CN220674885U - Detachable fishing platform with integrated plate and beam and reinforcing plate - Google Patents

Abstract

The utility model provides a plate-beam integrated and reinforcing plate detachable fishing platform, relates to the technical field of fishing facilities, and aims to solve the technical problems that in the prior art, a conventional fishing platform is poor in bearing capacity and difficult to ensure rigidity and strength due to the fact that holes are formed in structural parts such as a table top and the like to form a light hollowed-out plate. The device comprises a rack and a reinforcing plate, wherein the rack comprises a rack frame and more than one hollowed-out plate, hollowed-out holes are formed in the hollowed-out plate, and the hollowed-out plate and a longitudinal side beam corresponding to the rack frame are integrally formed; the reinforcing plate is arranged on the rack and is positioned above the hollowed-out plate, and the disassembly and assembly direction of the reinforcing plate is parallel to the length direction of the rack or the width direction of the rack. The utility model increases the rigidity and strength of the fishing platform by adding the reinforcing plate on the rack. In addition, the weight of the hollowed-out plate can be reduced, so that the whole weight of the fishing platform can be unchanged or changed less even if the reinforcing plate is added.

Description

Detachable fishing platform with integrated plate and beam and reinforcing plate

Technical Field

The utility model relates to the technical field of fishing facilities, in particular to a plate-girder integrated fishing platform with a detachable reinforcing plate.

Background

The fishing is an outdoor activity project suitable for the old and the young, not only can the participants leave the room and approach to nature, but also the participants can grind heartiness and ceramic feelings, so that the fishing is more widely concerned and actively enthusiasm is participated. The fishing mode of setting up a temporary platform in or beside a water area by means of a fishing facility has been accepted by a plurality of fishing participants as a cradling because of high hooking rate and more technical content. However, most fishing environments are outdoor or even outdoor, fishing tackles, baits and the like are carried along, and urgent demands are made on portability and light weight of fishing facilities for building temporary platforms.

In order to pursue light weight and portability, many technical schemes (such as CN212232776U and the like) propose to form a light hollowed-out plate by forming holes in structural members such as a table top and the like, and also in other technical schemes (such as CN216533381U and the like), the material of the fishing table is selected to be light nonmetal such as engineering plastics, glass fibers, carbon fibers and the like. However, fishing is required to be carried out in a complex or even severe outdoor environment, and the fishing platform is required to bear the heavy pressure of a fisher and assembly, and the reliable rigidity and strength are difficult to ensure whether the structure is adjusted to be a light hollow plate or the material is selected to be light nonmetal.

Accordingly, the present inventors have found that the prior art has at least the following technical problems: holes are formed in structural members such as a table top to form a light hollowed-out plate, so that the bearing capacity of the light hollowed-out plate is poor, the rigidity and the strength are difficult to ensure, namely, the light and portable high requirements are difficult to realize on the premise of ensuring the rigidity and the strength.

Disclosure of Invention

The utility model aims to provide a plate-beam integrated fishing platform with a detachable reinforcing plate, which solves the technical problems that the bearing capacity of the conventional fishing platform is poor and the rigidity and the strength are difficult to ensure because holes are formed on structural members such as a table top and the like to form a light hollowed-out plate in the prior art _。 The preferred technical solutions of the technical solutions provided by the present utility model can produce a plurality of technical effects described below.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a plate-beam integrated and reinforcing plate detachable fishing platform, which comprises a rack and reinforcing plates, wherein the rack comprises a platform frame and more than one hollowed-out plate, the hollowed-out plate is provided with hollowed-out holes, and the hollowed-out plate and a longitudinal side beam corresponding to the platform frame are integrally formed; the reinforcing plate set up in on the rack and be located fretwork board top, the dismouting direction of reinforcing plate is along being on a parallel with the length direction of rack or along being on a parallel with the width direction of rack.

Further, a slot structure is formed on the stand, a socket of the slot structure extends along a width direction parallel to the stand or along a length direction parallel to the stand, and the reinforcing plate can be horizontally inserted into the slot structure through the socket.

Further, the slot structure comprises a longitudinal limit bar and a transverse limit bar which are used for forming a longitudinal guide groove, longitudinal guide groove openings of the two longitudinal limit bars are opposite, the lengths of the two longitudinal limit bars are along the length direction of the rack, the longitudinal edges of the reinforcing plate are matched with the longitudinal guide groove, the lengths of the transverse limit bars are along the width direction of the rack, and the transverse limit bars are abutted against one end of the width direction of the reinforcing plate; or, the slot structure comprises a transverse limit strip and a longitudinal limit strip, wherein the transverse limit strip and the longitudinal limit strip are used for forming a transverse guide groove, the transverse guide groove openings of the two transverse limit strips are opposite, the lengths of the two transverse limit strips are along the width direction of the rack, the transverse edge of the reinforcing plate is matched with the transverse guide groove, the length of the longitudinal limit strip is along the length direction of the rack, and the longitudinal limit strip is abutted to one end of the length direction of the reinforcing plate.

Further, the table frame is formed with an outer side longitudinal side beam and a transverse side beam, the two outer side longitudinal side beams are oppositely arranged, and the two transverse side beams are oppositely arranged to form a square frame structure; the transverse limit strips are arranged on the transverse side beams or the hollowed-out plates; the longitudinal limit strips are arranged on the outer longitudinal side beams or the hollowed-out plates.

Further, the longitudinal limit bars extend to be higher than the upper top surface of the reinforcing plate for positioning the reinforcing plate only in a length direction perpendicular to the stage; or, the longitudinal limit bar extends to be higher than the upper top surface of the reinforcing plate and then bends, so as to be used for positioning the reinforcing plate in the length direction vertical to the rack and along the thickness of the reinforcing plate.

Further, the lateral stop bars extend above the upper top surface of the stiffener for positioning the stiffener only in a direction parallel to the length of the gantry; or, the transverse limit bars extend to be higher than the upper top surface of the reinforcing plate and then bend, so as to be used for positioning the reinforcing plate in the length direction parallel to the rack and along the thickness of the reinforcing plate.

Further, the socket structure further comprises a pressing plate strip, wherein the pressing plate strip is arranged on the socket side of the socket structure; the pressing plate strip is connected with the reinforcing plate and the rack through the connecting piece.

Further, one rack is provided, or more than two racks are provided, the two or more than two racks are sequentially and horizontally arranged, and the adjacent racks are hinged; the rack comprises more than two rack units, the rack units are sequentially and horizontally arranged, the arrangement direction of the rack units is perpendicular to the hinging axis of the rack, and the adjacent rack units are detachably connected; each rack unit comprises a longitudinal side beam and a hollowed-out plate, the two longitudinal side beams are oppositely arranged and connected through the hollowed-out plates, and the hollowed-out plates and the two hollowed-out plates are integrally formed; the adjacent two longitudinal side beams of the rack units are connected, the longitudinal side beam arranged on the outer side along the horizontal arrangement direction is the outer longitudinal side beam, and the transverse side beam of the rack is arranged on two sides of the rack units along the arrangement direction perpendicular to the rack units.

Further, a matching slot is formed on the outer side longitudinal side beam, and two ends of the transverse side beam are respectively inserted into the matching slots of the two outer side longitudinal side beams; and the longitudinal side beams and/or the transverse side beams are provided with lightening holes.

Further, a connecting structure is arranged between two adjacent rack units; the connecting structure comprises a horizontal plate and a vertical plate, wherein the vertical plate is arranged on the horizontal plate, two adjacent rack units are arranged, one of the rack units is fixed on the horizontal plate and is parallel to the vertical plate at intervals to form a plug-in groove, and the other rack unit is plugged in the plug-in groove.

The preferred technical scheme of the utility model can produce the following technical effects: the utility model provides a plate-beam integrated fishing platform with detachable reinforcing plates, which improves the rigidity and strength of the fishing platform by additionally arranging the reinforcing plates on the platform. In addition, the number of the hollowed holes on the hollowed plate can be further increased or/and the aperture size of the hollowed holes on the hollowed plate can be further increased, so that the weight of the hollowed plate is reduced, and the whole weight of the fishing platform can be unchanged or changed less even if the reinforcing plate is added; the hollowed-out plate and the longitudinal side beam corresponding to the table frame are integrally formed, so that the strength of the fishing table can be improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of a plate girder integrated and reinforcing plate detachable fishing platform (unfolded state) provided in embodiment 1;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view showing the structure of the hinge of two stages according to embodiment 1;

fig. 4 is an exploded schematic view of the rack unit and the side rails provided in embodiment 1;

FIG. 5 is a partial enlarged view at B in FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 4 at C;

fig. 7 is a schematic view of a structure in which a stage provided in embodiment 1 includes two stage units;

FIG. 8 is a partial enlarged view at D in FIG. 7;

fig. 9 is a schematic view showing a structure of a stage provided in embodiment 1 including three stage units;

fig. 10 is a schematic view of the structure of the plate girder integrated and reinforcing plate detachable fishing platform provided in embodiment 4 (folded state);

FIG. 11 is a schematic view showing the structure of the hinge of two stages provided in embodiment 4;

fig. 12 is an exploded schematic view of a rack unit and a cross frame of the rack provided in embodiment 4;

FIG. 13 is an enlarged view of a portion of FIG. 12 at E;

fig. 14 is a schematic view showing a structure in which two stage units provided in embodiment 4 are connected;

fig. 15 is a partial enlarged view at F in fig. 14.

100, a rack; 110. a hollowed-out plate; 111. a hollowed hole; 120. a longitudinal limit bar; 130. a transverse limit bar; 140. a lateral side beam; 150. a longitudinal side beam; 151. an outer side rail; 152. a transverse beam support bar; 160. pressing plate strips; 170. a leg mounting hole; 180. a stiffening beam; 190. a connection structure; 191. a horizontal plate; 192. a vertical plate;

110a, a rack unit;

200. a reinforcing plate;

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Some existing fishing tables are provided with holes on structural members such as a table top to form a light hollowed-out plate, so that the bearing capacity of the fishing table is poor, and rigidity and strength are difficult to ensure. Based on the above, the utility model provides a plate-beam integrated and reinforcing plate detachable fishing platform, which comprises a rack 100 and a reinforcing plate 200, wherein the rack 100 comprises a platform frame and more than one hollowed-out plates 110, the hollowed-out plates 110 are provided with hollowed-out holes 111, and the hollowed-out plates 110 and longitudinal side beams 150 corresponding to the platform frame are integrally formed; the reinforcing plate 200 is disposed on the rack 100 and above the hollowed-out plate 110, and the assembling and disassembling direction of the reinforcing plate 200 is parallel to the length direction of the rack 100 or the width direction of the rack 100.

The reinforcing plate 200 is added to the stand 100 to improve the rigidity and strength of the fishing stand. In addition, the number of the hollowed holes 111 on the hollowed plate 110 provided by the utility model can be further increased or/and the aperture size of the hollowed holes 111 on the hollowed plate can be further increased, so that the weight of the hollowed plate is reduced, and the whole weight of the fishing platform can be unchanged or changed less even if the reinforcing plate 200 is added.

Regarding the connection manner of the reinforcing plate 200 and the stand 100, the assembly/disassembly direction of the reinforcing plate 200 is convenient in a direction parallel to the length direction of the stand 100 or in a direction parallel to the width direction of the stand 100; if the reinforcing plate 200 is damaged, quick replacement can be achieved.

Regarding the hollowed-out plate 110, the hollowed-out plate 110 is integrally formed with the longitudinal side beam 150 corresponding to the platform frame, so that the strength of the fishing platform can be improved.

The following is a specific description of the "direction of attaching and detaching the reinforcing plate 200 in the direction parallel to the length direction of the stage 100 or in the direction parallel to the width direction of the stage 100: the stand 100 is formed with a socket structure in which a socket of the socket structure extends in a width direction parallel to the stand 100 or in a length direction parallel to the stand 100, and the reinforcing plate 200 can be horizontally inserted into the socket structure through the socket. The slot structure on the stand 100 limits the installation position of the reinforcing plate 200 on the stand 100.

For a specific structure of the slab-girder integrated and reinforcing-plate detachable fishing platform provided by the utility model, reference can be made to the following detailed description of specific embodiments:

example 1:

the utility model provides a plate-girder integrated and reinforcing plate detachable fishing platform, includes rack 100 and reinforcing plate 200, and wherein, rack 100 includes platform frame and fretwork board 110, and the platform frame is the aluminium frame, and fretwork board 110 is more than one, is provided with fretwork hole 111 on the fretwork board 110, and fretwork board 110 and the corresponding vertical boundary beam 150 integrated into one piece of platform frame; the reinforcing plate 200 is disposed on the stand 100 and above the hollowed-out plate 110, and the assembling and disassembling direction of the reinforcing plate 200 is parallel to the length direction of the stand 100 (the assembling and disassembling direction of the reinforcing plate 200 is parallel to the direction of the hinge shafts of the two stands 100).

The stand 100 is formed with a socket structure, and a socket of the socket structure extends in a width direction parallel to the stand 100, through which the reinforcing plate 200 can be horizontally inserted.

With respect to the "slot structure", it is specifically as follows: the slot structure comprises a longitudinal limit bar 120 and a transverse limit bar 130 for forming a longitudinal guide groove, the longitudinal guide groove openings of the two longitudinal limit bars 120 are opposite, the lengths of the two longitudinal limit bars 120 are along the length direction of the rack 100, the longitudinal edge of the reinforcing plate 200 is matched with the longitudinal guide groove, the length of the transverse limit bar 130 is along the width direction of the rack 100, and the transverse limit bar 130 is abutted against one end of the reinforcing plate 200 in the width direction.

Referring to fig. 5, longitudinal and transverse limit bars 120, 130 are illustrated.

Regarding the position of the longitudinal limit bar 120 on the gantry 100 and the position of the transverse limit bar 130 on the gantry 100, it is preferable that:

the table frame is formed with an outer side longitudinal side beam 151 and a transverse side beam 140, the two outer side longitudinal side beams 151 are oppositely arranged, and the two transverse side beams 140 are oppositely arranged to form a square frame structure; the outer side rail 151 is schematically described as follows: referring to fig. 7, the rack 100 is schematically illustrated as being provided with four longitudinal side beams 150 from left to right, with the leftmost and rightmost two longitudinal side beams 150 being outer longitudinal side beams 151.

Referring to fig. 5, the lateral stopper 130 is disposed at an outer edge of the top surface of the lateral side beam 140, and the longitudinal stopper 120 is disposed on the outer longitudinal side beam 151. When the reinforcing plate 200 is inserted into the socket structure, the reinforcing plate 200 is supported on the hollowed-out plate 110 and covers the hollowed-out plate 110.

The longitudinal stopper 120 is preferably integrally formed with the outer side rail 151.

The lateral stopper 130 is preferably integrally formed with the side rail 140. The lateral limit strips 130 extend along the longitudinal direction of the lateral side beams 140. Regarding the length of the lateral stop bars 130, care should be taken not to interfere with the longitudinal stop bars 120.

Regarding the shape of the longitudinal stopper 120, the longitudinal stopper 120 extends to be higher than the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 only in the longitudinal direction perpendicular to the stage 100, i.e., the shape of the longitudinal stopper 120 is only in contact with the end surface of the reinforcing plate 200 and not in contact with the top surface of the reinforcing plate 200, for example, the longitudinal stopper 120 has a long flat plate shape.

Alternatively, the shape of the longitudinal stopper 120 is preferably set such that the longitudinal stopper 120 is bent after extending above the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 in a direction perpendicular to the length direction of the stage 100 and along the thickness of the reinforcing plate 200, i.e., the shape of the longitudinal stopper 120 is not only in contact with the end surface of the reinforcing plate 200 but also in contact with the top surface of the reinforcing plate 200 or with a gap between the top surfaces of the reinforcing plate 200, so that the reinforcing plate 200 is limited, for example, the cross-sectional shape of the longitudinal stopper 120 is in an inverted L shape. Of course, the cross-sectional shape of the longitudinal stop bars 120 is not limited to be an inverted L shape only, so long as the shape of the longitudinal stop bars 120 achieves "positioning the reinforcing plate 200 in a direction perpendicular to the length of the rack 100 and along the thickness of the reinforcing plate 200", which is within the scope of the present utility model.

The longitudinal stopper pieces 120 on the two outer side longitudinal side beams 151 (the two outer side longitudinal side beams 151 on the same rack unit) are preferably identical in shape, but may be different in shape.

Regarding the shape of the lateral limit bar 130, the lateral limit bar 130 extends to be higher than the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 only in a direction parallel to the length of the stage 100; that is, the shape of the lateral limit bar 130 is only in contact with the end surface of the reinforcing plate 200, and is not in contact with the top surface of the reinforcing plate 200. For example, the lateral limit bar 130 has a long flat plate shape.

Alternatively, the shape of the lateral stopper 130 is preferably set such that the lateral stopper 130 is bent after extending above the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 in a length direction parallel to the stage 100 and along the thickness of the reinforcing plate 200, i.e., the shape of the lateral stopper 130 is not only in contact with the end surface of the reinforcing plate 200, but also in contact with the top surface of the reinforcing plate 200 or with a gap between the top surfaces of the reinforcing plate 200 to limit the reinforcing plate 200. Referring to fig. 2, for example, a transverse limit bar 130 is illustrated, a transverse limit groove is formed between the transverse limit bar 130 and the transverse side beam, and the free end of the transverse limit bar 130 along the length direction extends downward toward the reinforcing plate 200. Of course, the shape of the lateral stop bar 130 is not limited to that shown in fig. 2, and may be L-shaped, for example, so long as the shape of the lateral stop bar 130 achieves "positioning the reinforcing plate 200 parallel to the length direction of the rack 100 and along the thickness of the reinforcing plate 200", which is within the scope of the present utility model.

The fishing platform further comprises a pressing plate strip 160, wherein the pressing plate strip 160 is arranged at the socket side of the slot structure; the platen strip 160 is connected to the reinforcing plate 200 and the stand together by a connector. Referring to fig. 1 and 2, a platen strip 160 is illustrated. The platen 160 is disposed on the socket side of the slot structure, and the connection piece (such as a screw) sequentially passes through the platen 160, the reinforcing plate 200, the hollowed-out plate 110 and the transverse side beam 140, so that the reinforcing plate 200 is fixed on the rack.

Regarding the shape of the presser bar 160, it is preferable to provide the presser bar 160 with an L-shaped cross section, see fig. 2, with the horizontal portion of the presser bar 160 in contact with the top surface of the reinforcing plate 200.

Here, it should be noted that the cross section of the platen strip 160 is preferably configured in an L shape, and of course, the shape is not limited to an L shape, so long as it is possible to realize "the platen strip 160 is connected to the reinforcing plate 200 and the stand together by the connector", and other shapes of the platen strip are within the scope of the present utility model.

In both stages, the two platen bars 160 are located on the same side of the stages, but it is also possible to provide the two platen bars 160 on different sides of the two stages.

Regarding the number of the racks 100, the racks 100 may be provided in one, or the number of the racks 100 may be more than two, for example, two, three, or four. According to specific use conditions, the fishing platforms with different numbers of racks are selected. Two racks are illustrated in fig. 1, and two racks are illustrated in an open state. Along the hinge of the two carriages, it is possible to realise a covering of one over the other so as to assume a superimposed condition.

The rack 100 includes more than two rack units 110a, the rack units 110a are sequentially and horizontally arranged, the arrangement direction of the rack units 110a is perpendicular to the hinge axis of the rack 100, and adjacent rack units 110a are detachably connected; the number of the rack units 110a in the rack 100 may be two, three, or four, and different numbers of the rack units 110a are selected according to the specific use case. In fig. 4 and 7, it is schematically shown that one gantry 100 comprises two gantry units 110a. Referring to fig. 9, it is illustrated that one gantry 100 includes three gantry units 110a.

Each rack unit 110a comprises a longitudinal side beam 150 and a hollowed-out plate 110, wherein the two longitudinal side beams 150 are oppositely arranged and connected through the hollowed-out plates 110, and the hollowed-out plates 110 and the two hollowed-out plates 110 are integrally formed;

the longitudinal beams 150 of the adjacent two rack units 110a are connected, the longitudinal beams 150 disposed at the outer side in the horizontal arrangement direction are outer longitudinal beams 151 (see fig. 7, which illustrates that the rack 100 is provided with four longitudinal beams 150 from left to right, and the leftmost and rightmost longitudinal beams 150 are outer longitudinal beams 151), and the lateral beams 140 of the rack 100 are disposed at both sides of the rack units 110a in the arrangement direction perpendicular to the rack units 110a.

Regarding the installation of the side rails 150 and the side rails 140, referring to fig. 4 and 5, the outer side rails 151 are formed with mating slots, and both ends of the side rails 140 are respectively inserted into the mating slots of the two outer side rails 151.

The lateral longitudinal side beam 151 is provided with a lateral beam support bar 152, the length of the lateral beam support bar 152 is the same as that of the lateral longitudinal side beam 151, the lateral beam support bar 152 and the lateral longitudinal side beam 151 are integrally formed, and the lateral beam support bar 152 and the hollowed board 110 are arranged in parallel and form a matched slot therebetween. The cross section of the transverse side beam 140 is rectangular, two ends of the transverse side beam 140 are respectively inserted into the matching slots of the two outer side longitudinal side beams 151, and two ends of the transverse side beam 140 are respectively supported on transverse beam supporting bars 152 on the two outer side longitudinal side beams 151.

For the lateral side beam 140 (limit lateral side beam) provided with the lateral limit bar 130, the lateral limit bar 130 limits the depth of the insertion of the lateral side beam 140 into the mating slot; for the lateral side beam 140 where the lateral limit bar 130 is not provided, the depth of the insertion of the lateral side beam 140 into the mating slot can be limited by providing a rib on the outer edge of the top surface of the lateral side beam 140 in the length direction.

Referring to fig. 7, a plurality of reinforcing beams 180 are further disposed between the two longitudinal side beams 150 on the same rack unit 110a, the reinforcing beams 180 are used to increase the strength of the rack unit 110a, and the reinforcing beams 180 are parallel to the transverse side beams 140.

In addition, regarding "hinge connection between two stages", referring to fig. 6, it is illustrated that the longitudinal side beams 150 of two stages are connected by a hinge structure. The hinge structure may be a conventional hinge structure, and will not be described in detail here.

Referring to fig. 8, a connection structure 190 is provided between two adjacent rack units 110 a; the connection structure 190 includes a horizontal plate 191 and a vertical plate 192, the vertical plate 192 is disposed on the horizontal plate 191, and among two adjacent rack units 110a, the longitudinal side beam 150 of one rack unit 110a is fixed on the horizontal plate 191 and is disposed at an interval parallel to the vertical plate 192 to form a socket, and the longitudinal side beam 150 of the other rack unit 110a is plugged in the socket.

Referring to fig. 1, a plurality of leg mounting holes 170 are formed on the stage, the plurality of leg mounting holes 170 are provided along a circumferential direction of the stage, and the leg mounting holes 170 are formed in the stage 100 and the reinforcing plate 200.

Example 2:

unlike example 1, the following is: lightening holes are provided on the longitudinal side rail 150 and/or the lateral side rail 140. The weight reducing holes are arranged for reducing the weight of the fishing platform.

Example 3:

unlike example 1 or 2, the following are: the transverse limit strips 130 are arranged on the hollowed-out plate 110;

or/and, two longitudinal limit bars 120 are disposed on the hollowed-out plate 110 (or one of the two longitudinal limit bars 120 is disposed on the hollowed-out plate 110 and the other is disposed on the outer longitudinal side beam 151).

Example 4:

referring to fig. 10-15, a board-beam integrated and reinforcing plate detachable fishing platform comprises a rack 100 and a reinforcing plate 200, wherein the rack 100 comprises a platform frame and a hollowed-out plate 110, the platform frame is an aluminum frame, the hollowed-out plate 110 is more than one, hollowed-out holes 111 are formed in the hollowed-out plate 110, and the hollowed-out plate 110 and a longitudinal side beam 150 corresponding to the platform frame are integrally formed; the reinforcing plate 200 is disposed on the stand 100 and above the hollowed-out plate 110, and the dismounting direction of the reinforcing plate 200 is parallel to the width direction of the stand 100 (the dismounting direction of the reinforcing plate 200 is perpendicular to the direction of the hinge shafts of the two stands 100).

The stand 100 is formed with a socket structure, and a socket of the socket structure extends in a length direction parallel to the stand 100, and the reinforcing plate 200 can be horizontally inserted into the socket structure through the socket.

With respect to the "slot structure", it is specifically as follows: the slot structure comprises a transverse limit bar 130 and a longitudinal limit bar 120 which are used for forming a transverse guide groove, the transverse guide groove openings of the two transverse limit bars 130 are opposite, the lengths of the two transverse limit bars 130 are along the width direction of the rack 100, the transverse edge of the reinforcing plate 200 is matched with the transverse guide groove, the length of the longitudinal limit bar 120 is along the length direction of the rack 100, and the longitudinal limit bar 120 is abutted against one end of the length direction of the reinforcing plate 200.

Referring to fig. 11, longitudinal and transverse limit bars 120, 130 are illustrated.

Regarding the position of the longitudinal limit bar 120 on the gantry 100 and the position of the transverse limit bar 130 on the gantry 100, it is preferable that:

the table frame is formed with an outer side longitudinal side beam 151 and a transverse side beam 140, the two outer side longitudinal side beams 151 are oppositely arranged, and the two transverse side beams 140 are oppositely arranged to form a square frame structure; the outer side rail 151 is schematically described as follows: referring to fig. 14, the rack 100 is schematically illustrated as being provided with four longitudinal side beams 150 from left to right, with the leftmost and rightmost two longitudinal side beams 150 being outer longitudinal side beams 151.

Referring to fig. 11, the lateral stopper 130 is disposed at an outer edge of the top surface of the lateral side beam 140, and the longitudinal stopper 120 is disposed on one of the outer longitudinal side beams 151. When the reinforcing plate 200 is inserted into the socket structure, the reinforcing plate 200 is supported on the hollowed-out plate 110 and covers the hollowed-out plate 110.

The longitudinal stopper 120 is preferably integrally formed with the outer side rail 151.

The lateral stopper 130 is preferably integrally formed with the side rail 140. The lateral limit strips 130 extend along the longitudinal direction of the lateral side beams 140. Regarding the length of the lateral stop bars 130, care should be taken not to interfere with the longitudinal stop bars 120.

Regarding the shape of the longitudinal stopper 120, the longitudinal stopper 120 extends to be higher than the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 only in the longitudinal direction perpendicular to the stage 100, i.e., the shape of the longitudinal stopper 120 is only in contact with the end surface of the reinforcing plate 200 and not in contact with the top surface of the reinforcing plate 200, for example, the longitudinal stopper 120 has a long flat plate shape.

Alternatively, the shape of the longitudinal stopper 120 is preferably set such that the longitudinal stopper 120 is bent after extending above the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 in a direction perpendicular to the length direction of the stage 100 and along the thickness of the reinforcing plate 200, i.e., the shape of the longitudinal stopper 120 is not only in contact with the end surface of the reinforcing plate 200 but also in contact with the top surface of the reinforcing plate 200 or with a gap between the top surfaces of the reinforcing plate 200, so that the reinforcing plate 200 is limited, for example, the cross-sectional shape of the longitudinal stopper 120 is in an inverted L shape. Of course, the cross-sectional shape of the longitudinal stop bars 120 is not limited to be an inverted L shape only, so long as the shape of the longitudinal stop bars 120 achieves "positioning the reinforcing plate 200 in a direction perpendicular to the length of the rack 100 and along the thickness of the reinforcing plate 200", which is within the scope of the present utility model.

Regarding the shape of the lateral limit bar 130, the lateral limit bar 130 extends to be higher than the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 only in a direction parallel to the length of the stage 100; that is, the shape of the lateral limit bar 130 is only in contact with the end surface of the reinforcing plate 200, and is not in contact with the top surface of the reinforcing plate 200. For example, the lateral limit bar 130 has a long flat plate shape.

Alternatively, the shape of the lateral stopper 130 is preferably set such that the lateral stopper 130 is bent after extending above the upper top surface of the reinforcing plate 200 for positioning the reinforcing plate 200 in a length direction parallel to the stage 100 and along the thickness of the reinforcing plate 200, i.e., the shape of the lateral stopper 130 is not only in contact with the end surface of the reinforcing plate 200, but also in contact with the top surface of the reinforcing plate 200 or with a gap between the top surfaces of the reinforcing plate 200 to limit the reinforcing plate 200. Referring to fig. 13, a lateral limit groove is formed between the lateral limit bar 130 and the lateral side beam, and a free end of the lateral limit bar 130 in the length direction extends downward toward the reinforcing plate 200. The shape of the lateral stop bar 130 is not limited to that shown in fig. 13, and may be L-shaped, for example, so long as the shape of the lateral stop bar 130 achieves "positioning the reinforcing plate 200 parallel to the length direction of the rack 100 and along the thickness of the reinforcing plate 200", which is within the scope of the present utility model.

The transverse limit strips 130 on the two side rails are preferably identical in shape, but may be different in shape.

The fishing platform further comprises a pressing plate strip 160, wherein the pressing plate strip 160 is arranged at the socket side of the slot structure; the platen strip 160 is connected to the reinforcing plate 200 and the stand together by a connector. Referring to fig. 10, a platen strip 160 is illustrated. The platen 160 is disposed at the socket side of the slot structure, and the connection piece (such as a screw) sequentially passes through the platen 160, the reinforcing plate 200 and the hollowed-out plate 110, so that the reinforcing plate 200 is fixed on the rack.

Regarding the shape of the presser bar 160, it is preferable to provide the presser bar 160 with an L-shaped cross section, and the horizontal portion of the presser bar 160 is in contact with the top surface of the reinforcing plate 200.

Here, it should be noted that the cross section of the platen strip 160 is preferably configured in an L shape, and of course, the shape is not limited to an L shape, so long as it is possible to realize "the platen strip 160 is connected to the reinforcing plate 200 and the stand together by the connector", and other shapes of the platen strip are within the scope of the present utility model.

The platen strip 160 may be disposed on a side of the gantry away from the hinge axis (the hinge axis being the hinge axis of two adjacent gantries), or may be disposed on a side closer to the hinge axis. In both stages, the two platen bars 160 are located on the same side of the stages, but it is also possible to provide the two platen bars 160 on different sides of the two stages.

Regarding the number of the racks 100, the racks 100 may be provided in one, or the number of the racks 100 may be more than two, for example, two, three, or four. According to specific use conditions, the fishing platforms with different numbers of racks are selected. In fig. 10, two stages are illustrated, and two stages are illustrated in a stacked state.

The rack 100 includes more than two rack units 110a, the rack units 110a are sequentially and horizontally arranged, the arrangement direction of the rack units 110a is perpendicular to the hinge axis of the rack 100, and adjacent rack units 110a are detachably connected; the number of the rack units 110a in the rack 100 may be two, three, or four, and different numbers of the rack units 110a are selected according to the specific use case. In fig. 11, it is schematically shown that one gantry 100 comprises two gantry units 110a.

Each rack unit 110a comprises a longitudinal side beam 150 and a hollowed-out plate 110, wherein the two longitudinal side beams 150 are oppositely arranged and connected through the hollowed-out plates 110, and the hollowed-out plates 110 and the two hollowed-out plates 110 are integrally formed;

the longitudinal beams 150 of the adjacent two rack units 110a are connected, the longitudinal beams 150 disposed at the outer side in the horizontal arrangement direction are outer longitudinal beams 151 (see fig. 14, which illustrates that the rack 100 is provided with four longitudinal beams 150 from left to right, and the leftmost and rightmost longitudinal beams 150 are outer longitudinal beams 151), and the lateral beams 140 of the rack 100 are disposed at both sides of the rack units 110a in the arrangement direction perpendicular to the rack units 110a.

Regarding the installation of the side rails 150 and the side rails 140, as in embodiment 1, the outer side rails 151 are formed with mating slots, and both ends of the side rails 140 are respectively inserted into the mating slots of the two outer side rails 151.

Referring to fig. 13, a lateral beam support bar 152 is disposed on the lateral longitudinal side beam 151, the length of the lateral beam support bar 152 is the same as that of the lateral longitudinal side beam 151, the lateral beam support bar 152 and the lateral longitudinal side beam 151 are integrally formed, and the lateral beam support bar 152 and the hollowed board 110 are disposed in parallel and form a matching slot therebetween. The cross section of the transverse side beam 140 is rectangular, two ends of the transverse side beam 140 are respectively inserted into the matching slots of the two outer side longitudinal side beams 151, and two ends of the transverse side beam 140 are respectively supported on transverse beam supporting bars 152 on the two outer side longitudinal side beams 151. The lateral limit bar 130 limits the depth to which the lateral side beam 140 is inserted into the mating slot.

A plurality of reinforcing beams are further provided between the two longitudinal side beams 150 on the same stage unit 110a, and the reinforcing beams are used to increase the strength of the stage unit 110a in parallel with the transverse side beams 140 as in embodiment 1.

In addition, regarding the "hinge connection between two racks", the hinge structure may be adopted in the prior art, and redundant description is not made here.

Referring to fig. 15, a connection structure 190 is provided between two adjacent stage units 110a, and the connection structure 190 in embodiment 4 is the same as the connection structure 190 in embodiment 1. The connection structure 190 includes a horizontal plate 191 and a vertical plate 192, the vertical plate 192 is disposed on the horizontal plate 191, and among two adjacent rack units 110a, the longitudinal side beam 150 of one rack unit 110a is fixed on the horizontal plate 191 and is disposed at an interval parallel to the vertical plate 192 to form a socket, and the longitudinal side beam 150 of the other rack unit 110a is plugged in the socket.

The stand is formed thereon with leg mounting holes 170, and a plurality of leg mounting holes 170 are provided along a circumferential direction of the stand, the leg mounting holes 170 being formed in the stand 100 and the reinforcing plate 200.

Example 5:

unlike example 4, the following is: lightening holes are provided on the longitudinal side rail 150 and/or the lateral side rail 140. The weight reducing holes are arranged for reducing the weight of the fishing platform.

Example 6:

unlike examples 4 or 5, the following are: the transverse limit strips 130 are arranged on the hollowed-out plate 110;

or/and, two longitudinal limit bars 120 are disposed on the hollowed-out plate 110 (or one of the two longitudinal limit bars 120 is disposed on the hollowed-out plate 110 and the other is disposed on the outer longitudinal side beam 151).

It is to be understood that the same or similar parts in the above embodiments may be referred to each other, and that in some embodiments, the same or similar parts in other embodiments may be referred to.

In the description of the present utility model, it is to be noted that, unless otherwise indicated, the meaning of "plurality" means two or more; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", etc., refer to an orientation or positional relationship based on that shown in the drawings, and are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

In the description of the present specification, a description referring to the terms "one embodiment," "some embodiments," "examples," "specific examples," or "one example" etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (10)

1. A plate-beam integrated and reinforcing plate detachable fishing platform is characterized by comprising a rack (100) and a reinforcing plate (200), wherein,

the rack (100) comprises a rack frame and more than one hollowed-out plate (110), wherein hollowed-out holes (111) are formed in the hollowed-out plates (110), and the hollowed-out plates (110) and longitudinal side beams (150) corresponding to the rack frame are integrally formed;

the reinforcing plate (200) is arranged on the rack (100) and is positioned above the hollowed-out plate (110), and the disassembly and assembly direction of the reinforcing plate (200) is parallel to the length direction of the rack (100) or the width direction of the rack (100).

2. The slab-girder integrated and reinforcing-plate detachable fishing platform according to claim 1, characterized in that a slot structure is formed on the platform (100), a slot of the slot structure extends in a direction parallel to a width direction of the platform (100) or in a direction parallel to a length direction of the platform (100), and the reinforcing plate (200) can be horizontally inserted into the slot structure through the slot.

3. The slab-girder integrated and reinforcing-plate detachable fishing platform according to claim 2, wherein the slot structure comprises a longitudinal limit bar (120) and a transverse limit bar (130) for forming a longitudinal guide groove, longitudinal guide groove openings of the two longitudinal limit bars (120) are opposite, the lengths of the two longitudinal limit bars (120) are along the length direction of the platform (100), the longitudinal edges of the reinforcing plate (200) are matched with the longitudinal guide grooves, the length of the transverse limit bar (130) is along the width direction of the platform (100), and the transverse limit bar (130) is abutted against one end of the reinforcing plate (200) in the width direction;

or, the slot structure comprises a transverse limit strip (130) and a longitudinal limit strip (120) which are used for forming a transverse guide slot, the transverse guide slot openings of the transverse limit strip (130) are opposite, the lengths of the transverse limit strip (130) are along the width direction of the rack (100), the transverse edge of the reinforcing plate (200) is matched with the transverse guide slot, the length of the longitudinal limit strip (120) is along the length direction of the rack (100), and the longitudinal limit strip (120) is abutted with one end of the length direction of the reinforcing plate (200).

4. A slab-girder integrated and reinforcing plate detachable fishing platform according to claim 3, characterized in that the platform frame is formed with an outer longitudinal side girder (151) and a transverse side girder (140), two outer longitudinal side girders (151) are oppositely arranged and two transverse side girders (140) are oppositely arranged to form a square frame structure;

the transverse limit strips (130) are arranged on the transverse side beams (140) or on the hollowed-out plates (110);

the longitudinal limit strips (120) are arranged on the outer longitudinal side beams (151) or on the hollowed-out plate (110).

5. -plate girder integrated and reinforcing plate removable fishing platform according to claim 3, characterized in that said longitudinal stop bars (120) extend above the upper top surface of the reinforcing plate (200) for positioning the reinforcing plate (200) only in a direction perpendicular to the length of the platform (100);

alternatively, the longitudinal stop bar (120) is bent after extending above the upper top surface of the reinforcing plate (200) for positioning the reinforcing plate (200) in a longitudinal direction perpendicular to the rack (100) and along the thickness of the reinforcing plate (200).

6. -plate girder integrated and reinforcing plate removable fishing platform according to claim 3, characterized in that the lateral stop bars (130) extend above the upper top surface of the reinforcing plate (200) for positioning the reinforcing plate (200) only in a direction parallel to the length of the platform (100);

alternatively, the lateral stop bar (130) extends above the upper top surface of the reinforcing plate (200) and is then bent for positioning the reinforcing plate (200) in a longitudinal direction parallel to the gantry (100) and along the thickness of the reinforcing plate (200).

7. The slab-girder integrated and reinforcing-plate detachable fishing platform according to claim 2, further comprising a pressing strip (160), the pressing strip (160) being disposed at a socket side of the slot structure; the pressing plate strip (160) is connected with the reinforcing plate (200) and the rack (100) through a connecting piece.

8. The plate girder integrated and reinforcing plate detachable fishing platform according to claim 1, wherein the number of the platforms (100) is one, or the number of the platforms (100) is more than two, the more than two platforms (100) are sequentially and horizontally arranged, and the adjacent platforms (100) are hinged;

the rack (100) comprises more than two rack units (110 a), wherein the rack units (110 a) are sequentially and horizontally arranged, the arrangement direction of the rack units (110 a) is perpendicular to the hinging axis of the rack (100), and the adjacent rack units (110 a) are detachably connected;

each rack unit (110 a) comprises a longitudinal side beam (150) and a hollowed-out plate (110), wherein the two longitudinal side beams (150) are oppositely arranged and are connected through the hollowed-out plates (110), and the hollowed-out plates (110) and the two hollowed-out plates (110) are integrally formed;

the longitudinal side beams (150) of two adjacent rack units (110 a) are connected, the longitudinal side beams (150) arranged on the outer side in the horizontal arrangement direction are outer longitudinal side beams (151), and the transverse side beams (140) of the rack (100) are arranged on two sides of the rack units (110 a) in the arrangement direction perpendicular to the rack units (110 a).

9. The plate girder integrated and reinforcing plate detachable fishing platform according to claim 8, characterized in that the outer longitudinal side girders (151) are formed with mating slots, and both ends of the transverse side girders (140) are respectively inserted into the mating slots of the two outer longitudinal side girders (151);

and lightening holes are formed in the longitudinal side beams (150) and/or the transverse side beams (140).

10. The plate girder integrated and reinforcing plate detachable fishing platform according to claim 8, characterized in that a connection structure (190) is provided between two adjacent rack units (110 a); the connecting structure (190) comprises a horizontal plate (191) and a vertical plate (192), wherein the vertical plate (192) is arranged on the horizontal plate (191), two adjacent rack units (110 a) are arranged, one of the rack units (110 a) is fixed on the horizontal plate (191) and is arranged with the vertical plate (192) at parallel intervals to form a splicing groove, and the other rack unit (110 a) is spliced with the longitudinal side beam (150) in the splicing groove.