CN212407717U - Assembly structure of wall-in type faucet - Google Patents

Abstract

The utility model discloses an assembly structure of income wall formula tap, the valve shaft is corresponding with the mounting hole, and its periphery is equipped with longitudinal extension's outer concave-convex part, outer concave-convex part both can regard as outer tooth to use, can regard as the spline to use again, nut group and outer tooth looks spiro union cooperation can compress tightly the decoration panel when nut group matches with the valve shaft, the indent convex part and the outer concave-convex part of handle mesh when handle matches with the valve shaft, the effect of transmission turning force can be played with the cooperation of outer concave-convex part to the indent convex part, make the cooperation of rotating handle accessible indent convex part and outer concave-convex part drive the synchronous rotation of valve shaft, and the mounting plays the effect of fixed handle and valve shaft, with the effect of transmission force separately, make the connection of handle more firm, be difficult to become flexible. Meanwhile, the outer concave-convex part can be matched with the inner thread and the inner concave-convex part, so that the structure of the whole handle is more compact, the space utilization rate is high, the handle can be designed to be smaller and smaller, and the cost is lower.

Description

Assembly structure of wall-in type faucet

Technical Field

The utility model relates to an assembly structure of wall-in type tap.

Background

In order to keep the cleanness and the simplicity of a bathroom, control faucets of various shower or water outlet devices are mostly installed in a wall-in type, namely, a main body of the faucet is installed in a wall body, and only a water outlet and a switch handle are exposed. The space is required to be preset on the wall body to assemble the faucet main body, and the wall body has larger tolerance when the space is reserved, so that the size and the space for installing the faucet main body are not easy to control, and the matching distance between the switch handle and the faucet valve core has variability.

For a common shower faucet only having the functions of mixing water and adjusting temperature, the mounting structure of the shower faucet mostly adopts the following two modes: one is that the screw passes through the decorative panel and is connected with the screw hole arranged in the wall body group, and the decorative panel is locked on the wall surface; this scheme screw exposes, need open the screw hole on the decoration panel, and the clearance of handle seat and decoration panel can change according to the depth difference of installation wall, and this scheme can destroy the clean and tidy and pleasing to the eye of decoration panel, and the clearance of handle seat and decoration panel also can influence the molding of whole wall exterior parts along with installation wall depth difference. The other kind compresses tightly the decoration panel scheme for the handle seat, the internal thread of taking of handle seat promptly locks with the thread that body group set up in the wall, presss from both sides the decoration panel tightly on the wall, zero clearance between this scheme handle seat and the decoration panel, the molding of whole wall external member does not receive the different influences of installation wall depth, this scheme also can not expose the screw on the decoration panel, and rocking of the reducible handle of zero clearance between handle seat and the decoration panel, improve the feeling of handle.

And to the mounting structure of the gapless formula of second kind, the spiro union cooperation of relying on handle seat and body group alone presss from both sides the decoration panel tightly on the wall, and the fixed effect of decoration panel is not good, and the handle seat is not hard up easily at the rotation in-process.

SUMMERY OF THE UTILITY MODEL

The utility model provides an assembly structure and assembly method of wall-in type tap, it has overcome the not enough that the background art exists. The utility model provides a technical scheme that its technical problem adopted is:

an assembly structure of a wall-in type faucet, comprising:

the valve assembly is arranged in the wall body and is provided with a valve shaft, the valve shaft extends out of the wall surface, the periphery of the valve shaft is provided with an outer concave-convex part extending longitudinally, and the convex part of the outer concave-convex part is provided with outer threads;

the decoration panel is arranged on the wall surface in a leaning mode and provided with a mounting hole, and the valve shaft corresponds to the mounting hole;

the nut group can be in threaded fit with the external threads of the external concave-convex part so as to press the decorative panel on the wall surface;

the handle is provided with a through hole, the inner wall of the through hole is provided with an inward concave convex part, the valve shaft extends into the through hole, and the inward concave convex part is meshed and matched with the outward concave convex part; and

and the fixing piece fixedly connects the handle and the valve shaft.

In a preferred embodiment: the length of the through hole is larger than or equal to the maximum length of the valve shaft extending out of the mounting hole.

In a preferred embodiment: the valve shaft extends out of the mounting hole, and the extension length of the outer concave-convex part is greater than or equal to the maximum length of the valve shaft extending out of the mounting hole.

In a preferred embodiment: the inner wall of the through hole is provided with a step surface, the top end of the valve shaft is provided with an internal thread hole, the fixing part is a screw, and the screw extends into the through hole and is in threaded fit with the internal thread hole until a nut of the screw presses against the step surface so as to fixedly connect the handle and the valve shaft.

In a preferred embodiment: the nut group at least comprises a first nut and a wear-resistant part clamped on the periphery of the first nut, the first nut is in threaded connection with the outer threads of the outer concave-convex part, and the wear-resistant part is clamped between the first nut and the mounting hole.

In a preferred embodiment: the nut group further comprises a second nut, the second nut is provided with a positioning portion, the first nut is provided with a positioning groove and a rotating groove, the second nut is sleeved outside the first nut through the positioning fit of the positioning portion and the positioning groove, a gap is formed between the inner top surface of the second nut and the top surface of the first nut, when the wear-resistant piece is clamped between the first nut and the mounting hole, the positioning portion moves into the rotating groove from the positioning groove in the process of continuously rotating the second nut, and the positioning portion rotates for a certain distance in the rotating groove so that the inner top surface of the second nut is attached to the top surface of the first nut.

In a preferred embodiment: the positioning groove and the rotating groove are arranged adjacently, the height of the rotating groove is larger than that of the positioning groove, and the height difference between the rotating groove and the positioning groove is larger than or equal to the gap between the inner top surface of the second nut and the top surface of the first nut.

In a preferred embodiment: the top end of the second nut is provided with a pressed surface, and the bottom end surface of the through hole is pressed against the pressed surface.

In a preferred embodiment: the handle is further provided with a lock hole communicated with the through hole, the fixing part is a screw, the screw is in threaded connection with the lock hole, and the bottom end of the screw is pressed against the valve shaft.

Compared with the background technology, the technical scheme has the following advantages:

1. in the assembly structure, the valve shaft corresponds to the mounting hole, the outer periphery of the valve shaft is provided with an outer concave-convex part extending longitudinally, the convex part of the outer concave-convex part is provided with outer threads, namely, the outer concave-convex part can be used as the outer threads and can also be used as a spline, when the nut group is matched with the valve shaft, the nut group is in threaded connection with the outer threads of the outer concave-convex part to press a decorative panel, when the handle is matched with the valve shaft, the inner concave convex part of the handle is meshed with the outer concave-convex part, the matching of the inner concave convex part and the outer concave-convex part can play a role in transmitting rotation force, so that the rotating handle can drive the valve shaft to synchronously rotate through the matching of the inner concave convex part and the outer concave-convex part, the fixing part plays a role in fixing the handle and the valve. Meanwhile, the outer concave-convex part can be matched with the inner thread and the inner concave-convex part, so that the structure of the whole handle is more compact, the space utilization rate is high, the handle can be designed to be smaller and smaller, and the cost is lower.

And, this outer concave-convex part can satisfy the condition of zero clearance fit, can guarantee that handle, decoration panel, wall three zero clearance fit: when the mounting depth of the wall surface is larger, the nut group and the inner concave convex part can be matched with the outer concave-convex part at the top end of the valve shaft, and the length of the valve shaft extending into the through hole is shorter; when the installation depth of the wall surface is small, the nut group and the concave convex part can be matched with the outer concave-convex part at the lower end of the valve shaft, and the length of the valve shaft extending into the through hole is long.

2. When the valve shaft stretches out of the mounting hole, the length of the through hole is larger than or equal to the maximum length of the valve shaft stretching out of the mounting hole, and the valve shaft can be guaranteed to be always located in the through hole no matter how large the mounting depth of the wall surface is, so that the attractiveness is guaranteed.

3. When the valve shaft extends out of the mounting hole, the extension length of the outer concave-convex part is larger than or equal to the maximum length of the valve shaft extending out of the mounting hole, when the mounting depth of the wall surface reaches the maximum, the nut group and the inner concave-convex part can be guaranteed to be matched with the outer concave-convex part all the time, and smooth mounting is guaranteed.

4. The fixing piece is a screw which extends into the through hole and is in threaded connection and matching with the internal thread hole until a nut of the screw is pressed against the step surface to fixedly connect the handle and the valve shaft.

5. The nut group can only comprise the first nut and the wear-resistant part, the structure is simple, the wear-resistant effect is achieved, and the service life of the whole faucet is prolonged.

6. The nut group can also comprise a second nut, the second nut plays a role in reinforcing the first nut, the first nut is prevented from being unscrewed, and the decoration panel can be attached to the wall surface more stably and firmly by the nut group.

7. The bottom end face of the through hole is pressed against the pressed face, so that the locking force of the fixing piece can be transmitted to the second nut through the pressed face, the second nut is transmitted to the valve shaft, the locking force of the fixing piece cannot be transmitted to the wear-resistant piece, and the rotating hand feeling of the handle can be guaranteed.

8. The handle is also provided with a lock hole communicated with the through hole, the screw is in threaded connection with the lock hole, the bottom end of the screw is pressed against the valve shaft, and as can be seen from the figure, the screw is a side lock and can also achieve the effect of fixedly connecting the handle and the valve shaft.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a general view illustrating an assembly structure of a wall-in type faucet according to a preferred embodiment.

FIG. 2 is an exploded perspective view of the assembly structure of the wall-in faucet of the preferred embodiment.

Fig. 3 is a partially enlarged schematic view of fig. 2.

FIG. 4 is a sectional view showing an assembly structure of the wall-in type faucet of the preferred embodiment, in a state where the installation depth of the wall surface is small.

FIG. 5 is a sectional view showing an assembly structure of the wall-in type faucet of the preferred embodiment, in a state where the installation depth of the wall surface is large.

Fig. 6 shows a partial enlarged view of fig. 5.

Fig. 7 is a perspective exploded view of the nut set.

FIG. 8 illustrates an assembled cross-sectional view of the handle bore and the valve shaft.

FIG. 9 is a sectional view schematically showing an assembling structure of a wall-in type faucet according to another preferred embodiment.

Detailed Description

In the claims, the specification and the drawings, unless otherwise expressly limited, the terms "first," "second," or "third," etc. are used for distinguishing between different elements and not for describing a particular sequence.

In the claims, the specification and the drawings, unless otherwise expressly limited, to the extent that directional terms such as "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise" and the like are used, the positional or orientational relationships illustrated in the drawings are based on the positional and orientational relationships illustrated in the drawings and are merely for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention in any way.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the terms "fixedly connected" and "fixedly connected" should be understood in a broad sense, i.e., any connection without displacement relationship or relative rotation relationship between the two, i.e., including non-detachable fixed connection, integrated connection and fixed connection by other devices or elements.

In the claims, the specification and drawings of the present invention, the terms "including", "having" and their variants, if used, are intended to be inclusive and not limiting.

Referring to fig. 1 to 8, a preferred embodiment of an assembling structure of a wall-in type faucet includes a valve assembly 100, a decorative panel 200, a nut block 300, a handle 400, and a fixing member 500.

The valve assembly 100 is installed in a wall body and is provided with a valve shaft 110, the valve shaft 110 extends out of the wall surface and is provided at the outer circumference thereof with an outer concave-convex portion 111 extending in the longitudinal direction, wherein an outer thread 112 is provided at the convex portion of the outer concave-convex portion 111. In this embodiment, the valve assembly 100 may adopt any structure in the prior art except for the valve shaft 110, such as a valve assembly of a mixing valve or a valve assembly of an on-off valve, and the valve assembly is switched or switched by the rotation of the valve shaft 110. As shown in fig. 3, the outer concave-convex portions 111 are annularly arranged around the outer circumference of the valve shaft 110, and the outer concave-convex portions 111 are distributed over the valve shaft 110 in the longitudinal direction. The outer concave-convex portion 111 may be continuous in the longitudinal direction, or as shown in fig. 3, two annular grooves 113 may be provided on the outer periphery of the valve shaft 110 to space the outer concave-convex portion 111, but not limited thereto.

In this embodiment, the extension length of the outer concave-convex part 111 is greater than or equal to the maximum length of the valve shaft 110 extending out of the mounting hole 210, wherein the length of the valve shaft 110 extending out of the mounting hole 210 is the maximum length when the mounting depth of the wall surface is the minimum.

In this embodiment, the top end of the valve shaft 110 is provided with an internal threaded hole 114.

The decoration panel 200 is placed against the wall surface and is provided with a mounting hole 210, and the valve shaft 110 corresponds to the mounting hole 210. As shown in FIG. 2, the valve shaft 110 extends out of the mounting hole 210; if desired, the valve shaft 110 may not extend through the mounting hole 210; the decoration panel 200 is circular, and the mounting hole 210 is positioned in the center of the decoration panel 200; the decorative panel 200 may have other shapes as needed, but is not limited thereto.

The nut set 300 may be screw-engaged with the outer screw teeth 112 of the outer concave-convex portion 111 to press the decoration panel 200 against the wall surface.

In this embodiment, the nut set 300 at least includes a first nut 310 and a wear-resistant member 320 clamped on the outer periphery of the first nut 310, the first nut 310 is in threaded engagement with the outer threads 112 of the outer concave-convex portion 111, and the wear-resistant member 320 is sandwiched between the first nut 310 and the mounting hole 210. The function of pressing the decoration panel 200 against the wall surface can also be realized by the cooperation of the first nut 310 and the wear-resistant member 320.

In this embodiment, the nut set 300 further includes a second nut 330, the second nut 330 is provided with a positioning portion 331, the first nut 310 is provided with a positioning groove 311 and a rotating groove 312, the second nut 330 is sleeved outside the first nut 310 through the positioning fit between the positioning portion 331 and the positioning groove 311, a gap is provided between the top surface of the first nut 310 and the top surface of the second nut 330, when the wear-resistant member 320 is clamped between the first nut 310 and the mounting hole 210, the positioning portion 331 moves from the positioning groove 311 into the rotating groove 312 in the process of continuously rotating the second nut 330, and the positioning portion 331 rotates for a distance in the rotating groove 312 so that the top surface of the second nut 330 is attached to the top surface of the first nut 310. The positioning portion 331 is clamped into the positioning groove 311 to sleeve the second nut 330 at the periphery of the first nut 310, when the wear-resistant member 320 is clamped between the first nut 310 and the mounting hole 210, in the process of continuously rotating the second nut 330, the positioning portion 331 moves into the rotating groove 312 from the positioning groove 311, and the positioning portion 331 rotates for a certain distance in the rotating groove 312 so that the top surface of the second nut 330 is attached to the top surface of the first nut 310, so that the second nut 330 can press the first nut 310, a pressing force is applied to the first nut 310 in the axial direction, and the anti-loosening effect is better.

In this embodiment, the positioning slot 311 and the rotating slot 312 are disposed adjacent to each other, the height of the rotating slot 312 is greater than the height of the positioning slot 311, and the height difference between the rotating slot 312 and the positioning slot 311 is greater than or equal to the gap between the inner top surface of the second nut 330 and the top surface of the first nut 310, the positioning portion 331 also moves axially in synchronization while the second nut 330 moves axially, so that the positioning portion 331 can have a sufficient space for axial movement.

Also, as shown in fig. 7, the wear-resistant member 320 is annular and has an opening. As shown in fig. 6, the longitudinal section of the wear-resistant member 320 is T-shaped, the longitudinal portion of the wear-resistant member 320 is sandwiched between the first nut 310 and the mounting hole 210, one end of the lateral portion of the wear-resistant member 320 is pressed against the outer periphery of the first nut 310 and the other end of the lateral portion is pressed against the trim panel 200.

In this embodiment, a pressure receiving surface 332 is disposed at the top end of the second nut 330.

The handle 400 is provided with a through hole 410, the inner wall of the bottom end of the through hole 410 is provided with an inner concave convex part 411, the valve shaft 110 extends into the through hole 410, and the inner concave convex part 411 is engaged with the outer concave-convex part 111. In this embodiment, as shown in fig. 6, the bottom end surface of the through hole 410 is pressed against the pressed surface 332. The through hole 410 is coaxially disposed with the valve shaft 110 and the nut set 300.

In this embodiment, the length of the through hole 410 is greater than or equal to the maximum length of the valve shaft 110 extending out of the mounting hole 210, so as to give way to the mounting depth of the wall surface.

In this embodiment, a step surface 412 is disposed on an inner wall of the through hole 410. And, the bottom end of the handle 400 is further provided with a trumpet-shaped sleeve 420, and the sleeve 420 covers the nut set 300 and is in gapless fit with the decoration panel 200.

The fixing member 500 fixedly couples the handle 400 and the valve shaft 110.

In this embodiment, the fixing member is a screw, which extends into the through hole 410 and is screwed with the internal threaded hole 114 until the nut presses against the step surface 412 to fix the handle 400 to the valve shaft 110.

A method of assembling a wall-entry faucet, comprising:

step 10, installing the valve assembly 100 in a reserved space of a wall, then decorating the wall, reserving an opening on the wall, and extending a valve shaft 110 of the valve assembly out of the opening on the wall;

step 20, abutting the decoration panel 200 against the wall surface, wherein the mounting hole 210 of the decoration panel corresponds to the opening of the wall surface, and the valve shaft 110 extends out of the mounting hole 210;

step 30, screwing the nut group 300 downwards along the valve shaft 110 until the decoration panel 200 is pressed on the wall surface by the nut group 300; specifically, the nut assembly 300 is preassembled: firstly, the wear-resistant piece 320 is clamped on the periphery of the bottom end of the first nut 310, then, the wear-resistant piece is clamped into the positioning groove 311 through the positioning part 331 so as to sleeve the second nut 330 outside the first nut 310, thus the nut set 300 is preassembled, then, the preassembled nut set 300 is aligned with the valve shaft 110 for screw connection until the wear-resistant piece 320 of the nut set is clamped between the first nut 310 and the mounting hole 210, at the moment, the friction force between the wear-resistant piece 320 and the mounting hole 210 reaches the maximum, and at the moment, a gap is formed between the inner top surface of the second nut 330 and the top surface of the first nut 310; then, the second nut 330 is continuously rotated, when the frictional resistance applied to the first nut 310 is greater than the holding force between the positioning portion 331 and the positioning slot 311, the positioning portion 331 moves from the positioning slot 311 into the rotating slot 312, and at this time, the positioning portion 331 can move along the circumferential direction of the rotating slot 312 and also can move downwards along the height direction of the rotating slot 312 at the same time until the top surface of the second nut 330 is attached to the top surface of the first nut 310, so that the assembly of the nut set 300, the decorative panel 200 and the valve shaft 110 is completed;

step 40, the through hole 410 of the handle 400 corresponds to the valve shaft 110, the valve shaft 110 extends into the through hole 410, and the concave convex part 411 is engaged with the concave-convex part 111 until the bottom end surface of the through hole 410 is pressed against the pressure receiving surface 332 of the second nut 330;

step 50, fixedly connecting the handle 400 and the valve shaft 110 through the fixing member 500. Specifically, the screw extends into the through hole 410 and is threadedly engaged with the internal threaded hole 114 until the nut presses against the step surface 412 to fixedly couple the handle 400 to the valve shaft 110.

When the installation depth of the wall surface is small, as shown in fig. 4, the length of the valve shaft 110 extending out of the installation hole 210 is long, at this time, the nut set 300 is screwed at the position of the lower end of the valve shaft 110, the valve shaft 110 extends into the through hole 410 near the top end, the concave convex part 411 of the through hole 410 is engaged with the concave-convex part 111 of the lower end of the valve shaft 110, and the screw extends into the deeper position of the internal thread hole 114, so as to ensure that the decorative panel 200 is in gapless fit with the sleeve 420 of the handle 400, and the decorative panel 200 is in gapless fit with the wall surface;

when the installation depth of the wall surface is large, as shown in fig. 5, the length of the valve shaft 110 extending out of the installation hole 210 is short, at this time, the nut set 300 is screwed at the position of the top end of the valve shaft 110, the valve shaft 110 extends into the through hole 410 near the bottom end, the concave convex part 411 in the through hole 410 is engaged and matched with the convex-concave part 111 at the top end of the valve shaft 110, and the screw extends into the shallow position of the internal thread hole 114, so as to ensure that the decorative panel 200 is in gapless fit with the sleeve 420 of the handle 400 and the decorative panel 200 is in gapless fit with the wall.

When the gapless fit is performed, the adjustment is performed only by moving back and forth along the valve shaft 110, and the adjustment is simple and convenient.

Referring to fig. 9, in another preferred embodiment of the assembly structure of the wall-in faucet, in this embodiment, the handle 400 is further provided with a lock hole 430 communicated with the through hole 410, the fixing member 500 is a screw, the screw is screwed with the lock hole 430, and the bottom end of the screw is pressed against the valve shaft 110. The locking hole 430 is transversely disposed and located at a side of the handle 400.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims (9)

1. An assembly structure of a wall-in type faucet is characterized in that: it includes:

the valve assembly is arranged in the wall body and is provided with a valve shaft, the valve shaft extends out of the wall surface, the periphery of the valve shaft is provided with an outer concave-convex part extending longitudinally, and the convex part of the outer concave-convex part is provided with outer threads;

the decoration panel is arranged on the wall surface in a leaning mode and provided with a mounting hole, and the valve shaft corresponds to the mounting hole;

the nut group can be in threaded fit with the external threads of the external concave-convex part so as to press the decorative panel on the wall surface;

the handle is provided with a through hole, the inner wall of the through hole is provided with an inward concave convex part, the valve shaft extends into the through hole, and the inward concave convex part is meshed and matched with the outward concave convex part; and

and the fixing piece fixedly connects the handle and the valve shaft.

2. A mounting structure of a wall-in type faucet as claimed in claim 1, wherein: the length of the through hole is larger than or equal to the maximum length of the valve shaft extending out of the mounting hole.

3. A mounting structure of a wall-in type faucet as claimed in claim 1, wherein: the valve shaft extends out of the mounting hole, and the extension length of the outer concave-convex part is greater than or equal to the maximum length of the valve shaft extending out of the mounting hole.

4. A mounting structure of a wall-in type faucet as claimed in claim 1, wherein: the inner wall of the through hole is provided with a step surface, the top end of the valve shaft is provided with an internal thread hole, the fixing part is a screw, and the screw extends into the through hole and is in threaded fit with the internal thread hole until a nut of the screw presses against the step surface so as to fixedly connect the handle and the valve shaft.

5. An assembly structure of a wall-in type faucet as set forth in claim 4, wherein: the nut group at least comprises a first nut and a wear-resistant part clamped on the periphery of the first nut, the first nut is in threaded connection with the outer threads of the outer concave-convex part, and the wear-resistant part is clamped between the first nut and the mounting hole.

6. An assembly structure of a wall-in type faucet as set forth in claim 5, wherein: the nut group further comprises a second nut, the second nut is provided with a positioning portion, the first nut is provided with a positioning groove and a rotating groove, the second nut is sleeved outside the first nut through the positioning fit of the positioning portion and the positioning groove, a gap is formed between the inner top surface of the first nut and the top surface of the second nut, when the wear-resistant piece is clamped between the first nut and the mounting hole, the positioning portion moves into the rotating groove from the positioning groove in the process of continuously rotating the second nut, and the positioning portion rotates for a certain distance in the rotating groove so that the inner top surface of the second nut is attached to the top surface of the first nut.

7. An assembly structure of a wall-in type faucet as set forth in claim 6, wherein: the positioning groove and the rotating groove are arranged adjacently, the height of the rotating groove is larger than that of the positioning groove, and the height difference between the rotating groove and the positioning groove is larger than or equal to the gap between the inner top surface of the second nut and the top surface of the first nut.

8. An assembly structure of a wall-in type faucet as set forth in claim 6, wherein: the top end of the second nut is provided with a pressed surface, and the bottom end surface of the through hole is pressed against the pressed surface.

9. A mounting structure of a wall-in type faucet as claimed in claim 1, wherein: the handle is further provided with a lock hole communicated with the through hole, the fixing part is a screw, the screw is in threaded connection with the lock hole, and the bottom end of the screw is pressed against the valve shaft.

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