CN213347775U - Bubble bracket of turnover bubble machine - Google Patents

Abstract

The utility model relates to a papaw support of convertible papaw machine, including the foaming frame, its characterized in that: the crank and the rotating piece are further included, and the rotating axis of the rotating piece is arranged along the horizontal direction; the crank has stiff end and expansion end, foaming frame horizontal fixed mounting is at the expansion end of crank, and rotating member fixed mounting is at the stiff end of crank. The bubble bracket of the turnover bubble machine is used for overturning the inner side and the outer side of the bubble liquid groove, has stronger dynamic sense, and avoids bringing the bubble liquid out of the bubble liquid groove.

Description

Bubble bracket of turnover bubble machine

Technical Field

The utility model relates to a papaw machine technical field especially relates to a papaw support of convertible papaw machine.

Background

The basic bubble blowing principle of the bubble machine is that after a bubble frame is immersed in bubble liquid and taken out, a blowing device such as a fan blows air from one side of the bubble frame dipped with the bubble liquid, so that bubbles are formed and blown out from the other side of the bubble frame. The bubble blowing mechanism of the traditional bubble machine generally comprises a bubble liquid tank, a rotating device and a blowing device, wherein the bubble liquid tank is arranged below the rotating device, the blowing device is arranged behind the rotating device, a frame handle is arranged on a bubble frame, and a plurality of bubble frames are inserted into the power output end of the rotating device through the frame handle.

When the bubble blowing is carried out, the rotating device drives each bubble forming frame to do circular movement around a rotating center (such as a central rotating shaft): the foaming frame is gradually immersed into the bubble liquid groove from top to bottom in the circular motion process, and when the foaming frame is at the lowest position, the foaming frame is completely immersed into the bubble liquid groove; and then gradually leaving the bubble liquid groove from bottom to top along with the circular motion, when the foaming frame is at the highest position, aligning the frame body of the foaming frame with the air outlet of the air blowing device, and blowing the foaming frame by the air blowing device to generate bubbles.

However, in the rotary bubble blowing mode, the bubble generating frame only moves circumferentially when rotating, and is lack of dynamic sense, and in addition, the bubble generating frame can continuously bring out bubble liquid from the inner end of the bubble liquid groove, so that the bubble liquid is easy to splash and pollute the inside of the bubble machine, and the splashed bubble liquid can be directly blown out of the bubble machine by the blowing fan.

Disclosure of Invention

The utility model aims to solve the problem that a bubble support of convertible papaw machine is provided, the papaw support of this kind of convertible papaw machine is used for overturning at the inside and outside in papaw cistern, has stronger dynamic to avoid taking out the papaw cistern with the papaw liquid. The technical scheme is as follows:

the utility model provides a bubble support of convertible papaw machine, includes the foaming frame, its characterized in that: the crank and the rotating piece are further included, and the rotating axis of the rotating piece is arranged along the horizontal direction; the crank has stiff end and expansion end, foaming frame horizontal fixed mounting is at the expansion end of crank, and rotating member fixed mounting is at the stiff end of crank.

In the convertible bubble machine of the present specification, the fan is disposed below the bubble liquid tank, and the blowing direction is vertical upward.

The fixed end does not displace in the horizontal direction and the vertical direction in the overturning process of the foaming frame; the movable end is driven by the rotating piece to move in the horizontal direction and the vertical direction, so that the foaming frame is driven to turn over.

The foaming frame is connected with the rotating piece through a crank, and when the rotating piece rolls forwards for 180 degrees, the foaming frame correspondingly turns upwards and forwards for 180 degrees and turns over; when the rotating member is rolled back through 180 °, the blister frame is correspondingly turned up and back through 180 ° and flipped. The rotating piece is arranged at the edge of the bubble liquid groove, and the foaming frame is turned back and forth at two sides (namely inside and outside the bubble liquid groove) of the edge of the bubble liquid groove by rolling the rotating piece back and forth. When the foaming frame is positioned at the inner side of the edge of the bubble liquid groove, the bubble liquid is dipped in the horizontal state, and in the process of gradually overturning the outer side of the bubble liquid groove, the redundant bubble liquid has enough time to drip back into the bubble liquid groove, so that the carrying amount of the bubble liquid in the overturning process of the foaming frame is greatly reduced; when the foaming frame is turned over to the outer side of the edge of the bubble liquid groove, the frame surface is positioned above the blowing device, and the blowing device positioned below the bubble liquid groove blows air to the foaming frame to form bubbles.

The rolling of the rotating member in the vertical plane can be realized by the following modes: for example, the rotating member is connected to some existing driving device (such as a servo motor, etc.) through a rolling shaft, and the driving device drives the rolling shaft to rotate, or adopts cam rolling, friction driving, etc. other modes.

As a preferred scheme of the utility model, the crank comprises a first horizontal section, a first vertical section, a second horizontal section, a second vertical section and a third horizontal section; the extending direction of the first horizontal section is parallel to the rotating axis of the rotating part, the inner end of the first horizontal section is used as the fixed end to be connected with the rotating part, and the lower end of the first vertical section is connected with the outer end of the first horizontal section; the extending direction of the second horizontal section is vertical to the rotating axis of the rotating piece, the inner end of the second horizontal section is connected with the upper end of the first vertical section, and the upper end of the second vertical section is connected with the outer end of the second horizontal section; the extension direction of the third horizontal section is parallel to the rotation axis of the rotating piece, the lower end of the second vertical section is connected with the inner end of the third horizontal section, and the outer end of the third horizontal section is used as the movable end and connected with the foaming frame. The inner and outer ends are considered to be inner sides close to the rotating member and outer sides far from the rotating member based on the distance from the rotating member.

As a further preferable aspect of the present invention, the cross section of the rotating member is circular. The rotating piece is driven to roll back and forth in the horizontal plane in a vertical state, so that the foaming frame is turned over back and forth.

As a further preferred aspect of the present invention, the rotating member is circumferentially provided with a bisected smooth section and a bisected rough section. Because the foaming frame only needs to overturn by 180 degrees forwards or backwards, the circumference surface is divided into a smooth section and a rough section, only the rough section is driven to roll forwards and backwards, the friction coefficient of the rough section is larger than that of the smooth section, the stability of the rough section during rolling can be improved, and the rolling amplitude can be controlled more accurately.

As a further preferable aspect of the present invention, the rotating member is a half gear, and the rough section is a plurality of teeth uniformly arranged along the circumferential surface. When the rotating piece adopts a half gear, an upper gear and a lower gear which can be meshed with the half gear can be respectively arranged above and below the half gear, and assuming that the initial state is that the tooth section of the half gear faces upwards and the smooth section faces downwards, when the upper gear rotates anticlockwise, the half gear correspondingly rotates clockwise, the foaming frame turns forwards, and because the smooth section at the lower part is not in contact with the lower gear, the rotation direction of the lower gear cannot influence the rotation of the half gear; when the foaming frame is turned forwards by 180 degrees, the tooth section of the half gear faces downwards, the smooth section faces upwards, the lower gear rotates clockwise, the half gear correspondingly rotates anticlockwise, the foaming frame is turned backwards, and the smooth section above the foaming frame is not in contact with the upper gear.

As the utility model discloses a preferred scheme, the foaming frame includes that framework and multi-disc dip in the liquid piece, and framework horizontal connection is in articulate expansion end, the multi-disc dip in the liquid piece along the vertical setting in the circumference of framework in the framework. The shape of the frame body can be round, square or other irregular closed figures.

Compared with the prior art, the utility model, have following advantage:

the utility model discloses the papaw support of convertible papaw machine is used for overturning in the inside and outside of papaw cistern, and the foaming frame is connected with the rotating member through the crank that both ends height is different, rolls through the front and back of rotating member, makes the foaming frame overturn back and forth in the both sides at papaw cistern edge, has stronger sensation of movement; in addition, in the process of gradually overturning the outer side of the bubble liquid groove, the redundant bubble liquid has enough time to drip back into the bubble liquid groove, and the carrying-out amount of the bubble liquid in the overturning process of the bubble frame is greatly reduced.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the driving structure of the preferred embodiment of the present invention;

wherein, each is marked as: 1-rotating part (half gear), 101-smooth section, 102-tooth-meshed section, 2-crank, 201 first horizontal section, 202-first vertical section, 203-second horizontal section, 204-second vertical section, 205-third horizontal section, 3-foaming frame, 301-frame, 302-liquid-dipping piece, 4-bubble support, 5-upper driving wheel surface, 501-upper tooth-meshed section, 6-lower driving wheel surface, 601-lower tooth-meshed section.

Detailed Description

The following further describes the preferred embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, a bubble support of a convertible bubble machine comprises a rotating member 1, a crank 2 and a bubble frame 3; the rotating axis of the rotating piece 1 is arranged along the horizontal direction, the rotating piece 1 adopts a half gear, and a halved smooth section 101 and a tooth-engaging section 102 are arranged on the circumference of the half gear 1; the crank 2 has a fixed end and a movable end, the crank 2 comprises a first horizontal section 201, a first vertical section 202, the extending direction of the first horizontal section 201 is parallel to the rotating axis of the rotating part 1, the inner end of the first horizontal section 201 serves as a fixed end and is connected with the half gear 1, the lower end of the first vertical section 202 is connected with the outer end of the first horizontal section 201, the extending direction of the second horizontal section 203 is perpendicular to the rotating axis of the rotating part 1, the inner end of the second horizontal section 203 is connected with the upper end of the first vertical section 202, the upper end of the second vertical section 204 is connected with the outer end of the second horizontal section 203, the extending direction of the third horizontal section 205 is parallel to the rotating axis of the rotating part 1, the lower end of the second vertical section 204 is connected with the inner end of the third horizontal section 205, and the outer end of the third horizontal section 205 serves as a movable end and is connected with the foaming frame 3; the foaming frame 3 includes a circular frame body 301 and a plurality of dipping liquid pieces 302, and the dipping liquid pieces 302 are vertically arranged on the frame body 301 along the circumferential direction of the frame body 301.

The foaming frame 3 is connected with the half gear 1 through the cranks 2 with different heights at two ends, and when the half gear 1 rolls forwards for 180 degrees, the foaming frame 3 correspondingly turns upwards and forwards for 180 degrees and turns over; when the half-gear 1 is rolled back through 180 °, the blister frame 3 is correspondingly turned up and back through 180 ° and is also turned over. Install the rotating member 1 at the edge of papaw cistern, through the fore-and-aft rotation of half gear 1, make foaming frame 3 overturn round and round at the both sides (i.e. inside and outside the papaw cistern) at papaw cistern edge, have more powerful dynamic. When the foaming frame 3 is positioned at the inner side of the edge of the bubble liquid groove, the bubble liquid is dipped in the horizontal state, and in the process of gradually overturning the outer side of the bubble liquid groove, the redundant bubble liquid has enough time to drip back into the bubble liquid groove, so that the carrying amount of the bubble liquid in the overturning process of the foaming frame 3 is greatly reduced; when the foaming frame 3 is turned over to the outer side of the edge of the bubble liquid groove, the frame surface is positioned above the blowing device, and the blowing device positioned below the bubble liquid groove blows air to the foaming frame 3 to form bubbles.

To the rotation mode of half gear 1, this embodiment still provides a specific drive structure, can be to a plurality of the utility model discloses the papaw support drives that overturns: as shown in fig. 2, the half gears 1 are sequentially vertically arranged along the circumference of a bubble support 4, the first horizontal sections 201 of the corresponding cranks 2 are all connected with the bubble support 4 through shaft sleeves (not shown in the figure), the bubble support 4 is horizontally and rotatably sleeved with an upper driving wheel surface 5 and a lower driving wheel surface 6 above and below the half gears 1, the upper driving wheel surface 5 is provided with a downward upper mesh tooth section 501 along the edge thereof, the lower driving wheel surface 6 is provided with an upward lower mesh tooth section 601 along the edge thereof, the upper mesh tooth section 501 and the lower mesh tooth section 601 are mutually staggered in the up and down direction, and the upper mesh tooth section 501 and the lower mesh tooth section 601 are matched with the meshes of the half gears 1.

The upper driving wheel face 5 and the lower driving wheel face 6 rotate simultaneously through the same rotating shaft, and if the upper driving wheel face 5 and the lower driving wheel face 6 both rotate anticlockwise, when the tooth section 102 of the half gear 1 faces upwards and the smooth section 101 faces downwards, the upper tooth section 501 is meshed with the tooth section 102 of the half gear 1, at the moment, the half gear 1 rotates clockwise under the meshing action to enable the foaming frame 3 to turn over forwards, the upper tooth section 501 and the lower tooth section 601 are staggered in the up-down direction, and at the moment, the smooth section 101 located below is not in contact with the lower driving wheel face 6, so that the rotation direction of the lower driving wheel face 6 cannot influence the rotation of the half gear 1; similarly, when the foaming frame 3 is turned forward by 180 °, the tooth section 102 of the half gear 1 faces downward and the smooth section 101 faces upward, and when the lower tooth section 601 is meshed with the tooth section 102 of the half gear 1, the half gear 1 rotates counterclockwise under the meshing action to turn the foaming frame 3 backward, and at this time, the smooth section 101 located above is not in contact with the upper driving wheel surface 5, so that the rotation direction of the upper driving wheel surface 5 does not affect the rotation of the half gear 1. With the rotation of the upper driving wheel surface 5 and the lower driving wheel surface 6, the half gear meshed with the upper tooth section 501 turns forwards, the half gear meshed with the lower tooth section 601 turns backwards, and the independent actions of the half gears are not influenced. In addition, the inner end of the first horizontal segment 201 is connected with the bubble support 4 through a shaft sleeve, so that the whole bubble support cannot be displaced when the half gear 1 is engaged with the upper and lower meshing tooth segments 5 and 6.

In addition, it should be noted that the names of the parts and the like of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structure, the features and the principle of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (6)

1. The utility model provides a bubble support of convertible papaw machine, includes the foaming frame, its characterized in that: the crank and the rotating piece are further included, and the rotating axis of the rotating piece is arranged along the horizontal direction; the crank has stiff end and expansion end, foaming frame horizontal fixed mounting is at the expansion end of crank, and rotating member fixed mounting is at the stiff end of crank.

2. The bubble support of the convertible bubble machine of claim 1, wherein: the crank comprises a first horizontal section, a first vertical section, a second horizontal section, a second vertical section and a third horizontal section; the extending direction of the first horizontal section is parallel to the rotating axis of the rotating part, the inner end of the first horizontal section is used as the fixed end to be connected with the rotating part, and the lower end of the first vertical section is connected with the outer end of the first horizontal section; the extending direction of the second horizontal section is vertical to the rotating axis of the rotating piece, the inner end of the second horizontal section is connected with the upper end of the first vertical section, and the upper end of the second vertical section is connected with the outer end of the second horizontal section; the extension direction of the third horizontal section is parallel to the rotation axis of the rotating piece, the lower end of the second vertical section is connected with the inner end of the third horizontal section, and the outer end of the third horizontal section is used as the movable end and connected with the foaming frame.

3. The bubble support of the convertible bubble machine of claim 1, wherein: the cross section of the rotating member is circular.

4. The bubble support of the convertible bubble machine of claim 3, wherein: the rotating piece is provided with a halved smooth section and a halved rough section in the circumferential direction.

5. The bubble support of the convertible bubble machine of claim 4, wherein: the rotating part is a half gear, and the rough section is a plurality of engaging teeth uniformly arranged along the circumferential surface of the half gear.

6. The bubble support of the convertible bubble machine of claim 1, wherein: the foaming frame comprises a frame body and a plurality of liquid dipping sheets, the frame body is horizontally connected with the movable end of the crank, and the plurality of liquid dipping sheets are vertically arranged on the frame body along the circumferential direction of the frame body.

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