Portable Beach Sunshade Tent

Abstract

The present invention discloses a portable beach sunshade tent, and belongs to the technical field of tents. The technical solution of the present invention involves a portable beach sunshade tent, which comprises a sunshade canopy and a vertical support rod. One end of the vertical support rod can be plugged and fixed on the ground, and the other end of the vertical support rod is detachably and rotationally connected to a transverse support rod. One side of the sunshade canopy is detachably connected to the transverse support rod. With the above solution, the portable beach sunshade tent of the present invention can be more conveniently installed, fixed and carried with the provision of achieving sunshade purposes.

Description

FIELD

The present invention relates to the technical field of tents, particularly a portable beach sunshade tent.

BACKGROUND

Beach sunshade tent is an item used on the beach for entertainment and rest of relatives, families and friends. The beach sunshade tent is mainly provided for sunshade and preventing skin from being sunburned.

The beach sunshade tents in the prior art generally include a sunshade canopy and support rods positioned on four sides of the sunshade canopy. The support rods are plugged into the ground, and sunshade effect is provided by the sunshade canopy. However, such beach tents are relatively complicated in structure. When installing and carrying such tents, four support rods need to be installed or carried, which is relatively inconvenient.

SUMMARY

The purpose of the present invention is to provide a portable beach sunshade tent that can be more conveniently installed, fixed and carried with the provision of achieving sunshade purposes.

In order to achieve the above purpose, the present invention provides the following technical solutions: a portable beach sunshade tent, which comprises a sunshade canopy and a vertical support rod. One end of the vertical support rod can be plugged and fixed on the ground, and the other end of the vertical support rod is detachably and rotationally connected to a transverse support rod. One side of the sunshade canopy is detachably connected to the transverse support rod.

Preferably, the vertical support rods include a plurality of support rods, the plurality of support rods are sequentially connected, and the total length of the vertical support rods is adjustable.

Preferably, the plurality of support rods are detachably connected. The support rod comprises a bottom support rod connected to the ground and a top support rod detachably and rotationally connected to the transverse support rod. A plurality of middle support rods are sequentially connected end-to-end between the bottom support rod and the top support rod. The bottom support rod and the middle support rod therebetween, adjacent middle support rods therebetween, as well as the middle support rod and the top support rod therebetween are detachably connected by a snap-in structure.

Preferably, the bottom support rod and each of the middle support rods are formed with a first inserted joint tube at the end close to the sunshade canopy. Each of the middle support rod and the top support rod is formed with a first inserted joint aperture at the end away from the sunshade canopy, and the outer diameter of the first inserted joint tube is smaller than the diameter of the first inserted joint aperture. A first limiting aperture is provided on the side wall of the first inserted joint tube, and a second limiting aperture is provided on the middle support rod and the top support rod. The second limiting aperture is located in the segment where the first inserted joint aperture is located, and is connected with the first inserted joint aperture. The snap-in structure comprises a V-shaped elastic plate, which is located in the first inserted joint tube, and both ends of the elastic plate elastically abut against the inner wall of the first inserted joint tube. A dowel pin is fixed on the side of the elastic plate away from the center of the first inserted joint tube, and the dowel pin passes through the first limiting aperture. When the first inserted joint tube is inserted into the first inserted joint aperture, the dowel pin can pass through the second limiting aperture.

Preferably, the support rod is telescopically connected. The support rod comprises a bottom support sleeve that is plugged into the ground, a top support sleeve that is detachably and rotationally connected to the transverse support rod, and a middle support sleeve located between the bottom support sleeve and the top support sleeve. The middle support sleeve and the top support sleeve are both provided with an abutment structure at the end away from the transverse support rod. The bottom support sleeve and the middle support sleeve are fixed with a limiting collar at the end close to the transverse support rod, and one end of the limiting collar is fixed on the bottom support sleeve or the middle support sleeve, the other end extends outward to limit the abutment structure.

Preferably, the abutment structure comprises a mounting base fixed on the middle support sleeve or the top support sleeve. The mounting seat comprises a base fixedly connected to the middle support sleeve or the top support sleeve, and an eccentric shaft is fixedly connected to the base. The other end of the eccentric shaft is connected to a limiting plate. The limiting plate and the base are circular and can be slidably plugged into the bottom support sleeve or the middle support sleeve. The position of the eccentric shaft deviates from the center of the base and the limiting plate. A locking ring is provided on the eccentric shaft. An opening is formed on one side of the locking ring, which is an elastic ring. An eccentric aperture is formed in the middle of the locking ring. The eccentric shaft passes through the eccentric aperture. The outer diameter of the locking ring is larger than the inner diameter of the bottom support sleeve or the middle support sleeve. When inserted into the bottom support sleeve or the middle support sleeve, the locking ring is in elastic contact with the bottom support sleeve or the middle support sleeve.

Preferably, the end of the vertical support rod that is plugged and fixed on the ground is formed with a chamfered portion. A plurality of latch apertures are provided with interval along the vertical direction on the rod segment of the vertical support rod close to the chamfered portion. A long latch rod is detachably inserted into the latch aperture, and the long latch rod passes through the latch aperture.

Preferably, a thimble is fixed on the end of the vertical support rod close to the transverse support rod. A penetrative mounting aperture is provided in the middle of the transverse support rod. The mounting aperture is perpendicular to the lengthwise direction of the transverse support rod. The thimble passes through the mounting aperture and is rotatably connected to the mounting aperture. A rubber sleeve is provided on the upper side cover of the thimble.

Preferably, the transverse support rod comprises a plurality of transverse rods, the plurality of transverse rods are sequentially connected, and the total length of the transverse support rod is adjustable.

Preferably, the transverse rods comprise a middle transverse tube connected to the vertical support rod and a terminal transverse tube located at both ends. A plurality of communicating transverse tubes are respectively provided between both ends of the middle transverse tube and the terminal transverse tube. A reinforcing tube segment is formed on the outside and in the middle of the middle transverse tube, and the mounting aperture is provided on the reinforcing tube segment. A cover is provided on the end of the two terminal transverse tubes away from the middle transverse tube, respectively, and an elastic band is fixedly connected between the two covers. The elastic band passes through the terminal transverse tube, the communicating transverse tube and the middle transverse tube, and is in an elongated state. A second inserted joint tube is fixed at both ends of the middle transverse tube, the end of the communicating transverse tube away from the middle transverse tube, respectively, and the second inserted joint tube can be inserted into the communicating transverse tube and the terminal transverse tube.

Preferably, the transverse rod comprises a connecting column connected to the vertical support rod, and a mounting sleeve is fixedly or detachably connected to both ends of the connecting column. A telescopic tube assembly is slidably connected within the mounting sleeve. The mounting aperture is provided in the middle of the connecting column. An operating column is provided at the end of the telescopic tube assembly away from the connecting column, and a rubber column is fixed at the end of the operating column close to the connecting column. The diameter of the rubber column is larger than the inner diameter of the mounting sleeve. When the telescopic tube assembly is shortened, the rubber column elastically abuts inside the end of the mounting sleeve.

Preferably, a rope is connected to the end of the vertical support rod close to the transverse support rod, and the other end of the rope is connected to a ground plug. A plurality of the second inserted joint apertures are provided on the ground plug with intervals along the vertical direction.

Preferably, one side of the sunshade canopy is sewn with a strip-shaped edging, and a connecting aperture is formed within the edging. A mounting opening is provided in the middle of the edging. The vertical support rod passes through the mounting opening and is connected to the transverse support rod.

Compared with the prior art, the beneficial effects brought by the present invention are as follows.

The present invention provides a portable beach sunshade tent, which is supported by a vertical support rod. The top of the vertical support rod is rotated and connected to a transverse support rod, and one side of the sunshade canopy is connected through the transverse support rod. With the sea breeze, the sunshade canopy is blown to an almost transverse level to achieve the purpose of sunshade. This sunshade tent achieves the purpose of sunshade by providing a vertical support rod and a transverse support rod, which greatly improves the convenience of installation. Besides, the total weight of the sunshade tent is relatively lower, making it more convenient to be carried. Secondly, in this application, by providing the vertical support rod and the transverse support rod with an adjustable-length structure, the rods can be shortened and collected when carrying, which greatly reduces the length of the vertical support rod and the transverse support rod, and thus being convenient for carry. In addition, during installation, the tent can be installed and fixed quickly.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of the overall structure of the portable beach sunshade tent of the present invention;

FIG. 2 is a schematic diagram highlighting the connection between the vertical support rod and the transverse support rod of the portable beach sunshade tent according to the present invention;

FIG. 3 is a schematic diagram of a vertical support rod in Example 1 of the present invention;

FIG. 4 is a schematic diagram highlighting the connection between the bottom support rod and the middle support rod of the portable beach sunshade tent according to the present invention;

FIG. 5 is a cross-sectional view highlighting the snap-in structure of the portable beach sunshade tent according to the present invention;

FIG. 6 is a partial schematic diagram highlighting the rotational connection of the vertical support rod and the transverse support rod of the portable beach sunshade tent according to the present invention;

FIG. 7 is a schematic diagram highlighting the transverse support rod of the portable beach sunshade tent according to the present invention;

FIG. 8 is a schematic diagram highlighting ground plug of the portable beach sunshade tent according to the present invention;

FIG. 9 is an overall schematic diagram of the vertical support rod in Example 2 of the present invention;

FIG. 10 is a cross-sectional view highlighting the abutment structure in Example 2 of the present invention;

FIG. 11 is a schematic diagram highlighting the locking ring after rotation in Example 2 of the present invention;

FIG. 12 is a cross-sectional view highlighting the locking ring in Example 2 of the present invention;

FIG. 13 is an overall schematic diagram highlighting the transverse support rod in Example 3 of the present invention;

FIG. 14 is a schematic diagram highlighting the telescopic tube assembly in Example 3 of the present invention;

FIG. 15 is a schematic diagram highlighting a detachable connection method between the connecting column and the mounting sleeve in Example 3 of the present invention.

In the picture: 100 Sunshade canopy; 110 Edging; 200 Vertical support rod; 210 Bottom support rod; 211 First inserted joint tube; 211a first limit aperture; 212 Chamfered portion; 213 Latch aperture; 214 long latch rod; 220 middle support rod; 221 first inserted joint aperture; 222 second limit aperture; 230 top support rod; 240 snap-in structure; 241 elastic plate; 242 Dowel pin; 250 thimble; 251 rubber sleeve; 260 bottom support sleeve; 261 limit collar; 270 top support sleeve; 280 middle support sleeve; 290 abutment structure; 291 mounting seat; 2911 Base; 2912 Eccentric shaft; 2913 Limiting plate; 292 Locking ring; 2921 Opening; 2922 Eccentric aperture; 300 Transverse support rod; 310 Mounting aperture; 320 Middle transverse tube; 321 Reinforced tube segment; 322 second inserted joint tube; 330 terminal transverse tube; 331 cover; 340 elastic band; 350 connecting column; 360 mounting sleeve; 361 elastic connecting rope; 370 telescopic tube assembly; 371 First support tube; 372 Second support tube; 373 Third support tube; 380 Operation column; 381 Rubber column; 390 Communicating transverse tube; 400 Rope; 410 Ground plug.

DETAILED DESCRIPTION

The technical solutions in the examples of the present invention will be clearly and completely described below with reference to the accompanying drawings for the examples of the present invention. Obviously, the described examples are merely part of the examples of the present invention, instead of all examples.

Example 1

The present example provides a portable beach sunshade tent. Referring to FIGS. 1 to 8, the portable beach sunshade tent comprises a sunshade canopy 100 and a vertical support rod 200. One end of the vertical support rod 200 can be plugged and fixed on the ground, and the other end of the vertical support rod 200 is detachably and rotationally connected to a transverse support rod 300. One side of the sunshade canopy 100 is detachably connected to the transverse support rod 300. During use, the vertical support rod 200 is plugged and fixed on the beach. At this time, the transverse support rod 300 is in a transverse position. Under the action of the sea breeze, the sunshade canopy 100 is blown up. After the blown up, the transverse support rod 300 will rotate with the wind direction, allowing the sunshade canopy 100 to be unfolded for sunshade. It should be noted that under sunny weather, the seaside wind will blow in a same direction for a period of time, and thus the sunshade canopy 100 is located at the same position for a period of time.

Wherein, the vertical support rod 200 comprises a plurality of support rods, and the plurality of support rods are sequentially connected. The total length of the vertical support rod 200 is adjustable. Furthermore, the height of the vertical support rod 200 can be adjusted as needed, and at the same time, it is convenient to move and transport the vertical support rod 200.

In one embodiment, the plurality of support rods are detachably connected.

Specifically, the support rod comprises a bottom support rod 210 connected to the ground and a top support rod 230 detachably and rotationally connected to the transverse support rod 300. A plurality of middle support rods 220 are sequentially connected end-to-end between the bottom support rod 210 and the top support rods 230. By a detachable connection method, during use, the bottom support rod 210, the middle support rod 220 and the top support rod 230 are sequentially connected and installed. When not in use, they can be disassembled into a plurality of support rods so as to reduce the volume, and provide convenience to carry.

Wherein, the bottom support rod 210 and the middle support rod 220 therebetween, adjacent middle support rods 220 therebetween, as well as the middle support rod 220 and the top support rod 230 therebetween are detachably connected by a snap-in structure 240.

The bottom support rod 210 and each of the middle support rods 220 are formed with a first inserted joint tube 211 at the end close to the sunshade canopy 100. Each of the middle support rod 220 and the top support rod 230 is formed with a first inserted joint aperture 221 at the end away from the sunshade canopy 100, and the outer diameter of the first inserted joint tube 211 is smaller than the diameter of the first inserted joint aperture 221. During insertion joint, the first inserted joint tube 211 can be inserted within the first inserted joint aperture 221 of the adjacent support end.

A first limiting aperture 211a is provided on the side wall of the first inserted joint tube 211. A second limiting aperture 222 is provided on the middle support rod 220 and the top support rod 230. The second limiting aperture 222 is located in the segment where the first inserted joint aperture 221 is located, and is connected with the first inserted joint aperture 221.

The snap-in structure 240 comprises a V-shaped elastic plate 124, which is located in the first inserted joint tube 211. Both ends of the elastic plate 241 elastically abut against the inner wall of the first inserted joint tube 211. A dowel pin 242 is fixed on the side of the elastic plate 241 away from the center of the first inserted joint tube 211, and the dowel pin 242 passes through the first limiting aperture 211a. When the first inserted joint tube 211 is inserted into the first inserted joint aperture 221, the dowel pin 242 can pass through the second limiting aperture 222.

It should be noted that, when the dowel pin 242 is pressed inside the first inserted joint tube 211, due to the thickness of the tube wall, and under the action of the elastic plate 241, the snap-in structure 240 will not detach.

When assemble is required, the dowel pin 242 is pressed inside the first inserted joint tube 211. The first inserted joint tube 211 is inserted within the first inserted joint aperture 221, allowing the position of the dowel pin 242 to face the second limiting aperture 222. Under the action of the elastic plate 241, the dowel pin 242 passes through the second limiting aperture 222, and thus support the bottom support rod 210, the middle support rod 220 and the top support rod 230 by the dowel pin 242.

The vertical support rod 200 is plugged and fixed on the ground by one end, that is, the bottom support rod 210 is formed with a chamfered portion 212 at the end close to the ground. A plurality of latch apertures 213 are provided with interval along the vertical direction on the rod segment of the vertical support rod 200 close to the chamfered portion 212. A long latch rod 214 is detachably inserted into the latch aperture 213. The vertical support rod 200 can be conveniently plugged into the beach by the chamfered portion 212 and long latch rod 214 provided.

The specific operations are as follows. Once the vertical support rod 200 is assembled, the long latch rod 214 passes through the latch aperture 213. At this time, the long latch rod 214 presents a horizontal state. By exerting an external force down forward by using tools or stepping on the long latch rod 214, the vertical support rod 200 is inserted into the beach. Secondly, when it is necessary to take out the vertical support rod 200, the long latch rod 214 can also be used for auxiliary operation.

A thimble 250 is fixedly installed on the end of the vertical support rod 200 close to the transverse support rod 300. A penetrative mounting aperture 310 is provided in the middle of the transverse support rod 300. The mounting aperture 310 is perpendicular to the lengthwise direction of the transverse support rod 300, and the thimble 250 passes through the mounting aperture 310, and is rotationally connected with the mounting aperture 310. A rubber sleeve 251 is provided on the upper side cover of the thimble 250. The thimble 250 is blocked by the provided rubber strip, thereby improving the safety of use and carrying. The vertical support rod and the transverse support rod 300 are rotationally connected through the thimble 250 and the mounting aperture 310. Furthermore, when installing the vertical support rod 200, there is no need to consider the positional relationship between the wind direction and the transverse support rod 300. Under the action of the seaside wind, the transverse support rod 300 always maintains in a direction perpendicular to the wind direction.

The transverse support rod 300 in the present application comprises a plurality of transverse rods, which are sequentially connected, and the total length of the transverse support rod 300 is adjustable.

In one embodiment, the transverse rod comprises a middle transverse tube 320 connected to the vertical support rod 200 and the terminal transverse tubes 330 located at both ends. A plurality of communicating transverse tubes 390 are respectively provided between both ends of the middle transverse tube 320 and the terminal transverse tube 330.

A reinforcing tube segment 321 is formed on the outside and in the middle of the middle transverse tube 320. The mounting aperture 310 is provided on the reinforcing tube segment 321. A cover 331 is provided on the end of the two terminal transverse tubes 330 away from the middle transverse tube, respectively, and an elastic band 340 is fixedly connected between the two covers 331. The elastic band 340 passes through the terminal transverse tube 330, the communicating transverse tube 390 and the middle transverse tube 320, and is in a elongated state. A second inserted joint tube 322 is fixed at both ends of the middle transverse tube 320, the end of the communicating transverse tube 390 away from the middle transverse tube 320, respectively, and the second inserted joint tube 322 can be inserted into the communicating transverse tube 390 and the terminal transverse tube 330.

During use, the terminal transverse rod, the communicating transverse tube 390 and the middle transverse tube 320 are sequentially connected by the second inserted joint tube 322. At the same time, under the action of the elastic band 340, the terminal transverse rod, the communicating transverse tube 390 and the middle transverse tube 320 can maintain a mutually assembled relationship. During the process of supporting the sunshade canopy 100, the second inserted joint tube 322 at least plays the role of connecting, limiting and supporting.

Furthermore, the end of the vertical support rod 200 close to the transverse support rod 300 is connected to a rope 400, and the other end of the rope 400 is connected to a ground plug 410. A plurality of second inserted joint apertures are provided with interval on the ground plug 410 and along the vertical direction. By providing the ground insert 410 and the rope 400, the stability of the vertical support rod 200 can be further improved.

One side of the sunshade canopy 100 is sewn with a strip-shaped edging 110, and a connecting aperture is formed within the edging 110. A mounting opening is provided in the middle of the edging 110. The vertical support rod 200 passes through the mounting opening and is connected to the transverse support rod 300.

Example 2

Please refer to FIGS. 9-12. The difference between the structure of the present example and Example 1 lies in the structure of the vertical support rod.

Wherein, the vertical support rod 200 comprises a plurality of support rods, which are sequentially connected. The total length of the vertical support rod 200 is adjustable. Furthermore, the height of the vertical support rod 200 can be adjusted as needed. At the same time, it is convenient to move and transport the vertical support rod 200. Wherein, the support rod is telescopically connected.

Specifically, the support rod comprises a bottom support sleeve 260 that is plugged into the ground, a top support sleeve 270 that is detachably and rotationally connected to the transverse support rod 300, and a middle support sleeve 280 located between the bottom support sleeve 260 and the top support sleeve 270.

The middle support sleeve 280 and the top support sleeve 270 are both provided with an abutment structure 290 at the end away from the transverse support rod 300. When elongated, the elongated vertical support rod is fixed through the abutment structure 290.

Specifically, the bottom support sleeve 260 and the middle support sleeve 280 are fixed with a limiting collar 261 at the end close to the transverse support rod 300. One end of the limiting collar 261 is fixed on the bottom support sleeve 260 or the middle support sleeve 280, and the other end extends outward to limit the abutment structure 290.

The abutment structure 290 comprises a mounting base 291 fixed on the middle support sleeve 280 or the top support sleeve 270. The mounting seat 291 comprises a base 2911 fixedly connected to the middle support sleeve 280 or the top support sleeve 270. An eccentric shaft 2912 is fixedly connected to the base 2911, and the other end of the eccentric shaft 2912 is connected to the limiting plate 2913. The limiting plate 2913 and the base 2911 are circular and can be slidably inserted into the bottom support sleeve 260 or the middle support sleeve 280. The position of the eccentric shaft 2912 deviates from the base 2911 and the center of the limiting plate 2913. A locking ring 292 is provided on the eccentric shaft 2912. An opening 2921 is formed on one side of the locking ring 292, which is an elastic ring 292. An eccentric aperture 2922 is formed in the middle of the locking ring 292, and the eccentric shaft 2912 passes through the eccentric aperture 2922. The outer diameter of the locking ring 292 is larger than the inner diameter of the bottom support sleeve 260 or the middle support sleeve 280. When inserted into the bottom support sleeve 260 or the middle support sleeve 280, the locking ring 292 is in elastic contact with the bottom support sleeve 260 or the middle support sleeve 280.

After installation, the locking ring 292 is located in the bottom support sleeve 260 or the middle support sleeve 280 and elastically abuts against the tube wall, respectively. By rotating, the adjacent bottom support sleeve 260, middle support sleeve 280 or top support sleeve 270 allow the locking ring 292 rotates relative to the eccentric shaft 2912. During the rotation, an eccentric aperture 2922 is formed at the center of the locking ring 292. When the locking ring 292 and the eccentric shaft 2912 rotate relative to each other, the friction between the locking ring 292 and the tube wall will increase or decrease. When locking is required, the friction between the locking ring 292 and the tube wall increases. On the contrary, when contraction is required, the friction force between the locking ring 292 and the tube wall decreases.

Finally, it should be noted that all “detachable” herein refers to being able to be detachably connected.

Example 3

Please refer to FIGS. 13-15. The difference between the present example and Example 1 lies in the transverse support rod 300.

The transverse support rod 300 comprises a plurality of transverse rods, which are sequentially connected, and the total length of the transverse support rod 300 is adjustable.

In the present example, the transverse rod comprises a connecting column 350 connected to the vertical support rod 200. A mounting sleeve 360 is fixedly or detachably connected to both ends of the connecting column 350, respectively. A telescopic tube assembly 370 is slidably connected within the mounting sleeve 360.

The mounting aperture 310 is provided in the middle of the connecting column 350, and the vertical support rod 200 is connected through the mounting aperture 310.

Specifically, the detachable connection method between the connecting column 350 and the mounting sleeve 360 may be one or more of the following:

Connection method 1: The connecting column 350 and one end of the mounting sleeve 360 are in threaded connection. The other end of the mounting sleeve 360 is connected to the telescopic tube assembly 370. The specific threaded connection method can be providing threaded apertures at both ends of the connecting column 350. The mounting sleeve 360 is connected to the threaded apertures at both ends of the connecting column 350 by threaded connection. Alternatively, a threaded aperture is provided at the end of the mounting sleeve 360 close to the connecting column 350, and both ends of the connecting column 350 are connected to the threaded apertures of the mounting sleeve 360 by threaded connection.

Connection method 2: A penetrative sliding joint aperture is provided in the connecting column 350, and the mounting sleeves 360 are respectively slidably connected inside the sliding joint aperture. An elastic connecting rope 361 is connected between the two mounting sleeves 360. During use, the two mounting sleeves 360 are kept in the sliding joint apertures through elastic connecting ropes 361. Furthermore, a limiting protrusion is provided in the sliding aperture, and the maximum position of the mounting sleeve 360 entering the sliding joint aperture is limited by the limiting protrusion.

Connection method 3: the connecting column 350 and the mounting sleeve 360 are elastically connected and fixed through the snap-in structure 240. This structure is the same as the snap-in structure 240 in Example 1, and will not be described again here.

It should be noted that the above three connection methods are mainly intended to explain the detachable connection between the connecting column 350 and the mounting sleeve 360. In addition, the connecting column 350 and the mounting sleeve 360 can also be connected and fixed in other detachable ways, which is not limited here.

An operating column 380 is provided at the end of the telescopic tube assembly 370 away from the connecting column 350, and a rubber column 381 is fixed at the end of the operating column 380 close to the connecting column 350. The diameter of the rubber column 381 is larger than the inner diameter of the mounting sleeve 360. When the telescopic tube assembly 370 is shortened, the rubber column 381 elastically abuts inside the end of the mounting sleeve 360.

Specifically, the telescopic tube assembly 370 comprises at least two tube segments. The present application takes three tube segments as an example for description.

The telescopic tube assembly 370 comprises a first support tube 371, a second support tube 372 and a third support tube 373. One end of the first support tube 371 is located in the mounting sleeve 360 and is slidably connected to the mounting sleeve 360. One end of the second support tube 372 is located in the first support tube 371 and is slidably connected to the first support tube 371. One end of the third support tube 373 is located in the second support tube 372 and is slidably connected to the second support tube 372. The other end of the third support tube 373 is connected to the operating column 380.

Wherein, the mounting sleeve 360, the first support tube 371, the second support tube 372 and the third support tube 373 have a larger diameter at the end close to the connecting column 350 and a smaller diameter at the end away from the connecting column 350. The diameter of the larger end of the first support tube 371 is larger than the diameter of the end of the mounting sleeve 360 away from the connecting column 350 and smaller than the diameter of the end of the mounting sleeve 360 close to the connecting column 350. Similarly, the maximum diameter of the second support tube 372 is greater than the minimum diameter of the first support tube 371 and smaller than the maximum diameter of the first support tube 371. The maximum diameter of the third support tube 373 is larger than the minimum diameter of the second support tube 372 and smaller than the maximum diameter of the second support tube 372. Furthermore, the first support tube 371, the second support tube 372, and the third support tube 373 will not detach after elongation.

It is obvious for those skilled in the art that the present invention is not limited to the details of the above exemplary examples, and the present invention can be implemented in other specific forms without departing from the spirit or basic characteristics of the present invention. Therefore, from any point of view, the embodiments should be regarded as exemplary and non-restrictive. The scope of the present invention is defined by the appended claims rather than the above description, and it is therefore intended that all changes falling within the meaning and scope of the equivalent elements of the claims are contemplated in the present invention. Any reference numerical in the claims shall not be construed as limiting the claim involved.

Claims

1. A portable beach sunshade tent, comprising a sunshade canopy (100) and a vertical support rod (200), one end of the vertical support rod (200) can be plugged and fixed on the ground, and the other end of the vertical support rod (200) is detachably and rotationally connected to a transverse support rod (300), one side of the sunshade canopy (100) is detachably connected to the transverse support rod (300).

2. The portable beach sunshade tent according to claim 1, wherein the vertical support rod (200) comprises a plurality of support rods, the plurality of support rods are sequentially connected, and the total length of the vertical support rod (200) is adjustable.

3. The portable beach sunshade tent according to claim 2, wherein the plurality of the support rods are detachably connected; the support rod comprises a bottom support rod (210) connected to the ground and a top support rod (230) detachably and rotationally connected to the transverse support rod (300); a plurality of middle support rods (220) are sequentially connected end-to-end between the bottom support rod (210) and the top support rods (230);the bottom support rod (210) and the middle support rod (220) therebetween, adjacent middle support rods (220) therebetween, as well as the middle support rod (220) and the top support rod (230) therebetween are detachably connected by a snap-in structure (240).

4. The portable beach sunshade tent according to claim 3, wherein the bottom support rod (210) and each of the middle support rods (220) are formed with a first inserted joint tube (211) at the end close to the sunshade canopy (100); each of the middle support rod (220) and the top support rod (230) is formed with a first inserted joint aperture (221) at the end away from the sunshade canopy (100), and the outer diameter of the first inserted joint tube (211) is smaller than the diameter of the first inserted joint aperture (221);a first limiting aperture (211a) is provided on the side wall of the first inserted joint tube (211), and a second limiting aperture (222) is provided on the middle support rod (220) and the top support rod (230), the second limiting aperture (222) is located in the segment where the first inserted joint aperture (221) is located, and is connected with the first inserted joint aperture (221);the snap-in structure (240) comprises a V-shaped elastic plate (241), which is located in the first inserted joint tube (211), and both ends of the elastic plate (241) elastically abuts against the inner wall of the first inserted joint tube (211);a dowel pin (242) is fixed on the side of the elastic plate (241) away from the center of the first inserted joint tube (211), and the dowel pin (242) passes through the first limiting aperture (211a);When the first inserted joint tube (211) is inserted into the first inserted joint aperture (221), the dowel pin (242) can pass through the second limiting aperture (222).

5. The portable beach sunshade tent according to claim 2, wherein the support rod is telescopically connected; the support rod comprises a bottom support sleeve (260) that is plugged into the ground, a top support sleeve (270) that is detachably and rotationally connected to the transverse support rod (300), and a middle support sleeve (280) located between the bottom support sleeve (260) and the top support sleeve (270);the middle support sleeve (280) and the top support sleeve (270) are both provided with an abutment structure (290) at the end away from the transverse support rod (300);the bottom support sleeve (260) and the middle support sleeve (280) are fixed with a limiting collar (261) at the end close to the transverse support rod (300), and one end of the limiting collar (261) is fixed on the bottom support sleeve (260) or the middle support sleeve (280), the other end extends outward to limit the abutment structure (290).

6. The portable beach sunshade tent according to claim 5, wherein the abutment structure (290) comprises a mounting base (291) fixed on the middle support sleeve (280) or the top support sleeve (270); the mounting seat (291) comprises a base (2911) fixedly connected to the middle support sleeve (280) or the top support sleeve (270), and an eccentric shaft (2912) is fixedly connected to the base (2911), the other end of the eccentric shaft (2912) is connected to the limiting plate (2913); the limiting plate (2913) and the base (2911) are circular and can be slidably plugged into the bottom support sleeve (260) or the middle support sleeve (280);the position of the eccentric shaft (2912) deviates from the center of the base (2911) and the limiting plate (2913), and a locking ring (292) is provided on the eccentric shaft (2912);an opening (2921) is formed on one side of the locking ring (292), which is an elastic ring, and an eccentric aperture (2922) is formed in the middle of the locking ring (292), the eccentric shaft (2912) passes through the eccentric aperture (2922);the outer diameter of the locking ring (292) is larger than the inner diameter of the bottom support sleeve (260) or the middle support sleeve (280), and when inserted into the bottom support sleeve (260) or the middle support sleeve (280), the locking ring (292) is in elastic contact with the bottom support sleeve (260) or the middle support sleeve (280).

7. The portable beach sunshade tent according to any one of claims 1 to 6, wherein the end of the vertical support rod (200) that is plugged and fixed on the ground is formed with a chamfered portion (212); a plurality of latch apertures (213) are provided with interval along the vertical direction on the rod segment of the vertical support rod (200) close to the chamfered portion (212);a long latch rod (214) is detachably inserted into the latch aperture (213), and the long latch rod (214) passes through the latch aperture (213).

8. The portable beach sunshade tent according to any one of claims 1 to 6, wherein a thimble (250) is fixed on the end of the vertical support rod (200) close to the transverse support rod (300); a penetrative mounting aperture (310) is provided in the middle of the transverse support rod (300), the mounting aperture (310) is perpendicular to the lengthwise direction of the transverse support rod (300), and the thimble (250) passes through the mounting aperture (310) and is rotatably connected to the mounting aperture (310); a rubber sleeve (251) is provided on the upper side cover of the thimble (250).

9. The portable beach sunshade tent according to claim 8, wherein the transverse support rod (300) comprises a plurality of transverse rods, the plurality of transverse rods are sequentially connected, and the total length of the transverse support rod (300) is adjustable.

10. The portable beach sunshade tent according to claim 9, wherein the transverse rods comprise a middle transverse tube (320) connected to the vertical support rod (200) and a terminal transverse tube (330) located at both ends, a plurality of communicating transverse tubes (390) are respectively provided between both ends of the middle transverse tube (320) and the terminal transverse tube (330); a reinforcing tube segment (321) is formed on the outside and in the middle of the middle transverse tube (320), and the mounting aperture (310) is provided on the reinforcing tube segment (321);a cover (331) is provided on the end of the two terminal transverse tubes (330) away from the middle transverse tube, respectively, and an elastic band (340) is fixedly connected between the two covers (331), and the elastic band (340) passes through the terminal transverse tube (330), the communicating transverse tube (390) and the middle transverse tube (320), and is in a elongated state;a second inserted joint tube (322) is fixed at both ends of the middle transverse tube (320), the end of the communicating transverse tube (390) away from the middle transverse tube (320), respectively, and the second inserted joint tube (322) can be plugged into the communicating transverse tube (390) and the terminal transverse tube (330).

11. The portable beach sunshade tent according to claim 9, wherein the transverse rod comprises a connecting column (350) connected to the vertical support rod (200), and a mounting sleeve (360) is fixedly or detachably connected to both ends of the connecting column (350), respectively, and a telescopic tube assembly (370) is slidably connected within the mounting sleeve (360); the mounting aperture (310) is provided in the middle of the connecting column (350);an operating column (380) is provided at the end of the telescopic tube assembly (370) away from the connecting column (350), and a rubber column (381) is fixed at the end of the operating column (380) close to the connecting column (350), the diameter of the rubber column (381) is larger than the inner diameter of the mounting sleeve (360); when the telescopic tube assembly (370) is shortened, the rubber column (381) elastically abuts inside the end of the mounting sleeve (360).

12. The portable beach sunshade tent according to claim 1, wherein a rope (400) is connected to the end of the vertical support rod (200) close to the transverse support rod (300), and the other end of the rope (400) is connected to a ground plug (410), and a plurality of second inserted joint apertures are provided on the ground plug (410) with intervals along the vertical direction.

13. The portable beach sunshade tent according to claim 1, wherein one side of the sunshade canopy (100) is sewn with a strip-shaped edging (110), and a connecting aperture is formed within the edging (110), and a mounting opening is provided in the middle of the edging (110); the vertical support rod (200) passes through the mounting opening and is connected to the transverse support rod (300).