CN216702207U - Teacup handle turned angle adjusts structure - Google Patents

Abstract

The utility model provides a structure for adjusting the rotation angle of a handle of a teacup, which comprises: the cup body connecting piece is provided with a left double-lug plate and a right double-lug plate which are oppositely arranged left and right at the near end of the cup body connecting piece; the rotary grab handle is provided with a single lug plate which is rotatably assembled between the left double lug plate and the right double lug plate at the top end, and the peripheral end surface of an inner hole of the single lug plate is provided with an annular tooth socket; and two ends of the angle adjusting shaft penetrate through the single lug plate and are respectively arranged in the inner holes of the left double lug plate and the single lug plate in a non-rotatable manner, one end of the angle adjusting shaft is provided with an annular fluted disc matched with the annular tooth groove, and the annular fluted disc is separated from the annular tooth groove in an axial pressing state. The adjusting structure of the utility model can realize the angle adjustment of the grab handle through simple operation after a series of operations are carried out by utilizing the internal structure of the angle adjusting shaft; and the customer can use this regulation structure by one-hand operation to according to the different hand type size adjustment grab handle angle of every customer, satisfied customer's demand.

Description

Teacup handle turned angle adjusts structure

Technical Field

The utility model relates to the technical field of daily appliance manufacturing, in particular to a structure for adjusting the rotation angle of a handle of a teacup.

Background

The teacup is usually a container for holding liquid, can be used for drinking tea, drinking water and other purposes at ordinary times, and is made of materials such as plastic, glass, ceramic or stainless steel. The cups are generally cylindrical, have openings on the upper surfaces, are hollow, are generally provided with cup covers for preventing the openings from being polluted by dust and the like, are generally provided with handles for preventing hands from being scalded when in use, and are particularly popular with tea cups with handles in indoor use environments.

But the cup part and the handle part of water teacup generally adopt integrated into one piece structure in the current market, and the handle on the teacup is mostly unadjustable, can't adjust the grab handle angle when using to the customer of different hand types size, can not satisfy some customer demands.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: aiming at the defects of the prior art, the teacup handle rotating angle adjusting structure which can realize the handle angle adjusting function by slightly pressing is provided.

The utility model adopts the following technical scheme for solving the technical problems:

the utility model provides a structure for adjusting the rotation angle of a handle of a teacup, which comprises:

the cup comprises a cup body connecting piece, wherein a left double-lug plate and a right double-lug plate which are oppositely arranged left and right are arranged at the near end of the cup body connecting piece;

the rotary grab handle is characterized in that a single lug plate which is rotatably assembled between the left double lug plate and the right double lug plate is arranged at the top end of the rotary grab handle, and an annular tooth groove is formed in the peripheral end face of an inner hole of the single lug plate; and

the angle adjustment shaft, the both ends of angle adjustment shaft are passed the monaural board respectively not rotatable set up in left double ear board and monaural inboard hole, and its one end be provided with annular tooth's socket matched with annular fluted disc, annular fluted disc under the axial state of pressing with annular tooth's socket separation.

Furthermore, on the structure for adjusting the rotation angle of the handle of the teacup, a left rotation stopping hole is formed in the left double-ear plate, and a right rotation stopping hole is formed in the right double-ear plate.

Preferably, on the structure for adjusting the rotation angle of the handle of the teacup, a screw hole is formed in the outer side of the right rotation stopping hole, and the inner diameter of the screw hole is larger than that of the right rotation stopping hole.

Further preferably, on the structure for adjusting the rotation angle of the handle of the teacup, the left rotation-stopping hole and the right rotation-stopping hole are triangular, quadrangular or other regular or irregular shapes.

Furthermore, on the structure for adjusting the rotation angle of the handle of the teacup, the inner hole of the single lug plate is a circular hole, one side of the inner hole is provided with an assembling groove, and the bottom of the assembling groove is provided with the annular tooth socket along the outer periphery of the inner hole.

Further, on the structure for adjusting the rotation angle of the handle of the teacup, the angle adjusting shaft comprises:

the inner side end of the pressing key penetrates through the left rotation stopping hole and the circular hole and is abutted with the inner side end of the annular fluted disc;

the reset spring is sleeved at one end of the pressing key, and the inner end of the reset spring is abutted against the single lug plate;

the annular fluted disc is assembled in the annular tooth groove, and an annular rack and a fluted disc rotation stopping hole which are matched with the annular tooth groove are arranged on the inner end surface of the annular fluted disc;

the rotation stopping block is assembled in the right rotation stopping hole and is internally provided with a through hole which penetrates left and right; and

and the fastening screw is assembled in the screw hole, and one end of the fastening screw penetrates through the rotation stopping block and is fixedly connected with the inner side end of the pressing key.

Further preferably, on the structure for adjusting the rotation angle of the handle of the tea cup, the pressing key comprises a first pressing rotation stop block, an optical axis and a second pressing rotation stop block which are connected in sequence, wherein:

the optical axis is sleeved with the reset spring, and the second pressing rotation stopping block is assembled in the fluted disc rotation stopping hole and connected with the fastening screw.

Further preferably, in the tea cup handle rotation angle adjusting structure, the thickness of the annular toothed disc is smaller than that of the assembly groove, so that the annular toothed disc can move left and right in the assembly groove in a pressed state.

Preferably, on the structure for adjusting the rotation angle of the handle of the teacup, an inner rotation stopping hole is formed in the through hole of the end face of the inner side of the rotation stopping block, and the second pressing rotation stopping block matched with the inner rotation stopping hole is embedded in the inner rotation stopping hole.

Preferably, on the structure for adjusting the rotation angle of the handle of the teacup, the pressing key, the annular fluted disc and the rotation stopping block are made of aluminum alloy, stainless steel or hard plastic.

By adopting the technical scheme, compared with the prior art, the utility model has the following technical effects:

according to the rotating angle adjusting structure of the handle of the teacup, the cup body connecting piece and the rotary grab handle are connected together through the angle adjusting shaft, the annular fluted disc can be separated from the annular fluted disc on the single lug plate by pressing the pressing key on the angle adjusting shaft, the pressing key is released after the rotary grab handle is adjusted to a proper angle, the pressing key and the annular fluted disc are brought back to the original position under the action of the return spring, and the rack on the annular fluted disc can be fixed in a rotation stopping manner after being matched with the annular fluted disc on the single lug plate; the adjusting structure can realize the angle adjustment of the grab handle through simple operation after a series of operations are carried out by utilizing the internal structure of the angle adjusting shaft; and the customer can use this regulation structure by one-hand operation to according to the different hand type size adjustment grab handle angle of every customer, satisfied customer's demand.

Drawings

FIG. 1 is a schematic perspective view of a rotation angle adjusting structure of a teacup handle of the present invention;

FIG. 2 is a schematic side view of the rotation angle adjusting structure of the teacup handle of the present invention;

FIG. 3 is a schematic cross-sectional view of the rotation angle adjustment structure of the teacup handle of the present invention;

FIG. 4 is a schematic view of an assembly structure of the rotation angle adjusting structure of the teacup handle of the utility model;

wherein the reference symbols are:

10-cup body connecting piece, 11-left double-ear plate, 111-left rotation stopping hole, 12-right double-ear plate, 121-right rotation stopping hole and 122-screw hole;

20-rotating grip, 21-single ear plate, 211-circular hole, 212-assembly groove, 213-annular tooth groove;

30-an angle adjusting shaft, 31-a pressing key, 311-a first pressing rotation stop block, 312-an optical axis, 313-a second pressing rotation stop block, 32-a return spring, 33-an annular fluted disc, 331-an annular rack, 332-a fluted disc rotation stop hole, 34-a rotation stop block and 35-a fastening screw.

Detailed Description

The technical solution of the present invention is further described in detail below with reference to the accompanying drawings.

In some embodiments, as shown in fig. 1 and 2, a rotation angle adjusting structure of a handle of a teacup for adjusting a handle angle by pressing slightly is provided, aiming at the problem that the handle angle on the current teacup cannot be adjusted so as to meet part of customer requirements, the rotation angle adjusting structure of the handle of the teacup for adjusting the handle angle mainly comprises a cup body connecting piece 10, a rotation type handle 20 and an angle adjusting shaft 30, one end of the cup body connecting piece 10 is fixedly arranged on a body of the teacup, in order to realize adjustable rotation of the rotation type handle 20, the rotation type handle 20 is used as a holding part of a user and is fixedly arranged on the cup body connecting piece 10 by adopting the angle adjusting shaft 30, the angle of the rotation type handle 20 is adjusted according to different hand sizes of each customer by pressing the angle adjusting shaft 30, and therefore, the customer requirements of different types are met.

Specifically, as shown in fig. 3 and 4, the proximal end of the cup body connecting piece 10 is provided with a left binaural board 11 and a right binaural board 12 which are oppositely arranged left and right, the left binaural board 11 and the right binaural board 12 are integrally formed on the cup body connecting piece 10, and an assembling space for accommodating the rotary type holding handle 20 is formed between the left binaural board 11 and the right binaural board 12.

As shown in fig. 3 and 4, corresponding to the left double-ear plate 11 and the right double-ear plate 12, a single-ear plate 21 rotatably assembled between the left double-ear plate 11 and the right double-ear plate 12 is disposed at the top end of the rotary handle 20, and an annular tooth groove 213 is disposed on the peripheral end surface of the inner hole of the single-ear plate 21, and the annular tooth groove 213 is composed of a plurality of tooth grooves arranged in an annular shape.

As shown in fig. 3 and 4, the main technical solution of the adjusting structure is to use the angle adjusting shaft 30 with a specific structure, and the angle adjustment of the rotary handle 20 can be realized through a series of operations of the internal structure of the angle adjusting shaft 30. In order to achieve the technical purpose, two ends of the angle adjusting shaft 30 penetrate through the inner holes of the left double-lug plate 11 and the single-lug plate 21 and are respectively arranged in the inner holes of the left double-lug plate 21 and the inner holes of the left double-lug plate 21 in a non-rotatable manner, and one end of the angle adjusting shaft is provided with an annular fluted disc 33 matched with the annular tooth groove 213. The annular fluted disc 33 is separated from the annular tooth groove 213 in the axially pressed state, and the rotary handle 20 is adjusted to a preset appropriate inclination angle.

In some embodiments, as shown in fig. 3 and 4, in order to facilitate the assembly and fixing of the angle adjusting shaft 30, a left rotation stopping hole 111 is formed in the left binaural board 11, and a right rotation stopping hole 121 is formed in the right binaural board 12, so as to prevent the angle adjusting shaft 30 from rotating during use. The left rotation-stopping hole 111 and the right rotation-stopping hole 121 may be any hole structure that can prevent the angle-adjusting shaft 30 from being rotated, such as a triangle, a quadrangle, or other regular or irregular shape.

In addition, for guaranteeing the stability of angle adjustment shaft 30 in the use, still be in screw hole 122 has been seted up in the setting of the right side rotation stopping hole 121 outside for installation fastening screw 35, just the internal diameter of screw hole 122 is greater than the internal diameter of right side rotation stopping hole 121 for inlay and establish and hide fastening screw 35, improve holistic pleasing to the eye degree.

In some embodiments, as shown in fig. 3 and 4, for facilitating the rotation adjustment of the rotating handle 20, the inner hole of the single lug plate 21 is a circular hole 211, and one side of the single lug plate 21 is opened to be an assembling groove 212, the bottom of the assembling groove 212 is provided with the annular toothed groove 213 along the outer periphery of the inner hole, the annular toothed groove 213 is engaged with the annular toothed disc 33 arranged in the assembling groove 212, and is fixedly connected in an original state in a meshing manner, and is connected in a separated and rotatable manner in a pressed state.

In some embodiments, as shown in fig. 3 and 4, the angle adjusting shaft 30 of the adjusting structure mainly includes a pressing key 31, a return spring 32, an annular toothed disc 33, a rotation stop block 34 and a fastening screw 35, and the engagement and disengagement of the annular toothed disc 33 and the annular toothed groove 213 can be controlled through a series of operations of the pressing key 31, the return spring 32, the annular toothed disc 33, the rotation stop block 34 and the fastening screw 35. The pressing key 31, the annular fluted disc 33 and the rotation stopping block 34 are made of aluminum alloy, stainless steel or hard plastic, and the return spring 32 and the fastening screw 35 are made of stainless steel.

Specifically, the inner end of the push key 31 passes through the left rotation stop hole 111 and the circular hole 211 to abut against the inner end of the annular gear disc 33. The return spring 32 is sleeved at one end of the pressing key 31, and the inner end of the return spring abuts against the single lug plate 21, the annular toothed disc 33 is assembled in the annular toothed groove 213, and the inner end surface of the return spring is provided with an annular rack 331 and a toothed disc rotation stopping hole 332 which are matched with the annular toothed groove 213. The pressing key 31 is always in an extended state by the elastic action of the return spring 32, and pulls the annular fluted disc 33 to be engaged with the annular fluted groove 213, thereby preventing the rotary handle 20 from rotating.

In addition, in order to ensure the structural stability of the angle adjusting shaft 30, the rotation stopping block 34 is fitted into the right rotation stopping hole 121, and a through hole penetrating from left to right is provided therein. The fastening screw 35 is assembled in the screw hole 122, and one end of the fastening screw passes through the rotation stopping block 34 and is fastened and connected with the inner side end of the pressing key 31, the rotation stopping block 34 is adopted to radially limit the pressing key 31, and the fastening screw 35 is adopted to axially fix the pressing key 31.

In one preferred embodiment, the push key 31 includes a first push rotation stop block 311, an optical axis 312, and a second push rotation stop block 313 connected in sequence, and the first push rotation stop block 311, the optical axis 312, and the second push rotation stop block 313 are integrally formed. Wherein: the optical axis 312 is sleeved with the return spring 32, and the second pressing rotation stop block 313 is assembled in the fluted disc rotation stop hole 332 and connected to the fastening screw 35.

It should be noted that, in order to ensure that the pushing annular toothed disc 33 can be completely separated from the annular toothed groove 213 when the pressing key 31 is pressed, and to improve the rotating effect of the rotary handle 20, the thickness of the annular toothed disc 33 is required to be smaller than that of the mounting groove 212, and a sufficient moving space is formed in the mounting groove 212 so that the annular toothed disc 33 can move left and right in the mounting groove 212 in the pressed state.

In addition, as required, an inner rotation stopping hole may be formed in the inner end surface of the rotation stopping block 34 at the through hole position, and the second pressing rotation stopping block 313 matched with the inner rotation stopping hole is embedded in the inner rotation stopping hole, so as to prevent the rotation stopping block 34 and the pressing key 31 from loosening in the angle adjusting process.

With continuing reference to fig. 1, 2, 3 and 4, the principle of use of the rotation angle adjusting structure of the teacup handle of the utility model is as follows:

the angle of the rotary handle 20 can be adjusted by manually pressing the push button 31, compressing the return spring 32, and moving the rotation stop block 34, the fastening screw 35 and the annular toothed disc 33 away from the annular toothed groove 213 of the rotary handle 20.

When the angle of the rotary handle 20 is adjusted to a proper angle, the pressing key 31 is released, the return spring 32 starts to restore, the annular fluted disc 33, the rotation stop block 34 and the fastening screw 35 are driven to return under the action of the return spring 32, and the annular rack 331 of the annular fluted disc 33 is matched with the annular fluted groove 213 on the rotary handle 20 to be fixed in a rotation stop manner.

To sum up, the structure for adjusting the rotation angle of the handle of the teacup can realize the adjustment of the angle of the handle by simple operation and after a series of operations of the internal structure of the angle adjusting shaft. And the customer can use this regulation structure by one-hand operation to according to the different hand type size adjustment grab handle angle of every customer, in order to satisfy the customer's demand of different grade type.

The embodiments of the present invention have been described in detail, but the embodiments are merely examples, and the present invention is not limited to the embodiments described above. Any equivalent modifications or alterations to this practice will occur to those skilled in the art and are intended to be within the scope of this invention. Accordingly, equivalent changes and modifications made without departing from the spirit and scope of the present invention should be covered by the present invention.

Claims (10)

1. The utility model provides a teacup handle turned angle regulation structure which characterized in that includes:

the cup comprises a cup body connecting piece (10), wherein a left double-lug plate (11) and a right double-lug plate (12) which are oppositely arranged left and right are arranged at the near end of the cup body connecting piece (10);

the rotary type grab handle (20), the top end of the rotary type grab handle (20) is provided with a single lug plate (21) which can be rotatably assembled between the left double lug plate (11) and the right double lug plate (12), and the peripheral end surface of an inner hole of the single lug plate (21) is provided with an annular tooth groove (213); and

angle modulation axle (30), the both ends of angle modulation axle (30) are passed single otic placode (21) respectively not rotatable set up in left both otic placode (11) and single otic placode (21) hole, and its one end be provided with annular tooth's socket (213) matched with annular fluted disc (33), annular fluted disc (33) press the state in the axial under with annular tooth's socket (213) separation.

2. A teacup handle rotation angle adjusting structure according to claim 1, wherein the left double-ear plate (11) is provided with a left rotation stopping hole (111), and the right double-ear plate (12) is provided with a right rotation stopping hole (121).

3. The teacup handle rotation angle adjusting structure of claim 2, wherein a screw hole (122) is formed in the outer side of the right rotation stopping hole (121), and the inner diameter of the screw hole (122) is larger than the inner diameter of the right rotation stopping hole (121).

4. The structure for adjusting the rotation angle of a handle of a teacup according to claim 2, wherein the left rotation-stopping hole (111) and the right rotation-stopping hole (121) are triangular, quadrangular or other regular or irregular shapes.

5. A cup handle rotation angle adjusting structure according to claim 1, wherein the inner hole of the single ear plate (21) is a circular hole (211), and one side of the inner hole is provided with an assembling groove (212), and the bottom of the assembling groove (212) is provided with the annular tooth groove (213) along the outer periphery of the inner hole.

6. The teacup handle rotation angle adjustment structure of claim 1, wherein the angle adjustment shaft (30) includes:

the inner side end of the pressing key (31) penetrates through the left rotation stopping hole (111) and the circular hole (211) and is abutted against the inner side end of the annular fluted disc (33);

the return spring (32) is sleeved at one end of the pressing key (31), and the inner end of the return spring (32) is abutted against the single lug plate (21);

the annular fluted disc (33) is assembled in the annular tooth groove (213), and an annular rack (331) and a fluted disc rotation stopping hole (332) which are matched with the annular tooth groove (213) are arranged on the inner end surface of the annular fluted disc (33);

the rotation stopping block (34) is assembled in the right rotation stopping hole (121), and a through hole penetrating left and right is formed in the rotation stopping block (34); and

and the fastening screw (35) is assembled in the screw hole (122), and one end of the fastening screw passes through the rotation stopping block (34) and is fixedly connected with the inner side end of the pressing key (31).

7. A teacup handle rotation angle adjustment structure according to claim 6, wherein the push key (31) comprises a first push rotation stop block (311), an optical axis (312) and a second push rotation stop block (313) connected in sequence, wherein:

the optical axis (312) is sleeved with the reset spring (32), and the second pressing rotation stopping block (313) is assembled in the fluted disc rotation stopping hole (332) and connected with the fastening screw (35).

8. The teacup handle rotation angle adjustment structure of claim 7, wherein the thickness of the annular toothed disc (33) is smaller than the thickness of the assembly groove (212), so that the annular toothed disc (33) can move left and right in the assembly groove (212) in a pressed state.

9. A teacup handle rotation angle adjustment structure according to claim 6, characterised in that the inner end face of the rotation stop block (34) is provided with an inner rotation stop hole at the through hole position, and a second pressing rotation stop block (313) matched with the inner rotation stop hole is embedded in the inner rotation stop hole.

10. A teacup handle rotation angle adjustment structure according to claim 6, characterized in that the pressing key (31), the annular fluted disc (33) and the rotation stop block (34) are made of aluminum alloy, stainless steel or hard plastic.

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