CN217217915U - Telescopic and foldable fishing platform main body structure - Google Patents

Abstract

The utility model discloses a telescopic and foldable fishing platform main body structure, which comprises a frame-shaped gallery connecting device, a connecting mechanism and a shore connecting mechanism, wherein the connecting mechanism is used for extending and connecting to a buoyancy device so as to float the frame-shaped gallery connecting device through the buoyancy device; the corridor connection device is provided with a connection mechanism at the front part and a shore connection mechanism at the rear end, plays a role in connection and can be used as a platform for supporting people to perform fishing; and the shore connecting mechanism is connected to the corridor connecting device and connects the corridor connecting device to the shore. The utility model discloses the platform major structure that angles that realizes can stretch out and draw back foldingly, reduces effectively to angle the occupation space of platform main part, and portable also makes things convenient for people to assemble fast when using.

Description

Telescopic and foldable fishing platform main body structure

Technical Field

The utility model relates to a technical field of fishing apparatus especially relates to a platform structure angles of aquatic fishing usefulness.

Background

The fishing platform is a tool specially designed for fishing convenience, and is usually in a shape of a table. Generally, people are fishing at the water side, and the fishing platform is arranged on the bank, for example, patent application 201710538194.4 discloses a folding fishing platform, which comprises a U-shaped bracket, two side rods of the U-shaped bracket are vertical to the ground, the side rods of the U-shaped bracket are of a hollow sleeve structure, the top of the outer wall of the side rod of the U-shaped bracket is connected with an adjusting button through screw threads, the U-shaped bracket is provided with 2 symmetrically arranged U-shaped brackets, folding rods are fixedly welded among the 2U-shaped supports and are crossed in a diamond shape, a telescopic rod is sleeved in one end, far away from the ground, of each side rod of each U-shaped support, one end of the telescopic rod, which is far away from the U-shaped bracket, is connected with 2 object placing rods through rivets, the 2 object placing rods are symmetrically arranged, the fishing rod is characterized in that an article penetrating ring is welded on the article placing rod, a handle support is fixedly welded on the other article placing rod, and one end of the fishing rod, which is far away from the handle support, is connected with a fishing line.

However, since the large fish is usually in a deep water place, the fishing platform on the shore cannot meet the fishing requirement of people, and people design the fishing platform in water.

The patent application 201921569914.4 discloses a multifunctional water fishing platform, which comprises an upper box cover (1) and a lower box cover (2) which are mutually buckled through a first hinge (8), wherein the upper box cover (1) and the lower box cover (2) are both provided with locking devices (10); the locking devices (10) are arranged at the corners of the upper box cover (1) and the lower box cover (2); the locking device (10) comprises a fixed block (3) and a telescopic sheet (4), the fixed block (3) is arranged on the cover surfaces of the upper box cover (1) and the lower box cover (2), and a through groove (11) is formed in the fixed block (3); the telescopic piece (4) is movably inserted into the through groove (11) of the fixed block (3), and the telescopic piece (4) is not stretched out of the control range of the fixed block (3); the head of the telescopic sheet (4) is provided with a connecting hole (6) and the like.

However, the fishing platforms are portable, i.e. they need to be portable for good use, and neither do they use a fixed fishing platform to move around, so that one of the problems to be considered in designing underwater fishing platforms is portability.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists among the above-mentioned technique, the utility model provides a scalable folding angle a major structure, should angle a major structure and can stretch out and draw back folding, the people of being convenient for carry and use.

Another object of the utility model is to provide a scalable folding platform major structure that angles should angle a major structure frame structure and fold in, can reduce the occupation space who angles the platform main part effectively, can fold into the box moreover, and portable also makes things convenient for people to assemble fast when using.

To achieve the above object, the present invention is implemented as follows:

a telescopic and foldable fishing platform main body structure comprises a frame-shaped gallery connection device, a connection mechanism and a shore connection mechanism,

the connecting mechanism is used for extending out and connecting the frame-shaped gallery device to the buoyancy device so as to float the frame-shaped gallery device through the buoyancy device;

the corridor connection device is provided with a connection mechanism at the front part and a shore connection mechanism at the rear end, plays a role in connection and can be used as a platform for supporting people to perform fishing;

and the shore connecting mechanism is connected to the corridor connecting device and connects the corridor connecting device to the shore.

The corridor connection device is supported by the buoyancy device, people can stand or sit on the corridor connection device, and meanwhile, the corridor connection device is connected to the shore through the fixing mechanism, so that one end of the fishing platform is connected with the shore, and the other end of the fishing platform can penetrate into the water, and a good fishing platform is provided for people; the corridor that the frame shape connects the device, make the anterior coupling mechanism who connects can take in the corridor that the frame shape connects in the device, the bank mechanism that connects of rear portion simultaneously also can draw in with the corridor that the frame shape connects in the device, make this platform of fishing convenient to draw in from this and carry.

The frame-shaped corridor connection device comprises a table panel and a support frame, wherein the table panel is laid on the support frame so as to support a human body; the front part of the supporting frame is hinged with a connecting mechanism, the rear part of the supporting frame is hinged with a shore connecting mechanism, and the width of the shore connecting mechanism are smaller than that of the supporting frame through the side edges so as to be folded in the supporting frame.

Furthermore, a plurality of support rods are transversely arranged in the support frame, and the support rods are used for strengthening the structure of the support frame and supporting the table panel together with the support frame.

Furthermore, the support frame is provided with two small frames which are hinged together through hinges to form the support frame, wherein the front part of one small frame is hinged with a connecting mechanism, and the rear part of the other small frame is hinged with a bank connecting mechanism.

Furthermore, the connecting mechanism at least comprises a connecting support and a cross rod, the front end of the supporting frame is provided with the connecting support which extends downwards, the connecting support is connected with the cross rod, and the cross rod is connected with the air bag of the buoyancy device, so that the supporting frame can float.

Further, still be provided with the diagonal draw bar between horizontal pole and the linking bridge, strengthen the structure steadiness of horizontal pole and linking bridge through the diagonal draw bar.

Furthermore, the cross rod, the diagonal draw bar and the connecting bracket are connected through fasteners so as to be convenient to disassemble and assemble.

Furthermore, in order to strengthen the connection strength between the connecting support and the supporting frame, the lower part of the supporting frame is provided with a strengthening support which is hinged on the supporting frame and extends out obliquely to be connected with the connecting support.

Furthermore, the two reinforcing supports extend out, and the lower parts of the two reinforcing supports are connected through the anti-swing cross rod, so that the reinforcing supports can withstand the swing of wind waves.

Furthermore, the cross rods are provided with a plurality of sections which are nested together and can be folded, so that the space after folding is reduced, and the folding and carrying are convenient.

Furthermore, the front end of the supporting frame is hinged with a telescopic connecting support, and the telescopic connecting support can increase the connecting length of the supporting frame and realize the connection with the connecting mechanism.

Furthermore, the telescopic connecting support is connected to the upper end of the connecting mechanism through the containing joint, the cross rods are connected to two sides of the connecting mechanism, connection with the buoyancy device is achieved, and the upper end is connected with the corridor connection device.

Furthermore, an inclined connecting support extends out of the support frame in a hinged mode, the upper end of the inclined connecting support is connected to the bottom of the support frame, the inclined connecting support extends out of the support frame in a hinged mode, and the lower end of the inclined connecting support is connected to the lower portion of the connecting mechanism.

The buoyancy device is usually made of inflatable air bags, and the air bags are provided with a plurality of air bags which are connected together to form the buoyancy device. Generally, cross rods are arranged between the air bags, the two air bags are connected together through the cross rods, the two groups of cross rods are hinged to two sides of the connecting mechanism, and the 2-4 air bags can form a group of buoyancy devices through butt joint of the connecting mechanism.

The horizontal pole can have a plurality of sections, and a plurality of sections horizontal pole cover is in the same place, can contract to reduce the space after drawing in, cup jointing of a plurality of sections horizontal pole is realized through the marble, and simultaneously, in order to increase the steadiness of horizontal pole structure, be provided with oblique pull rod between horizontal pole and the coupling mechanism, so that adjust, oblique pull rod utilizes inclined plane angle triangle form like this, forms the bearing structure of high strength. One end of the diagonal draw bar is hinged with the connecting mechanism, the other end of the diagonal draw bar is connected with the cross bar, the diagonal draw bar can also be designed into a multi-section structure, the diagonal draw bar has a plurality of sections, and the plurality of sections of diagonal draw bars are mutually nested together.

The cross sections of the cross rods and the diagonal draw bars are U-shaped, so that the structure is light and convenient for telescopic adjustment among multi-section structures.

The shore connection mechanism comprises a grounding support and a positioning device, wherein the grounding support is hinged to the supporting frame and provided with an outer wall, a grounding hole is formed in the outer wall, and the positioning device penetrates through the grounding hole and is fixed on the shore. The arrangement of the grounding hole enables the grounding support and the positioning device to be separated, and the occupied space when the device is folded is reduced.

Further, the grounding support is of a U-shaped structure so as to be convenient to fold in the supporting frame, the two sides of the grounding support are hinged walls, the middle of the grounding support is an outer wall, the hinged walls are connected to the two ends of the outer wall to form the U-shaped structure, the hinged walls are used for being hinged with the supporting frame, and the outer wall is used for arranging a positioning device.

Furthermore, the positioning device is provided with a bearing part and an inserting rod, the bearing part is arranged at the upper part of the inserting rod, and the bearing part is disc-shaped so as to be positioned above the grounding hole when the inserting rod passes through the grounding hole, so that the positioning device can be inserted into the ground and pulled out of the ground.

The porch device, in particular the support frame, can also be provided with a seat for the fisherman to use.

The utility model has the advantages that:

the utility model discloses the platform major structure that angles that realizes can stretch out and draw back foldingly, reduces effectively and angles the occupation space of platform main part, can fold into the box moreover, and portable also makes things convenient for people to assemble fast when using.

Drawings

Fig. 1 is an expanded schematic diagram of a first implementation of the present invention.

Fig. 2 is an exploded view of a first implementation of the present invention.

Fig. 3 is a schematic diagram of the first implementation of the present invention after being folded.

Fig. 4 is a schematic diagram of the bank connecting mechanism of the present invention.

Fig. 5 is a schematic diagram of a connection mechanism implemented by the present invention.

Fig. 6 is a schematic view of the cross bar and the diagonal draw bar of the present invention.

Fig. 7 is a schematic view of the cross bar of the present invention being folded on one side of the connecting bracket.

Fig. 8 is a side view of the connecting bracket and the supporting frame after the utility model is folded.

Fig. 9 is a schematic view of the left side frame after the utility model is folded.

Fig. 10 is a schematic view of the main structure of the fully furled device of the present invention.

Fig. 11 is an expanded schematic view of a second implementation manner of the present invention.

Fig. 12 is an exploded view of a second implementation of the present invention.

Fig. 13 is a schematic view of a connection mechanism implemented by the present invention.

Fig. 14 is a schematic view showing the cross bar and the diagonal member of the present invention.

Fig. 15 is a schematic view of the cross bar of the present invention being folded on one side of the connecting bracket.

Fig. 16 is a side view of the connection bracket and the support frame after the present invention is folded.

Fig. 17 is a schematic view of the present invention being folded in the supporting frame.

Fig. 18 is an expanded schematic view of a third implementation of the present invention.

Fig. 19 is a use state diagram of the third implementation manner of the present invention.

Fig. 20 is an exploded view of a third implementation manner of the present invention.

Fig. 21 is a schematic diagram of a third implementation of the present invention after being folded.

Detailed Description

In order to make the present invention clearer, the present invention will be further described with reference to the accompanying drawings.

Fig. 1, 2 and 3 are schematic structural views of a first embodiment of the present invention.

The utility model realizes a main structure of a telescopic and foldable fishing platform, which comprises a connecting mechanism 3, a gallery connecting device 2 and a shore connecting mechanism 1, wherein;

the scheme connecting mechanism 1 comprises a grounding support 11 and a positioning device 12, wherein the grounding support 11 is connected to a supporting frame 22, a grounding hole 111 is formed in the grounding support, and the positioning device 12 penetrates through the grounding hole 111 and is fixed on the shore. The grounding hole 111 is arranged, so that the grounding bracket 11 and the positioning device 12 can be separated, and the occupied space in folding is reduced.

Referring to fig. 3, the grounding bracket 11 is U-shaped so as to be folded and supported in the supporting frame, specifically, the two sides of the grounding bracket 11 are hinged walls 113, the middle is an outer wall 112, the hinged walls 113 are connected to the two ends of the outer wall to form a U-shaped structure, and the outer wall 112 is provided with a grounding hole 111 for installing the positioning device 12.

The positioning device 12 has a receiving portion 121 and an insertion rod 122, the insertion rod 122 is rod-shaped, the receiving portion 121 is provided on the upper portion of the insertion rod 122, and the receiving portion 121 is disk-shaped so as to be positioned above the ground hole 111 when the insertion rod 12 passes through the ground hole 111, so that the positioning device 12 can be inserted into and pulled out of the ground.

The corridor device 2 is provided with two small frames, wherein one small frame is a left side frame 22, the other small frame is a right side frame 21, the two small frames are hinged together through hinges 27 to form a supporting frame 2, the front part of the left side frame 22 is hinged with a connecting mechanism 3, and the rear part of the right side frame 21 is hinged with a shore connecting mechanism 1.

The table board panel 24 is laid on the left side frame 22 and the right side frame 21, and the table board panel 24 has plane bearing capacity and bearing function of strengthening whole compression resistance and stability effect, so that the support for the human body is formed. The left side frame 22 and the right side frame 21 are hollow and light in weight, and have high strength bearing capacity.

The front end of the left side frame 22 is provided with a telescopic connecting support 25, the telescopic connecting support 25 can be stretched to form a triangular stress mechanism connecting frame, and the telescopic connecting support 25 can increase the connecting length of the supporting frame 22 and realize the connection with the connecting mechanism 3.

In a normal state, the telescopic connecting bracket 25 is connected to the upper end of the connecting bracket 33 through the containing joint 332, the lower frame 336 of the connecting bracket 33 is connected with the oblique connecting bracket 26, the oblique connecting bracket 26 forms a triangular shape by utilizing an oblique angle to form a high-strength rod force device, and the interior of the device is hollow and light and can contain external mechanisms; the diagonal connecting bracket 26 is in turn diagonally connected to the bottom surface of the support frame 22, thereby achieving a stable connection of the support frame 22 with the buoyancy device 3, enabling the buoyancy device 3 to stably support the corridor device 2.

The connecting bracket 33 is implemented by a circular tube. In other implementations, the connecting bracket may also be implemented by a square tube.

Specifically, the inclined connecting bracket 26 is extended from the lower portion of the supporting frame 22, the upper end of the inclined connecting bracket 26 is connected to the bottom of the supporting frame 22, and the lower end thereof is connected to the lower frame 336 of the connecting bracket 33.

The supporting frame 22 has a structural form of a plurality of supporting frames, and two supporting frames are spliced together through splicing pieces 24 to form an integral supporting frame 22, wherein the splicing pieces 24 can fix the frames to be butted, so that the bearing capacity of the supporting frame is enhanced, and the supporting frame is balanced and stable; each supporting frame is of a square structure, a plurality of supporting rods 23 are arranged in each supporting frame, the supporting rods 23 are used for strengthening the structure of the supporting frame 22, the supporting frames are hollow and light in the interior, the bearing capacity is high in strength, and the plane is strengthened and does not deform under stress; the support bar 23 generally supports the deck panel 21 together with the support frame 22.

According to the length requirement of the gallery device 2, a plurality of frames 21, 22 can be arranged, and the frames 22 can be spliced together through hinges 27.

The connecting mechanism 3 comprises an anti-swing reinforcing rod 31, cross rods 32, connecting supports 33, diagonal rods 34, upper joints 35 and lower joints 36, wherein the cross rods 32 are used for connecting the air bags together, and the two groups of cross rods 32 are butted through the connecting supports 33.

The cross rod 32 generally has multiple sections, 2 sections are shown in the figure, the 2 sections of the cross rod 32 are nested together, and two sections of the cross rod 32 are nested together in the figure and can be contracted, so that the space after being folded is reduced, and the folding and carrying are convenient; a linking bridge 32 both ends all are connected with two sections horizontal poles 32, and horizontal pole 32 utilizes horizontal pole triangle joining force to form the high strength bearing capacity, and inside can be hollow to the lightweight, scalable, folding, rotatory, fixed, accomodate, in-service use, the quantity of horizontal pole 32 can be adjusted according to actual need. In order to enhance the connection structure of the cross rod 32 and the connecting support 33, a diagonal draw bar 34 which is diagonally drawn is further arranged between the cross rod 32 and the connecting support 33, the diagonal draw bar 34 can also be designed into a multi-section structure for convenient adjustment, thus the diagonal draw bar 34 forms a high-strength bar force device by utilizing the triangular shape of the inclined angle, and the interior of the high-strength bar force device can be made into a hollow, light and telescopic adjusting position.

The lower part of the connecting bracket 33 is sleeved and connected with the oblique connecting bracket 26, and the oblique connecting bracket 26 is used for reinforcing the connection relation with the supporting frame 2.

The upper joint 35 is connected to the inner end of the diagonal member 34, the lower joint 36 is disposed at the inner end of the cross member 32, and the upper joint 35 and the lower joint 36 allow the diagonal member 34 and the cross member 32 to be connected to the connecting bracket 33. The effect of adjusting the height of the corridor connection device 2 can be achieved by adjusting the position of the upper joint 35 and the lower joint 36.

The upper parts of the two side frames 335 are provided with connectors 331, the connectors 331 are connected with rotary containing joints 332, the rotary containing joints 332 are hollow and light in the interior, and the interior can be telescopic, foldable and rotatable; the connecting bracket 33 and the telescopic connecting bracket 25 are connected by the rotary accommodating joint 332, and the rotary accommodating joint 332 is fixed by the fixing block 333, so that the fixing block 333 can be fixed, positioned, connected, and sealed by a pull-and-insert type.

In order to strengthen the utility model discloses an intensity, an anti stiffener 32 of swaing is connected in the horizontal pole 32 of linking bridge 33 both sides from the side, makes horizontal pole 32 can bear certain horizontal pulling force, avoids being damaged.

Referring to fig. 5-7, when the connector 331 is withdrawn, the rotary connector 332 is disengaged to disengage the connecting bracket 33 from the telescopic connecting bracket 25, and then the upper connector 35 is disengaged to slide the upper connector 35 down along the connecting bracket 33 to the lower portion of the connecting bracket 33 (shown in fig. 6). Because the multiple sections of the cross rods 32 and the diagonal draw bars 34 are connected through the marble, as shown in point B in fig. 6, the marble can be pressed to fold the multiple sections of the cross rods 32 and the diagonal draw bars 34, the connection between the cross rods 32 and the diagonal draw bars 34 is realized through the rotating shaft, as shown in point a in fig. 6, and the cross rods 32 are in a U-shaped structure, so the diagonal draw bars 34 can be folded in the U-shaped structure of the cross rods 32.

Meanwhile, the anti-sway reinforcement bar 31 on the cross bar 32 is removed, and the anti-sway reinforcement bar 31 is additionally placed in the support frame 2, as shown in fig. 3.

The upper joint 35 and the lower joint 36 are hinged (this is prior art and will not be described in detail), and then the upper joint 35 and the lower joint 36 are folded to arrange the cross bar 32 and the connecting bracket 33 side by side, so as to form the folded state shown in fig. 7.

In fig. 8, the connecting bracket 33 is still hinged to the diagonal connecting bracket 26, and the diagonal connecting bracket 26 is hinged to the left side frame 22 through the shaft 28, so that the connecting bracket 33 and the diagonal connecting bracket 26 can be folded together in the left side frame 22, and the structure shown in fig. 9 is formed.

As shown in fig. 3, after the shore connecting mechanism 1 is also folded in the right side frame 21, the left side frame 22 and the right side frame 21 can be folded to finally form the structure shown in fig. 10, at this time, one end of the supporting frame 2 has a handle 8 for pulling, and at the same time, the other end of the supporting frame 2 is connected with a roller 6 through a support leg 6, so as to transport and carry the main structure.

The side of the supporting frame 2 can be provided with a handle for convenient extraction.

The air bag 7 can be folded in the left side frame 2 after being deflated.

Fig. 11 and 12 are schematic structural views of a second embodiment of the present invention.

In this embodiment, the main structure of the fishing platform which can be telescopically folded still comprises a connecting mechanism 3, a corridor connection device 2 and a shore connection mechanism 1, wherein;

the scheme connecting mechanism 1 comprises a grounding support 11 and a positioning device 12, wherein the grounding support 11 is connected to a supporting frame 22, a grounding hole 111 is formed in the grounding support, and the positioning device 12 penetrates through the grounding hole 111 and is fixed on the shore. The grounding hole 111 is arranged, so that the grounding bracket 11 and the positioning device 12 can be separated, and the occupied space in folding is reduced. The structure of the land docking mechanism 1 is the same as that of the first embodiment, and will not be described herein.

The corridor connection device 2 comprises a table board panel 21 and a support frame 22, wherein the table board panel 21 has plane bearing capacity and a bearing function of strengthening the whole compression-resistant stable effect, and the table board panel 21 is paved on the support frame 22 so as to form support for a human body. The supporting frame 22 is hollow and light, has high bearing capacity and can be folded.

The front end of the support frame 22 is provided with a telescopic connecting support 25, the telescopic connecting support 25 can be stretched to form a triangular stress mechanism connecting frame, and the telescopic connecting support 25 can increase the connecting length of the support frame 22 and realize the connection with the buoyancy device 3.

Specifically, the telescopic connecting bracket 25 is connected to the upper end of the connecting bracket 33 through the bracket connecting fastener 31, the inclined connecting bracket 26 extends out of the lower part of the supporting frame 22, the upper end of the inclined connecting bracket 26 is connected to the bottom of the supporting frame 22 and extends out in an inclined manner, the inclined connecting bracket 26 is connected to the side wall of the connecting bracket 33, the inclined connecting bracket 26 forms a triangular shape by utilizing an inclined angle to form a high-strength bar force device, and the interior of the device is hollow and light and can accommodate an external mechanism; thereby a stable connection of the support frame 22 with the buoyancy means 3 is achieved, enabling the buoyancy means 3 to stably support the corridor connection means 2.

The supporting frame 22 has a structural form of a plurality of supporting frames, and two supporting frames are spliced together through splicing pieces 24 to form an integral supporting frame 22, wherein the splicing pieces 24 can fix the frames to be butted, so that the bearing capacity of the supporting frame is enhanced, and the supporting frame is balanced and stable; each supporting frame is of a square structure, a plurality of supporting rods 23 are arranged in each supporting frame, the supporting rods 23 are used for strengthening the structure of the supporting frame 22, the supporting frames are hollow and light in the interior, the bearing capacity is high in strength, and the plane is strengthened and does not deform under stress; the support bar 23 generally supports the deck panel 21 together with the support frame 22.

According to the length requirement of the corridor connection device 2, a plurality of supporting frames 22 can be arranged, and the supporting frames 22 are spliced together through splicing pieces 24.

The splice 24 includes a detent steel plate 241, a reinforcing mechanism 242, a detent 243, and a detent positioning mechanism 244. The bayonet steel sheet 241 ensures that the table top is connected and fixed after being opened, has high-strength bearing butt joint capacity, is provided with a plurality of bayonet holes, the bayonet 243 can be inserted into the bayonet holes, the bayonet positioning mechanism 244 positions the bayonet 243, the position of the bayonet 243 can be adjusted by pushing the bayonet 243 to be inserted into the bayonet holes, and when the bayonet 243 is inserted into the bayonet holes, the bayonet steel sheet 241 can not move by propping against the bayonet holes, so that the support frame 22 forms an opened stable state; when the latch 243 is pulled out, the latch of the latch steel sheet 241 is released, and the latch steel sheet 241 is released, so that the support frame 22 can be folded.

The reinforcing mechanism 242 is a member which can reinforce the frame profile damaged by friction of the bayonet steel sheet and has high strength stress.

The connecting mechanism 3 comprises a bracket connecting fastener 31, a cross bar 32, a connecting bracket 33, a diagonal draw bar 34, an inner slide bar 35, a vertical bar 36 and a reinforcing fastener 37.

Wherein, the horizontal pole 32 links together two adjacent gasbags, and two sets of horizontal poles 32 dock through linking bridge 33, like this, can constitute a set of buoyancy device with four gasbags.

The cross rod 32 is provided with a plurality of sections, and as shown in the figure, two sections of cross rods 32 are nested together and can be contracted, so that the space after being folded is reduced, and the folding and carrying are convenient; a linking bridge 33 (be connected with the horizontal pole through inside slide bar 35) both ends all are connected with two sections horizontal poles 32, and horizontal pole 32 utilizes horizontal pole triangle joining power to form the high strength bearing capacity, and is inside can be hollow to the lightweight, scalable, folding, rotatory, fixed, accomodate, in the use, the quantity of horizontal pole 32 can be adjusted according to actual need. In order to strengthen the connection structure of the cross bar 32 to the internal sliding bar 35 (actually, the connection bracket 33 is connected), the cross bar 32 is further provided with a diagonal draw bar 34 which is diagonal drawn at the internal sliding bar 35, one end of the diagonal draw bar 34 is connected to the cross bar 32, and the other end is connected to the internal sliding bar 35; the diagonal draw bar 34 can also be designed into a multi-section structure for convenient adjustment, so that the diagonal draw bar 34 forms a high-strength bar force device by utilizing the triangular shape of the inclined angle, and the interior of the high-strength bar force device can be made into a hollow and light telescopic adjusting position.

In order to reinforce the strength of the diagonal members 34, vertical members 36 are further provided below the diagonal members 34, and the vertical members 36 support the diagonal members 34 to reinforce the support strength.

The connecting bracket 33 is a frame-shaped structure with a U-shaped cross section, wherein the side wall of the connecting bracket 33 is provided with an opening, an inner sliding rod 35 is embedded in the side wall, and meanwhile, a reinforcing buckle 37 is further arranged on the side wall. Inside slide bar 35 is section bar pipe position, it adjusts from top to bottom to have the stationarity, the effect of support height arbitrary location, inside slide bar 35 can slide from top to bottom along two lateral walls, slide to certain position, detain 37 through the enhancement that sets up on the lateral wall and fix, it is provided with a plurality ofly to strengthen detaining 37 on the lateral wall, can pass the lateral wall and insert inside slide bar 35, can detain 37 and inside slide bar 35's position cooperation through strengthening and realize the adjustment of inside slide bar 35 and linking bridge 33 fixed position, because inside slide bar 35 and horizontal pole 32, oblique pull rod 34 is connected, adjustment fixed position is just adjustment linking bridge 33's height, thereby can satisfy platform angular adjustment's needs, it is more comfortable when making people fish.

The top end of the connecting bracket 33 can be embedded with a bracket connecting fastener 31, and the bracket connecting fastener 31 connects the connecting bracket 33 and the telescopic connecting bracket 25 and has the functions of rotary fixing, positioning, connecting and sealing.

In this implementation, the connecting bracket 33 is implemented by a square tube.

As shown in fig. 13, the cross bar 32 has multiple sections, which can be connected by a marble, and the cross bar 32 can be folded by pressing the marble.

The multiple sections of the diagonal draw bars 34 are connected through a rotating shaft, and meanwhile, the connecting part of the rotating shaft is also connected with a vertical rod 36, and when the diagonal draw bars 34 are folded, the vertical rod 36 is pushed and pulled to release the diagonal draw bars 34; the oblique pull rod 34 is connected with the horizontal pole 32 through the slip knot and is realized, and the slip knot is fixed at the tip of oblique pull rod 34 to inlay in horizontal pole 32, can slide in horizontal pole 32, draw in and drive oblique pull rod 34 at any time and contract.

The cross bar 32 and the diagonal members 34 are U-shaped, such that the diagonal members 34 can be folded within the cross bar 32, and the vertical members 36 can also be folded within the diagonal members 34, as shown in fig. 14.

Thus, pushing the cross bar 32 upward all the way can completely collapse the diagonal draw bar 34 in the cross bar 32 and collapse the cross bar 32 into the connecting bracket 33, resulting in the state shown in fig. 15.

As shown in fig. 16 and 17, at this time, the connecting bracket 33 is still hinged to the oblique connecting bracket 26, and the oblique connecting bracket 26 is hinged in the supporting frame 22 through a shaft, so that the connecting bracket 33 and the oblique connecting bracket 26 can be folded in the supporting frame 22 together to form the structure shown in fig. 17.

The folding of the shore receiving mechanism 1 is the same as the implementation manner shown in fig. 1, and the detailed description is omitted here.

Other structures, such as rollers, handles, etc. are the same as those shown in fig. 10.

Fig. 18, 19, and 20 are schematic structural views of a third embodiment of the present invention.

In this embodiment, the main structure of the fishing platform which can be telescopically folded still comprises a seat 4, a connecting mechanism 3, a corridor connection device 2 and a landing mechanism 1, wherein;

connect a case mechanism 1, including ground connection support 11, positioner 13, ground connection support 11 is connected in braced frame 21, is provided with ground connection hole 12 on it, positioner 13 passes ground connection hole 12, and positioner 13's lower part is provided with antiskid catch tray 14 and plug-in components 15, and plug-in components 15 can insert and locate the soil on bank in, and antiskid catch tray 14 forms a firm holding surface, and the plug-in components 15 of being convenient for are fixed in the bank. The grounding bracket 11 can be folded in the supporting frame 21, and meanwhile, the positioning device 12 is separated from the grounding bracket 11 and independently arranged in the supporting frame 21, as shown in fig. 21, so that the occupied space when folded is reduced.

The corridor connection device 2 comprises a table board panel 24, a support frame 21 and a transverse support rod 22, wherein the support frame 21 is provided with a left part and a right part as shown in fig. 21, so that the folding volume can be reduced; the support frames of the left part and the right part are connected through hinges, the joint part is provided with a bayonet 23, after the left part and the right part are opened, the left part and the right part are fixed through the bayonet 23 to form a platform, and a table top panel 24 is laid on the platform. The specific structure of the corridor device 2 may be the same as the second embodiment, and will not be described herein.

The table panel 24 has plane bearing capacity and bearing function of strengthening whole compression resistance and stability, and the table panel 21 is laid on the supporting frame 21, so that the supporting for the human body is formed. The supporting frame 21 is hollow and light, has high strength bearing capacity and can be folded. The plurality of transverse support rods 22 are uniformly arranged between the support frames 21 to reinforce the structure of the support frames 21.

The outer wall of the supporting frame 21 is provided with a fish protector fixing mechanism 26 for hanging a fish protector.

In order to strengthen the support of the buoyancy device to the support frame 21, the support frame 21 is obliquely hinged with a reinforcing bracket 28, the lower parts of the reinforcing brackets 28 are connected through an anti-swing cross rod 29, so that the reinforcing bracket 28 can bear the swing of wind and waves, and the reinforcing bracket 28 is connected with the anti-swing cross rod 29 through a hinged connection structure and can be folded in the support frame 21.

The two ends of the anti-swing cross rod 29 are also sleeved with a connecting support 33 and a cross rod 32, and the upper part of the connecting support 33 is connected with a diagonal draw bar 31 through a fastener 34.

The connecting mechanism 3 comprises a bracket diagonal draw bar 31, a cross bar 32, a connecting bracket 33, a diagonal draw bar 34 and a fastener 34.

The cross rod 32 is provided with a plurality of sections, and as shown in the figure, two sections of cross rods 32 are nested together and can be contracted, so that the space after being folded is reduced, and the folding and carrying are convenient; a linking bridge 33 both ends all are connected with two sections horizontal poles 32, and horizontal pole 32 utilizes horizontal pole triangle joining force to form the high strength bearing capacity, and inside can be hollow to the lightweight, scalable, folding, rotatory, fixed, accomodate, in-service use, the quantity of horizontal pole 32 can be adjusted according to actual need. A diagonal draw bar 31 is obliquely drawn at the outer end part of the transverse bar 32, one end of the diagonal draw bar 31 is connected with the transverse bar 32, and the other end is connected with a connecting bracket 33; the diagonal draw bar 31 may also be designed as a multi-section structure, in this embodiment, the diagonal draw bar 31 is also designed as two sections of circular pipes, which can be contracted together for folding. The diagonal draw bars 31, the cross bars 32 and the connecting brackets 33 form a triangular supporting shape to form a high-strength bar force device.

For the convenience of assembly and disassembly, the diagonal draw bar 31, the cross bar 32 and the connecting bracket 33 are connected by a fastener 34.

When the support frame 21 is folded, as shown in fig. 21, the reinforcing support 28 is folded in the support frame 21, the diagonal draw bar 31 and the cross bar 32 are detached and placed in the right side area of the support frame 21, the grounding support 11 is folded in the side wall of the support frame 21, and the positioning device 13 and the anti-skid grab tray 14 are detached and placed in the right side area of the support frame 21 and fixed by the binding band 8.

The seat 4 is folded up and placed in the left region of the support frame 21, and the airbag 7 is placed thereon and fixed by the strap 8.

An air cylinder 6 may be provided for inflating the air bag 7, and the air cylinder 6 is usually disposed together with the diagonal rods 31 and the cross rods 32.

The outer wall of the supporting frame 21 is provided with a handle 5, which is convenient for people to carry.

In a word, the utility model discloses a structure connects the device and connects a plurality of parts concatenations of bank mechanism to form by coupling mechanism, corridor, and this kind of structural style convenient to detach, and the equipment during use makes things convenient for people to carry and use.

The above disclosure is only for the specific embodiments of the present invention, but the present invention is not limited thereto, and any changes that can be made by those skilled in the art should fall within the protection scope of the present invention.

Claims (7)

1. A telescopic and foldable fishing platform main body structure is characterized by comprising a frame-shaped corridor connection device, a connection mechanism and a shore connection mechanism,

the connecting mechanism is used for extending out and connecting the frame-shaped gallery device to the buoyancy device so as to float the frame-shaped gallery device through the buoyancy device;

the corridor connection device is provided with a connection mechanism at the front part and a shore connection mechanism at the rear end, plays a role in connection and can be used as a platform for supporting people to perform fishing;

the shore connecting mechanism is connected to the corridor connecting device and connects the corridor connecting device to the shore; the frame-shaped corridor connection device comprises a table-board panel and a supporting frame, wherein the table-board panel is paved on the supporting frame; the front part of the supporting frame is hinged with a connecting mechanism, and the rear part of the supporting frame is hinged with a bank connecting mechanism;

the connecting mechanism at least comprises a connecting support and a cross rod, the front end of the supporting frame is provided with the connecting support which extends downwards, and the connecting support is connected with the cross rod;

the shore connecting mechanism comprises a grounding support and a positioning device, wherein the grounding support is connected to the supporting frame and provided with a grounding hole, and the positioning device penetrates through the grounding hole.

2. The main structure of a telescopic fishing platform according to claim 1, wherein a diagonal member is further provided between the cross bar and the connecting bracket.

3. The main body structure of a telescopic and foldable fishing platform according to claim 2, wherein the cross bar, the diagonal member and the connecting bracket are connected by a fastener.

4. The main body structure of an extendable and collapsible fishing platform as claimed in claim 1, wherein the lower portion of the supporting frame is provided with a reinforcing bracket, which is hinged to the supporting frame and extends obliquely to connect with the connecting bracket.

5. The main body structure of a retractable and foldable fishing platform as claimed in claim 4, wherein there are two extending reinforcing brackets, and the two reinforcing brackets are connected at the lower part by an anti-sway cross bar.

6. A main body structure of a telescopic and foldable fishing platform as claimed in claim 2, wherein the cross bar has a plurality of sections, the plurality of sections of cross bar are connected together by sleeving, and the inclined pull rod has a plurality of sections, the plurality of sections of inclined pull rod are nested with each other.

7. The telescopically collapsible fishing platform body structure according to claim 1, wherein a seat is further provided on said corridor connection means.

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