CN114776164A

CN114776164A - Turnover sliding mechanism for hinge

Info

Publication number: CN114776164A
Application number: CN202210370433.0A
Authority: CN
Inventors: 胡涛; 张翔; 唐启; 杨文明; 傅黎明; 邹永刚
Original assignee: Jiangsu Saca Precision Technology Co ltd
Current assignee: Jiangsu Saca Precision Technology Co ltd
Priority date: 2022-04-09
Filing date: 2022-04-09
Publication date: 2022-07-22

Abstract

The invention discloses a turnover sliding mechanism for a hinge, which comprises a fixed mounting plate and a turnover plate, wherein at least one annular rotating toothed belt is arranged on the turnover plate, a toothed plate rotating by taking a rotating shaft as an axis is rotatably mounted on the fixed mounting plate, a fixed gear is fixed on the toothed plate, a transmission gear is rotatably mounted on the turnover plate, the transmission gear is meshed with the fixed gear, the toothed belt rotates in the same direction as the transmission gear through a gear assembly, a toothed belt connecting block is fixedly mounted on the toothed belt, and a sliding connecting rod for fixing an external door plate assembly is fixedly mounted on the toothed belt connecting block; the sliding connecting rod arranged in the invention can drive the installed external panel component to extend outwards towards the oblique upper side in the opening process, so as to prevent the opening process, the lower edge of the rotating position of the door panel component collides with the cabinet body, and the extended door panel component can automatically reset and retract to be tightly attached to one side of the opening of the cabinet body in the closing process, so that collision-free opening and closing can be ensured under the condition of a tiny installation gap.

Description

Turnover sliding mechanism for hinge

Technical Field

The invention particularly relates to a hinge for a turnover door, in particular to a turnover sliding mechanism for the hinge.

Background

The hinge is generally used for connecting a turnover part, such as the rotation connection of a cabinet body and a door body, a hinge joint of the cabinet body and the door body is generally reserved with a gap for door body turnover, so as to prevent the door edge at the hinge joint from impacting a panel of the cabinet body when the door body is turned over, the aesthetic property of a product is influenced by too large a gap along with the higher requirement of the processing quality of the product, but the interference problem is caused by too small a gap, on the contrary, if the gap at the hinge joint is too large, the door body turnover process can cause the turnover door panel to occupy more external space, for example, if the hinge joint is close to the wall body, the too large external encroachment amount of the door body can collide with the wall body when the door is turned over, so that many products, such as a refrigerator is placed against the wall, the refrigerator door is limited by the wall surface and can not be completely opened, and such as some embedded disinfection cabinets, the door body can collide with an embedded external box body when the door is turned over, the door body is influenced to turn over and open.

Therefore, in order to solve such problems, a turnover sliding mechanism is needed, which can guide the door body and the cabinet body mounted by the hinge to perform dislocation movement in the turnover process so as to avoid the problem that the door body interferes with the cabinet body or an external object.

Disclosure of Invention

The present invention is directed to a flip slide mechanism for a hinge, which solves the above problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

the turnover sliding mechanism for the hinge comprises a fixed mounting plate and a turnover plate, wherein the fixed mounting plate and the turnover plate are rotatably connected through a rotating shaft, at least one annular rotating toothed belt is arranged on the turnover plate, a toothed plate which rotates by taking the rotating shaft as an axial lead is rotatably arranged on the fixed mounting plate, a fixed gear is fixedly arranged on the toothed plate, a transmission gear is rotatably arranged on the turnover plate, the transmission gear is meshed and connected with the fixed gear, the toothed belt rotates in the same direction as the transmission gear through a gear assembly, the rotating shaft of the toothed belt is parallel to the rotating shaft of the transmission gear, a toothed belt connecting block is fixedly arranged on a translation belt surface of the inner side position of the fixed mounting plate relative to the toothed belt, and a sliding connecting rod for fixing an outer door panel assembly is fixedly arranged on the toothed belt connecting block;

when the turnover plate is provided with a plurality of toothed belts, the toothed belt in transmission connection with the transmission gear is arranged as an innermost toothed belt, adjacent toothed belts rotate in the same direction through the extension mechanism, and the toothed belt connecting block is arranged on the belt surface of the outermost toothed belt.

Further scheme: rotate on the panel of returning face plate and be provided with a cingulum, the cingulum includes the one-level cingulum, the gear assembly includes the returning face plate for the one-level primary gear of installation is rotated respectively to the far and near end of axis of rotation, the one-level cingulum cover is established two between the one-level primary gear, one of them the one-level primary gear with drive gear coaxial rotation is installed on the panel of returning face plate, the cingulum connecting block is fixed for fixed mounting panel on the inboard area face of one-level cingulum.

Further scheme: rotate on the panel of returning face plate and be provided with two cingulums, two cingulums include one-level cingulums and second grade cingulums, the gear assembly includes the returning face plate for the far and near end of axis of rotation rotates the one-level primary gear of installation respectively, the one-level cingulum cover is established two between the one-level primary gear, the one-level cingulum with the second grade cingulum sets up respectively on the different side board of returning face plate, the returning face plate for the far and near end of axis of rotation rotates respectively and installs the second grade gear, the second grade cingulum cup joints two between the second grade gear, one of them one-level primary gear with one of them the coaxial rotation of second grade gear is installed, the cingulum connecting block is fixed for fixed mounting board on the inboard area face of second grade cingulum.

Further scheme: the extension mechanism comprises a primary gear and a secondary gear, wherein one primary gear and the transmission gear are coaxially and rotatably installed on the panel of the turnover plate, the radius of the primary gear is smaller than that of the primary gear coaxially installed on the transmission gear, the radius of the secondary gear is different, and the radius of the secondary gear is larger than that of the primary gear and the gear is smaller than that of the primary gear coaxially and fixedly installed on the panel of the turnover plate.

Further scheme: and a pinch roller for pressing the toothed belt surface is arranged on the panel of the turnover plate.

Further scheme: a guide groove cover is fixedly mounted on a panel of the turnover plate, and a notch used for the sliding connecting rod to pass through is formed in the panel of the guide groove cover in a sliding mode.

Compared with the prior art, the invention has the beneficial effects that: the sliding connecting rod can drive the installed external panel component to extend outwards towards the oblique upper side in the opening process, so that the opening process is prevented, the lower edge of the rotating position of the door panel component collides with the cabinet body, and the extended door panel component can be automatically reset and retracted to be tightly attached to one side of the opening of the cabinet body in the closing process, so that the installation gap of the external door panel component and the cabinet body in the hinged rotating position can be optimized on the basis of the structure, and the door panel component can be smoothly opened and closed without collision under the condition of a tiny installation gap.

Drawings

FIG. 1 is a schematic view of a flip slide mechanism for a hinge;

FIG. 2 is a schematic structural view of FIG. 1 with a guide slot cover removed when a secondary toothed belt is provided;

FIG. 3 is a schematic structural view of FIG. 1 with the roll-over plate and the fixed mounting plate removed, with the secondary toothed belt in place;

FIG. 4 is a schematic view of the structure of the toothed belt engagement block and the primary toothed belt when only the primary toothed belt is provided;

FIG. 5 is a schematic structural view of the flipping board rotating a certain angle;

FIG. 6 is a schematic view of the structure of FIG. 5 with the roll-over plate removed (with the secondary toothed belt provided);

FIG. 7 is a schematic structural view of the combination of the turnover plate and the fixed mounting plate;

fig. 8 is a schematic diagram of the back structure of fig. 7.

In the figure: the belt press comprises a fixed mounting plate 1, a toothed plate 10, a fixed gear 11, a turnover plate 2, a guide groove cover 20, a transmission gear 21, a primary gear 22, a primary toothed belt 23, a secondary gear 24, a secondary toothed belt 25, a sliding connecting rod 3, a toothed belt connecting block 30 and a belt pressing wheel 31.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 to 8, in an embodiment of the present invention, a turnover sliding mechanism for a hinge includes a fixed mounting plate 1 and a turnover plate 2, the fixed mounting plate 1 and the turnover plate 2 are rotatably connected by a rotating shaft, the turnover plate 2 is at least provided with an annular rotating toothed belt, the fixed mounting plate 1 is rotatably provided with a toothed plate 10 that rotates around the rotating shaft as an axis, the toothed plate 10 is fixedly provided with a fixed gear 11, the turnover plate 2 is rotatably provided with a transmission gear 21, the transmission gear 21 is engaged with the fixed gear 11, the toothed belt rotates in the same direction as the transmission gear 21 through a gear assembly, the rotating shaft of the toothed belt is parallel to the rotating shaft of the transmission gear 21, and a toothed belt connecting block 30 is fixedly installed on a translation belt surface of the inner side of the fixed mounting plate 1, a sliding connecting rod 3 for fixing the outer door panel assembly is fixedly arranged on the toothed belt connecting block 30;

when the turnover plate 2 is provided with a plurality of toothed belts, the toothed belt in transmission connection with the transmission gear 21 is arranged as an innermost toothed belt, adjacent toothed belts rotate in the same direction through the extension mechanism, and the toothed belt connecting block 30 is arranged on the belt surface of the outermost toothed belt.

When the device works, the arranged fixed mounting plate 1 and the turnover plate 2 are in main rotating connection by virtue of a rotating shaft, when the fixed mounting plate 1 is fixedly mounted, the turnover plate 2 rotates on the fixed mounting plate 1 around the rotating shaft, wherein the turnover plate 2 drives the transmission gear 21 to generate meshing rotation on the surface of the fixed gear 11, the whole fixed gear 11 rotates along with the rotating shaft by virtue of the toothed plate 10, the transmission gear 21 performs differential rotation relative to the fixed gear 11, so that the transmission gear 21 drives the toothed belt to rotate by virtue of the gear assembly, when the toothed belt rotates, the translation belt surface of the toothed belt can drive the toothed belt connecting block 30 to perform translation, the translation refers to the direction relative to the panel of the turnover plate 2, so that when the turnover plate 2 drives the transmission gear 21 to roll on the fixed gear 11, the closing action is performed, the transmission gear 21 rotates clockwise, and the transmission gear 21 drives the toothed belt to perform homodromous rotation by virtue of the gear assembly, the strip face close to the inner side of the fixed mounting plate 1 can drive the sliding connecting rod 3 to move horizontally towards the position of the rotating shaft, in the process of turning the turnover plate 2, the sliding connecting rod 3 can move horizontally towards one side far away from the position of the rotating shaft in the same way, thereby completing the action that the outer panel assembly installed by the sliding connecting rod 3 extends towards the oblique upper side in the opening process, the opening process is prevented, the lower edge of the rotating position of the panel assembly collides with the cabinet body, in the closing process, the extending panel assembly can automatically reset and retract to cling to one side of the opening of the cabinet body, therefore, the mounting gap of the outer panel assembly and the cabinet body at the hinged rotating position can be optimized on the basis of the structure, and the door panel assembly can be smoothly opened and closed without collision under the condition of extremely small mounting gap.

Rotate on the panel of returning face plate 2 and be provided with a cingulum, the cingulum includes one-level cingulum 23, the gear assembly includes returning face plate 2 for the one-level primary gear 22 of installation is rotated respectively to the far and near end of axis of rotation, 23 covers of one-level cingulum are established two between the one-level primary gear 22, one of them one-level primary gear 22 with drive gear 21 coaxial rotation is installed on the panel of returning face plate 2, cingulum connecting block 30 is fixed for fixed mounting panel 1 on the inboard area face of one-level cingulum 23.

In operation, as shown in fig. 4, fig. 4 shows a state that the turnover plate 2 and the fixed mounting plate 1 are turned over for a certain angle, and when the state is closed, namely, the whole turnover plate 2 rotates clockwise relative to the fixed mounting plate 1 to close, at the same time, the transmission gear 21 rotates around the fixed gear 11, the transmission gear 21 rotates clockwise, at the same time, the primary toothed belt 23 moves towards the right side of the figure relative to the toothed belt connecting block 30 fixed on the inner side belt surface of the fixed mounting plate 1, the door panel assembly mounted outside the sliding link 3 will retract a distance in the closing process, whereas when the roll-over panel 2 is opened counterclockwise, the door panel assembly mounted outside the sliding link 3 will extend a distance outward, thereby guaranteeing under door plant subassembly and the cabinet body minimum interval gap condition, door plant subassembly and cabinet body in-process of opening and shutting, the limit of door plant subassembly upset one side can not strike the marginal position of cabinet body opening one side.

A pinch roller 31 for pressing the toothed belt surface is arranged on the panel of the turnover plate 2;

during operation, the arranged pinch roller 31 mainly ensures the tension of the toothed belt surface, and on the other hand, the translation sliding of the toothed belt connecting block 30 is more smooth.

A guide groove cover 20 is fixedly arranged on a panel of the turnover plate 2, and a notch for the sliding connecting rod 3 to pass through is formed in the panel of the guide groove cover 20;

during operation, the guide groove cover 20 is mainly used for limiting the overall sliding direction of the toothed belt connecting block 30, so that the outer panel assembly installed on the toothed belt connecting block 30 through the sliding connecting rod 3 is guaranteed not to shake, and the inward contraction and outward extension actions are smooth.

Example 2

This example differs from example 1 in that:

rotate on the panel of returning face plate 2 and be provided with two cingulums, two cingulums include one-level cingulums 23 and second grade cingulums 25, the gear assembly includes returning face plate 2 for the far and near end of axis of rotation rotates the one-level primary gear 22 of installation respectively, 23 covers in two of one-level cingulums 22 between the one-level primary gear, one-level cingulum 23 with second grade cingulum 25 sets up respectively on the different side board of returning face plate 2, returning face plate 2 for the far and near end of axis of rotation rotates respectively installs second grade gear 24, second grade cingulum 25 cup joints two between the second grade gear 24, one of them one-level primary gear 22 with one of them second grade gear 24 coaxial rotation installation, cingulum connecting block 30 is fixed for fixed mounting panel 1 on the inboard area face of second grade cingulum 25.

The extension mechanism comprises the primary gears 22 and the secondary gears 24, wherein one primary gear 22 and the transmission gear 21 are coaxially and rotatably arranged on the panel of the turnover plate 2, the gear radius of the other primary gear 22 is smaller than that of the primary gear 22 coaxially arranged with the transmission gear 21, the two secondary gears 24 are different in gear radius, and the secondary gear 24 with the larger gear radius is coaxially and fixedly arranged with the primary gear 22 with the smaller gear radius;

when the turnover mechanism works, two toothed belts are arranged, namely a primary toothed belt 23 and a secondary toothed belt 25, the primary toothed belt 23 increases the belt speed of the secondary toothed belt 25 through a primary gear 22 and a secondary gear 24 with different size radiuses, and at the moment, the toothed belt connecting block 30 is arranged on the secondary toothed belt 25, so that the sliding connecting rod 3 generates larger translation amount under the condition that the turnover plate 2 rotates at the same angle, and the movement amount of the sliding connecting rod 3 is adjusted according to the installation requirements of door panel assemblies or other products which are actually installed in a matched mode, and the turnover mechanism is more flexible to adjust and adapts to different installation environments.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A turnover sliding mechanism for a hinge comprises a fixed mounting plate (1) and a turnover plate (2), wherein the fixed mounting plate (1) is rotatably connected with the turnover plate (2) through a rotating shaft;

it is characterized in that the turnover plate (2) is at least provided with a toothed belt which rotates in an annular way, a toothed plate (10) which rotates by taking the rotating shaft as an axis is rotatably arranged on the fixed mounting plate (1), a fixed gear (11) is fixedly arranged on the toothed plate (10), a transmission gear (21) is rotatably arranged on the turnover plate (2), the transmission gear (21) is meshed with the fixed gear (11), the toothed belt rotates in the same direction with the transmission gear (21) through a gear assembly, the rotating shaft of the toothed belt is parallel to the rotating shaft of the transmission gear (21), a toothed belt connecting block (30) is fixedly arranged on one translation belt surface of the toothed belt corresponding to the inner side position of the fixed mounting plate (1), a sliding connecting rod (3) for fixing the outer door panel assembly is fixedly arranged on the toothed belt connecting block (30);

when the turnover plate (2) is provided with a plurality of toothed belts, the toothed belt in transmission connection with the transmission gear (21) is arranged as an innermost toothed belt, adjacent toothed belts rotate in the same direction through the extension mechanism, and the toothed belt connecting block (30) is arranged on the belt surface of the outermost toothed belt.

2. The turnover sliding mechanism for the hinge according to claim 1, wherein a toothed belt is rotatably arranged on the panel of the turnover plate (2), the toothed belt comprises first-level toothed belts (23), the gear assembly comprises first-level primary gears (22) rotatably arranged on the turnover plate (2) relative to the far and near ends of the rotating shaft respectively, the first-level toothed belts (23) are sleeved between the two first-level primary gears (22), one of the first-level primary gears (22) and the transmission gear (21) are coaxially and rotatably arranged on the panel of the turnover plate (2), and the toothed belt connecting block (30) is fixed on the inner side belt surface of the first-level toothed belt (23) relative to the fixed mounting plate (1).

3. The turnover sliding mechanism for the hinge according to claim 1, wherein the panel of the turnover plate (2) is rotatably provided with two toothed belts, the two toothed belts comprise a primary toothed belt (23) and a secondary toothed belt (25), the gear assembly comprises a primary gear (22) rotatably mounted on the turnover plate (2) relative to the distal end and the proximal end of the rotating shaft, the primary toothed belt (23) is sleeved between the two primary gears (22), the primary toothed belt (23) and the secondary toothed belt (25) are respectively disposed on different side panels of the turnover plate (2), the turnover plate (2) is rotatably mounted with a secondary gear (24) relative to the distal end and the proximal end of the rotating shaft, the secondary toothed belt (25) is sleeved between the two secondary gears (24), one of the primary gears (22) and one of the secondary gears (24) are coaxially rotatably mounted, the toothed belt connecting block (30) is fixed on the inner side belt surface of the secondary toothed belt (25) relative to the fixed mounting plate (1).

4. A tumble sliding mechanism for a hinge according to claim 3 characterized in that said extension mechanism comprises said primary gear (22) and said secondary gear (24), wherein one of said primary gear (22) and said transmission gear (21) is coaxially and rotatably mounted on the panel of said roll-over plate (2), the other of said primary gear (22) has a smaller gear radius than said primary gear (22) coaxially mounted with said transmission gear (21), and the two secondary gears (24) have different gear radii, wherein said secondary gear (24) with larger gear radius is coaxially and fixedly mounted with said primary gear (22) with smaller gear radius.

5. A tipping slide for a hinge according to any one of claims 1-4, characterised in that the face plate of the tipping plate (2) is provided with a pinch roller (31) for pressing the toothed belt surface.

6. The turnover sliding mechanism for the hinge according to any one of claims 1 to 4, wherein a guide slot cover (20) is fixedly mounted on a panel of the turnover plate (2), and a notch for the sliding connection rod (3) to pass through is formed in the panel of the guide slot cover (20).