CN220045522U - Novel clothes hanger and system with adjustable height - Google Patents

Abstract

The utility model relates to a novel clothes hanger with adjustable height and a system thereof, wherein the novel clothes hanger comprises a base unit, a first sliding unit, a first limiting unit, a second sliding unit, a third sliding unit, a telescopic unit, a second limiting unit and a storage unit; the base unit is vertically arranged; the first sliding unit is vertically arranged on the base unit; the first limiting unit is arranged on the side part of the first sliding unit and is communicated with the first sliding unit; the second sliding unit is arranged at the back of the first sliding unit; the third sliding unit is arranged in the second sliding unit; the telescopic unit is arranged in the second sliding unit; the second limiting unit is arranged in the first limiting unit; the storage unit is detachably arranged at the front part of the second limiting unit. The clothes hanger has the advantages that the problems that the fixed height of the clothes hanger stored at the vestibule is inconvenient for storing guest clothes, the decoration cost is increased due to the storage space with multiple sizes and the like are solved by arranging the second limiting unit capable of sliding along the vertical direction.

Description

Novel clothes hanger and system with adjustable height

Technical Field

The utility model relates to the technical field of indoor decoration engineering, in particular to a novel clothes hanger with adjustable height and a system thereof.

Background

At present, most buildings are provided with vestibule spaces, and a space for accommodating clothes is usually arranged at a type of vestibule of a house, a hotel and the like. In order to fully utilize the space, an additional storage space is often arranged below the storage space.

Existing clothes hangers are generally installed at fixed heights, but the lengths of clothes are different due to seasons and the like, and some longer clothes cannot be stored under the conditions, or folding wrinkles of the clothes are caused

At present, aiming at the problems that the fixed height of a clothes rack at a vestibule in the related art causes inconvenient clothes storage of guests and the cost of decoration is increased due to a multi-size storage space, an effective solution is not proposed yet.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a novel clothes hanger with adjustable height and a novel clothes hanger system, so as to solve the problems that the fixed height of a clothes hanger stored at a vestibule in the prior art causes inconvenient storage of guest clothes, and the storage space with multiple sizes causes the increase of decoration cost.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

in a first aspect, there is provided a novel height-adjustable garment hanger comprising:

the base unit is mounted on the wallboard;

a first sliding unit disposed through front and rear portions of the base unit;

the first limiting unit is arranged on the side part of the first sliding unit and is communicated with the first sliding unit;

the second sliding unit is arranged on the back of the first sliding unit and is connected with the base unit;

the third sliding unit is arranged in the second sliding unit and is in sliding connection with the second sliding unit;

the telescopic unit is arranged in the second sliding unit, and the first end of the telescopic unit is connected with the third sliding unit;

the second limiting unit is arranged in the first limiting unit and connected with the second end of the telescopic unit, and the second limiting unit is in sliding connection with the second sliding unit under the condition that the telescopic unit is compressed;

the first end of the storage unit is detachably connected with the second limiting unit, and the second end of the storage unit protrudes out of the base unit and is used for being slidably connected with the first sliding unit under the condition that the telescopic unit is compressed.

In some of these embodiments, the base unit comprises:

the base element is vertically arranged and is provided with the first sliding unit and the first limiting unit;

and the mounting elements are arranged at the edge of the base element and are used for fixing the base unit to the wallboard.

In some of these embodiments, the first sliding unit includes:

the first sliding element penetrates through the front portion and the rear portion of the base unit, and the side portion of the first sliding element is provided with the first limiting unit and is in sliding connection with the storage unit.

In some of these embodiments, the first limiting unit includes:

the first limiting elements are distributed on the side parts of the first sliding units along the vertical direction and are communicated with the first sliding units, and at least one first limiting element is detachably connected with the second limiting unit.

In some of these embodiments, the second sliding unit includes:

the first connecting element is arranged on the side part of the first sliding unit and is connected with the base unit;

the second sliding element is arranged on the back of the first sliding unit and connected with the first connecting element, and the second sliding element is in sliding connection with the third sliding unit;

the cavity element is arranged between the second sliding element and the first sliding unit and is in sliding connection with the second limiting unit.

In some of these embodiments, the third sliding unit includes:

the third sliding element is arranged inside the second sliding unit and is in sliding connection with the second sliding unit;

and the second connecting element is arranged at the front part of the third sliding element and is detachably connected with the telescopic unit.

In some of these embodiments, the telescoping unit comprises:

a telescopic element provided inside the second sliding unit;

the third connecting element is arranged at the first end of the telescopic element and is connected with the third sliding unit;

and the fourth connecting element is arranged at the second end of the telescopic element and is connected with the second limiting unit.

In some of these embodiments, the second limiting unit includes:

the second limiting element is detachably connected with the first limiting unit and is used for being in sliding connection with the second sliding unit under the condition that the telescopic unit is compressed;

the fifth connecting element is arranged at the back of the second limiting element and is connected with the second end of the telescopic unit;

and the sixth connecting element is arranged at the front part of the second limiting element and is connected with the object placing unit.

In some of these embodiments, the storage unit includes:

the first end of the storage element is connected with the second limiting unit, and the second end of the storage element protrudes out of the base unit and is in sliding connection with the first sliding unit under the condition that the telescopic unit is compressed;

and the seventh connecting element is arranged at the first end of the object placing element and is detachably connected with the second limiting unit.

In a second aspect, there is provided a novel height adjustable garment hanger system comprising:

a wallboard;

the novel hanger of the first aspect, said novel hanger being mounted to said wall panel by said base unit.

Compared with the prior art, the utility model has the following technical effects:

according to the novel clothes hanger and the novel clothes hanger system with the adjustable height, the second limiting unit capable of sliding along the vertical direction is arranged, and the first limiting unit can be used for fixing the second limiting unit, so that the object placing units can be located at different heights according to requirements, and the problems that the clothes of a guest is inconvenient to store due to the fact that the clothes hanger is stored at the vestibule, the decoration cost is increased due to the fact that the object placing space with multiple sizes is used for storing clothes are solved.

Drawings

FIG. 1 is a schematic illustration of a novel height adjustable hanger in accordance with an embodiment of the present utility model;

FIG. 2 is a schematic view of a base unit according to an embodiment of the utility model;

fig. 3 is a schematic view of a first sliding unit according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a first spacing unit according to an embodiment of the present utility model;

fig. 5 is a schematic view of a second sliding unit according to an embodiment of the present utility model;

fig. 6 is a schematic view of a third sliding unit according to an embodiment of the present utility model;

FIG. 7 is a schematic illustration of a telescoping unit according to an embodiment of the present utility model;

FIG. 8 is a schematic view of a second spacing unit according to an embodiment of the present utility model;

FIG. 9 is a schematic view of a storage unit according to an embodiment of the present utility model;

figure 10 is a schematic view of a novel height adjustable hanger system in accordance with an embodiment of the present utility model.

Wherein the reference numerals are as follows: 100. novel clothes hangers;

110. a base unit; 111. a base member; 112. a mounting element;

120. a first sliding unit; 121. a first sliding element;

130. a first limit unit; 131. a first limiting element;

140. a second sliding unit; 141. a first connecting element; 142. a second sliding element; 143. a cavity element;

150. a third sliding unit; 151. a third sliding element; 152. a second connecting element;

160. a telescoping unit; 161. a telescoping member; 162. a third connecting element; 163. a fourth connecting element;

170. a second limit unit; 171. a second limiting element; 172. a fifth connecting element; 173. a sixth connecting element;

180. a storage unit; 181. a storage element; 182. a seventh connecting element;

200. wall panels.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Example 1

Is a novel clothes hanger of which the embodiment relates to the utility model.

In an exemplary embodiment of the present utility model, as shown in fig. 1, a novel hanger 100 with an adjustable height includes a base unit 110, a first sliding unit 120, a first limiting unit 130, a second sliding unit 140, a third sliding unit 150, a telescopic unit 160, a second limiting unit 170, and a storage unit 180. Wherein the base unit 110 is mounted to the wall panel; the first sliding unit 120 is disposed through the front and rear of the base unit 110; the first limiting unit 130 is disposed at a side portion of the first sliding unit 120 and is communicated with the first sliding unit 120; the second sliding unit 140 is disposed at the back of the first sliding unit 120 and connected to the base unit 110; the third sliding unit 150 is disposed inside the second sliding unit 140 and is slidably connected to the second sliding unit 140; the telescopic unit 160 is disposed inside the second sliding unit 140, and a first end of the telescopic unit 160 is connected to the third sliding unit 150; the second limiting unit 170 is disposed inside the first limiting unit 130 and connected to the second end of the telescopic unit 160, and the second limiting unit 170 is slidably connected to the second sliding unit 140 under the condition that the telescopic unit 160 is compressed; the first end of the storage unit 180 is detachably connected with the second limiting unit 170, and the second end of the storage unit 180 protrudes out of the base unit 110 and is slidably connected with the first sliding unit 120 when the telescopic unit 160 is compressed.

As shown in fig. 2, the base unit 110 includes a base member 111 and a mounting member 112. Wherein, the base element 111 is vertically arranged and is provided with a first sliding unit 120 and a first limiting unit 130; a plurality of mounting elements 112 are provided at the edges of the base element 111 for securing the base unit 110 to the wall panel.

In some of these embodiments, the base element 111 is plate-shaped.

In some of these embodiments, the plane of the base element 111 is rectangular.

In some of these embodiments, the thickness of the base element 111 is 20mm.

In some of these embodiments, the base member 111 includes, but is not limited to, a metal plate.

The number of mounting elements 112 is at least 2. Specifically, at least one mounting element 112 is provided on each side of the base element 111.

In some of these embodiments, the number of mounting elements 112 is 4. Specifically, 2 mounting elements 112 are provided on each side of the base element 111.

In some of these embodiments, the mounting element 112 includes mounting holes and screws. Wherein the mounting holes are provided through the base element 111; the screw is detachably connected with the mounting hole and the wallboard respectively.

In some of these embodiments, the mounting holes are threaded holes.

As shown in fig. 3, the first sliding unit 120 includes a first sliding member 121. The first sliding element 121 penetrates through the front and rear of the base unit 110, and a side portion of the first sliding element 121 is provided with a first limiting unit 130 and is slidably connected with the storage unit 180.

Specifically, the first slide member 121 is disposed through the front and rear portions of the base member 111.

In some of these embodiments, the first sliding element 121 is bar-shaped in cross-section.

In some of these embodiments, the first sliding element 121 is a through slot.

As shown in fig. 4, the first limiting unit 130 includes a plurality of first limiting elements 131. The first limiting elements 131 are disposed on the side of the first sliding unit 120 along the vertical direction, and are communicated with the first sliding unit 120, and at least one first limiting element 131 is detachably connected with the second limiting unit 170.

Specifically, the plurality of first limiting elements 131 are disposed at the side of the first sliding element 121 in a vertical direction, and are in communication with the first sliding element 121.

The first limiting element 131 is disposed through the back of the base element 111.

In some of these embodiments, the first stop element 131 is rectangular in cross-section.

The length of the first limiting element 131 matches the width of the first sliding element 121. Generally, the length of the first limiting element 131 is greater than the width of the first sliding element 121, and both ends of the first limiting element 131 are disposed beyond the edge of the first sliding element 121.

The height of the first limiting element 131 matches the height of the first sliding element 121. Generally, the height of the first limiting element 131 is smaller than the height of the first sliding element 121.

The thickness of the first limiting element 131 matches the thickness of the base element 111. Typically, the thickness of the first stop member 131 is less than the thickness of the base member 111.

In some embodiments, the first limiting element 131 is a slot.

As shown in fig. 5, the second sliding unit 140 includes a first connection member 141, a second sliding member 142, and a cavity member 143. The first connecting element 141 is disposed at a side portion of the first sliding unit 120 and is connected with the base unit 110; the second sliding element 142 is disposed at the back of the first sliding unit 120 and connected to the first connecting element 141, and the second sliding element 142 is slidably connected to the third sliding unit 150; the cavity element 143 is disposed between the second sliding element 142 and the first sliding unit 120, and is slidably connected to the second limiting unit 170.

Specifically, the first connection element 141 is disposed at a side portion of the first sliding element 121 and is connected to the base element 111; the second sliding element 142 is disposed on the back of the first sliding element 121; the cavity member 143 is disposed between the second slide member 142 and the first slide member 121.

In some of these embodiments, the first connecting element 141 is connected to the base element 111 by a method including, but not limited to, welding, bolting.

In some of these embodiments, the first connecting element 141 is rectangular in cross-section.

The height of the first connecting element 141 matches the height of the first sliding element 121. Generally, the height of the first connecting member 141 is not less than the height of the first sliding member 121, and the first connecting member 141 covers the top and bottom ends of the first sliding member 121.

The width of the first connecting element 141 matches the width of the first limiting element 131. Generally, the width of the first connecting element 141 is greater than the width of the first limiting element 131, and the first connecting element 141 is disposed to cover two ends of the first limiting element 131.

The second sliding element 142 is integrally formed with the first connecting element 141.

In some of these embodiments, the second slide element 142 is C-shaped in cross-section. Specifically, the second sliding element 142 includes a chute, two limiting plates, and an opening. Wherein, the two limiting plates are symmetrically arranged at two sides of the opening end of the chute and are respectively connected with two ends of the first connecting element 141; the opening is positioned between the two limiting plates.

In some of these embodiments, the cross-sectional width of the runner is equal to the cross-sectional width of the first connecting element 141.

The limiting plate and the chute are integrally formed.

The cross-sectional width of the limiting plate matches the cross-sectional width of the first connecting element 141. Typically, the cross-sectional width of the limiting plate is less than 1/3 of the cross-sectional width of the first connecting element 141.

The width and height of the outer contour of the second sliding element 142 are matched to the width and height of the first connecting element 141, respectively. Generally, the width and height of the second sliding element 142 are equal to the width and height of the first connecting element 141, respectively.

The shape and size of the cavity member 143 matches the shape and size of the inner contour of the first connecting member 141. Generally, the shape and size of the cavity member 143 corresponds to the shape and size of the first connecting member 141.

In some of these embodiments, the cavity element 143 is rectangular in cross-section.

As shown in fig. 6, the third sliding unit 150 includes a third sliding member 151 and a second connecting member 152. Wherein, the third sliding element 151 is disposed inside the second sliding unit 140 and is slidably connected to the second sliding unit 140; the second connection member 152 is disposed at the front of the third sliding member 151 and detachably connected to the telescopic unit 160.

Specifically, the third sliding element 151 is disposed inside the second sliding element 142 and is slidably connected to the second sliding element 142.

The shape and size of the cross section of the third sliding element 151 matches the shape and size of the inner contour of the second sliding element 142. Generally, the cross-section of the third slide element 151 is shaped and sized to conform to the shape and size of the inner profile of the second slide element 142.

In some of these embodiments, the third slide element 151 is rectangular in cross-section.

In some of these embodiments, the third slide element 151 is a slider.

In some of these embodiments, the second connecting element 152 is integrally formed with the third sliding element 151.

The second connecting element 152 is sized to match the size of the second sliding element 142. Typically, the width of the second connecting element 152 is smaller than the width of the opening.

The second connecting element 152 has a size matching the longitudinal cross-sectional size of the third sliding element 151. Generally, the second connecting element 152 has a dimension smaller than the longitudinal section dimension of the sliding element 151.

In some of these embodiments, the second connecting element 152 is provided protruding from a surface of the third sliding element 151.

In some of these embodiments, the second connecting element 152 is circular in cross-section.

As shown in fig. 7, the telescopic unit 160 includes a telescopic element 161, a third connecting element 162, and a fourth connecting element 163. Wherein the telescopic element 161 is disposed inside the second sliding unit 140; the third connecting element 162 is disposed at the first end of the telescopic element 161 and is connected to the third sliding unit 150; the fourth connecting element 163 is disposed at the second end of the telescopic element 161, and is connected to the second limiting unit 170.

Specifically, the telescopic member 161 is disposed inside the cavity member 143; the third connecting member 162 is connected with the second connecting member 152.

The natural length of the telescoping member 161 matches the thickness of the cavity member 143. Typically, the natural length of the telescoping member 161 is greater than the thickness of the cavity member 143.

In some of these embodiments, the telescoping member 161 includes, but is not limited to, a spring.

In some of these embodiments, the third connecting element 162 is integrally formed with the telescoping element 161.

In some of these embodiments, the third connecting element 162 is connected to the second connecting element 152 by a method including, but not limited to, adhesive bonding, and socket bonding.

In some of these embodiments, the third connecting element 162 is annular in cross-section.

The outer diameter of the third connecting element 162 matches the diameter of the telescopic element 161. Typically, the outer diameter of the third connecting element 162 is equal to the diameter of the telescoping element 161.

The inner diameter of the third connecting element 162 matches the outer diameter of the second connecting element 152. Generally, the inner diameter of the third connecting element 162 is equal to the outer diameter of the second connecting element 152.

In some of these embodiments, the third connecting element 162 includes, but is not limited to, a snap ring.

In some of these embodiments, the fourth connecting element 163 is integrally formed with the telescoping element 161.

In some of these embodiments, the fourth connecting element 163 is annular in cross-section.

The outer diameter of the fourth connecting element 163 matches the diameter of the telescopic element 161. Generally, the outer diameter of the fourth connecting element 163 is equal to the diameter of the telescoping element 161.

In some of these embodiments, the inner diameter of the fourth connecting element 163 is equal to the inner diameter of the third connecting element 162.

In some of these embodiments, the fourth connection element 163 includes, but is not limited to, a snap ring.

As shown in fig. 8, the second stopper unit 170 includes a second stopper element 171, a fifth connection element 172, and a sixth connection element 173. Wherein, the second limiting element 171 is detachably connected with the first limiting unit 130, and is used for being slidably connected with the second sliding unit 140 under the condition that the telescopic unit 160 is compressed; the fifth connecting element 172 is disposed at the back of the second limiting element 171 and connected to the second end of the telescopic unit 160; the sixth connecting element 173 is disposed at the front of the second limiting element 171 and is connected to the storage unit 180.

Specifically, the second limiting element 171 is detachably connected to the first limiting element 131 for sliding connection with the cavity element 143 in the case of compression of the telescopic element 161; the fifth connecting element 172 is connected to the fourth connecting element 163.

The shape and size of the second limiting element 171 are matched with those of the first limiting element 131. Generally, the shape of the second limiting element 171 corresponds to the shape and size of the first limiting element 131.

In some of these embodiments, the second spacing element 171 is rectangular in longitudinal section.

The thickness of the second stop member 171 matches the thickness of the cavity member 143. Typically, the thickness of the second stop member 171 is no greater than the thickness of the cavity member 143.

In some of these embodiments, the fifth connecting element 172 is integrally formed with the second stop element 171.

The outer diameter of the fifth connecting element 172 matches the height of the second stop element 171. Generally, the outer diameter of the fifth connecting element 172 is smaller than the height of the second spacing element 171.

The outer diameter of the fifth connecting element 172 matches the inner diameter of the fourth connecting element 163. Generally, the outer diameter of the fifth connecting element 172 is equal to the inner diameter of the fourth connecting element 163.

In some of these embodiments, the fifth connecting element 172 is connected to the fourth connecting element 163 by, but not limited to, adhesive bonding, and socket bonding.

In some of these embodiments, a fifth connecting element 172 is provided protruding from the surface of the second stop element 171.

In some of these embodiments, the fifth connecting element 172 is circular in cross-section.

In some of these embodiments, the sixth connecting element 173 is integrally formed with the second spacing element 171.

The diameter of the sixth connecting element 173 matches the width of the first sliding element 121. Generally, the diameter of the sixth connecting element 173 is smaller than the width of the first sliding element 121.

In some of these embodiments, the sixth connecting element 173 is circular in cross-section.

In some of these embodiments, the sixth connecting element 173 is a threaded post.

As shown in fig. 9, the storage unit 180 includes a storage element 181 and a seventh connection element 182. The first end of the storage element 181 is connected with the second limiting unit 170, and the second end of the storage element 181 protrudes out of the base unit 110 and is slidably connected with the first sliding unit 120 when the telescopic unit 160 is compressed; the seventh connecting element 182 is disposed at the first end of the storage element 181 and is detachably connected to the second limiting unit 170.

Specifically, the first end of the storage element 181 is connected to the second limiting element 171, and the second end of the storage element 181 protrudes from the base element 111, so as to be slidably connected to the first sliding element 121 when the telescopic element 161 is compressed; the seventh connecting member 182 is detachably connected to the second limiting member 171.

In some of these embodiments, the storage element 181 is circular in cross-section.

The size of the storage element 181 matches the size of the first sliding element 121. Generally, the width of the storage element 181 is smaller than the width of the first sliding element 121.

The size of the storage element 181 matches the size of the second limiting element 171. Generally, the height of the storage element 181 is smaller than the height of the second limiting element 171.

In some of these embodiments, the storage element 181 includes, but is not limited to, a rod, a hook, or the like.

In some of these embodiments, the seventh connecting element 182 is threadably connected to the second stop element 171.

In some of these embodiments, the seventh connecting element 182 is a screw.

The application method of the utility model is as follows:

and (one) adjusting the height:

after the second limiting element 171 is pressed into the cavity element 143, the second sliding element 142 slides up and down along the third sliding element 151, and the object placing element 181 slides up and down along the first sliding element 121;

(II) fixed height:

after the storage element 181 is adjusted to a required height, the second limiting element 171 is clamped into the first limiting element 131, and the telescopic element 161 restores the elasticity, so that the displacement of the second limiting element 171 in the horizontal direction and the displacement of the second sliding element 142 in the vertical direction are elastically limited by the telescopic element 161.

The clothes hanger has the advantages that the second limiting unit capable of sliding along the vertical direction is arranged, and the second limiting unit can be fixed through the first limiting unit, so that the object placing units can be at different heights according to requirements, and the problems that the clothes of a guest is inconvenient to store due to the fixed height of the clothes hanger at the vestibule, the decoration cost is increased due to the fact that object placing spaces with multiple sizes are used for storing clothes of the guest are solved.

Example 2

This embodiment relates to a novel hanger system of the present utility model.

As shown in fig. 10, a novel height adjustable hanger system includes a wall panel 200 and the novel hanger 100 as described in example 1. Wherein the novel hanger 100 is mounted to a wall panel through a base unit 110.

In particular, the new garment hanger 100 is mounted to the wall panel 200 by a plurality of mounting elements 112.

In some of these embodiments, wall panel 200 includes, but is not limited to, a lightweight partition.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. A novel height-adjustable hanger, comprising:

the base unit is mounted on the wallboard;

a first sliding unit disposed through front and rear portions of the base unit;

the first limiting unit is arranged on the side part of the first sliding unit and is communicated with the first sliding unit;

the second sliding unit is arranged on the back of the first sliding unit and is connected with the base unit;

the third sliding unit is arranged in the second sliding unit and is in sliding connection with the second sliding unit;

the telescopic unit is arranged in the second sliding unit, and the first end of the telescopic unit is connected with the third sliding unit;

the second limiting unit is arranged in the first limiting unit and connected with the second end of the telescopic unit, and the second limiting unit is in sliding connection with the second sliding unit under the condition that the telescopic unit is compressed;

the first end of the storage unit is detachably connected with the second limiting unit, and the second end of the storage unit protrudes out of the base unit and is used for being slidably connected with the first sliding unit under the condition that the telescopic unit is compressed.

2. The novel garment hanger according to claim 1, wherein the base unit comprises:

the base element is vertically arranged and is provided with the first sliding unit and the first limiting unit;

and the mounting elements are arranged at the edge of the base element and are used for fixing the base unit to the wallboard.

3. The new garment hanger according to claim 1, wherein the first slide unit comprises:

the first sliding element penetrates through the front portion and the rear portion of the base unit, and the side portion of the first sliding element is provided with the first limiting unit and is in sliding connection with the storage unit.

4. The novel hanger of claim 1, wherein the first limiting unit comprises:

the first limiting elements are distributed on the side parts of the first sliding units along the vertical direction and are communicated with the first sliding units, and at least one first limiting element is detachably connected with the second limiting unit.

5. The new garment hanger according to claim 1, wherein the second slide unit comprises:

the first connecting element is arranged on the side part of the first sliding unit and is connected with the base unit;

the second sliding element is arranged on the back of the first sliding unit and connected with the first connecting element, and the second sliding element is in sliding connection with the third sliding unit;

the cavity element is arranged between the second sliding element and the first sliding unit and is in sliding connection with the second limiting unit.

6. The new garment hanger according to claim 1, wherein the third slide unit comprises:

the third sliding element is arranged inside the second sliding unit and is in sliding connection with the second sliding unit;

and the second connecting element is arranged at the front part of the third sliding element and is detachably connected with the telescopic unit.

7. The new garment hanger according to claim 1, wherein the telescoping unit comprises:

a telescopic element provided inside the second sliding unit;

the third connecting element is arranged at the first end of the telescopic element and is connected with the third sliding unit;

and the fourth connecting element is arranged at the second end of the telescopic element and is connected with the second limiting unit.

8. The novel hanger of claim 1, wherein the second limiting unit comprises:

the second limiting element is detachably connected with the first limiting unit and is used for being in sliding connection with the second sliding unit under the condition that the telescopic unit is compressed;

the fifth connecting element is arranged at the back of the second limiting element and is connected with the second end of the telescopic unit;

and the sixth connecting element is arranged at the front part of the second limiting element and is connected with the object placing unit.

9. The novel hanger of claim 1, wherein the storage unit comprises:

the first end of the storage element is connected with the second limiting unit, and the second end of the storage element protrudes out of the base unit and is in sliding connection with the first sliding unit under the condition that the telescopic unit is compressed;

and the seventh connecting element is arranged at the first end of the object placing element and is detachably connected with the second limiting unit.

10. A novel height adjustable hanger system comprising:

a wallboard;

a novel hanger as claimed in any one of claims 1 to 9, mounted to the wall panel by the base unit.