CN213758603U - Medical operation magnifying glass based on infrared ray thermoforming technique - Google Patents

Abstract

The utility model discloses a medical operation magnifying glass based on infrared ray thermoforming technique, including wearing subassembly, amplification subassembly, projection subassembly and control assembly, amplification unit mount in wear the lateral part of subassembly, projection unit mount in wear the lateral part of subassembly, control assembly mount in wear the lateral part of subassembly. In the utility model, the wearing component is convenient to wear on the head, which is convenient for the doctor to wear; the cooperation of amplifying assembly, projection subassembly and control assembly converts infrared radiant energy into the signal of telecommunication through infrared detector to transmit for the treater, convert standard video signal after the treater is handled, and transmit standard video signal for the VR projecting apparatus, utilize the VR projecting apparatus with the object image fitting after standard video signal and magnifying glass enlarge, thereby very directly perceivedly the location signal peak, be the position of threading a branch artery promptly, be convenient for carry on free flap operation also or take the operation of threading a branch vascular pedicle of a fruit flap.

Description

Medical operation magnifying glass based on infrared ray thermoforming technique

Technical Field

The utility model relates to a medical magnifying glass technical field, in particular to medical operation magnifying glass based on infrared ray thermoforming technique.

Background

With the development of microsurgery, the medical operation magnifier is more and more widely applied to operations involving tiny blood vessels and nerve dissection, and especially plays an important role in operations of hand surgery, flap surgery and plastic surgery.

The surgical magnifier appearing in the market of medical instruments at present mainly takes a frontal-mounted or glasses-type optical magnifier as a main part, and has no other functions except that the visual field is enlarged to enable an operator to see and feel clearer, so that the function of the magnifier in certain microsurgery operations is limited, and particularly relates to a flap operation for finding a perforator.

The perforator blood vessels cannot be positioned in the operation by an operation magnifier due to individual difference and uncertainty of anatomical parts, so that the positioning is often completed in advance before the operation, but the positioning effect of the existing technology (such as artery CTA, microbubble ultrasound technology, various positioning membranes and the like) is not exact, so that the operation time is prolonged, and the risk is increased.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model discloses can solve current equipment, can not carry out the accurate positioning to the blood vessel of wearing of each position of human body in the art, can't accomplish free flap operation also or take the difficult problem of wearing a blood vessel pedicle flap operation.

(II) technical scheme

In order to achieve the above object, the utility model discloses a following technical scheme, a medical operation magnifying glass based on infrared ray thermoforming technique, including wearing subassembly, enlarged assembly, projection subassembly and control assembly, enlarged assembly install in wear the lateral part of subassembly, projection unit install in wear the lateral part of subassembly, control assembly install in wear the lateral part of subassembly, wherein:

the wearing assembly comprises two supporting blocks, a first connecting piece, a second connecting piece and a third connecting piece, wherein the first connecting piece, the second connecting piece and the third connecting piece are respectively rotatably arranged between the two supporting blocks, and the second connecting piece is positioned between the first connecting piece and the third connecting piece;

the magnifying assembly comprises a connecting block, a lens, an infrared detector, an adjusting piece and a magnifying lens body, the connecting block is installed on the side portion of the first connecting piece, the lens is symmetrically installed on the side portion of the first connecting piece, the infrared detector is installed on the side portion of the connecting block, the adjusting piece is symmetrically installed on the side portion of the infrared detector, the magnifying lens body is installed on the side portion of the adjusting piece, and the magnifying lens body is opposite to the lens;

the projection assembly comprises a support and a VR projector, the support is detachably arranged on the side of one support block, the VR projector is arranged on the side of the support, and the lens of the VR projector is opposite to the side of the lens;

the control assembly comprises a box body, a storage battery, a button switch and a processor, the box body is installed on the other side portion of the supporting block, the storage battery is installed inside the box body, the button switch is installed on the side portion of the box body, the processor is installed on the inner side of the box body, the processor is electrically connected with the storage battery, the storage battery is electrically connected with the infrared detector, the processor is in signal connection with the infrared detector, and the processor is in signal connection with the VR projector.

As an optimal technical scheme of the utility model, two the lateral wall that the supporting shoe is relative all splices there is the flexible pad, two the lateral part of supporting shoe all install with first connecting piece the second connecting piece with third connecting piece complex back shaft, the stopper is installed to the lateral part of back shaft.

As a preferred technical scheme of the utility model, first connecting piece includes two first arc boards and the first lantern ring, two first arc board rotates respectively install in two the outside of back shaft, two first arc board slide respectively peg graft in first lantern ring middle part, the connecting block install in the lateral part of the first lantern ring.

As a preferred technical scheme of the utility model, the second connecting piece includes two second arc boards, the second lantern ring, knob and gear, two the second arc board rotates respectively install in two the outside of back shaft, two the second arc board is in two respectively the outside of first arc board, two the one end lateral part of second arc board all is provided with the rack, the knob rotate install in the lateral part of the second lantern ring, the gear install in the lateral part of knob, the gear is in the inside of the second lantern ring, two the rack inserts respectively the inboard of the second lantern ring, two the rack equally divide do not with the gear meshes mutually.

As an optimal technical scheme of the utility model, the third connecting piece includes two third arc boards and flexible cloth, two the third arc board rotates respectively to be installed in two the outside of back shaft, two the tip of third arc board passes through flexible cloth links to each other.

As a preferred technical scheme of the utility model, the regulating part includes damping pivot, support, slider and shell fragment, the damping pivot install in infrared detector's lateral part, the support mounting in the lateral part of damping pivot, slider slidable mounting in the lateral part of support, the shell fragment install in the lateral part of slider, the shell fragment with the lateral wall of support is inconsistent, the magnifying glass body install in the lateral part of slider.

As an optimal technical scheme of the utility model, the breach is seted up to the lateral part of shell fragment, the lateral part of support install with a plurality of bellyings of breach complex.

As a preferred technical scheme of the utility model, support piece includes universal rotary platform and link, universal rotary platform detachable install in one the lateral part of supporting shoe, the link install in universal rotary platform's rotatory end, the VR projecting apparatus install in the lateral part of link.

As an optimal technical scheme of the utility model, power connection is installed to the lateral part of box body, power connection with the battery electrical property links to each other.

As a preferred technical scheme of the utility model, the VR projecting apparatus with other electric connection is equallyd divide to the treater has wireless transmission module, and two wireless transmission module signals link to each other.

(III) advantageous effects

1. The utility model provides a medical operation magnifying glass based on infrared ray thermoforming technique, its wearing subassembly includes two supporting shoes, first connecting piece, second connecting piece and third connecting piece, utilizes the cooperation of first connecting piece, second connecting piece and third connecting piece, can be firmly worn at the head, and can adjust the size according to the demand, satisfy multiple head type doctor's use;

2. the utility model provides a medical operation magnifying glass based on infrared ray thermoforming technique, its amplifying assembly includes connecting block, lens, infrared detector, regulating part and magnifying glass body, utilize the lens to conveniently show the object image after magnifying of magnifying glass, and receive the projection that the VR projecting apparatus sent, infrared detector converts patient's health infrared radiant energy into the electric signal, the processing of the follow-up treater of being convenient for, enlarge the affected part of patient through the magnifying glass body, be convenient for doctor's observation and follow-up operation, the regulating part is used for adjusting the position of magnifying glass body, be convenient for adapt to different eye distance doctors's use;

3. the utility model provides a medical operation magnifying glass based on infrared ray thermoforming technique, its control assembly includes the box body, the battery, button switch and treater, the battery is used for supplying power to each electrical component, button switch is convenient for the open equipment, the treater is used for handling the signal of telecommunication that the infrared detector who receives sent, and generate video signal, then give the VR projecting apparatus video signal transmission, the VR projecting apparatus projects the video signal who receives on the lens, and overlap with the object image fitting that the magnifying of magnifying glass, thereby very directly perceivedly locate signal peak, be the position of wearing an artery promptly, be convenient for carry on free flap operation also or take and wear a blood vessel pedicle of a fruit flap operation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is an axial schematic view of the present invention;

fig. 2 is a schematic cross-sectional view of a first connector of the present invention;

FIG. 3 is a schematic structural section view of a second collar portion of the present invention;

FIG. 4 is a schematic view of the magnifier of the present invention;

FIG. 5 is a schematic view of a sectional view of a bracket according to the present invention;

FIG. 6 is a schematic view of a part of the structure of the supporting member of the present invention;

fig. 7 is a schematic sectional view of the structure of the box body part of the present invention.

In the figure: 100. a wear assembly; 110. a support block; 111. a flexible pad; 112. a support shaft; 113. a limiting block; 120. a first connecting member; 121. a first arc plate; 122. a first collar; 130. a second connecting member; 131. a second arc plate; 132. a second collar; 133. a knob; 134. a gear; 135. a rack; 140. a third connecting member; 141. a third arc plate; 142. A flexible cloth strip; 200. an amplifying assembly; 210. connecting blocks; 220. a lens; 230. an infrared detector; 240. an adjustment member; 241. a damping rotating shaft; 242. a support; 2421. a boss portion; 243. a slider; 244. a spring plate; 2441. a notch; 250. a magnifier body; 300. a projection assembly; 310. a support member; 311. a universal rotating platform; 312. a connecting frame; 320. a VR projector; 400. a control component; 410. a box body; 411. a power supply connector; 420. a storage battery; 430. a push button switch; 440. a processor.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are 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.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the 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.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it is to be understood that the terms "longitudinal", "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and simplification of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

As shown in fig. 1 to 7, a medical surgical loupe based on infrared thermal forming technology comprises a wearing assembly 100, a magnifying assembly 200, a projecting assembly 300 and a control assembly 400, wherein the magnifying assembly 200 is mounted at the side of the wearing assembly 100, the projecting assembly 300 is mounted at the side of the wearing assembly 100, the control assembly 400 is mounted at the side of the wearing assembly 100, and wherein:

the wearing assembly 100 comprises two supporting blocks 110, a first connecting piece 120, a second connecting piece 130 and a third connecting piece 140, wherein the first connecting piece 120, the second connecting piece 130 and the third connecting piece 140 are respectively rotatably arranged between the two supporting blocks 110, and the second connecting piece 130 is positioned between the first connecting piece 120 and the third connecting piece 140;

the magnifying assembly 200 comprises a connecting block 210, a lens 220, an infrared detector 230, an adjusting piece 240 and a magnifier body 250, wherein the connecting block 210 is installed at the side part of the first connecting piece 120, the lens 220 is symmetrically installed at the side part of the first connecting piece 120, the infrared detector 230 is installed at the side part of the connecting block 210, the adjusting piece 240 is symmetrically installed at the side part of the infrared detector 230, the magnifier body 250 is installed at the side part of the adjusting piece 240, the magnifier body 250 is opposite to the lens 220, and the lens 220 is an LED lens;

the projection assembly 300 comprises a support 310 and a VR projector 320, wherein the support 310 is detachably mounted at the side of one support block 110, the VR projector 320 is mounted at the side of the support 310, and the lens of the VR projector 320 is opposite to the side of the lens 220;

the control assembly 400 includes a case 410, a storage battery 420, a button switch 430 and a processor 440, wherein the case 410 is mounted at a side portion of the other support block 110, the storage battery 420 is mounted inside the case 410, the button switch 430 is mounted at a side portion of the case 410, the processor 440 is mounted at an inner side of the case 410, the processor 440 is electrically connected to the storage battery 420, the storage battery 420 is electrically connected to the infrared detector 230, the processor 440 is in signal connection with the infrared detector 230, and the processor 440 is in signal connection with the VR projector 320.

Specifically, the opposite side walls of the two supporting blocks 110 are all glued with the flexible pads 111, the side portions of the two supporting blocks 110 are all provided with the supporting shafts 112 matched with the first connecting piece 120, the second connecting piece 130 and the third connecting piece 140, the side portions of the supporting shafts 112 are provided with the limiting blocks 113, the supporting shafts 112 are convenient for the connection of the first connecting piece 120, the second connecting piece 130 and the third connecting piece 140, and the limiting blocks 113 are used for limiting, so that the first connecting piece 120, the second connecting piece 130 and the third connecting piece 140 are prevented from being separated from the supporting shafts 112.

Specifically, first connecting piece 120 includes two first arc boards 121 and first lantern ring 122, and two first arc boards 121 rotate respectively and install in the outside of two back shafts 112, and two first arc boards 121 slide respectively and peg graft in first lantern ring 122 middle part, and connecting block 210 is installed in the lateral part of first lantern ring 122, and first arc board 121 sets up to flexible plastic board, is convenient for slide in the inside of first lantern ring 122, makes things convenient for the adjustment of size.

Specifically, the second connecting member 130 includes two second arc plates 131, a second collar 132, a knob 133 and a gear 134, the two second arc plates 131 are respectively rotatably mounted on the outer sides of the two support shafts 112, the two second arc plates 131 are respectively located on the outer sides of the two first arc plates 121, racks 135 are respectively disposed on the side portions of one ends of the two second arc plates 131, the knob 133 is rotatably mounted on the side portion of the second collar 132, the gear 134 is mounted on the side portion of the knob 133, the gear 134 is located inside the second collar 132, the two racks 135 are respectively inserted into the inner sides of the second collar 132, the two racks 135 are respectively engaged with the gear 134, when in use, the gear 134 is further rotated by rotating the knob 133, and then drive rack 135 to remove, rack 135's removal drives second arc board 131 and slides in the inside of second lantern ring 132, and then the adjustment of simple and convenient realization distance satisfies the use of a plurality of not unidimensional head types.

Specifically, the third connecting member 140 includes two third arc plates 141 and a flexible cloth 142, the two third arc plates 141 are respectively rotatably mounted on the outer sides of the two support shafts 112, the end portions of the two third arc plates 141 are connected through the flexible cloth 142, and the size is adjusted along with the adjustment in the adjusting process of the second connecting member 130 due to the cooperation of the third arc plates 141 and the flexible cloth 142.

Specifically, the adjusting member 240 includes a damping rotating shaft 241, a support 242, a slider 243 and an elastic sheet 244, the damping rotating shaft 241 is installed at a side portion of the infrared detector 230, the support 242 is installed at a side portion of the damping rotating shaft 241, the slider 243 is slidably installed at a side portion of the support 242, the elastic sheet 244 is installed at a side portion of the slider 243, the elastic sheet 244 is abutted to a side wall of the support 242, the magnifier body 250 is installed at a side portion of the slider 243, and when the magnifier body is used specifically, the elastic sheet 244 is separated from the support 242 by pulling the elastic sheet 244, so that the slider can be slid, adjustment of the position of the magnifier body 250 can be realized, the position of the magnifier body 250 can be further adjusted by adjusting the angle of the support 242 through the damping rotating shaft 241, and the position can be better adjusted.

Specifically, a notch 2441 is formed in the side portion of the elastic sheet 244, a plurality of protrusions 2421 matched with the notch 2441 are mounted on the side portion of the bracket 242, and the notch 2441 is matched with the protrusions 2421, so that better clamping is facilitated.

Specifically, support piece 310 includes universal rotary platform 311 and link 312, universal rotary platform 311 detachable installs in the lateral part of a supporting shoe 110, link 312 is installed in universal rotary platform 311's rotatory end, VR projector 320 installs in the lateral part of link 312, when specifically using, universal rotary platform 311 conveniently rotates, is convenient for adjust the projected angle of VR projector 320, makes things convenient for subsequent projecting image and magnifying glass body 250's formation of image fitting.

Specifically, a power connector 411 is mounted on a side portion of the box 410, the power connector 411 is electrically connected to the battery 420, and the power connector 411 facilitates charging the battery 420.

Specifically, VR projector 320 and processor 440 equally divide and do not have an electric connection to have wireless transmission module, and two wireless transmission module signals link to each other, utilize wireless transmission module to carry out wireless transmission, and wireless transmission module can set up to the bluetooth.

The working principle is as follows: the first connecting piece 120, the second connecting piece 130 and the third connecting piece 140 are matched, so that the head-mounted medical head can be firmly worn on the head, the size can be adjusted according to requirements, and the use requirements of doctors with various head types can be met; the lens 220 is used for conveniently displaying an object image amplified by the magnifier body 250 and receiving a projection sent by the VR projector 320, the infrared detector 230 converts infrared radiation energy of the body of a patient into an electric signal, the subsequent processor 440 can process the electric signal conveniently, the affected part of the patient can be amplified through the magnifier body 250, the observation and the subsequent operation of a doctor can be facilitated, and the adjusting piece 240 is used for adjusting the position of the magnifier body 250 and is convenient for being adapted to doctors with different eye distances; the storage battery 420 is used for supplying power to all electrical elements, the button switch 430 is convenient for turning on the device, the processor 440 is used for processing received electric signals sent by the infrared detector 230 and generating video signals, then the video signals are transmitted to the VR projector 320, the VR projector 320 projects the received video signals onto the lens 220 and fits and overlaps with an object image amplified by the magnifier body 250, and therefore the highest point of the signals is positioned visually, namely the position of a perforator artery, and free flap surgery or pedicle flap surgery with perforator is convenient to perform.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. 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 (10)

1. A medical operation magnifying glass based on infrared ray thermoforming technique, including wearing subassembly (100), enlargies subassembly (200), projection subassembly (300) and control assembly (400), its characterized in that: the magnifying assembly (200) is mounted at the side of the wearing assembly (100), the projecting assembly (300) is mounted at the side of the wearing assembly (100), and the control assembly (400) is mounted at the side of the wearing assembly (100), wherein:

the wearing assembly (100) comprises two supporting blocks (110), a first connecting piece (120), a second connecting piece (130) and a third connecting piece (140), wherein the first connecting piece (120), the second connecting piece (130) and the third connecting piece (140) are respectively rotatably installed between the two supporting blocks (110), and the second connecting piece (130) is located between the first connecting piece (120) and the third connecting piece (140);

the magnifying assembly (200) comprises a connecting block (210), a lens (220), an infrared detector (230), an adjusting piece (240) and a magnifier body (250), wherein the connecting block (210) is mounted on the side of the first connecting piece (120), the lens (220) is symmetrically mounted on the side of the first connecting piece (120), the infrared detector (230) is mounted on the side of the connecting block (210), the adjusting piece (240) is symmetrically mounted on the side of the infrared detector (230), the magnifier body (250) is mounted on the side of the adjusting piece (240), and the magnifier body (250) is opposite to the lens (220);

the projection assembly (300) comprises a support (310) and a VR projector (320), the support (310) is detachably mounted at the side of one of the support blocks (110), the VR projector (320) is mounted at the side of the support (310), and the lens of the VR projector (320) is opposite to the side of the lens (220);

the control assembly (400) comprises a box body (410), a storage battery (420), a button switch (430) and a processor (440), wherein the box body (410) is installed at the side part of the other supporting block (110), the storage battery (420) is installed inside the box body (410), the button switch (430) is installed at the side part of the box body (410), the processor (440) is installed at the inner side of the box body (410), the processor (440) is electrically connected with the storage battery (420), the storage battery (420) is electrically connected with the infrared detector (230), the processor (440) is in signal connection with the infrared detector (230), and the processor (440) is in signal connection with the VR projector (320).

2. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 1, wherein: two the relative lateral wall of supporting shoe (110) all is glued and is had flexible pad (111), two the lateral part of supporting shoe (110) all install with first connecting piece (120), second connecting piece (130) with third connecting piece (140) complex back shaft (112), stopper (113) are installed to the lateral part of back shaft (112).

3. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 2, wherein: the first connecting piece (120) comprises two first arc plates (121) and a first sleeve ring (122), the two first arc plates (121) are respectively rotatably mounted on the outer sides of the two supporting shafts (112), the two first arc plates (121) are respectively inserted in the middle of the first sleeve ring (122) in a sliding mode, and the connecting block (210) is mounted on the side portion of the first sleeve ring (122).

4. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 3, wherein: the second connecting piece (130) comprises two second arc plates (131), a second lantern ring (132), a knob (133) and a gear (134), the two second arc plates (131) are respectively rotatably installed on the outer sides of the two support shafts (112), the two second arc plates (131) are respectively located on the outer sides of the two first arc plates (121), racks (135) are respectively arranged on the lateral portions of one ends of the two second arc plates (131), the knob (133) is rotatably installed on the lateral portions of the second lantern ring (132), the gear (134) is installed on the lateral portion of the knob (133), the gear (134) is located inside the second lantern ring (132), the two racks (135) are respectively inserted into the inner sides of the second lantern ring (132), and the two racks (135) are respectively meshed with the gear (134).

5. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 4, wherein: the third connecting piece (140) comprises two third arc plates (141) and a flexible cloth strip (142), the two third arc plates (141) are respectively rotatably mounted on the outer sides of the two support shafts (112), and the end parts of the two third arc plates (141) are connected through the flexible cloth strip (142).

6. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 1, wherein: the adjusting piece (240) comprises a damping rotating shaft (241), a support (242), a sliding block (243) and an elastic sheet (244), the damping rotating shaft (241) is installed on the side portion of the infrared detector (230), the support (242) is installed on the side portion of the damping rotating shaft (241), the sliding block (243) is installed on the side portion of the support (242) in a sliding mode, the elastic sheet (244) is installed on the side portion of the sliding block (243), the elastic sheet (244) is abutted to the side wall of the support (242), and the magnifier body (250) is installed on the side portion of the sliding block (243).

7. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 6, wherein: a notch (2441) is formed in the side of the elastic sheet (244), and a plurality of protruding parts (2421) matched with the notch (2441) are installed on the side of the support (242).

8. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 1, wherein: the support (310) comprises a universal rotating platform (311) and a connecting frame (312), the universal rotating platform (311) is detachably mounted at the side of one of the supporting blocks (110), the connecting frame (312) is mounted at the rotating end of the universal rotating platform (311), and the VR projector (320) is mounted at the side of the connecting frame (312).

9. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 1, wherein: the lateral part of box body (410) is installed power connection (411), power connection (411) with battery (420) electric connection.

10. The medical operation magnifier based on infrared thermal forming technology as claimed in claim 1, wherein: VR projecting apparatus (320) with processor (440) is equally all there is wireless transmission module, two wireless transmission module signal links to each other.

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