CN107837546B - Bubble gun - Google Patents

Abstract

The invention discloses a bubble gun, comprising: the gun body comprises a gun body and a gun handle connected to the gun body, and an air channel is arranged on the gun body; the liquid storage box is clamped in the gun body and used for storing bubble liquid; the mucus assembly is rotatably supported at the front part of the gun body and comprises a first rotating shaft, and a mucus wheel and a mucus wind wheel which are respectively arranged on the first rotating shaft, wherein the mucus wheel is used for sticking bubble liquid and performing preforming on the bubble liquid; and the air supply assembly is rotatably supported at the rear part of the gun body and is used for collecting and converting external wind energy into wind power required by bubble generation so as to provide wind power for the bubble generation. This papaw rifle can utilize open air natural wind to drive whole mucus assembly and air feed assembly respectively as power and rotate to utilize outdoor wind to realize double dynamical operation, avoided conventional papaw rifle battery to need often change and the trouble that causes, convenient to use and environmental protection. The bubble gun also has the double functions of a windmill and bubble generation, and a user has better use experience.

Description

Bubble gun

Technical Field

The invention relates to the technical field of entertainment toys, in particular to a bubble gun.

Background

The bubble gun is an entertainment toy for generating bubbles by using bubble liquid.

Existing bubble guns, particularly self-powered bubble guns, use a battery as a power source to provide energy for the operation of the bubble gun. However, the use of batteries on the one hand increases the weight of the bubble gun, on the other hand provides a poor energy endurance with batteries, which requires frequent battery replacement, a battery set can only be played by the user several times, or for several hours, which is very inconvenient, and replacing a battery set requires at least five dollars, or even more. And the bubble gun is used, and the generating effect of the bubble gun becomes worse and worse along with the gradual reduction of the consumed energy of the electric quantity of the battery. The above conditions greatly affect the user experience.

Therefore, there is a need to provide a bubble gun capable of supplying energy continuously, which solves the problems of the prior art.

Disclosure of Invention

Accordingly, the present invention is directed to a bubble gun that can operate without additional power, and that is capable of avoiding the trouble of frequent battery replacement of a conventional bubble gun, and that has a windmill function, and is convenient and environmentally friendly to use, so as to solve the problems of the prior art.

According to the present invention, there is provided a bubble gun comprising:

the gun body comprises a gun body and a gun handle connected to the gun body, and an air channel is arranged on the gun body;

the liquid storage box is clamped in the gun body and used for storing bubble liquid;

the mucus assembly is rotatably supported at the front part of the gun body and comprises a first rotating shaft, and a mucus wheel and a mucus wind wheel which are respectively arranged on the first rotating shaft, wherein the mucus wheel is used for sticking bubble liquid and performing preforming on the bubble liquid;

the air supply assembly is rotatably supported at the rear part of the gun body and is used for collecting and converting external wind energy into wind power required by bubble generation so as to provide wind power for the bubble generation;

wherein, first pivot passes gun body and rotatable support in on the gun body, the mucus wheel is located in the gun body, the wind channel is located the top of gun body, the lower part of mucus wheel soak in the stock solution box, the upper portion of mucus wheel stretches into at least partially in the wind channel, the mucus wind wheel is located the outside of gun body, the mucus wind wheel relies on wind-force to rotate and drives the mucus wheel rotates, the mucus wheel rotates the in-process and glues and gets the papaw liquid in the stock solution box and drive upper portion behind preforming with the papaw liquid, the confession wind assembly to it blows the inflation with the papaw liquid of preforming in the wind channel to inject wind-force and generates the papaw and blows out the wind channel.

Preferably, the wind supply assembly comprises a second rotating shaft, and a fan and a wind supply wind wheel which are respectively arranged on the rotating shaft,

wherein, the pivot passes and supports in on the outer wall in wind channel, the confession wind wheel is located the wind channel is outside, the fan is located in the wind channel, the fan is used for providing wind-force for the generation of papaw.

Preferably, the number of the wind supply wind wheels is two, and the two wind wheels are oppositely arranged on two sides of the fan.

Preferably, the air duct extends along the length direction of the gun body and is provided with a diffusion section, an extension section and a wind collecting section from the front part to the rear part of the gun body along the axial direction,

the wind collecting section is in a horn shape and gradually expands towards the direction far away from the extending section, and is used for collecting wind power generated by the fan and discharging the collected wind power into the extending section, the extending section is cylindrical, the upper part of the mucus wheel extends into the extending section,

the diffusion section is trumpet-shaped, and gradually expands along the direction away from the extension section, and is used for blowing out and diffusing bubbles.

Preferably, the fan is located in the wind collecting section, and the first rotating shaft is perpendicularly intersected with the axis of the wind channel.

Preferably, the big end side of the wind collecting section is provided with an air inlet disc, the air inlet disc is provided with a plurality of air inlets with the extending direction parallel to the axis of the air inlet disc,

wherein the axis of the air inlet disc and the axis of the air duct are inclined at a preset angle of 145-165 degrees.

Preferably, the mucus wheel includes a wheel frame and a plurality of mucus rings distributed on the outer circumference of the wheel frame.

Preferably, the axis of each mucus ring is perpendicular to the axis of the rotating shaft of the wheel carrier.

Preferably, at least one mucus ring at the lower part of the mucus wheel is immersed in the liquid storage box, and at least one mucus ring at the upper part of the mucus wheel is transferred into the air duct.

Preferably, the mucus ring is inserted on the wheel frame.

The bubble gun provided by the invention can utilize outdoor natural wind as power to respectively drive the whole mucus assembly and the air supply assembly to rotate, so that the mucus wheel in the mucus assembly rotates mucus, the fan rotates to provide power for blowing, pulling and expanding of bubbles, and then dual-power operation is realized by utilizing outdoor wind, the operation of the bubble gun can be realized without additional energy supply, the trouble caused by frequent replacement of a battery of a conventional bubble gun is avoided, and the bubble gun is convenient to use and environment-friendly. On the other hand, the mucus wind wheel wind supply wind wheel has the function of a windmill while providing power, so that the bubble gun has the double functions of the windmill and generating bubbles, and a user has better use experience.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings.

FIG. 1 shows a front view of a bubble gun according to an embodiment of the present invention (with the gun body shown transparent).

FIG. 2 shows a right side view of a bubble gun according to an embodiment of the present invention (with the gun body shown transparent).

FIG. 3 illustrates a perspective view of a viscous liquid assembly of a bubble gun according to an embodiment of the present invention.

FIG. 4 shows a split structural schematic of a mucus assembly of a bubble gun according to an embodiment of the present invention.

FIG. 5 illustrates a perspective view of a first rotating shaft of the mucus assembly, according to an embodiment of the present invention.

FIG. 6 illustrates a perspective view of a mucus wheel of a mucus assembly, according to an embodiment of the present disclosure.

Fig. 7 shows a perspective view of a wheel frame of a mucous wheel according to an embodiment of the invention.

Fig. 8 shows a schematic perspective view of a mucus ring according to an embodiment of the present invention.

Fig. 9 shows a perspective view of a first section of a mucus wind rotor according to an embodiment of the present invention.

FIG. 10 illustrates a perspective view of a secondary pitch mucus wind turbine according to an embodiment of the present invention.

In the figure: the bubble liquid 1000, the gun body 100, the gun body 11, the first chamber 111, the second chamber 112, the wind collecting section 1131, the extension section 1132, the diffusion section 1133, the air intake disc 1134, the gun handle 12, the liquid storage box 200, the mucus assembly 300, the first rotating shaft 31, the first cylindrical part 311, the prism part 312, the second cylindrical part 313, the prism inner hole 3131, the screw 314, the mucus wheel 32, the wheel carrier 321, the mucus ring 322, the ring body 3221, the inserting column 3222, the mucus wind wheel 33, the hexagonal prism column 331, the threaded cylinder 332, the threaded column 333, the wind supply assembly 400 and the air bag 5.

Detailed Description

Various embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. Like elements in the various figures are denoted by the same or similar reference numerals. For purposes of clarity, the various features in the drawings are not necessarily drawn to scale.

As shown in fig. 1 to 10, the bubble gun of the present invention includes a gun body 100, a liquid storage case 200, a viscous liquid assembly 300, and an air supply assembly 400. The gun body 100 comprises a gun body 11 and a gun handle 12 connected to the gun body 11, wherein an air duct is arranged on the gun body 11. The liquid storage box 200 is clamped in the gun body 11 and is used for storing the bubble liquid 1000; the mucus assembly 300 is rotatably supported at the front portion of the gun body 11, the mucus assembly 300 includes a first rotating shaft 31, and a mucus wheel 32 and a mucus wind wheel 33 respectively disposed on the first rotating shaft 31, the mucus wheel 32 is used for adhering the bubble liquid 1000 and performing the pre-forming of the bubble liquid 1000. The wind supply assembly 400 is rotatably supported at the rear portion of the gun body 11 and is used for collecting and converting external wind energy into wind power required by bubble generation, so as to provide wind power for the bubble generation. In this embodiment, the gun body 100 may be embodied as two half shells, which are fastened to each other by screws, so as to facilitate the installation of the components in the gun body 100.

The first rotating shaft 31 penetrates through the gun body 11 and is rotatably supported on the gun body 100, the mucus wheel 32 is disposed in the gun body 11, the air duct is located at the top of the gun body 11, the lower portion of the mucus wheel 32 is immersed in the liquid storage box 200, the upper portion of the mucus wheel 32 at least partially extends into the air duct, the mucus wind wheel 33 is located outside the gun body 11, the mucus wind wheel 33 rotates by wind power to drive the mucus wheel 32 to rotate, the mucus wheel 32 picks up the bubble liquid 1000 in the liquid storage box 200 in the rotating process and drives the bubble liquid 1000 to the upper portion after preforming, and the air supply assembly 400 injects wind power into the air duct to blow the preformed bubble liquid 1000 to generate bubbles and blow the air duct.

The air duct extends along the length direction of the gun body 11, and is sequentially provided with a diffusion section 1133, an extension section 1132 and an air collecting section 1131 from the front part to the rear part of the gun body 11 along the axial direction. The wind collecting section 1131 is in a horn shape, and gradually expands toward a direction away from the extension section 1132, and is used for collecting wind force generated by the fan and discharging the collected wind force to the extension section 1132. The extension 1132 is cylindrical, and an upper portion of the viscous fluid wheel 32 extends into the extension 1132. The diffuser 1133 is in the shape of a horn, and gradually expands along the direction away from the extension 1132, so as to diffuse the bubbles.

Further, the number of the mucus rotor 33 arranged in the mucus assembly 300 can be selected according to actual needs. In this embodiment, mucus rotor 33 includes a first mucus rotor 33 (fig. 9) and a second mucus rotor 33 (fig. 10), the first mucus rotor 33 is configured to be connected to one end of the first rotor shaft 31, and the second mucus rotor 33 is configured to be connected to the first mucus rotor 33. Referring to fig. 9, hexagonal prism columns 331 and threaded cylinders 332 are respectively connected to end surfaces of opposite sides of a hub of the first section of mucus wind wheel 33, the hexagonal prism columns 331 are used for being inserted into the first rotating shaft 31, and the threaded cylinders 332 are used for being connected with the second section of mucus wind wheel 33. Referring to fig. 10, the difference between the second mucus wind wheel 33 and the first mucus wind wheel 33 is that the prismatic column is replaced by a threaded column 333, and the threaded column 333 is used for screwing into a threaded cylinder 332, so as to realize the connection between the first mucus wind wheel 33 and the second mucus wind wheel 33. The secondary mucus wind wheel 33 can be provided in plurality, for example two, three or more, according to the magnitude of the outdoor wind and the needs of the user.

The first rotating shaft 31 includes a first cylindrical portion 311, a prismatic portion 312 and a second cylindrical portion 313 connected in sequence along the axial direction, the second cylindrical portion 313 is provided with a prismatic inner hole 3131, and the cross section of the prismatic inner hole 3131 is a hexagonal structure and extends along the axial direction of the rotating shaft. The abutment portion is formed at the abutment portion of the prism portion 312 adjacent to the second cylindrical portion 313. The mucus wheel 32 is snapped onto the prism portion 312 and the shoulder portion is adapted to abut against the mucus wheel 32 in the axial direction. The prism portion 312 is used for clamping the viscous liquid wheel 32. The prismatic inner hole 3131 is used for inserting the first section of mucus wind wheel 33, a screw 314 hole penetrating to the prismatic inner hole 3131 is formed in the side wall of the second cylindrical portion 313, the screw 314 hole is used for screwing the screw 314, so that the first section of mucus wind wheel 33 inserted into the prismatic inner hole 3131 is fixed, and the adjustment of the first section of mucus wind wheel 33 on the axial position of the first rotating shaft 31 can be achieved by loosening the screw 314. When a plurality of secondary mucus wind wheels 33 are provided, the axial position of the primary mucus wind wheel 33 can be adjusted, thereby achieving the force balance of the whole mucus assembly 300 on the bubble gun, and the force balance wave comprises static balance and dynamic balance.

Referring to fig. 6-8, the mucus wheel 32 includes a wheel frame 321, and a plurality of mucus rings 322 disposed on the wheel frame 321. Specifically, a plurality of insertion holes extending along the radial direction are uniformly distributed on the outer periphery of the wheel frame 321 for inserting the viscous liquid ring 322. The mucus ring 322 comprises a ring body 3221 and an insertion column 3222 connected to the outer peripheral wall of the ring, and the mucus ring 322 is inserted into the insertion hole around the insertion column 3222. In this embodiment, the mucous ring 322 is a circular ring, the axis of the mucous ring 322 is perpendicular to the axis of the wheel frame 321, and mucous teeth are disposed on the inner circumferential wall of the mucous ring 322 for adhering and temporarily storing the bubble liquid 1000 and increasing the adhesion to the bubble liquid 1000. At least one viscous liquid wheel 32 is extended into the extension 1132 of the wind channel above the viscous liquid wheel 32, so as to ensure the generation of bubbles. At least one lower part of the viscous liquid wheel 32 is exposed out of the first chamber 111 and extends into the liquid storage box 200.

Preferably, an elastic layer, for example, an elastic layer made of rubber material, is disposed on the outer circumference of the insertion column 3222, so as to firmly insert the mucous ring 322 into the insertion hole of the wheel frame 321, and the angle between the axis of the ring body 3221 of the mucous ring 322 and the axis of the wheel frame 321, and further the angle between the axis of the ring body 3221 and the axis of the air duct, can be changed by rotating the mucous ring 322, so as to form greatly different bubbles.

Further, the ring body 3221 may be circular, or may have other shapes, such as a prism shape, an oval shape, etc., or a combination of multiple shapes such as a prism shape, an oval shape, a circular shape, etc., distributed on the ring body 3221, so as to blow bubbles with different shapes.

Specifically, the bottom wall of the gun body 11 is provided with a first chamber 111 extending towards the top wall direction for accommodating the liquid storage box 200. A triangular first protrusion is arranged on the inner wall of the first cavity 111, a triangular second protrusion is arranged on the outer wall of the liquid storage box 200, the second protrusion is matched with the first protrusion, and the second protrusion is made of soft sealing materials, such as rubber. The first protrusion and the second protrusion are matched for use and are used for clamping the liquid storage box 200. Further, the top end surface of the liquid storage box 200 is provided with a sealing material, which may be specifically selected from rubber. After the liquid storage box 200 is clamped in the first chamber 111, the top end surface of the liquid storage box 200 is simultaneously pressed on the top wall of the first chamber 111 to seal the liquid storage box 200 and prevent the bubble liquid 1000 in the liquid storage box 200 from flowing out.

The gun is further provided with a second chamber 112 for accommodating the viscous liquid wheel 32, and the second chamber 112 penetrates from the first chamber 111 to the extension 1132 of the air channel. The second chamber 112 is arcuate in configuration along opposite interior walls of the length of the frame 11, generally matching the outer dimensions of the mucus wheel 32, and the second chamber 112 is approximately the same thickness as the mucus wheel 32 to provide a side wall seal.

When the mucus ring 322 needs to be replaced, for example, the angle of the mucus ring 322 on the wheel frame 321 is rotated, or the number of the mucus rings 322 is adjusted to adjust the bubble generation speed, etc., the liquid storage box 200 is only required to be removed from the bottom of the gun body 11, and the mucus wheel 32 is processed from the first chamber 111, which is simple and convenient.

In this embodiment, the first and second chambers 111 and 112 are disposed slightly on the side away from the mucus rotor 33 in the thickness direction of the gun body 11, so as to form an overall force balance.

The viscous liquid wheel 32 rotates the bubble liquid 1000 to the extension 1132 of the wind channel and performs the bubble, and the wind force provided by the wind supply assembly 400 blows and expands the preformed bubble liquid 1000 into bubbles.

The wind supply assembly 400 includes a second rotating shaft, and a fan and a wind supply wheel respectively disposed on the rotating shaft. The second rotating shaft penetrates through and is supported on the outer wall of the wind collecting section 1131 of the wind channel, the wind supply wind wheel is located outside the wind channel, the fan is located in the wind collecting section 1131 of the wind channel, the first rotating shaft 31 is vertically intersected with the axis of the wind channel, and the fan is used for providing wind power for the generation of bubbles. The wind direction of the fan is opposite to that of the rotating shaft.

In this embodiment, the number of the wind supply wind wheels is two, and the two wind wheels are oppositely arranged on two sides of the fan.

Further, an air intake disc 1134 is disposed at a large end side of the air collecting section 1131, and a plurality of air intake holes extending in a direction parallel to an axis of the air intake disc 1134 are disposed on the air intake disc 1134. Wherein the axis of the air intake disc 1134 is inclined to the axis of the air duct by a predetermined angle, and the predetermined angle is 145 ° to 165 °. With such a configuration, when the fan rotates to supply wind to the air duct, the wind escapes from the wind collecting section 1131 of the air duct, thereby affecting the transmission and power of the wind in the air duct. In this embodiment, the intake disc 1134 is threaded onto the end of the wind gathering section 1131 of the wind tunnel.

Further, the bubble gun further comprises an elastic air bag 5, the air bag 5 is disposed in the gun body 11 and is communicated with the air collecting section 1131 of the air duct for balancing the air flow generated by the fan to enhance the stability of bubble generation, for example, when the external wind is sufficient, the wind supplying wheel drives the excess wind generated by the fan to enter and store in the air bag 5, and when the external wind is insufficient, the stored wind is released.

The papaw rifle in this embodiment can utilize open air natural wind to drive whole mucus assembly 300 and air feed assembly 400 respectively as power and rotate for mucus wheel 32 in mucus assembly 300 rotates the mucus, and the fan rotates and draws the inflation for blowing of papaw and provides power, thereby utilizes outdoor wind to realize double dynamical operation, need not extra energy supply alright realize the operation of papaw rifle, has avoided the trouble that conventional papaw rifle battery need often change and cause, convenient to use and environmental protection. On the other hand, the mucus wind wheel 33 and the wind supply wind wheel have a windmill function while providing power, and even when the bubble liquid is used up, the windmill function can be realized only by the rotation of the wind supply assembly, so that the bubble gun has double functions of a windmill and bubble generation, and a user has better use experience.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: it should be understood that the above examples are only for clearly illustrating the present invention and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of the invention may be made without departing from the scope of the invention.

Claims (8)

1. A bubble gun, comprising:

the gun body comprises a gun body and a gun handle connected to the gun body, and an air channel is arranged on the gun body;

the liquid storage box is clamped in the gun body and used for storing bubble liquid;

the mucus assembly is rotatably supported at the front part of the gun body and comprises a first rotating shaft, and a mucus wheel and a mucus wind wheel which are respectively arranged on the first rotating shaft, wherein the mucus wheel is used for sticking bubble liquid and performing preforming on the bubble liquid;

the air supply assembly is rotatably supported at the rear part of the gun body and is used for collecting and converting external wind energy into wind power required by bubble generation so as to provide wind power for the bubble generation;

the first rotating shaft penetrates through the gun body and is rotatably supported on the gun body, the viscous liquid wheel is arranged in the gun body, the air channel is positioned at the top of the gun body, the lower part of the viscous liquid wheel is soaked in the liquid storage box, the upper part of the viscous liquid wheel at least partially extends into the air channel, the viscous liquid wind wheel is positioned outside the gun body and is driven to rotate by wind power, bubble liquid in the liquid storage box is adhered and pre-molded by the viscous liquid wheel in the rotating process and then driven to the upper part, and the air supply assembly injects wind power into the air channel to blow and expand the pre-molded bubble liquid to generate bubbles and blow the bubbles out of the air channel;

the air supply assembly comprises a second rotating shaft, and a fan and an air supply wind wheel which are respectively arranged on the rotating shaft, wherein the second rotating shaft penetrates through and is supported on the outer wall of the air channel, the air supply wind wheel is positioned outside the air channel, the fan is positioned in the air channel, the fan is used for providing wind power for bubble generation, the number of the air supply wind wheels is two, and the two wind wheels are oppositely arranged on two sides of the fan;

the air duct extends along the length direction of the gun body, and is sequentially provided with a diffusion section, an extension section and an air collection section from the front part to the rear part of the gun body along the axial direction,

the wind collecting section is in a horn shape and gradually expands towards the direction far away from the extending section, and is used for collecting the wind power generated by the fan and discharging the collected wind power to the extending section,

the extension section is cylindrical, the upper part of the mucus wheel extends into the extension section,

the diffusion section is in a horn shape, gradually expands along the direction far away from the extension section and is used for blowing and diffusing bubbles,

an air inlet disc is arranged on the large end side of the air collecting section, a plurality of air inlet holes parallel to the axis of the air inlet disc in the extending direction are formed in the air inlet disc, the axis of the air inlet disc and the axis of the air channel incline at a preset angle of 145-165 degrees;

the first rotating shaft comprises a first cylindrical part, a prism part and a second cylindrical part which are sequentially connected along the axial direction, a prismatic inner hole is formed in the second cylindrical part, the section of the prismatic inner hole is of a hexagonal structure and extends along the axial direction of the rotating shaft, a shoulder part is formed at the position, adjacent to the prism part and the second cylindrical part, of the prism part, the mucus wheel is clamped on the prism part, the shoulder part is used for abutting against the mucus wheel in the axial direction, the prism part is used for clamping the mucus wheel, and the prismatic inner hole is used for being connected with the first section of mucus wind wheel in an inserting mode;

the side wall of the second cylindrical part is provided with a screw hole penetrating to the prismatic inner hole, the screw hole is used for screwing a screw, so that the first section of mucus wind wheel inserted into the prismatic inner hole is fixed, and the first section of mucus wind wheel is adjusted on the axial position of the first rotating shaft by loosening the screw;

the bubble gun also comprises an elastic air bag which is arranged in the gun body and communicated with the air collecting section of the air channel.

2. The bubble gun according to claim 1, wherein the number of the wind-supplying wind wheels is two, and the two wind wheels are oppositely disposed at two sides of the fan.

3. The bubble gun according to claim 1, wherein the fan is located in the wind collecting section, and the first rotating shaft perpendicularly intersects with an axis of the wind tunnel.

4. The bubble gun as claimed in claim 1, wherein an air intake disc is provided at the large end of the air collecting section, the air intake disc is provided with a plurality of air intake holes extending parallel to the axis of the air intake disc,

wherein the axis of the air inlet disc and the axis of the air duct are inclined at a preset angle of 145-165 degrees.

5. The bubble gun according to claim 1, wherein the mucoid wheel comprises a wheel frame and a plurality of mucoid rings distributed on the outer circumference of the wheel frame.

6. The bubble gun according to claim 5, wherein the axis of each mucus ring is perpendicular to the rotational axis of the wheel carriage.

7. The bubble gun as claimed in claim 5, wherein at least one of the viscous rings at the lower part of the viscous wheel is immersed in the reservoir, and at least one of the upper part of the viscous wheel is turned into the air duct.

8. The bubble gun as claimed in any one of claims 5-7, wherein the mucus ring is inserted on the wheel frame.

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