CN211431632U - Combined wardrobe - Google Patents

Abstract

The utility model relates to a combined wardrobe, it is including the wardrobe body, and the wardrobe body is offered the clothing layer that is used for placing the clothing and is used for placing the shoes layer of shoes, and the inside on shoes layer is provided with the bearing board that is used for bearing shoes and right the bearing board has limiting displacement's spacing groove, spacing groove intercommunication the outside on shoes layer, bearing board and spacing groove sliding connection, the internally mounted of wardrobe body has the subassembly that pops out that is used for driving the bearing board and removes. When a user needs to take out the shoe, the supporting plate can be driven to move through the ejecting assembly, so that the supporting plate slides out along the limiting groove. In this way, the user can quickly determine the shoe that needs to be removed. The utility model discloses have the effect of conveniently taking out shoes.

Description

Combined wardrobe

Technical Field

The utility model belongs to the technical field of the technique of wardrobe and specifically relates to a modular wardrobe is related to.

Background

The wardrobe is a cabinet for storing clothes, is widely applied to families, public service units, office places and the like, and is one of necessary furniture in the life of people. In order to meet the requirements of people without use, the wardrobe on the market is made of various materials and types, and has the advantages of ornamental property, operability, convenience and function.

Some wardrobes on the market gradually tend to be multifunctional, and as the Chinese utility model of the prior art with the authorization notice number CN204427180U discloses a combined wardrobe, clothes are placed above the wardrobe, and a containing cavity is arranged below the wardrobe to place shoes, so that the wardrobe has two using functions.

The above patents make the storage of clothes and shoes more convenient, but have certain defects. In such a locker, shoes are stored at the lower inner side of the locker, and when a user wants to take out the shoes, the user needs to open the locker door and then stretch the hands into the locker to take out the shoes; in addition, because the shoes are positioned in the shoe cabinet, the shoe cabinet can shield the sight of the user, the appearance of the shoes is influenced and the user is inconvenient to take out the shoes.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a combined wardrobe which has the characteristic of taking out shoes conveniently.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a combined wardrobe, including the wardrobe body, the wardrobe body is offered the clothing layer that is used for placing the clothing and is used for placing the shoes layer of shoes, the inside on shoes layer is provided with the bearing board that is used for bearing shoes and right the bearing board has limiting displacement's spacing groove, the spacing groove intercommunication the outside on shoes layer, the bearing board with spacing groove sliding connection, the internally mounted of wardrobe body has and is used for popping out the subassembly that pops out of bearing board.

Through adopting above-mentioned technical scheme, the user can place the clothing in the inside on clothing layer, places shoes in the inside on shoes layer. When a user needs to take out the shoe, the supporting plate can be driven to move through the ejecting assembly, so that the supporting plate slides out along the limiting groove. Through this kind of mode, the user can judge the shoes that need take out fast to directly take out shoes from the layer board, it is simple swift, promoted the convenience of combination formula wardrobe.

Preferably, the mounting groove has been seted up to the inside on shoes layer, be provided with joint spare in the mounting groove and have and be used for promoting the joint spring of joint spare, joint spare with mounting groove sliding connection, the bearing board is offered and is used for the joint groove of joint spare, the joint groove with the mounting groove intercommunication.

Through adopting above-mentioned technical scheme, joint spare and joint groove buckle cooperation make bearing board and shoes layer relatively fixed, when the user removes joint spare, when making joint spare break away from the joint groove, can take out bearing board.

As preferred, the baffle is installed at the top on shoes layer, spread groove and intercommunication have been seted up to the inside of baffle the drive groove in the baffle outside, the drive groove with the spread groove intercommunication, pop out the subassembly including the drive block and connect the rope, the drive block with drive groove sliding connection, the rope of connecting with spread groove sliding connection, the both ends of connecting the rope respectively fixed connection in the drive block with joint spare, the removal of drive block drives connect the rope and the removal of joint spare.

Through adopting above-mentioned technical scheme, because the drive block is connected with joint spare through connecting the rope, when the user need take out the bearing board, can press the drive block and make the drive block remove, the drive block drives and connects the rope removal, drives joint spare simultaneously and rises along the mounting groove, makes joint spare break away from the joint groove.

Preferably, the shoe layer is provided with a spring groove, an ejecting spring for pushing the bearing plate is arranged in the spring groove, and two ends of the ejecting spring are respectively pressed by the bearing plate and the spring groove.

When the bearing plate is located the inside of shoes layer, bearing plate and the compression of shoes layer pop out the spring, because joint spare and joint groove buckle cooperation, the bearing plate receives the effect of joint spare thrust and the effect of spring force of popping out simultaneously, makes bearing plate and shoes layer relatively fixed. When a user drives the clamping piece to be separated from clamping through the driving block, the bearing plate is ejected out of the outer part of the shoe layer along the limiting groove under the action of the elastic force of the ejecting spring. When the bearing plate is located the outside of shoes layer, joint spare butt in the upper surface of bearing plate makes the compression of joint spring, and when the user promoted the bearing plate and made the joint groove move to the position corresponding with joint spare, the joint spring promoted joint spare and removed along the mounting groove, and joint spare drives the drive block through connecting the rope and removes, makes joint spare and joint groove joint, makes the bearing plate fixed again.

Preferably, buffer grooves are formed in two sides of the bearing plate, the buffer grooves penetrate through one side, away from the pop-up spring, of the bearing plate, a baffle used for shielding the buffer grooves is installed on the outer side of the limiting groove, and the baffle is connected with the buffer grooves in a sliding mode.

By adopting the technical scheme, when the bearing plate moves along the limiting groove, the baffle plate and the buffer groove slide relatively, and when the baffle plate abuts against the groove wall at one end of the buffer groove, the bearing plate can be prevented from continuously moving, the bearing plate can be prevented from being completely separated from a shoe layer to cause that a user needs to reinstall the bearing plate, and the stability of the bearing plate is improved.

Preferably, an elastic buffer tube is installed inside the buffer groove, a corrugated portion is arranged on the peripheral side of the buffer tube, two ends of the buffer tube are respectively connected with the buffer groove and the baffle in a sealing mode, and an exhaust hole communicated with the interior of the buffer tube is formed in the outer side of the buffer tube.

Through adopting above-mentioned technical scheme, at baffle and dashpot relative movement's in-process, the both ends of buffer tube are respectively by the inboard of baffle and the cell wall pressfitting of dashpot, make the buffer tube shrink to make the gaseous emission buffer tube in the buffer tank. At this time, a part of kinetic energy of the bearing plate is converted into kinetic energy of the gas, so that the moving speed of the bearing plate is reduced. The buffering mode can prevent the bearing plate from being too fast when being ejected out and from being injured by human bodies due to impact on the human bodies, thereby improving the safety of the bearing plate.

Preferably, a driving spring for pushing the driving block is installed inside the driving groove.

Through adopting above-mentioned technical scheme, when the user bulldozed the drive block, drive block and slot extrusion drive spring. When the driving block is stopped being applied with force, the driving spring can push the driving block, so that the driving block returns to the original state more quickly.

Preferably, a stopper for preventing the driving block from completely separating from the driving groove is installed outside the driving groove, and a clamping groove for accommodating the stopper is formed outside the driving block.

Through adopting above-mentioned technical scheme, when the drive block removed the maximum distance, draw-in groove and dog butt prevented that the drive block from breaking away from the drive groove.

Preferably, the surface of the bearing plate is provided with a ventilation groove, and the ventilation groove penetrates through the bearing plate.

Through adopting above-mentioned technical scheme, the ventilation slot can accelerate the air permeability of shoe layer and outside on the one hand. The other side can lighten the whole mass of the wardrobe body and is convenient for a user to transport.

To sum up, the utility model discloses a beneficial technological effect does:

1. the utility model is convenient for users to take out shoes, thus improving the convenience of the combined wardrobe;

2. the utility model is provided with the lamp holder, which is convenient for the user to select clothes or shoes;

3. the utility model discloses the person of facilitating the use transports.

Drawings

Fig. 1 is a schematic structural view of a combination wardrobe.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is an enlarged schematic view at B in fig. 2.

Figure 4 is a schematic longitudinal cross-sectional view of a layer of footwear.

Figure 5 is an exploded view of the footwear layer.

Fig. 6 is an enlarged schematic view at C in fig. 5.

In the figure, 1, a wardrobe body; 2. a containing groove; 3. a partition plate; 31. an installation part; 312. a drive slot; 3121. A drive spring; 313. connecting grooves; 3131. a first stage; 3132. a second stage; 32. a fixed part; 321. a stopper; 33. a pop-up assembly; 331. a drive block; 3311. a card slot; 332. connecting ropes; 333. a clamping piece; 3331. clamping a spring; 4. a coat layer; 5. a shoe layer; 51. a support plate; 511. a clamping groove; 512. ejecting a spring; 513. a spring slot; 514. a buffer tank; 515. a buffer tube; 5151. a corrugated portion; 5152. an exhaust hole; 516. a ventilation slot; 52. mounting grooves; 53. a limiting groove; 531. and a baffle plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a combined wardrobe, including wardrobe body 1, storage tank 2 has been opened to the front side of wardrobe body 1, and storage tank 2 link up the bottom of wardrobe body 1.

The inside of the containing groove 2 is provided with a clapboard 3, two ends of the clapboard 3 are respectively bolted with the groove wall of the containing groove 2, and the containing groove 2 is divided into a clothing layer 4 positioned above and a shoe layer 5 positioned below. The lower surface of the clothes layer 4 is bolted with the upper surface of the clapboard 3, and the upper surface of the shoe layer 5 is bolted with the lower surface of the clapboard 3.

The lower part of the shoe layer 5 is provided with a supporting plate 51, so that a user can place clothes into the clothes layer 4 and shoes on the supporting plate 51, and the user can conveniently store the clothes and the shoes.

The partition board 3 comprises a fixing part 32 positioned on the front side and a mounting part 31 positioned on the rear side, wherein the mounting part 31 is matched with the fixing part 32, and the mounting part 31 is connected with the fixing part 32 through bolts. An ejecting assembly 33 is provided between the mounting portion 31 and the footwear layer 5.

Referring to fig. 2 and 3, the mounting portion 31 has a driving groove 312 and two connecting grooves 313 formed on an outer side thereof. The driving groove 312 is located at the middle of the mounting portion 31, and the driving groove 312 penetrates the fixing portion 32.

Two connecting grooves 313 are respectively located on both sides of the driving groove 312. The connection groove 313 includes a first section 3131 and a second section 3132, wherein the first section 3131 is disposed in a horizontal direction and is in communication with the driving groove 312; the second section 3132 is arranged in a vertical direction.

The ejecting assembly 33 includes a driving block 331 and two connecting cords 332. Wherein the drive block 331 is located in the drive slot 312; the two connecting ropes are respectively located in the two connecting grooves 313, and one ends of the two connecting ropes 332 are respectively adhered to two sides of the driving block 331.

The thickness of the driving block 331 is matched with the driving groove 312, so that the upper surface and the lower surface of the driving block 331 are respectively attached to the groove wall of the driving groove 312. The width of the driving block 331 is smaller than that of the driving slot 312, so that the connecting rope 332 can just enter the driving slot 312 when the driving block 331 moves.

Two driving springs 3121 are installed between the groove bottom of the driving groove 312 and the driving block 331. One end of the driving spring 3121 sticks to the bottom of the driving groove 312, and the other end abuts against the rear side of the driving block 331.

Two blocks 321 are installed in the middle of the front side of the fixing portion 32, and the two blocks 321 are respectively attached to two sides of the notch of the driving groove 312. Two clamping grooves 3311 are formed in one side of the driving block 331 away from the driving spring 3121, and the clamping grooves 3311 are matched with the stoppers 321.

The driving block 331 is under the action of the elastic force of the driving spring 3121 and the pushing force of the stopper 321, respectively, so that the driving block 331 is relatively fixed. When the user presses the driving block 331, the driving block 331 moves along the driving slot 312 and drives the connecting rope 332 to move; when the user stops applying the force to the driving block 331, the driving block 331 moves in a direction from being far from the stopper 321 to being close to the stopper 321 by the elastic force of the driving spring 3121, so that the stopper 321 is again abutted to the engaging groove 3311.

Referring to fig. 4 and 5, two mounting grooves 52 are provided at both sides of the shoe layer 5. A mounting groove 52 is opened in a vertically downward direction from the upper surface of the upper layer 5, and the bottom of the second section 3132 is communicated with the top of the mounting groove 52.

The inside of mounting groove 2 is provided with joint spare 333 and joint spring 3331, and joint spare 333 matches with mounting groove 52. One end of the clamping spring 3331 is adhered to the upper surface of the clamping member 333, and the other end abuts against the lower surface of the partition plate 3.

One end of the connecting rope 332 far from the driving block 331 is adhered to the center point of the upper surface of the clamping member 333. The catching member 333 is relatively fixed to the mounting groove 52 by the tensile force of the connecting rope 332 and the elastic force of the catching spring 3331.

When a user applies force to the driving block 311 and the connecting rope 332 moves upwards under the pulling force of the driving block 331, the clamping piece 333 is driven to move upwards along the mounting groove 52, so that the clamping piece 333 compresses the clamping spring 3331; similarly, when the user stops applying force to the driving block 331, the locking spring 3331 pushes the locking member 333 to move downward, so that the locking member 333 returns to the original state.

Two limiting grooves 53 are arranged on two sides of the shoe layer 5 in the horizontal direction. The limiting groove 53 is opened on the inner side of the shoe layer 5 and penetrates through the front side of the shoe layer 5. The limiting grooves 53 are matched with the supporting plate 51, so that two sides of the supporting plate 51 are accommodated in the two limiting grooves 53, and when the supporting plate 51 moves relative to the shoe layer 5, the supporting plate 51 slides along the limiting grooves 53.

The two limiting grooves 53 are respectively located at the bottom of the two mounting grooves 52, and the width of the limiting grooves 53 is larger than that of the mounting grooves 52.

The upper surface of the supporting plate 51 is provided with two clamping grooves 511, and the two clamping grooves 511 are respectively matched with the two clamping pieces 333. The catching groove 511 communicates with the mounting groove 52 located on the same vertical straight line. So that the snaps 333 can enter the corresponding snap grooves 551.

When the supporting plate 51 is completely accommodated in the shoe layer 5, the clamping springs 3331 of the two clamping pieces 333 respectively enter the corresponding clamping grooves 511 under the action of elastic force, so that the supporting plate 51 is fixedly connected to the shoe layer 5 through the clamping pieces 333 and the clamping grooves 511 in a clamping fit manner.

Referring to fig. 5 and 6, two buffer grooves 514 are provided in a horizontal direction on both sides of the support plate 51. The buffer groove 514 is opened on the front side of the support plate 51 and penetrates both sides of the support plate 51. A baffle 531 is installed at the front side of each limiting groove 53, and the baffle 531 is matched with the buffer groove 514.

Two rubber buffer tubes 515 are disposed inside the buffer grooves 514. One end of the buffer tube 515 is adhered to the inner side of the baffle 531, and the other end is adhered to the wall of the buffer groove 514 at the side far from the baffle 531, so that the two ends of the buffer tube 515 are respectively sealed.

The outside of the buffer tube 515 is opened with a vent hole 5152, and the vent hole 5152 is communicated with the inside of the buffer tube 515. The buffer tube 515 is provided with a corrugated portion 5151 on the peripheral side thereof so that the buffer tube 515 can be folded and expanded.

Seven spring grooves 513 are sequentially formed in the side, close to the rear side of the supporting plate 51, of the shoe layer 5 in a horizontal direction, each spring groove 513 is internally provided with one pop-up spring 512, and the depth of each spring groove 513 is smaller than the length of each pop-up spring 512. Both ends of the pop-up spring 512 are respectively stuck to the rear side of the riding plate 51 and the groove wall of the spring groove 512.

Both ends of the pop-up spring 512 are respectively pressed by the supporting plate 51 and the spring groove 513, and the supporting plate 51 is relatively fixed under the action of the elastic force of the pop-up spring 512 and the pushing force of the clamping piece 333 (refer to fig. 4) on the supporting plate 51; when the two engaging members 333 (see fig. 4) are disengaged from the two engaging grooves 511, the elastic force of the spring 512 is converted into kinetic energy to push the supporting plate 51 to move.

When the support plate 51 moves, the baffle 531 moves in the buffer groove 514, the baffle 531 and the buffer groove 514 extrude the buffer tube 515, and air in the buffer tube 515 is discharged, so that a part of kinetic energy of the support plate 51 is converted into kinetic energy of air, and the moving speed of the support plate 51 is reduced; when buffer tube 515 is compressed to a minimum length, support plate 51 is moved to a maximum distance at that time.

The distance from the clamping groove 511 to the rear side of the bearing plate 51 is greater than the length of the buffer groove 514, so that the clamping groove 511 is always positioned in the limiting groove 53 when the bearing plate 51 moves.

A plurality of groups of ventilation grooves 516 are uniformly arranged on the upper surface of the supporting plate 51 at intervals along the length direction, and the ventilation grooves 516 penetrate through the supporting plate 51.

The implementation principle of the embodiment is as follows: by adopting the technical scheme, a user can place clothes in the clothes layer 4 and shoes in the shoe layer 5. When a user needs to take out the shoe, the driving block 331 can be pushed, and the driving block 331 drives the clamping piece 333 to move through the connecting rope 332, so that the clamping piece 333 is separated from the clamping groove 511; the supporting plate 51 is ejected out of the shoe layer 5 under the action of the elastic force of the ejecting spring 512, and in the moving process of the supporting plate 51, the length of the buffer tube 515 is gradually compressed, so that the moving speed of the supporting plate 51 is reduced; when buffer tube 515 is compressed to a minimum length, support plate 51 stops moving.

In this way, the user can directly make the supporting board 51 drive the shoe to pop out the shoe layer 5 by applying force to the driving block 331, which is convenient for the user to take out the shoe.

When the user needs to reinstall the support plate 51, the support plate 51 may be directly pushed with a force in a direction away from the shoe layer 5 to approach the shoe layer 5, and during the movement of the support plate 51, the gas outside the buffer tube 515 may enter the buffer tube 515 through the vent hole 5152; when the catching groove 511 moves to a position corresponding to the catching member 333, the catching member 333 enters the catching groove 511 by the elastic force of the catching spring 3331, so that the support plate 51 is fixed again. In the moving process of the clamping piece 333, the clamping piece 333 drives the driving block 331 to move by matching the connecting rope 332 with the driving spring 3121, so that the driving block 331 is abutted against the stop block 321 again.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a combined wardrobe, including wardrobe body (1), its characterized in that: wardrobe body (1) is offered and is used for placing clothing layer (4) of clothing and is used for placing shoes layer (5) of shoes, the inside of shoes layer (5) is provided with bearing board (51) that are used for bearing shoes and right bearing board (51) have limiting displacement's spacing groove (53), spacing groove (53) intercommunication the outside of shoes layer (5), bearing board (51) with spacing groove (53) sliding connection, the internally mounted of wardrobe body (1) has and is used for popping out pop-up subassembly (33) of bearing board (51).

2. The combination wardrobe of claim 1, wherein: mounting groove (52) have been seted up to the inside of shoes layer (5), be provided with joint spare (333) in mounting groove (52) and be used for promoting joint spring (3331) of joint spare (333), joint spare (333) with mounting groove (52) sliding connection, bearing board (51) are seted up and are used for the joint groove (511) of joint spare (333), joint groove (511) with mounting groove (52) intercommunication.

3. The combination wardrobe of claim 2, wherein: baffle (3) are installed at the top of shoes layer (5), connecting groove (313) and intercommunication have been seted up to the inside of baffle (3) drive groove (312) in the baffle (3) outside, drive groove (312) with connecting groove (313) intercommunication, pop out subassembly (33) including drive block (331) and connection rope (332), drive block (331) with drive groove (312) sliding connection, connected rope (332) with connecting groove (313) sliding connection, the both ends of connecting rope (332) fixed connection respectively in drive block (331) with joint spare (333), the removal drive of drive block (331) connect rope (332) and the removal of joint spare (333).

4. The combination wardrobe of claim 3, wherein: spring groove (513) has been seted up in shoes layer (5), the inside of spring groove (513) is provided with and is used for promoting pop-up spring (512) of bearing board (51), pop-up spring (512) both ends by respectively bearing board (51) with spring groove (513) pressfitting.

5. The combination wardrobe of claim 4, wherein: buffer slot (514) have been seted up to the both sides of bearing board (51), buffer slot (514) run through bearing board (51) are kept away from one side of popping out spring (512), baffle (531) that are used for sheltering from buffer slot (514) are installed in the outside of spacing groove (53), baffle (531) with buffer slot (514) sliding connection.

6. The combination wardrobe of claim 5, wherein: the utility model discloses a buffer tube (515) and baffle (531), including buffer groove (514), the internal mounting of buffer groove (514) has elasticity buffer tube (515), the week side of buffer tube (515) is provided with corrugated portion (5151), the both ends of buffer tube (515) sealing connection respectively in buffer groove (514) with baffle (531), the intercommunication has been seted up in the outside of buffer tube (515) the inside exhaust hole (5152) of buffer tube (515).

7. The combination wardrobe of claim 3, wherein: and a driving spring (3121) for pushing the driving block (331) is installed inside the driving groove (312).

8. The combination wardrobe of claim 7, wherein: a stop block (321) for preventing the driving block (331) from being completely separated from the driving groove (312) is arranged on the outer side of the driving groove (312), and a clamping groove (3311) for accommodating the stop block (321) is formed in the outer side of the driving block (331).

9. The combination wardrobe of claim 1, wherein: the surface of the bearing plate (51) is provided with a ventilation groove (516), and the ventilation groove (516) penetrates through the bearing plate (51).

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