CN109276057B

CN109276057B - Anti-collision durable wardrobe

Info

Publication number: CN109276057B
Application number: CN201811445669.6A
Authority: CN
Inventors: 王倩妮
Original assignee: Individual
Current assignee: Hangzhou Tianshiyi Technology Co ltd
Priority date: 2018-11-29
Filing date: 2018-11-29
Publication date: 2021-04-20
Anticipated expiration: 2038-11-29
Also published as: CN109276057A

Abstract

The invention discloses an anti-collision durable wardrobe, which comprises: a cabinet body; a door panel; a fixed block; a pressing mechanism; the telescopic mechanism comprises a fourth sliding cavity and a rod body, and the rod body is vertically and fixedly connected with the partition plate; the extension mechanism comprises a fifth sliding cavity, a second sliding block, a sixth sliding cavity and a sliding rod, wherein the second sliding block is arranged in the fifth sliding cavity; the handle mechanism comprises a handle body and a connecting assembly, wherein the handle body is arranged in the second sliding cavity, the connecting assembly comprises a supporting block, a balancing rod, two grooves, a first connecting rod and a second connecting rod, the balancing rod is hinged to the supporting block, the first connecting rod is fixedly connected with the end part of the second sliding block, and the second connecting rod is fixedly connected with the end part of the handle body. The handle body is partially protruded out of the second sliding cavity, the door plate is opened through the handle body, the handle body is retracted into the second sliding cavity through the first spring, and collision of the handle body is reduced.

Description

Anti-collision durable wardrobe

Technical Field

The invention relates to the field of furniture equipment. More particularly, the present invention relates to an anti-collision durable wardrobe.

Background

Along with the increasing of the room price, the house all can design into the comparatively compact house type of structure, this can lead to showing in the room more and disorderly and crowded in the room, the wardrobe just becomes one of the indispensable furniture of modern family, the wardrobe is installed in the bedroom more at present, in order to satisfy and not influence the whole pleasing to the eye in the room, can hold a large amount of objects again, but the bedroom area is less, the space that can walk about after designing into the wardrobe is littleer, and current wardrobe adopts external handle device mostly, external handle device touches the human body easily, hook to package and clothes etc. on the one hand, can touch the human body or damage the article, on the other hand handle device also is fragile, influence the normal use of wardrobe.

Disclosure of Invention

An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

The invention also aims to provide the anti-collision durable wardrobe, which not only realizes that the handle body partially protrudes out of the second sliding cavity and the door panel is opened through the handle body, but also realizes that the handle body retracts into the second sliding cavity through the first spring, so that the collision of the handle body is reduced, the anti-collision of the wardrobe is realized, and the durability of the wardrobe is improved.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a collision-preventing durable wardrobe, comprising:

a cabinet body;

the door plant, its with cabinet body looks adaptation, the door plant is kept away from the surface depression of the cabinet body forms the holding tank, be equipped with handle device in the holding tank, handle device includes:

the fixed block is detachably arranged in the accommodating groove, the end face of the fixed block is flush with the surface, far away from the cabinet body, of the door panel, and a first sliding cavity, a third sliding cavity and a second sliding cavity which are sequentially communicated are arranged in the fixed block, wherein the first sliding cavity and the second sliding cavity are parallel, and the free ends of the first sliding cavity and the second sliding cavity are flush with the outer surface of the door panel;

the pressing mechanism comprises a first sliding block and a partition plate, the first sliding block is arranged in the first sliding cavity in a sliding mode, the partition plate is vertically clamped in the first sliding cavity, the first sliding block and the third sliding cavity are located on two sides of the partition plate, the surface, close to the first sliding block, of the partition plate is recessed at intervals to form two mounting grooves, a first spring is fixedly arranged at the bottom of each mounting groove, the free end of each first spring is fixedly connected with the end, close to the partition plate, of the first sliding block, and a cylindrical channel penetrates through the partition plate;

the telescopic mechanism comprises a fourth sliding cavity and a rod body, the fourth sliding cavity is formed by sinking the end part of the first sliding block close to the partition plate, one end of the rod body is fixedly connected with the partition plate vertically, the vertical projection of the fourth sliding cavity on the partition plate covers the vertical projection of the rod body on the partition plate, an annular rubber first limiting block is fixedly arranged on the rod body coaxially, one end of the first limiting block is fixedly connected with the partition plate, the length of the first limiting block along the axial direction of the first limiting block is 5-8 mm, two rubber second limiting blocks are fixedly arranged on the side wall of the fourth sliding cavity at intervals, the two second limiting blocks are symmetrically arranged along the axial line of the rod body, the open distance between the second limiting blocks and the fourth sliding cavity is 0.2mm, and the distance between the two second limiting blocks is slightly smaller than the outer diameter of the first limiting block;

the extending mechanism comprises a fifth sliding cavity, a second sliding block, a sixth sliding cavity and a sliding rod, the fifth sliding cavity and the sixth sliding cavity are formed by sinking the end part of the first sliding block close to the partition plate, the projection of the fifth sliding cavity on the partition plate is positioned in the channel, the fifth sliding cavity and the sixth sliding cavity are communicated through a through hole, the second sliding block is arranged in the fifth sliding cavity in a sealing and sliding manner, one end of the sliding rod is fixedly connected with the partition plate, and the other end of the sliding rod stretches into the sixth sliding cavity in a sealing and sliding manner;

the handle mechanism comprises a handle body and a connecting assembly, wherein the handle body is slidably arranged in the second sliding cavity, the connecting assembly comprises a supporting block, a balance rod, two grooves, a first connecting rod and a second connecting rod, the supporting block is fixedly arranged in the third sliding cavity, the balance rod is hinged with the supporting block, the supporting block equally divides the length of the balance rod, one end of the first connecting rod is fixedly connected with the end part, close to the third sliding cavity, of the second sliding block, the first connecting rod is arranged along the axial direction of the channel, one end of the second connecting rod is fixedly connected with the end part, close to the third sliding cavity, of the handle body, the second connecting rod is arranged along the axial direction of the channel, free ends of the first connecting rod and the second connecting rod are coaxially and fixedly provided with spheres, and the diameter of each sphere is larger than that of the first connecting rod and the second connecting rod, The diameter of the second connecting rod is formed by interval depression of the balance rod, the section of each groove is in a U-arc shape and is perpendicular to the axis of the balance rod, the two grooves are symmetrical along the supporting block, each groove is arranged along the length direction of the balance rod, the width of a notch of each groove is larger than the diameter of the first connecting rod and the diameter of the second connecting rod and smaller than the diameter of each ball, and the two balls are slidably arranged in the two grooves in a one-to-one correspondence manner;

wherein the first spring is configured to: when the first sliding block is pressed to the position where the first sliding block abuts against the partition plate, the second sliding block partially protrudes out of the fifth sliding cavity, the handle body partially protrudes out of the second sliding cavity and stops pressing the first sliding block, the first spring drives the first sliding block to move to the position where the first sliding block is far away from the partition plate, the end portion of the partition plate is flush with an opening of the first sliding cavity, the first sliding block moves to drive the sliding rod to partially slide out of the sixth sliding cavity, the second sliding block is located in the fifth sliding cavity, and the second sliding block moves to drive the balance rod to rotate, so that the handle body is far away from the end face of the second sliding cavity and the opening of the second sliding cavity.

Preferably, a first protrusion is fixedly arranged on the side wall of the first sliding cavity, the side wall of the first sliding block is recessed along the length direction of the first sliding cavity to form a first sliding groove, the first protrusion is slidably arranged in the first sliding groove, and the side wall of the first sliding block is in contact with the side wall of the first sliding cavity, so that the sliding connection between the first sliding block and the first sliding cavity is realized.

Preferably, a second protrusion is fixedly arranged on a side wall of a fourth sliding cavity where the second sliding block is located, the side wall of the second sliding block is recessed along the length direction to form a second sliding groove, and the second protrusion is slidably arranged in the second sliding groove to realize the sliding connection between the second sliding block and the fourth sliding cavity.

Preferably, a fixed pulley is respectively arranged in the fifth sliding cavity and the sixth sliding cavity, a steel wire rope is fixedly arranged at the free end of the sliding rod, the steel wire rope sequentially slides to penetrate through the fixed pulley and the through hole and is fixedly connected with the end part, far away from the third sliding cavity, of the second sliding block, the part, located in the fifth sliding cavity, of the steel wire rope is perpendicular to the end face of the second sliding block, and the part, located in the sixth sliding cavity, of the steel wire rope is perpendicular to the end face of the sliding rod.

Preferably, when the end of the first sliding block far away from the first spring is flush with the opening of the first sliding cavity, the distance between the first sliding block and the partition plate is 1.5 cm.

Preferably, the length of the second slider in the depth direction of the fourth sliding cavity is 1.4 cm.

Preferably, the length of the handle body in the depth direction of the second sliding cavity is 2.8 cm.

The invention at least comprises the following beneficial effects:

firstly, the handle body is partially protruded out of the second sliding cavity, the door plate is opened through the handle body, the handle body is retracted into the second sliding cavity through the first spring, collision of the handle body is reduced, collision prevention of the wardrobe is achieved, durability of the wardrobe is improved, and meanwhile dust can be effectively accumulated on the handle body when the handle body is located in the second sliding cavity.

The handle body is arranged in the second sliding cavity, the handle body protrudes out of the second sliding cavity by pressing the first sliding block, the end part, far away from the third sliding cavity, of the first sliding block is flush with the first sliding cavity by the aid of the first spring, the handle body can retract freely, the handle body can retract into the second sliding cavity by one-time pressing when the door plate is opened, and the handle body is simple to operate and convenient to use.

The third, set up extension mechanism, realize extension handle body protrusion through setting up the second slider the distance in the smooth chamber of second, the user only needs to press first slider gently, can make the length in the smooth chamber of handle body protrusion second satisfy the user and pull open the door plant, convenient to use person opens the chamber door more.

The fourth, set up handle mechanism, realize promoting through setting up the second spring the removal of handle body has realized promoting through setting up head rod, second connecting rod, balancing pole the removal of handle body for the removal of using external spring control handle body among the prior art, the influence of debris to the spring can be solved in this kind of setting, through setting up the recess to satisfy the removal of head rod, second connecting rod.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural view of an anti-collision durable wardrobe according to one embodiment of the present invention;

fig. 2 is a schematic structural diagram of the handle device according to one embodiment of the present invention when the handle device presses the first slider;

fig. 3 is a schematic structural diagram of the balance bar according to one technical aspect of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It should be noted that in the description of the present invention, the terms "upper", "lower", "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 3, the present invention provides an anti-collision durable wardrobe, comprising:

a cabinet body;

the fixed block 101 is detachably arranged in the accommodating groove, the end face of the fixed block 101 is flush with the surface of the door panel far away from the cabinet body, a first sliding cavity 102, a third sliding cavity 104 and a second sliding cavity 103 are arranged in the fixed block 101 and are sequentially communicated with each other (the first sliding cavity 102, the second sliding cavity 103 and the third sliding cavity 104 can be specifically arranged in such a way that the first sliding cavity 102 and the second sliding cavity 103 are arranged at an interval from top to bottom, the first sliding cavity 102 and the second sliding cavity 103 are both vertical to the door panel, and the third sliding cavity 104 is both vertical to the first sliding cavity 102 and the second sliding cavity 103), the first sliding cavity 102 and the second sliding cavity 103 are parallel (namely, one end of each of the first sliding cavity 102 and the second sliding cavity 103 is open), and the free ends of the first sliding cavity 102 and the second sliding cavity 103 are flush with the outer surface of the door panel (namely, the outer surface of the door panel is away from the surface of the cabinet body);

the pressing mechanism comprises a first sliding block 201 and a partition plate 202, the first sliding block 201 is slidably arranged in the first sliding cavity 102, the partition plate 202 is vertically clamped in the first sliding cavity 102, the first sliding block 201 and the third sliding cavity 104 are positioned on two sides of the partition plate 202, the partition plate 202 is recessed at intervals on the surface close to the first sliding block 201 to form two mounting grooves 203, a first spring 204 is fixedly arranged at the bottom of each mounting groove 203, the free end of the first spring 204 is fixedly connected with the end part of the first sliding block 201 close to the partition plate 202, and a cylindrical channel 205 penetrates through the partition plate 202;

the telescopic mechanism comprises a fourth sliding cavity 503 and a rod body 501, wherein the fourth sliding cavity 503 is formed by the end part of the first sliding block 201 close to the partition plate 202 being sunken, one end of the rod body 501 is fixedly connected with the partition plate 202 in a vertical manner, the vertical projection of the fourth sliding cavity 503 on the partition plate 202 covers the vertical projection of the rod body 501 on the partition plate 202, an annular rubber first limiting block 502 is fixedly arranged on the rod body 501 coaxially, one end of the first limiting block 502 is fixedly connected with the partition plate 202, the length of the first limiting block 502 along the axial direction is 5-8 mm, two rubber second limiting blocks 504 are fixedly arranged on the side wall of the fourth sliding cavity 503 at intervals, the two second limiting blocks 504 are symmetrically arranged along the axial line of the rod body 501, the open distance between the second limiting blocks 504 and the fourth sliding cavity 503 is 0.2mm, and the distance between the two second limiting blocks 504 is slightly smaller than the outer diameter of the first limiting block 502, so that during the movement of the first sliding block 201, the free end of the second sliding block 305 is always located in the second sliding cavity 103, and the free end of the sliding rod 303 is always located in the fifth sliding cavity 302;

the extending mechanism comprises a fifth sliding cavity 302, a second sliding block 305, a sixth sliding cavity 301 and a sliding rod 303, wherein the fifth sliding cavity 302 and the sixth sliding cavity 301 are formed by sinking the end part of the first sliding block 201 close to the partition plate 202, the projection of the fifth sliding cavity 302 on the partition plate 202 is positioned in the channel 205, the fifth sliding cavity and the sixth sliding cavity 301 are communicated through a through hole 307, the second sliding block 305 is arranged in the fifth sliding cavity 302 in a sealing and sliding manner, one end of the sliding rod 303 is fixedly connected with the partition plate 202, and the other end of the sliding rod 303 extends into the sixth sliding cavity 301 in a sealing and sliding manner, so that the fifth sliding cavity 302 and the sixth sliding cavity 301 form a closed system;

the handle mechanism comprises a handle body 401 and a connecting assembly, the handle body 401 is slidably disposed in the second sliding cavity 103, the connecting assembly comprises a supporting block 402, a balance bar 403, two grooves 407, a first connecting bar 406 and a second connecting bar 405, the supporting block 402 is fixedly disposed in the third sliding cavity 104, the balance bar 403 is hinged to the supporting block 402, the supporting block 402 equally divides the length of the balance bar 403, one end of the first connecting bar 406 is fixedly connected to the end portion of the second slider 305 close to the third sliding cavity, the first connecting bar 406 is disposed along the axial direction of the channel 205, one end of the second connecting bar 405 is fixedly connected to the end portion of the handle body 401 close to the third sliding cavity 104, the second connecting bar 405 is disposed along the axial direction of the channel 205, and free ends of the first connecting bar 406 and the second connecting bar 405 are coaxially and fixedly disposed with a ball 408, the diameter of the ball 408 is greater than the diameters of the first connecting rod 406 and the second connecting rod 405, two concave grooves 407 are formed by the interval depression of the balance bar 403, the cross section of each concave groove 407 is in a shape of a major arc, the cross section of each concave groove 407 is perpendicular to the axis of the balance bar 403, the two concave grooves 407 are symmetrical along the supporting block 402, each concave groove 407 is arranged along the length direction of the balance bar 403, the width of the notch of each concave groove 407 is greater than the diameters of the first connecting rod 406 and the second connecting rod 405 and smaller than the diameter of the ball 408, and the two balls 408 are slidably arranged in the two concave grooves 407 in a one-to-one correspondence manner;

wherein the first spring 204 is configured to: when the first slider 201 is pressed to abut against the partition plate 202, part of the second slider 305 protrudes out of the fifth sliding cavity 302, part of the handle body 401 protrudes out of the second sliding cavity 103, pressing of the first slider 201 is stopped, the first spring 204 drives the first slider 201 to move until the end, away from the partition plate 202, of the first slider 201 is flush with the opening of the first sliding cavity 102, the movement of the first slider 201 drives the sliding rod 303 to partially slide out of the sixth sliding cavity 301, the second slider 305 is located in the fifth sliding cavity 302, and the movement of the second slider 305 drives the balancing rod 403 to rotate, so that the end surface, away from the second sliding cavity 103, of the handle body 401 is flush with the opening of the second sliding cavity 103.

In this technical solution, before the door wardrobe is not opened, the end of the first slider 201 far from the partition 202 is flush with the opening of the first sliding cavity 102, the first slider 201 is pressed, the second slider 305 moves towards the partition 202 under the push of the gas, the movement of the second slider 305 drives the movement of the first connecting rod 406, so that the balance rod 403 rotates, the balance rod 403 rotates to push the second connecting rod 405 to move, the second connecting rod 405 drives the handle body 401, so that the handle body 401 partially protrudes out of the second sliding cavity 103 (at this time, the door panel can be opened through the portion of the handle body 401 protruding out of the second sliding cavity 103), after the door panel is opened, under the action of the first spring 204, the first slider 201 is pushed by the first spring 204 to move, under the action of the gas, the second slider 305 moves into the fifth sliding cavity 302, and the first slider 305 drives the first connecting rod 406 to move, and then the second connecting rod 405 is driven to move, so that the handle body 401 retracts into the second sliding cavity 103, in the using process, when the door plate needs to be opened, the first sliding block 201 is pressed until the first sliding block 201 abuts against the partition plate 202, the handle body 401 partially protrudes out of the second sliding cavity 103, then the door plate is opened through the handle body 401, and after the door plate is opened, under the action of the first spring 204, the handle body 401 retracts into the second sliding cavity 103. By adopting the technical scheme, the handle body 401 partially protrudes out of the second sliding cavity 103, and the door plate is opened through the handle body 401, and the handle body 401 retracts into the second sliding cavity 103 through the first spring 204, so that the collision of the handle body 401 is reduced, and meanwhile, dust can be effectively accumulated on the handle body 401 when the handle body 401 is positioned in the second sliding cavity 103; the handle body 401 can be partially protruded out of the second sliding cavity 103 by pressing the first slider 201, the first slider 201 is pushed by the first spring 204 until the end part, away from the third sliding cavity 104, of the first slider 201 is flush with the first sliding cavity 102, and the handle body 401 can be freely retracted, so that the handle body 401 can be retracted into the second sliding cavity 103 while the door panel is opened by pressing once, and the operation is simple and the use is convenient; an extension mechanism is arranged, the distance of the handle body 401 protruding out of the second sliding cavity 103 is extended by arranging the second sliding block 305, and a user only needs to lightly press the first sliding block 201, so that the length of the handle body 401 protruding out of the second sliding cavity 103 meets the requirement that the user pulls open a door plate, and the user can open the door more conveniently; the handle mechanism is arranged, the handle body 401 is pushed to move by arranging the second spring, the handle body 401 is pushed to move by arranging the first connecting rod 406, the second connecting rod 405 and the balance rod 403, compared with the prior art in which the handle body 401 is controlled by an external spring, the handle mechanism can solve the influence of sundries on the spring by the arrangement, and the groove 407 is arranged to meet the requirements of the movement of the first connecting rod 406 and the second connecting rod 405.

In another technical solution, a first protrusion is fixedly disposed on a side wall of the first sliding cavity 102, the side wall of the first sliding block 201 is recessed along a length direction of the first sliding cavity 102 to form a first sliding groove, the first protrusion is slidably disposed in the first sliding groove, and the side wall of the first sliding block 201 is in contact with the side wall of the first sliding cavity 102, so as to achieve the sliding connection between the first sliding block 201 and the first sliding cavity 102. By adopting the technical scheme, the sliding connection between the first sliding block 201 and the first sliding cavity 102 is realized.

In another technical solution, a second protrusion is fixedly disposed on a side wall of the fourth sliding cavity 503 where the second slider 305 is located, the side wall of the second slider 305 is recessed along a length direction to form a second sliding slot, and the second protrusion is slidably disposed in the second sliding slot to achieve the sliding connection between the second slider 305 and the fourth sliding cavity 503. By adopting the technical scheme, the sliding connection between the second slider 305 and the fourth sliding cavity 503 is realized.

In another technical scheme, fixed pulleys are respectively arranged in the fifth sliding cavity 302 and the sixth sliding cavity 301, a steel wire rope is fixedly arranged at the free end of the sliding rod 303, the steel wire rope sequentially slides through the fixed pulleys and the through hole 307 and is fixedly connected with the end part, far away from the third sliding cavity 104, of the second sliding block 305, the part, located in the fifth sliding cavity 302, of the steel wire rope is perpendicular to the end surface of the second sliding block 305, and the part, located in the sixth sliding cavity 301, of the steel wire rope is perpendicular to the end surface of the sliding rod 303. By adopting the technical scheme, the second sliding block 305 is driven by the steel wire rope to return to the fifth sliding cavity 302.

In another technical solution, when the end of the first slider 201 away from the first spring 204 is flush with the opening of the first sliding chamber 102, the distance between the first slider 201 and the partition 202 is 1.5 cm. With this solution, this arrangement facilitates the user to press the first slider 201.

In another solution, the length of the second slider 305 along the depth direction of the fourth sliding cavity 503 is 1.4 cm. With this arrangement, the user can open the door panel by the handle body 401.

In another technical solution, the length of the handle body 401 along the depth direction of the second sliding cavity 103 is 2.8 cm. With this arrangement, the user can open the door panel by the handle body 401.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the collision-resistant durable wardrobe of the present invention will be apparent to those skilled in the art.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims

1. Anticollision formula durable type wardrobe which characterized in that includes:

a cabinet body;

2. The anti-collision durable wardrobe according to claim 1, wherein a first protrusion is fixedly disposed on a side wall of the first sliding cavity, a side wall of the first sliding block is recessed along a length direction of the first sliding cavity to form a first sliding groove, the first protrusion is slidably disposed in the first sliding groove, and a side wall of the first sliding block contacts with a side wall of the first sliding cavity to achieve sliding connection between the first sliding block and the first sliding cavity.

3. The anti-collision durable wardrobe according to claim 1, wherein a second protrusion is fixedly arranged on a side wall of a fourth sliding cavity where the second sliding block is located, the side wall of the second sliding block is recessed along the length direction to form a second sliding groove, and the second protrusion is slidably arranged in the second sliding groove to realize the sliding connection between the second sliding block and the fourth sliding cavity.

4. The anti-collision durable wardrobe according to claim 1, wherein a fixed pulley is respectively disposed in the fifth sliding cavity and the sixth sliding cavity, a steel wire rope is fixedly disposed at a free end of the sliding rod, the steel wire rope sequentially passes through the fixed pulley and the through hole and is fixedly connected with an end portion of the second slider far away from the third sliding cavity, a portion of the steel wire rope in the fifth sliding cavity is perpendicular to an end surface of the second slider, and a portion of the steel wire rope in the sixth sliding cavity is perpendicular to an end surface of the sliding rod.

5. The crash-ready, durable wardrobe of claim 1, wherein an end of the first slider distal from the first spring is flush with an opening of the first slide cavity, and wherein a distance between the first slider and the partition is 1.5 cm.

6. The crash-ready, durable wardrobe of claim 5, wherein a length of said second slider in a depth direction of said fourth slider cavity is 1.4 cm.

7. The crash-ready, durable wardrobe of claim 6, wherein a length of said handle body in a depth direction of said second slide cavity is 2.8 cm.