CUPBOARD DOOR BALANCE SYSTEM

Abstract

A balance system used with a door of a cupboard comprises a transmission shaft, a first pulley on the transmission shaft, and a balance component. The first pulley is connected to a door belt, one end of the door belt is secured to the first pulley, and the other end of the belt is connected to the door. The balance component comprises a balancing member, a balancing belt and a second pulley on the transmission shaft. One end of the balancing belt is connected to the second pulley, and the other end of the balancing belt is connected to the balancing member, such that the balancing member is hung on the second pulley. The first pulley and the second pulley rotate synchronously, and the door belt and the balancing belt are wound oppositely. With the balance system, a small driving force can open/close the door.

Claims

1. A balance system for a door of a cupboard, comprising: a transmission shaft; a first pulley mounted on the transmission shaft, and a balance component; the first pulley is connected to a door belt, one end of the belt is secured to the first pulley, and the other end of the belt is connected to the door of the cupboard; the balance component comprises a balancing member, a balancing belt and a second pulley configured at the transmission shaft; one end of the balancing belt is connected to the second pulley, and the other end of the balancing belt is connected to the balancing member, such that the balancing member is hung on the second pulley; and the first pulley and the second pulley rotate simultaneously, and the door belt and the balancing belt are wound in opposite directions on the first pulley and the second pulley, respectively.

2. The balance system of claim 1, wherein the balance system includes a motor transmission apparatus, comprising a motor, a first gear secured coaxially to a shaft of the motor, and a second gear secured to the transmission shaft; the first gear engaging with the second gear.

3. The balance system of claim 2, wherein an electric/manual switch is operatively configured with the motor, for enabling the first gear and the second gear to be disengaged.

4. The balance system of claim 3, wherein the second gear is arranged at a center of the transmission shaft.

5. The balance system of claim 1 wherein the balance system comprises one balancing member, two second pulleys and two balancing belts.

6. The balance system of claim 5, wherein the balance system comprises two first pulleys, and the two second pulleys are arranged between the two first pulleys.

7. The balance system of claim 6, wherein the balancing member is an elongated member.

8. The balance system of claim 7, wherein the two second pulleys are configured in bilateral symmetry at both sides of the center of the transmission shaft; and the transmission shaft and the elongated balancing member have a same orientation, and the balancing belts are mounted at both ends of the elongated balancing member where their mounting points are in bilateral symmetry.

9. A cupboard, comprising: a box with an open front; a door mounted to the box for vertical movement between open and closed positions relative to the open front; pulley system mounted to the box and to the door; and a weight connected to the pulley system to counter-balance the door.

10. The cupboard of claim 9 wherein the pulley system includes a first belt connected to the door and a second belt connected to the weight.

11. The cupboard of claim 9 wherein the pulley system includes a first pair of spaced apart belts attached to the door adjacent opposite edges of the door, and a second pair of spaced apart belts attached to the weight.

12. The cupboard of claim 11 wherein the pulley system includes a first pair of pulleys for winding and unwinding the first pair of belts and a second pair of pulleys to wind and unwind the second pair of belts.

13. The cupboard of claim 9 wherein the first and second pairs of belts wind and unwind in opposite directions on the first and second pairs of pulleys.

14. The cupboard of claim 9 further comprising a reversible motor operatively connected to the pulley system to raise and lower the door.

15. The cupboard of claim 9 wherein the motor is laterally centered on the box.

16. The cupboard of claim 9 wherein the pulley system includes a shaft driven by the motor, a pair of door pulleys mounted adjacent opposite ends of the shaft, a pair of weight pulleys mounted adjacent opposite ends of the shaft, a pair of door belts extending between the door and the door pulleys, and a pair of weight belts extending between the weight and the weight pulleys.

17. The cupboard of claim 16 wherein the motor has a drive gear and the shaft has a driven gear in mesh with the door gear.

18. The cupboard of claim 16 wherein the door belts wrap around the door pulleys in a first direction and the weight belts wrap around the weight pulleys in a second direction opposite the first direction.

19. The cupboard of claim 9 wherein the weight is adjacent a rear portion of the box.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] FIG. 1 is a structural schematic view of a cupboard according to the present invention, with the door closed;

[0023] FIG. 2 is a structural schematic view of a cupboard according to the present invention, with the door partially opened;

[0024] FIG. 3 is a structural schematic view of a cupboard according to the present invention, with the door opened fully;

[0025] FIG. 4 is a structural schematic view of a preferred Embodiment 1 of a balance system used in a door of cupboard according to the present invention;

[0026] FIG. 5 is a structural schematic view of an alternative Embodiment 2 of a balance system used in a door of cupboard according to the present invention.

[0027] FIG. 6 is an exploded view showing the cupboard components.

[0028] FIG. 7 is a perspective view showing the connection between the lift racks and the balance system.

[0029] FIG. 8 is another exploded view, similar to FIG. 7, and having the door louvers.

[0030] FIG. 9 is an assembled view of the cupboard, with one side wall removed to partially show the lift mechanism.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0031] The present invention will be described hereinafter in details with reference to the figures.

[0032] A cupboard with a vertically movable, up-down door is shown in FIGS. 1-3. The cupboard comprises a body or box 100, a door 200 on the body 100, and a handle 201 on the door.

[0033] The door 200 adopts a lift louvered mechanism, comprising a plurality of louvers 202, a pair of lift racks 300, and a guideway 400 for each lift rack 300.

[0034] Each of the lift racks 300 comprises a plurality of first lift units 310, and a plurality of second lift units 320 in which each second lift unit 320 is connected to two adjacent first lift units 310. Each louver 202 is secured to each corresponding first lift unit 310.

[0035] Each first lift unit 310 comprises a first connective element or finger 311 securing to the louver 202, and a second connective element 312 hinged to the first connective element 311. Each second lift unit 320 comprises a third connective element 321 hinged to the first connective element 311, and a fourth connective element 322 hinged to the second connective element 312. Both the third connective element 321 and the fourth connective element 322 are hinged to each other. Thus, the elements 311, 312, 321, 322 form a scissor jack type assembly.

[0036] As shown in FIGS. 1-4, the cupboard has a door containing multiple louvers 202 which are secured onto the first lift units, 310 respectively, by any convenient means such as a strong adhesive, snap-fitting or port connection or the like. More particularly, each louver 202 is secured onto each corresponding first connective element 311 such that the louvers 202 can be mounted to the lift racks 300.

[0037] The body 100 consists of a top board 101, a bottom board 102, a left board 103, a right board 104 and a rear board 105. As shown in FIGS. 7-9, a mounting slot 1031 is configured at the left board 103, and a mounting slot 1041 is configured at the right board 104. Two guideways 400 are mounted inside the mounting slots 1031 and 1041, respectively, with each lift rack 300 connected to each guideway 400.

[0038] As shown in FIGS. 6 and 10, a guide protrusion 330 extends from the first connective element 311, and a guide groove 401 is provided in the guideway 400. The guide protrusion 330 can only be moved in the guideway 400 such that the lift rack 300 can lift and fold up, or, descend and extend, along the guide groove 401.

[0039] When people need to open the door 200, the lift racks 300 lift and fold up, causing the louvers 202 to fold up, the door is thus open.

[0040] When people need to close the door 200, the lift racks 300 descend and extend, causing the louvers 202 to extend, the door is thus closed.

Embodiment 1

[0041] As shown in FIG. 4, a balance system used in a door of cupboard comprises a transmission shaft 5, a first pulley 2 on the transmission shaft 5, and a balance component.

[0042] The first pulley 2 is connected to a belt 1. One end of the belt 1 is secured to the first pulley 2, and the other end of the belt 1 is connected to the door of cupboard. Thus, the door provides the belt 1 with a pulling force due to the weight of the door.

[0043] The balance component comprises a balancing member 6, a balancing belt 4 and a second pulley 3 configured at the transmission shaft 5. One end of the balancing belt 4 is connected to the second pulley 3, and the other end of the balancing belt 4 is connected to the balancing member 6, such that the balancing member 6 can be hung on the second pulley 3 evenly and provides the balancing belt 4 with a pulling force due to the weight of the balancing member 6. A direction of the pulling force is shown by an arrow in FIG. 4. The first pulley 2, the second pulley 3 and the transmission shaft 5 can rotate synchronously. The belt 1 and the balancing belt 4 are wound inversely on the first pulley 2 and the second pulley 3 respectively.

[0044] Preferably, the pulling force from the door corresponds to the pulling force from the balancing member 6 so as to make the balance system in a balanced state. In other words, the weight of the door is substantially equal to the weight of the balancing member, so that the door and balancing member are in equilibrium.

[0045] As shown in FIG. 4, in this embodiment, the balance system comprises two first pulleys 2, and the balance component comprises an elongated balancing member 6, two second pulleys 3 and two balancing belts 4.

[0046] The two second pulleys 3 are configured in bilateral symmetry at both sides of a center of the transmission shaft 5, and the elongated balancing member 6 is a homogeneous substance. Preferably the transmission shaft 5 and the elongated balancing member 6 have a same orientation, and both balancing belts 4 are mounted at both ends of the elongated balancing member 6 where two mounting points are in bilateral symmetry such that the force borne by both second pulleys 3 will be substantially even.

[0047] Both second pulleys 3 are arranged between the two first pulleys 2. The pulling force from the door to the belts 1 corresponds to the pulling force from the balancing member 6 to the balancing belts 4 so as to make the balance system in a balanced state. In this regard, a small driving force can make the system imbalance and facilitate the door opening/closing.

[0048] The present invention features simple structure, low cost, good stability and long lifetime.

Embodiment 2

[0049] In an alternative embodiment shown in FIG. 5, the cupboard 100 also includes a reversible, electric motor transmission apparatus, comprising a motor 7, a first gear 8 secured coaxially to the motor 7, and a second gear 9 secured to the transmission shaft 5, preferably at the center of the transmission shaft 5. The first gear 8 meshingly engages with the second gear 9.

[0050] An electric/manual switch 10 is operatively connected to the motor 7, for enabling the first gear 8 and the second gear 9 to be disengaged. When the first gear 8 and the second gear 9 are disengaged, the balance system will be in manual state, whereby, a little driving force to a handle, can make the system imbalance and open/close the door.

[0051] When the first gear 8 and the second gear 9 are engaged and the motor 7 is powered up to rotate, the transmission shaft 5 is rotated. The motor 7 generates a small driving force, which can make the system imbalance and open/close the door. Since only a small power output is required, the motor 7 costs is minimized. The present invention features good stability and long lifetime due to a balanced configuration.

[0052] In case no balancing member 6 is present, there is no pulling force from the balancing member 6 to balance the weight of the door. In this circumstance, when people need to open/close the door, the motor will supply a stronger pulling force, with more motor power. In addition, a motor controller may be required to control the motor's output, making the door open/close smoothly, and may require a complex transmission mechanism with a higher cost.

[0053] Regulating wheels 600 allow for adjustment of the belts 1, i.e., tightening or loosening the belts. The wheels 600 are mounted on the side boards of the cupboard.

[0054] It is understood that the belts 1 and 4 may also be any type of pulling or tension member, such as a cable, a cord, a chain, a rope, and the like.

[0055] The embodiments described hereinbefore are merely preferred embodiments of the present invention and not for purposes of any restrictions or limitations to the invention. It will be apparent that any non-substantive, obvious alterations or improvements by the technician of this technical field according to the present invention may be incorporated into ambit of claims of the present invention.