阅读说明：本技术 一种可放置多种规格水杯的翻转式杯托结构 (Turnover cup stand structure capable of holding water cups of various specifications ) 是由 夏卫群 徐盈 代佳 张冬冬 王伟伟 李一泽 于 2019-11-19 设计创作，主要内容包括：本发明公开了一种可放置多种规格水杯的翻转式杯托结构,包括杯托底座和设置于杯托底座内的杯托,杯托包括内部中空的球形壳体,球形壳体的相对的两侧表面与杯托底座之间通过可驱动球形壳体沿直线方向旋转前进或后退的旋转驱动结构相连接,球形壳体的中部沿球形壳体的旋转方向间隔设置有多个可分别放置不同规格水杯的杯托支座。通过驱动齿条与导向齿轮的啮合结构来驱动球形壳体旋转,即可将需要的杯托支座翻转至承载位置,调节方便的同时,多种杯托支座的结构可分别适应不同规格的水杯、水瓶和罐装水或饮料的承载,适用面广。(The invention discloses a turnover type cup stand structure capable of containing water cups with various specifications, which comprises a cup stand base and a cup stand arranged in the cup stand base, wherein the cup stand comprises a spherical shell with a hollow inner part, the two opposite side surfaces of the spherical shell are connected with the cup stand base through a rotary driving structure capable of driving the spherical shell to rotate forwards or backwards along a linear direction, and a plurality of cup stand supports capable of containing water cups with different specifications are arranged at intervals in the middle of the spherical shell along the rotating direction of the spherical shell. The spherical shell is driven to rotate through the meshing structure of the driving rack and the guide gear, the cup stand support required can be turned to a bearing position, and when the cup stand support is convenient to adjust, the structure of the various cup stand supports can be respectively suitable for bearing water cups, water bottles and canned water or beverages of different specifications, so that the cup stand support is wide in application range.)

1. The utility model provides a can place convertible saucer structure of multiple specification drinking cup, includes saucer base (1) and sets up the saucer in saucer base (1), its characterized in that: the cup stand comprises a hollow spherical shell (2), the two opposite side surfaces of the spherical shell (2) are connected with the cup stand base (1) through a rotary driving structure capable of driving the spherical shell (2) to advance or retreat in a linear direction in a rotating mode, and a plurality of cup stand supports capable of containing water cups of different specifications are arranged in the middle of the spherical shell (2) at intervals in the rotating direction of the spherical shell (2).

2. The convertible cup holder structure of claim 1, which can hold cups of various sizes, characterized in that: the rotary driving structure comprises two guide gears (3) which are respectively fixed on the surfaces of two opposite sides of the spherical shell (2), two guide racks (4) which are arranged in the cup stand base (1) and are respectively meshed with the bottoms of the guide gears (3) on the surfaces of the two opposite sides of the spherical shell (2), and a driving rack structure which is arranged in the cup stand base (1), is meshed with the top of the guide gear (4) on one side of the spherical shell (2) and can move back and forth.

3. The turnover cup stand structure capable of holding water cups with various specifications as claimed in claim 2, wherein: the driving rack structure comprises a first driving rack (5) meshed with the top of the guide gear (3) on one side of the spherical shell (2) and a rack driving structure capable of driving the first driving rack (5) to move back and forth.

4. The turnover cup stand structure capable of holding cups of various specifications as claimed in claim 3, wherein: the rack driving structure comprises a second driving rack (6) and a driving gear (7), wherein the second driving rack (6) is vertically fixed at the top of the first driving rack (5), the driving gear (7) is meshed with the second driving rack (6), a manual knob (8) is fixed at the top of the driving gear (7), and the manual knob (8) is located above the cup stand base (1).

5. The convertible cup holder structure of claim 1, which can hold cups of various sizes, characterized in that: the cup stand support comprises a first cup stand support (9) for bearing the bottle body, a second cup stand support (10) for bearing the cup body and a third cup stand support (11) for bearing the tank body; spherical housing (2) with one side surface that first cup held in the palm support (9) is relative is equipped with bottle inlet hole (12), spherical housing (2) with one side surface that first cup held in the palm support (9) is connected be equipped with bottle via hole (13) of first cup held in the palm support (9) coaxial intercommunication, bottle inlet hole (12) and bottle via hole (13) coaxial setting, the diameter of bottle via hole (13) is less than the diameter of bottle inlet hole (12).

6. The convertible cup holder structure of claim 5, which can hold cups of various sizes, wherein: the first cup holder support (9) comprises a first circular truncated cone-shaped ring seat (9.1) coaxially fixed in the bottle body via hole (13), two ends of the first circular truncated cone-shaped ring seat (9.1) are respectively located on the inner side and the outer side of the spherical shell (2), and the inner diameter of one end, located in the spherical shell (2), of the first circular truncated cone-shaped ring seat (9.1) is larger than that of one end, located outside the spherical shell (2), of the first circular truncated cone-shaped ring seat (9.1).

7. The convertible cup holder structure of claim 6, which can hold cups of various sizes, and is characterized in that: the supporting ring is characterized in that the circumferential surface of one end, located outside the spherical shell (2), of the first cone frustum-shaped ring seat (9.1) is bent inwards to form a supporting ring (17), and a plurality of first grooves (9.2) are formed in the circumferential direction of the side wall of one end, located outside the spherical shell (2), of the first cone frustum-shaped ring seat (9.1) at intervals in the circumferential direction.

8. The convertible cup holder structure of claim 5, which can hold cups of various sizes, wherein: the spherical shell (2) is provided with a second cup holder support fixing hole (14) on the surface of the position corresponding to the second cup holder support (10), the second cup holder support (10) comprises a second cone frustum-shaped ring seat (10.1) coaxially fixed in the second cup holder support fixing hole (14), two ends of the second cone frustum-shaped ring seat (10.1) are respectively located on the inner side and the outer side of the spherical shell (2), and the inner diameter of one end, located in the spherical shell (2), of the second cone frustum-shaped ring seat (10.1) is smaller than that of one end, located outside the spherical shell (2), of the second cone frustum-shaped ring seat (10.1).

9. The convertible cup holder structure of claim 8, which can hold cups of various sizes, wherein: and a plurality of second grooves (10.2) are formed in the side wall of one end, located outside the spherical shell (2), of the second conical frustum-shaped ring seat (10.1) at intervals in the circumferential direction.

10. The convertible cup holder structure of claim 5, which can hold cups of various sizes, wherein: the spherical shell (2) is provided with a third cup support fixing hole (15) on the surface of the position corresponding to the third cup support (11), the third cup support (11) comprises a cylindrical ring (11.1) coaxially fixed in the third cup support fixing hole (15), two ends of the cylindrical ring (11.1) are respectively positioned on the inner side and the outer side of the spherical shell (2), and one end face of the cylindrical ring (11.1) positioned in the spherical shell (2) is coaxially and fixedly connected with a supporting plate (11.2) with one end closed, wherein the cylindrical ring (11.1) is positioned in the spherical shell (2).

Technical Field

The invention relates to the technical field of automobile cup stand structures, in particular to a turnover type cup stand structure capable of containing water cups with various specifications.

Background

The cup stand device is a mechanism frequently used by drivers and passengers in the driving process, users often have different water cup use preferences in different occasions, and for water cups with different specifications, the cup stand device has a good clamping effect, so that the influence on peripheral control parts caused by overhigh height of the water cup is reduced as much as possible while the water cups are prevented from being knocked over.

Patent No. CN201810083748.0, entitled "cup holder Assembly", discloses a reversible cup holder structure, but the turnover function of the patent is only to increase the number of cup holders, has no specific adaptability to the specification of the water cup, and the original cup holder can not be used normally when the cup holder is turned over to return.

An interior structure for adjusting a storage space based on a turnover cup holder is disclosed in a patent with a patent number of CN201810864727.2 and a patent name of 'automotive interior function system', but the patent only has a turnover cup holder clamping arm, when the clamping arm is folded, the cup holder function is not existed, and the cup holder has no specific adaptability to cup holders with different specifications.

Disclosure of Invention

The invention aims to solve the defects of the background technology and provide the turnover type cup stand structure which can meet the placing requirements of cup stands with different specifications in a limited installation space.

In order to realize the purpose, the turnover cup stand structure capable of containing water cups with various specifications, which is designed by the invention, comprises a cup stand base and a cup stand arranged in the cup stand base, and is characterized in that: the cup stand comprises a hollow spherical shell, the two opposite side surfaces of the spherical shell are connected with the cup stand base through a rotary driving structure capable of driving the spherical shell to advance or retreat in a linear direction in a rotary mode, and a plurality of cup stand supports capable of containing water cups of different specifications are arranged in the middle of the spherical shell at intervals in the rotary direction of the spherical shell.

Furthermore, the rotary driving structure comprises two guide gears respectively fixed on the two opposite side surfaces of the spherical shell, two guide racks arranged in the cup stand base and respectively meshed with the bottoms of the guide gears on the two opposite side surfaces of the spherical shell, and a driving rack structure arranged in the cup stand base, meshed with the top of the guide gear on one side of the spherical shell and capable of moving back and forth.

Further, the driving rack structure comprises a first driving rack meshed with the top of the guide gear on one side of the spherical shell and a rack driving structure capable of driving the first driving rack to move back and forth.

Furthermore, the rack driving structure comprises a second driving rack vertically fixed at the top of the first driving rack and a driving gear meshed with the second driving rack, a manual knob is fixed at the top of the driving gear, and the manual knob is located above the cup holder base.

Further, the cup stand support comprises a first cup stand support for bearing the bottle body, a second cup stand support for bearing the cup body and a third cup stand support for bearing the tank body; the spherical shell is provided with a bottle body inlet hole on the surface of one side opposite to the first cup support seat, the spherical shell is provided with a bottle body through hole coaxially communicated with the first cup support seat on the surface of one side connected with the first cup support seat, the bottle body inlet hole is coaxially arranged with the bottle body through hole, and the diameter of the bottle body through hole is smaller than that of the bottle body inlet hole.

Furthermore, the first cup holder support comprises a first circular truncated cone-shaped ring seat coaxially fixed in the bottle body through hole, two ends of the first circular truncated cone-shaped ring seat are respectively located at the inner side and the outer side of the spherical shell, and the inner diameter of one end, located in the spherical shell, of the first circular truncated cone-shaped ring seat is larger than that of one end, located outside the spherical shell, of the first circular truncated cone-shaped ring seat.

Furthermore, the circumferential surface of one end of the first circular cone frustum-shaped ring seat, which is positioned outside the spherical shell, is bent inwards to form a support ring, and a plurality of first grooves are circumferentially arranged on the side wall of one end of the first circular cone frustum-shaped ring seat, which is positioned outside the spherical shell, at intervals.

Furthermore, a second cup holder support fixing hole is formed in the surface of the spherical shell at a position corresponding to the second cup holder support, the second cup holder support comprises a second truncated cone-shaped ring seat coaxially fixed in the second cup holder support fixing hole, two ends of the second truncated cone-shaped ring seat are respectively located on the inner side and the outer side of the spherical shell, and the inner diameter of one end, located in the spherical shell, of the second truncated cone-shaped ring seat is smaller than that of one end, located outside the spherical shell, of the second truncated cone-shaped ring seat.

Furthermore, a plurality of second grooves are formed in the side wall of one end, located outside the spherical shell, of the second conical frustum-shaped ring seat at intervals in the circumferential direction.

Furthermore, a third cup holder support fixing hole is formed in the surface of the spherical shell at a position corresponding to the third cup holder support, the third cup holder support comprises a cylindrical ring coaxially fixed in the third cup holder support fixing hole, two ends of the cylindrical ring are respectively located on the inner side and the outer side of the spherical shell, and a supporting plate which is used for coaxially and fixedly connecting one end face of the cylindrical ring located in the spherical shell and used for sealing one end of the cylindrical ring located in the spherical shell is coaxially connected with the end face of the cylindrical ring located in the spherical shell.

The invention has the beneficial effects that: the spherical shell is driven to rotate through the meshing structure of the driving rack and the guide gear, the cup stand support required can be turned to a bearing position, and when the cup stand support is convenient to adjust, the structure of the various cup stand supports can be respectively suitable for bearing water cups, water bottles and canned water or beverages of different specifications, so that the cup stand support is wide in application range. The cup clamping device has good clamping effect on cups of different specifications, fully considers the heights of various water containing devices, effectively avoids the problem that peripheral parts are affected due to the fact that the heights of the cups are too high, and guarantees driving safety. The cup stand is small in size, does not affect the arrangement of other parts in the armrest box, and has good practicability and market application value.

Drawings

FIG. 1 is a perspective view of the turnover type cup stand structure of the present invention at a water bottle placing station;

FIG. 2 is a perspective view of the turnover type cup stand structure of the present invention at a cup placing station;

FIG. 3 is a perspective view of the turnover cup stand structure of the present invention at the position of the pop can placing station;

FIG. 4 is a perspective view of the rotary drive configuration of the present invention;

FIG. 5 is a longitudinal sectional view of the flip-type cup holder structure of the present invention carrying a small cup;

FIG. 6 is a longitudinal sectional view of the middle size water cup carried by the flip-type cup holder structure according to the present invention;

FIG. 7 is a longitudinal sectional view of the turnover cup holder structure of the present invention carrying a large cup;

FIG. 8 is a cross-sectional view of the flip-up cup holder structure of the present invention positioned at a water bottle positioning station;

the cup holder comprises a cup holder base 1, a spherical shell 2, a guide gear 3, a guide rack 4, a first drive rack 5, a second drive rack 6, a drive gear 7, a manual knob 8, a first cup holder support 9, a first cone-frustum-shaped ring seat 9.2, a first groove 10, a second cup holder support 10, a second cone-frustum-shaped ring seat 10.2, a second groove 11, a third cup holder support 11.1, a cylindrical ring 11.2, a support plate 12, a bottle body inlet hole 13, a bottle body through hole 14, a second cup holder support fixing hole, a third cup holder support fixing hole 15, an indication panel 16 and a support ring 17.

Detailed Description

The invention is described in further detail below with reference to the figures and the specific embodiments.

The turnover type cup stand structure capable of containing water cups with various specifications comprises a cup stand base 1 and a cup stand arranged in the cup stand base 1, wherein the cup stand comprises a hollow spherical shell 2, two opposite side surfaces of the spherical shell 2 are respectively fixed with a guide gear 3, two guide racks 4 which are respectively meshed with the bottoms of the guide gears 3 on the opposite side surfaces of the spherical shell 2 and a first driving rack 5 which is meshed with the top of the guide gear 3 on one side of the spherical shell 2 are arranged in the cup stand base 1, a second driving rack 6 is vertically fixed at the top of the first driving rack 5, the second rack 6 is meshed with a driving gear 7, the first driving rack 5 and the second driving rack 6 can be arranged in the cup stand base 1 in a back-and-forth mode, a manual knob 8 is fixed at the top of the driving gear 7, and the manual knob 8 is positioned above the cup stand base 1.

The middle part of the spherical shell 2 is provided with a plurality of cup stand supports capable of respectively placing water cups with different specifications at intervals along the rotating direction of the spherical shell 2: a first cup holder support 9 for holding the bottle, a second cup holder support 10 for holding the cup, and a third cup holder support 11 for holding the can.

As shown in fig. 8, the spherical housing 2 is provided with a vial inlet hole 12 on a surface of a side opposite to the first cup holder 9, the spherical housing 2 is provided with a vial via hole 13 coaxially communicating with the first cup holder 9 on a surface of a side connected to the first cup holder 9, the vial inlet hole 12 is coaxially provided with the vial via hole 13, and a diameter of the vial via hole 13 is smaller than a diameter of the vial inlet hole 12. The first cup holder support 9 comprises a first circular truncated cone-shaped ring seat 9.1 coaxially fixed in the bottle body via hole 13, two ends of the first circular truncated cone-shaped ring seat 9.1 are respectively positioned at the inner side and the outer side of the spherical shell 2, and the inner diameter of one end, positioned in the spherical shell 2, of the first circular truncated cone-shaped ring seat 9.1 is larger than that of one end, positioned outside the spherical shell 2, of the first circular truncated cone-shaped ring seat 9.1. As shown in fig. 3, the circumferential surface of the end of the first truncated cone shaped ring seat 9.1 located outside the spherical shell 2 is bent inward to form a support ring 17, and a plurality of first grooves 9.2 are circumferentially spaced on the side wall of the end of the first truncated cone shaped ring seat 9.1 located outside the spherical shell 2. The water bottle is vertically placed into the spherical shell 2 from the bottle body inlet hole 12, the bottom of the water bottle penetrates through the bottle body through hole 13 and is supported and positioned through the frustum section with the smaller inner diameter at the lower part of the first frustum-shaped ring seat 9.1 and the support ring 17, the first cup support seat 9 fully utilizes the inner space of the spherical shell 2, the water bottle or water cup with higher bearing height can be borne, and good clamping effect is guaranteed while the peripheral parts cannot be influenced by the water bottle or water cup. The structure of the first groove 9.2 avoids the situation that the water bottle or the water cup is difficult to take out due to the close contact with the first circular truncated cone-shaped ring seat 9.1, and further improves the practicability.

As shown in fig. 5 to 7, a second cup holder support fixing hole 14 is formed in the surface of the spherical shell 2 at a position corresponding to the second cup holder support 10, the second cup holder support 10 includes a second circular truncated cone-shaped annular seat 10.1 coaxially fixed in the second cup holder support fixing hole 14, two ends of the second circular truncated cone-shaped annular seat 10.1 are respectively located at the inner side and the outer side of the spherical shell 2, and the inner diameter of one end of the second circular truncated cone-shaped annular seat 10.1 located in the spherical shell 2 is smaller than the inner diameter of one end of the second circular truncated cone-shaped annular seat 10.1 located outside the spherical shell 2. A plurality of second grooves 10.2 are circumferentially arranged at intervals on the side wall of one end of the second conical frustum-shaped ring seat 10.1, which is positioned outside the spherical shell 2. The structure that the second cup stand support 10 is narrow from top to bottom can adapt to water cups with different specifications, the water cups with different specifications are well clamped, and meanwhile, the structure of the second groove 10.2 is further convenient for taking out the water cups.

The surface of the spherical shell 2 at the position corresponding to the third cup support 11 is provided with a third cup support fixing hole 15, the third cup support 11 comprises a cylindrical ring 11.1 coaxially fixed in the third cup support fixing hole 15, two ends of the cylindrical ring 11.1 are respectively positioned at the inner side and the outer side of the spherical shell 2, and one end face of the cylindrical ring 11.1 positioned in the spherical shell 2 is coaxially and fixedly connected with a supporting plate 11.2 which is used for coaxially and fixedly connecting the cylindrical ring 11.1 positioned in the spherical shell 2 and has one closed end. The third cup holder support 11 designed according to the shape of the pop can has good supporting and positioning effects on can filling structures such as the pop can.

The working process of the invention is as follows: taking the example of switching from the position of the first cup holder 9 for holding a water bottle to the position of the second cup holder 10 for holding a water cup, the manual knob 8 is rotated to rotate the arrow on the indication panel 16 clockwise toward the indication of the target water cup type (in the direction of the "coffee cup" icon). The driving gear 7 drives the second driving rack 6 and the first driving rack 5 to move, the first driving rack 5 drives the guide gear 3 to rotate, the rotation of the guide gear 3 drives the ball star shell 2 to rotate along the guide rack 4 until the second cup holder support 10 is turned to the top vertical state of the ball shell 2.

The states of the first cup holder support 9 and the second cup holder support 10 can be switched, if the state of the cup holder needs to be changed, the manual knob 8 can be rotated clockwise (or anticlockwise) by repeating the processes.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the structure of the present invention in any way. Any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention still fall within the scope of the technical solution of the present invention.