阅读说明：本技术 一种充气水池及其制作方法 (Inflatable pool and manufacturing method thereof ) 是由 台许明 于 2020-05-26 设计创作，主要内容包括：本发明属于充气水池技术领域,公开了一种充气水池及其制作方法,所述充气水池的内壁上沿垂直于池底的方向设有至少两个内壁接头,充气水池充气后,内壁在内壁接头处形成拐角；外壁上沿垂直于所述池底的方向具有至少一个外壁接头。本发明提供的一种充气水池,通过在内壁和外壁上分别设置至少两个内壁接头和至少一个外壁接头,便于所述内壁在充气后形成拐角,形成多边形充气水池,不易漏气；而且内壁和外壁可以根据需要增加厚度至10cm以上,提高保温性能。(The invention belongs to the technical field of inflatable pools and discloses an inflatable pool and a manufacturing method thereof, wherein at least two inner wall joints are arranged on the inner wall of the inflatable pool along the direction vertical to the pool bottom, and after the inflatable pool is inflated, corners are formed on the inner wall at the inner wall joints by the inner wall; the outer wall is provided with at least one outer wall joint along the direction vertical to the pool bottom. According to the inflatable pool provided by the invention, the at least two inner wall joints and the at least one outer wall joint are respectively arranged on the inner wall and the outer wall, so that the inner wall can conveniently form a corner after being inflated, a polygonal inflatable pool is formed, and air leakage is not easy to occur; and the thickness of the inner wall and the outer wall can be increased to more than 10cm according to the needs, so that the heat insulation performance is improved.)

1. A pneumatic pool comprises a pool bottom (1), an inner wall (2) and an outer wall (3), wherein the inner wall (2) surrounds the pool bottom (1) to form a water containing groove, a plenum chamber is arranged between the inner wall (2) and the outer wall (3), and a wire drawing structure (7) for connecting the inner wall (2) and the outer wall (3) is arranged in the plenum chamber; the inflatable pool is characterized in that at least two inner wall joints (201) are arranged on the inner wall (2) along the direction vertical to the pool bottom (1), and after the inflatable pool is inflated, corners are formed on the inner wall (2) at the inner wall joints (201); the outer wall (3) is provided with at least one outer wall joint (301) along the direction vertical to the pool bottom (1).

2. A pneumatic pool according to claim 1, wherein the inner walls (2) are disconnected at the inner wall joints (201) in a direction perpendicular to the pool bottom (1) and connected by the inner wall joints (201).

3. A pneumatic pool as claimed in claim 2, wherein the pull formation (7) between the inner wall (2) and the outer wall (3) and opposite the inner wall junction (201) is broken.

4. A pneumatic pool as claimed in claim 1, wherein the inner walls (2) are folded inwardly of the wiredrawing structure (7) at the inner wall joints (201) and connected by the inner wall joints (201).

5. A pneumatic pool as claimed in claim 1, wherein the outer wall (3) is broken off at the outer wall joint (301) in a direction perpendicular to the pool bottom (1) and connected by the outer wall joint (301).

6. The inflatable pool of claim 5, wherein the outer wall joint (301) corresponds in position to the inner wall joint (201) at the corner.

7. A pool according to claim 1, wherein the inner wall joint (201) and the outer wall joint (301) are joined to form a seal by edge sealing of the inner wall (2) and the outer wall (3), respectively.

8. The pneumatic pool of claim 7, further comprising at least one first reinforcing layer covering the sealing layer and its edges.

9. A pool according to claim 1, wherein the inner wall (2) and the outer wall (3) are connected at their top and bottom by a bead layer (5) respectively.

10. A pneumatic pool as claimed in claim 9, wherein the edging layer (5) of the top has at least two edging joints (501), the ends of the two edging layers (5) on either side of the edging joint (501) being joined one above the other at the edging joint (501).

11. The inflatable pool of claim 10, wherein the closeout joint (501) corresponds to the location of the inner wall joint (201).

12. A pool according to claim 10, further comprising at least one second reinforcing layer (502), at least one of the second reinforcing layers (502) covering the edge of the edge sealing joint (501) and the edge sealing layer (5), the second reinforcing layer (502) being located outside and/or inside the plenum chamber.

13. A method of manufacturing an inflatable pool, the inflatable pool being as claimed in any one of claims 1 to 12, the method comprising the steps of:

firstly, preparing a wire drawing material pool wall, and arranging the pool wall around the pool bottom (1) to form a water containing tank; the pool wall comprises the inner wall (2) and the outer wall (3), and the wire drawing structure (7) is arranged in the middle;

at least two inner wall joints (201) are arranged on the inner wall (2) along the direction vertical to the pool bottom (1);

arranging at least one outer wall joint (301) on the outer wall (3) along a direction vertical to the pool bottom (1);

after the inflatable pool is inflated, the inner wall (2) forms the corner at the inner wall joint (201).

14. The manufacturing method of the inflatable pool of claim 13, wherein the inner wall (2) is firstly cut off along the direction vertical to the pool bottom (1) or folded towards the inside of the wiredrawing structure (7) before the inner wall joint (201) is arranged on the inner wall (2), and then the cut off or folded inner wall (2) is connected through the inner wall joint (201); before the outer wall (3) is provided with the outer wall joint (301), the outer wall (3) is firstly disconnected along the direction vertical to the pool bottom (1), and then the disconnected outer wall (3) is connected through the outer wall joint (301).

15. A method for making a pneumatic pool as claimed in claim 14, wherein if the inner wall (2) is broken, the wire drawing structure (7) between the inner wall (2) and the outer wall (3) and opposite to the inner wall joint (201) is broken before the inner wall joint (201) is connected.

Technical Field

The invention relates to the technical field of inflatable pools, in particular to an inflatable pool and a manufacturing method thereof.

Background

The inflatable pool has the advantages of convenient use and disassembly, flexible customization of size and shape according to needs and the like, and is increasingly applied. The existing inflatable SPA pool is firm and firmer, the wire drawing material is usually adopted, the wire drawing material is directly inflated to be flat and cannot form corners, so that the shape of the inflatable pool made of the wire drawing material is mostly circular, the production and the processing are convenient for ensuring the roundness of the inflatable pool, the general wall thickness is thinner, the wall thickness is not more than 5cm, and the heat insulation performance is poor. If the shape of the inflatable pool is polygonal, main air leakage points are easily formed at the intersecting positions of all the side surfaces, and the overall performance is affected.

Disclosure of Invention

The invention aims to provide an inflatable pool and a manufacturing method thereof, and aims to solve the problems that the inflatable pool in the prior art is poor in heat preservation performance and prone to air leakage.

In order to achieve the purpose, the invention adopts the following technical scheme:

an inflatable pool comprises a pool bottom, an inner wall and an outer wall, wherein the inner wall surrounds the pool bottom to form a water containing groove, a plenum chamber is arranged between the inner wall and the outer wall, and a wire drawing structure for connecting the inner wall and the outer wall is arranged in the plenum chamber; at least two inner wall joints are arranged on the inner wall along the direction vertical to the pool bottom, and after the inflatable pool is inflated, corners are formed on the inner wall at the inner wall joints; the outer wall is provided with at least one outer wall joint along the direction vertical to the pool bottom.

Optionally, the inner walls are disconnected at the inner wall joints in a direction perpendicular to the bottom of the tank and connected by the inner wall joints.

Optionally, the wiredrawing structure between the inner wall and the outer wall and opposite to the inner wall joint is broken.

Optionally, the inner walls are folded into the wiredrawing structure at the inner wall joints and connected by the inner wall joints.

Optionally, the outer wall is disconnected at the outer wall joint in a direction perpendicular to the floor of the pool and connected by the outer wall joint.

Optionally, the outer wall joint corresponds to the position of the inner wall joint at the corner.

Optionally, the inner wall joint and the outer wall joint are connected to form a sealing layer by using edge sealing materials respectively.

Optionally, at least one first reinforcement layer is included, which covers the sealing layer and its edges.

Optionally, the top and bottom of the inner wall and the outer wall are connected by a sealing layer respectively.

Optionally, the edge sealing layer of the top has at least two edge sealing joints, and ends of the two edge sealing layers on two sides of the edge sealing joints are overlapped and connected at the edge sealing joints.

Optionally, the sealing joint corresponds to the inner wall joint.

Optionally, the inflatable bag further comprises at least one second reinforcing layer covering the edge sealing joint and the edge sealing layer, the second reinforcing layer being located on the outside and/or inside of the inflatable chamber.

The invention also provides a manufacturing method of the inflatable pool, which is used for manufacturing the inflatable pool provided by the invention and comprises the following steps:

firstly, preparing a wire drawing material pool wall, and arranging the pool wall to surround the pool bottom 1 to form the water containing tank; the pool wall comprises the inner wall and the outer wall, and the wire drawing structure is arranged in the middle of the pool wall;

at least two inner wall joints are arranged on the inner wall along the direction vertical to the pool bottom;

arranging at least one outer wall joint on the outer wall along the direction vertical to the pool bottom;

and after the inflatable pool is inflated, the corner is formed at the joint of the inner wall by the inner wall.

Optionally, before the inner wall is provided with the inner wall joint, the inner wall is firstly disconnected in a direction perpendicular to the pool bottom, or is folded into the wiredrawing structure, and then the disconnected or folded inner wall is connected through the inner wall joint; before the outer wall is provided with the outer wall joint, the outer wall is firstly disconnected along the direction vertical to the pool bottom, and then the disconnected outer wall is connected through the outer wall joint.

Optionally, if the inner wall is disconnected, before the inner wall joint is connected, the wire drawing structure between the inner wall and the outer wall and at a position opposite to the inner wall joint needs to be disconnected.

The invention has the beneficial effects that:

according to the inflatable pool and the manufacturing method of the inflatable pool, the at least two inner wall joints and the at least one outer wall joint are respectively arranged on the inner wall and the outer wall, so that the inner wall can conveniently form a corner after being inflated, a polygonal inflatable pool is formed, and air leakage is not easy to occur; and the thickness of the inner wall and the outer wall can be increased to more than 10cm according to the needs, so that the heat insulation performance is improved.

Drawings

FIG. 1 is a schematic view of a pneumatic pool according to the present invention;

FIG. 2 is a schematic drawing structure of a cross section of a pool wall of an inflatable pool provided by the invention.

In the figure:

1. the bottom of the pool; 2, inner wall; an inner wall joint 201; an outer wall;

301. an outer wall joint; 4, making a wave zone; 5, sealing the edge layer; 501, edge sealing joints;

502. a second reinforcing layer; 6, an air pump; and 7, drawing the wire structure.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

The invention provides an inflatable pool, as shown in fig. 1 and 2, the inflatable pool comprises a pool bottom 1, an inner wall 2 and an outer wall 3, wherein the pool bottom 1 is surrounded by the inner wall 2 to form a water containing tank, a plenum chamber is arranged between the inner wall 2 and the outer wall 3, and a wire drawing structure 7 for connecting the inner wall 2 and the outer wall 3 is arranged in the plenum chamber; at least two inner wall joints 201 are arranged on the inner wall 2 along the direction vertical to the pool bottom 1, and after the inflatable pool is inflated, the inner wall 2 forms corners at the inner wall joints 201; the outer wall 3 is provided with at least one outer wall joint 301 along a direction perpendicular to the bottom 1 of the tank.

It can be understood that the at least two inner wall joints 201 and the at least one outer wall joint 301 are respectively arranged on the inner wall 2 and the outer wall 3, so that the inner wall 2 forms a corner after being inflated, a polygonal inflation pool is formed, and air leakage is not easy to occur; and the thickness of the inner wall 2 and the outer wall 3 can be increased to more than 10cm according to the needs, so that the heat insulation performance is improved.

It should be explained that the pool wall of the inflatable pool provided by the invention adopts the wire drawing material, that is, the wire drawing structure 7 is arranged between the inner wall 2 and the outer wall 3, because of the inherent strength of the wire drawing structure 7, the pool wall is not easy to deform, the pool wall can only be in a plane shape, or the pool wall is made to be thin to form a round inflatable pool, but the thin wall has poor heat preservation performance and is not easy to be made into a heat preservation SPA inflatable pool, therefore, the wire drawing material is improved in the invention, the inner wall 2 is provided with at least two inner wall joints 201 through the arrangement of the inner wall joints 201 and the outer wall joints 301, corners are formed at the inner wall joints 201 after inflation, so that the inflatable pool can be made into any polygon, and because the inner wall 2 and the outer wall 3 form corners, the thickness of the pool wall between the two corners can be increased, and the heat preservation performance.

In one embodiment, the inner wall 2 is disconnected at the inner wall joint 201 in a direction perpendicular to the tank bottom 1 and connected by the inner wall joint 201. If the inner wall 2 is directly bent, a bent angle is formed, so that the problem of air leakage is easily caused, in order to solve the problem of bending of the inner wall 2, the inner wall 2 is disconnected in the vertical direction and then connected by using the inner wall joint 201 again, the problems of internal bending and easy air leakage are avoided, and a water containing groove with a corner is favorably formed so as to contain more water.

Alternatively, as shown in fig. 2, the wiredrawing structure 7 between the inner wall 2 and the outer wall 3 and located opposite to the inner wall joint 201 is broken. In order to avoid the interference of the wire drawing structure 7 on the inner wall 2 at the corner, the wire drawing structure 7 at the corresponding position is disconnected, and the connection between the two disconnecting joints of the inner wall 2 and the inner wall joint 201 is more convenient.

In other embodiments, the inner wall 2 is folded into the wiredrawing structure 7 at an inner wall joint 201 and connected by the inner wall joint 201. As an implementable technical solution, it can be understood that when the inner wall 2 is bent as required, a fold is formed at the bent portion of the inner wall 2, and a larger pulling force is formed at the outer wall 3, in order to facilitate deformation, in this embodiment, the bent portion of the inner wall 2 is folded toward the outer wall 3, that is, folded toward the inside of the wiredrawing structure 7, so as to form two side edges, and the folding degree is related to the corner to be formed. The two sides are connected by an interior wall joint 201 to form a pneumatic pool having a particular corner form. Of course, for the above folding process, the inner wall 2 may be folded after being broken when folded or may be directly folded without being broken.

Alternatively, the outer wall 3 is disconnected at the outer wall joint 301 in a direction perpendicular to the floor 1 and connected by the outer wall joint 301. Similarly to the way the inner wall joint 201 is connected to the inner wall 2, the outer wall 3 is longitudinally broken at the position where it is desired to form a corner of the outer wall 3, and then the two broken parts are connected by the outer wall joint 301 so as to form a corner, thereby obtaining an arbitrary polygonal inflatable pool.

Optionally, the outer wall joint 301 corresponds to the position of the inner wall joint 201 at the corner. It will be appreciated that when there is only one outer wall fitting 301, the outer wall fitting 301 is connected to the junction where the tank wall surrounds the tank bottom 1, and therefore both the outer wall fitting 301 and the inner wall fitting 201 are connected to the outer wall 3 and the inner wall 2 at the junction, respectively, so that the positions of the outer wall fitting 301 and the inner wall fitting 201 are correspondingly identical. When more than two inner wall joints 2 and outer wall joints 301 are provided, the number of the inner wall joints 2 is selected according to the shape of the inflatable pool, and the outer wall joints 3 correspond to the positions of any inner wall joints 201 one by one so as to form the inflatable pool with a regular shape.

Optionally, the inner wall joint 201 and the outer wall joint 301 are connected to the inner wall 2 and the outer wall 3, respectively, with an edge seal to form a sealing layer. For longitudinally broken inner and outer walls 2, 3, or folded inner wall 2, a seam connecting the two broken parts with a bead of material is used as inner wall joint 201 or outer wall joint 301. When in connection, attention is paid to form corners, so that the edge sealing material is made of materials which are soft and are easy to connect the inner wall 2 and the outer wall 3, the connection mode can be welding or bonding, and a sealing layer is formed at the disconnected part after connection.

The inner wall joints 201 and the outer wall joints 301 are set so that the aerated water pool forms corners at corresponding positions to form a polygonal aerated water pool, and thus one corner is not limited to the use of more than two inner wall joints 201 or outer wall joints 301.

Optionally, the pneumatic pool of the present invention further comprises at least one first reinforcing layer covering the sealing layer and its edges. The first reinforcing layer completely covers the outer side of the sealing layer, the edge of the sealing layer is sealed and reinforced, and more than two layers of the first reinforcing layers can be selected according to requirements and are sequentially covered. The first reinforcing layer is connected in a welding or bonding mode.

Alternatively, the top and bottom of the inner wall 2 and the outer wall 3, respectively, are connected by a bead layer 5. It should be noted that the bottom 1 is directly formed or overlapped with the bottom 1 when the bottoms of the inner wall 2 and the outer wall 3 are connected by the edge sealing layer 5. When the tops of the inner wall 2 and the outer wall 3 are connected through the edge sealing layer 5, the top seal of the inflation chamber is formed, and the edge sealing layer 5 is respectively connected with the inner wall 2 and the outer wall 3 in a welding or bonding mode.

The top edge sealing layer 5 has at least two edge sealing joints 501, and the ends of the two edge sealing layers 5 on the two sides of the edge sealing joints 501 are overlapped and connected at the edge sealing joints 501. The function of the closeout joint 501 is the same for both the inner wall joint 201 and the outer wall joint 301, both to form a smooth transition corner. Thus, preferably, the sealing edge joint 501 corresponds to the position of the inner wall joint 201. Meanwhile, the edge sealing joint 501 is connected after being lapped by the edge sealing layers 5, so that the strength of the edge sealing joint 501 can be increased, and the top connection strength of the inner wall joint 201 is improved.

Optionally, the pool of water further comprises at least one second reinforcing layer 502, the at least one second reinforcing layer 502 covering the edge of the edge banding joint 501 and edge banding layer 5, the second reinforcing layer 502 being located on the outside and/or inside of the inflatable chamber. As shown in fig. 2, the second reinforcing layer 502 serves to provide a reinforced seal between the bead layer 5 and the bead bond 501, and therefore the second reinforcing layer 502 needs to cover the side edges of the bead layer 5 along the inner and outer walls 2, 3, the edges of the bead bond 501 along the inner and outer walls 2, 3, and the edge of the bead bond 501 above the bead layer 5. The second reinforcement layers 502 are sequentially covered and then connected by welding or bonding. The second reinforcing layer 502 may be separately disposed outside the inflation chamber, or at least one second reinforcing layer 502 may be disposed inside and outside the inflation chamber, so as to reinforce and fix the edge sealing layer 5 and the edge sealing joint 501, thereby preventing air leakage.

In a preferred embodiment of the invention, the inflatable pool further comprises a wave making belt 4, the wave making belt 4 is arranged on the inner wall 2, a plurality of air outlet holes and an inflation hole are arranged on the wave making belt 4, and the inflation hole is communicated with an external air pump 6 through an air pipe; the air outlet is communicated with the water containing groove. Wherein, outside air pump 6 can continue to make into the wave area 4 through the gas cell and fill gas into, and gas gets into through the venthole and holds the basin, forms and makes the wave effect. The number and the aperture of the air outlet holes can be designed into different specifications according to actual requirements. Usually, the wave making belt 4 is arranged on the inner wall 2 near the pool bottom 1, and the outlet direction of the air outlet is towards the center of the inflatable pool.

Specifically, as shown in fig. 1 and fig. 2, the pneumatic water tank in this embodiment is a polygonal water tank, the tank wall is made of a wiredrawing material, eight inner wall joints 201 are uniformly distributed on the inner wall 2 at intervals, eight outer wall joints 301 are uniformly distributed on the outer wall 3 at intervals, and the positions of the inner wall joints 201 and the outer wall joints 301 correspond to each other one by one. The inner walls 2 at the inner wall joints 201 are disconnected along the direction vertical to the pool bottom 1 and are connected through the inner wall joints 2, and the inner wall joints select edge sealing materials to connect the disconnected inner walls 2 to form a sealing layer. The surface of the sealing layer is covered with at least one first reinforcing layer to improve the sealing performance and strength of the inner wall joint 201. The outer wall of outer wall joint 3 department is along the direction disconnection of perpendicular to bottom of the pool 1 and connect through outer wall joint 301, and outer wall joint 301 adopts banding material to connect disconnected both ends outer wall 3 and forms the sealing layer, and the sealing layer surface covers at least one deck first enhancement layer again, improves the leakproofness and the intensity of outer wall joint 301 department.

More specifically, the top and bottom of the inner wall 2 and the outer wall 3 are connected by a sealing layer 5, respectively, wherein the bottom sealing layer 5 coincides with the tank bottom 1 and is sealed. The sealed plenum chamber of top banding layer 5, top banding layer 5 are equipped with banding joint 501, and banding joint 501 has eight, corresponds the position that inner wall connects 201 and outer wall joint 301. Meanwhile, at least one second reinforcing layer 502 is covered on the outer side of the edge banding layer 5, and the edge of the at least one second reinforcing layer 502 is covered on the edge of the edge banding layer 5 and the edge banding joint 501, so that the sealing and reinforcing effects are achieved.

More specifically, after the inflatable pool is inflated, corners are formed at the inner wall joint 201 and the outer wall joint 301, so that a regular octagonal inflatable pool is obtained, the wave making belt 4 is arranged at the bottom of the inner wall 2 of the inflatable pool and is connected with an external air pump 6, so that the inflatable pool with the SPA function is obtained.

Above-mentioned inflatable pool is through setting up inner wall joint and outer wall joint respectively at drawing silk material inner wall and outer wall, forms the inflatable pool that has the turning after aerifing, is plane drawing silk material inflation structure except that the turning position, consequently can increase the drawing silk material thickness of each side of inflatable pool to more than 10cm, improves the thermal insulation performance of drawing silk material inflatable pool. And since there are provided the inner wall joint 201 and the outer wall joint 301 at the corners, there is no sharp fold at the corners and the sealing performance of the inflatable chambers is improved.

The invention also provides a manufacturing method of the inflatable pool, which is used for manufacturing the inflatable pool provided by the invention and comprises the following steps:

firstly, preparing a wire drawing material pool wall, and enclosing the pool wall with a pool bottom 1 to form a water containing tank; the pool wall comprises an inner wall 2 and an outer wall 3, and a wire drawing structure 7 is arranged in the middle;

at least two inner wall joints 201 are arranged on the inner wall 2 along the direction vertical to the pool bottom 1;

at least one outer wall joint 301 is arranged on the outer wall 3 along the direction vertical to the pool bottom 1;

the inner wall 2 forms a corner at the inner wall joint 201 when the inflatable pool is inflated.

In one embodiment of the invention, the wire drawing material is in a belt shape, the belt-shaped pool wall has a joint position when the pool bottom 1 is surrounded by the belt-shaped pool wall, the invention adopts the mode of an inner wall joint 201 and an outer wall joint 301 to respectively connect the end parts of the belt-shaped pool wall, at the same time, at least one inner wall joint 201 is additionally arranged on the inner wall 2, and after inflation, the inner wall joint 201 forms a corner, which is beneficial to forming an inflatable pool with any polygon.

Optionally, before the inner wall 2 is provided with the inner wall joint 201, the inner wall 2 is firstly disconnected in a direction perpendicular to the pool bottom 1, or is folded into the wiredrawing structure 7, and then the disconnected or folded inner wall 2 is connected through the inner wall joint 201; before the outer wall joint 301 is arranged on the outer wall 3, the outer wall 3 is firstly disconnected along the direction vertical to the pool bottom 1, and then the disconnected outer wall 3 is connected through the outer wall joint 301. Because the pool wall is made of the wire drawing material, if the wire drawing material is directly arranged at the pool bottom 1 in a surrounding mode to form a polygon or a circle, the wire drawing material can only be thinned as much as possible to obtain the inflatable pool with a better appearance, but in order to solve the problem that the thin-wall wire drawing material inflatable pool is poor in heat insulation performance, the wire drawing material is thickened (more than 10 cm) to improve the heat insulation performance of the inflatable pool, when the inner wall of the inflatable pool is subjected to corner deformation, in order to avoid the influence of an internal wire drawing structure 7 on the pool wall quality at the corner of the inner wall 2, wherein the influence comprises but is not limited to air leakage and the like, the inner wall 2 needs to be firstly formed with a fracture, and then the fracture is connected and sealed by using the edge sealing material to form a sealing layer. Alternatively, the inner wall joint may be formed by folding the corrugated portion of the inner wall 2 formed at the corner into the wiredrawing structure 7 to form two edges, and closing the two edges with an edge sealing material.

Alternatively, if the inner wall 2 is disconnected, the wire drawing structure 7 between the inner wall 2 and the outer wall 3 and opposite to the inner wall connector 201 needs to be disconnected before the inner wall connector 201 is connected. The wire drawing structure 7 is broken, mainly to ensure that the corner at the inner wall joint 201 can be smoother without sharp corners, and the outer wall 3 can be adaptively deformed along with the shape of the inner wall 2 to form a shape-controllable inflatable pool.

According to the manufacturing method of the inflatable pool, the at least two inner wall joints and the at least one outer wall joint are respectively arranged on the inner wall and the outer wall, so that the inner wall can conveniently form a corner after being inflated, a polygonal inflatable pool is formed, and air leakage is not easy to occur; and the thickness of the inner wall and the outer wall can be increased to more than 10cm according to the needs, so that the heat insulation performance is improved.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, adaptations and substitutions will occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.