transfer disc for ophthalmology

Technical Field

The utility model belongs to the technical field of medical instrument, concretely relates to ophthalmic precision apparatus transports dish.

Background

The general term of ophthalmology is "ophthalmology specialty", which is the discipline for studying diseases occurring in the visual system, including the eyeball and its associated tissues. In the ophthalmology, a large number of precision surgical instruments are required to be used in the process of the ophthalmic surgery, and the precision surgical instruments need to be held and moved by using a special transfer disc.

Compared with the prior art the problem that exists:

present accurate apparatus for ophthalmology changes and send dish, inconvenient surgical instruments's classification is placed, and all adopts hard material to make, leads to surgical instruments head to warp because of the collision in the transportation easily, causes the influence to subsequent use, makes surgical instruments's life finish in advance, if can not in time discover surgical instruments's deformation, still can influence going on of follow-up operation work, causes the injury to patient even.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides an ophthalmic precision instruments transfer dish through the setting of dish check, first rubber buffering anticollision layer, transfer dish top cap, second rubber buffering anticollision layer etc. the classification of the surgical instruments of being convenient for is placed, still can prevent jolting that takes place in the transportation and make the condition that surgical instruments warp with a dish check and the collision appear leading to surgical instruments.

In order to achieve the above object, the utility model provides a following technical scheme: a precision instrument transfer plate for ophthalmology comprises an instrument transfer plate main body, wherein a plurality of plate lattices with different specifications are downwards arranged at the top of the instrument transfer plate main body, a first rubber buffer anti-collision layer is bonded in the inner cavity of each plate lattice, the left side and the right side of the instrument transferring plate main body are integrally formed with a handheld device plate, the top and the bottom of the handheld device plate are both provided with anti-skid pad embedded grooves, the rubber anti-skid pad is bonded in the anti-skid pad embedding groove, a plurality of round anti-skid bulges are arranged on the surface of the rubber anti-skid pad, the top surface and the bottom surface of the left end and the right end of the instrument transferring disc main body are both provided with a transferring disc cover buckle interface, the instrument transferring disc main body is connected with a transferring disc top cover through the transferring disc cover buckle interface, T-shaped sliding grooves are formed in the bottom surfaces of the left end and the right end of the instrument transferring disc main body, and sliding unlocking blocks are connected to the inner portions of the T-shaped sliding grooves in a sliding mode.

Preferably, the notch joint of T type spout has the stopper, prevents that the slip unblock piece from deviating from.

Preferably, the first rubber buffer anti-collision layers in the tray grids of different specifications are in different colors, so that surgical instruments can be conveniently classified before and after being used.

Preferably, the bottom integrated into one piece of transfer dish top cap has the lock joint strip, the bottom integrated into one piece of lock joint strip has the lock joint lug, and transfer dish top cap, lock joint strip and lock joint lug all adopt the PP material to make, and lock joint strip and lock joint lug all have certain elasticity, are convenient for insert in the transfer dish detains the interface, the bottom of transfer dish top cap bonds and has second rubber buffering anticollision layer, and second rubber buffering anticollision layer and the cooperation of first rubber buffering anticollision layer prevent that jolting that takes place in the transportation from making surgical machine and dish check and transfer dish top cap appear the collision and lead to surgical instruments to warp, play the effect of collision buffering, the top integrated into one piece of transfer dish top cap has the carrying handle, when the transfer dish top cap is detained fixedly with instrument transfer dish main part, can directly carry this device through the carrying handle and remove.

Preferably, the shape of the buckling lug is a triangular prism, and the inclined surface of the buckling lug is used for guiding the buckling strip to be inserted into the buckling port of the transferring cover.

Preferably, a bottom anti-skid rubber pad is bonded to the bottom of the instrument transfer disc main body and used for playing an anti-skid role when the device is placed.

Compared with the prior art, the beneficial effects of the utility model are that:

the tray grids on the instrument transferring tray main body are different in specification, the color used by the first rubber buffer anti-collision layer in each tray grid is selected according to the specification of the tray grid and the instrument storage type corresponding to the tray grid, the specification is formed, a user is trained to remember the colors corresponding to the surgical instruments of different specifications and types, each color corresponds to one surgical instrument, and in the using process, the surgical instruments of various specifications and types can be placed according to the corresponding color selection tray grids so as to be convenient for classification and placement, and therefore subsequent disinfection and replacement are facilitated;

the device is provided with a first rubber buffer anti-collision layer, a top cover feeding layer and a second rubber buffer anti-collision layer, wherein a buckling strip is integrally formed at the bottom of the top cover of the transfer plate, buckling lugs are integrally formed at the bottom of the buckling strip, a cover buckling interface of the transfer plate is communicated between the top surface and the bottom surface of the left end and the right end of the main body of the instrument transfer plate, after surgical instruments are placed in the plate grids, the top cover of the transfer plate is covered, in the covering process, the buckling lugs at the bottom of the buckling strip are inserted into the cover buckling interfaces of the transfer plate on the main body of the instrument transfer plate under the guidance of the inclined surfaces of the buckling lugs, the buckling strip has certain elasticity, at the moment, the buckling strip is bent, after the buckling lugs move downwards to the lower part of the cover buckling interface of the transfer plate, the self returns to the vertical state through the elasticity of the buckling strip, the lower part of the main body of the instrument transfer plate is buckled by the buckling lugs, so that the top cover of the transfer plate and the main body of the instrument transfer plate are fixed, the top cover of the transfer disc is tightly attached to the upper part of the instrument transfer disc main body, surgical instruments in the disc lattices are protected, meanwhile, the surgical instruments can be effectively prevented from falling out of the instrument transfer disc main body in the moving process of the device, and under the matching of the first rubber buffer anti-collision layer and the second rubber buffer anti-collision layer, the situation that the surgical instruments deform due to collision between the surgical machinery and the disc lattices and the top cover of the transfer disc caused by bumping in transportation can be prevented;

the mobile mode of this device has two kinds, and when the carousel top cap was transferred with the apparatus and is coiled the main part and fix, this device was carried to the carrying handle on the accessible transferred dish top cap and removes, also can carry out handheld removal to this device through the handheld device board of the apparatus rolling disc main part left and right sides, still can strengthen handheld stability through being equipped with the bellied rubber slipmat of circular antiskid.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of a left lower axial measurement structure of the utility model;

FIG. 2 is a schematic view of the upper left axial measurement structure of the instrument transfer plate main body of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a left side view of the structure of the present invention;

FIG. 5 is a schematic top view of the instrument transfer plate body of the present invention;

fig. 6 is a schematic front view of the top cover of the transfer plate of the present invention.

In the figure: 100. an instrument transfer tray main body; 110. a tray grid; 120. a handset panel; 121. the anti-skid pad is embedded into the groove; 130. the transferring disc covers and buckles the interface; 140. a T-shaped chute; 141. sliding the unlocking block; 142. a limiting block; 200. a first rubber buffer anti-collision layer; 300. a rubber non-slip mat; 310. a circular anti-slip bulge; 400. a top cover of the transfer disc; 410. a fastening strip; 420. buckling the convex block; 430. a second rubber buffer anti-collision layer; 440. a carrying handle; 500. the bottom is provided with an anti-slip rubber pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Example 1

Referring to fig. 1-6, the present invention provides the following technical solutions: a precision instrument transfer plate for ophthalmology comprises an instrument transfer plate main body 100, wherein a plurality of plate grids 110 with different specifications are downwards arranged at the top of the instrument transfer plate main body 100, a first rubber buffer anti-collision layer 200 is adhered to an inner cavity of each plate grid 110, a handheld device plate 120 is integrally formed on the left side and the right side of the instrument transfer plate main body 100, anti-skid pad embedding grooves 121 are respectively formed at the top and the bottom of the handheld device plate 120, rubber anti-skid pads 300 are adhered inside the anti-skid pad embedding grooves 121, a plurality of circular anti-skid protrusions 310 are arranged on the surface of each rubber anti-skid pad 300, a transfer plate cover buckling interface 130 is respectively arranged between the top surface and the bottom surface of the left end and the right end of the instrument transfer plate main body 100 in a penetrating manner, the instrument transfer plate main body 100 is connected with a transfer plate top cover 400 through the transfer plate buckling interface 130, T-shaped chutes 140 are respectively arranged on the bottom surfaces of the left end and the right end of the instrument transfer plate main body 100, a slide unlocking block 141 is slidably connected to the inside of the T-shaped chute 140.

In this embodiment: a precision instrument transfer plate for ophthalmology comprises an instrument transfer plate main body 100, wherein a plurality of plate grids 110 with different specifications are downwards arranged at the top of the instrument transfer plate main body 100, a first rubber buffer anti-collision layer 200 is adhered to an inner cavity of each plate grid 110, a handheld device plate 120 is integrally formed on the left side and the right side of the instrument transfer plate main body 100, anti-skid pad embedding grooves 121 are respectively formed at the top and the bottom of the handheld device plate 120, rubber anti-skid pads 300 are adhered inside the anti-skid pad embedding grooves 121, a plurality of circular anti-skid protrusions 310 are arranged on the surface of each rubber anti-skid pad 300, a transfer plate cover buckling interface 130 is respectively arranged between the top surface and the bottom surface of the left end and the right end of the instrument transfer plate main body 100 in a penetrating manner, the instrument transfer plate main body 100 is connected with a transfer plate top cover 400 through the transfer plate buckling interface 130, T-shaped chutes 140 are respectively arranged on the bottom surfaces of the left end and the right end of the instrument transfer plate main body 100, the inside of the T-shaped sliding slot 140 is slidably connected with a sliding unlocking block 141, when the top cover 400 of the transfer tray needs to be taken down, the sliding unlocking block 141 is pushed to push the buckling lug 420 at the bottom of the buckling strip 410, so that the buckling lug 420 can be released from the fixed buckling relation with the main body 100 of the apparatus transfer tray, and at this time, the buckling strip 410 at the bottom of the top cover 400 of the transfer tray and the buckling lug 420 can be pulled out from the buckling port 130 of the top cover of the transfer tray, so as to take down the top cover 400 of the transfer tray.

Specifically, the notch of the T-shaped chute 140 is clamped with a limiting block 142 to prevent the sliding unlocking block 141 from being disengaged.

Specifically, the first rubber buffer anti-collision layer 200 in the tray grids 110 with different specifications adopts different colors, so that the surgical instruments can be conveniently classified and placed before and after use.

Specifically, the bottom of the top cover 400 of the transfer tray is integrally formed with a fastening strip 410, the bottom of the fastening strip 410 is integrally formed with a fastening lug 420, the top cover 400 of the transfer tray, the fastening strip 410 and the fastening lug 420 are all made of PP material, and the fastening strip 410 and the fastening protrusion 420 have certain elasticity, so as to be conveniently inserted into the transferring plate fastener interface 130, the bottom of the top cover 400 of the transfer plate is bonded with a second rubber buffer anti-collision layer 430, the second rubber buffer anti-collision layer 430 is matched with the first rubber buffer anti-collision layer 200 to prevent the surgical instruments from deforming due to collision between the surgical instruments and the plate grids 110 and the top cover 400 of the transfer plate caused by bumping in transportation, so as to play a role of collision buffer, the top of the top cover 400 of the transfer plate is integrally formed with a handle 440, when the top cover 400 of the transfer plate is fastened and fixed with the main body 100 of the instrument transfer plate, the device can be lifted to move directly through the carrying handle.

Specifically, the buckling protrusion 420 is shaped as a triangular prism, and the inclined surface thereof is used to guide the buckling strip 410 to be inserted into the transfer tray cover buckle port 130.

Specifically, a bottom anti-slip rubber pad 500 is bonded to the bottom of the instrument transfer tray main body 100, and the bottom anti-slip rubber pad 500 is used for anti-slip function when the device is placed.

The working principle and the using process of the invention are as follows: the tray grids 110 on the instrument transfer tray main body 100 have different specifications, the color used by the first rubber buffer anti-collision layer 200 in each tray grid 110 is selected according to the specification of the tray grid 110 and the corresponding instrument storage type, the specification is formed, a user is trained to remember the color corresponding to the surgical instrument with different specifications and types, each color corresponds to one surgical instrument, in the using process, the surgical instrument with each specification and type is placed according to the corresponding color selection tray grid 100, after the placement is finished, the transfer tray top cover 400 is covered, in the covering process, the fastening lug 520 at the bottom of the fastening strip 410 is inserted into the transfer tray cover fastening interface 130 on the instrument transfer tray main body 100 under the guide of the inclined surface of the fastening lug 520, the fastening strip 410 has certain elasticity and is bent at the moment, when the fastening lug 420 moves downwards to the position below the transfer tray cover fastening interface 130, the fastening strip 410 is elastic to restore itself to a vertical state, the fastening lug 420 is used to fasten the lower part of the instrument transfer tray main body 100, so that the transfer tray top cover 400 and the instrument transfer tray main body 100 are fixed, at the moment, the transfer tray top cover 400 is tightly adhered to the upper part of the instrument transfer tray main body 100 to protect the surgical instruments in the tray lattices 110, meanwhile, the surgical instruments can be effectively prevented from falling out of the instrument transfer tray main body 100 in the moving process of the device, the surgical instruments are prevented from being deformed due to collision between the surgical instruments and the tray lattices 110 and the transfer tray top cover 400 caused by bumping in transportation under the matching of the first rubber buffer anti-collision layer 200 and the second rubber buffer anti-collision layer 430, when the transfer tray top cover 400 needs to be taken down, the sliding unlocking block 141 is pushed, the fastening lug 420 at the bottom of the fastening strip 410 is pushed, namely, the fastening lug 420 can be released from fastening and fixing with the instrument transfer tray main body 100, at this moment, the fastening strip 410 at the bottom of the top cover 400 of the transfer tray and the fastening lug 420 can be drawn out from the fastening interface 130 of the top cover of the transfer tray, and then the top cover 400 of the transfer tray can be taken down, and then surgical instruments in tray grids can be taken out, the device can be moved in two moving modes, when the top cover 400 of the transfer tray is fixed with the main body 100 of the transfer tray, the device can be lifted to move through a carrying handle on the top cover 400 of the transfer tray, the device can also be moved in a handheld mode through the handheld device plates 120 on the left side and the right side of the main body 100 of the transfer tray, and the handheld stability can be enhanced through the rubber anti-slip pad 300 with the circular anti-slip protrusions 310.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an ophthalmic precision instruments carousel which characterized in that: the device comprises a device transferring disc main body (100), wherein a plurality of disc grids (110) with different specifications are downwards arranged at the top of the device transferring disc main body (100), a first rubber buffer anti-collision layer (200) is bonded to the inner cavity of each disc grid (110), hand-held device plates (120) are integrally formed on the left side and the right side of the device transferring disc main body (100), anti-skid pad embedded grooves (121) are respectively formed in the top and the bottom of each hand-held device plate (120), rubber anti-skid pads (300) are bonded inside the anti-skid pad embedded grooves (121), a plurality of circular anti-skid protrusions (310) are arranged on the surfaces of the rubber anti-skid pads (300), transferring disc cover buckling interfaces (130) are respectively penetrated between the top surface and the bottom surface of the left end and the right end of the device transferring disc main body (100), the device transferring disc main body (100) is connected with a transferring disc top cover (400) through the transferring disc cover buckling interfaces (130), the bottom surfaces of the left end and the right end of the instrument transferring plate main body (100) are respectively provided with a T-shaped sliding groove (140), and a sliding unlocking block (141) is connected to the inside of each T-shaped sliding groove (140) in a sliding mode.

2. An ophthalmic precision instrument carousel as in claim 1, wherein: the notch of the T-shaped chute (140) is clamped with a limiting block (142).

3. An ophthalmic precision instrument carousel as in claim 1, wherein: the first rubber buffer anti-collision layer (200) inside the tray grids (110) suitable for different types of instruments adopts different colors.

4. An ophthalmic precision instrument carousel as in claim 1, wherein: the bottom integrated into one piece of transfer dish top cap (400) has lock joint strip (410), the bottom integrated into one piece of lock joint strip (410) has lock joint lug (420), the bottom bonding of transfer dish top cap (400) has second rubber buffering anticollision layer (430), the top integrated into one piece of transfer dish top cap (400) has carrying handle (440).

5. An ophthalmic precision instrument carousel as in claim 4, wherein: the buckling bump (420) is in the shape of a triangular prism.

6. An ophthalmic precision instrument carousel as in claim 1, wherein: the bottom of the instrument transferring disc main body (100) is bonded with a bottom anti-skid rubber pad (500).

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