CN114703983B - Impact-resistant structure between continuous-span storage bins - Google Patents

Abstract

The application relates to the technical field of bins, in particular to an impact-resistant structure between continuous and cross bins, which comprises a plurality of supporting columns for supporting a top plate, wherein an anti-collision plate is arranged on the side surface of each supporting column at intervals, a buffer assembly is arranged between each anti-collision plate and each supporting column, each anti-collision plate is arranged on each supporting column through the corresponding buffer assembly, a plurality of plugboards I and plugboards II are respectively arranged on two sides of each anti-collision plate around each supporting column, a plurality of plugboards I and plugboards II are respectively arranged on the side surface of each anti-collision plate at intervals, a plurality of plugboards I and a plurality of plugboards II are arranged in a staggered mode in the horizontal direction, and each plugboard I is inserted between two plugboards II on adjacent anti-collision plates. The application has the effect of improving the stability of the support column to the top plate support.

Description

Impact-resistant structure between continuous-span storage bins

Technical Field

The application relates to the technical field of bins, in particular to an impact-resistant structure between continuous-span bins.

Background

The storage bin is a place for storing materials, and in some scenes, in order to meet the requirement of storing more materials or facilitate storage and operation, the storage bin can be made into a storage bin with a large overall span, but because the span of the storage bin is relatively large, in order to improve the strength of the top of the storage bin, the top of the storage bin is generally in a structure with a plurality of continuous small spans.

The structure about feed bin among the related art includes outer wall body, and outer wall body encloses into frame structure, is provided with multiunit support column in the outer wall body, multiunit support column parallel interval setting, is provided with the roof between every two sets of adjacent support columns, and the roof is the arcuation, and the both sides of roof are fixed through the support column. The roof is provided with a plurality of, and a plurality of roof range setting seals the top of feed bin.

Aiming at the related technology, the inventor considers that the supporting column is fixedly arranged on the ground, when the material is piled up in the storage bin, the material can impact the side surface of the supporting column, and the supporting column can loose under the action of impact force for a long time, so that the stability of the supporting column on the top plate is affected.

Disclosure of Invention

In order to improve the stability of the support column to the top plate support, the application provides an impact-resistant structure between the continuous-span bins.

The application provides an impact-resistant structure between continuous-span bins, which adopts the following technical scheme:

even stride shock resistance structure between feed bin, including a plurality of support columns that support the roof, the side interval of support column is provided with the anticollision board, be provided with buffer unit between anticollision board and the support column, the anticollision board passes through buffer unit and installs on the support column, the anticollision board is provided with a plurality ofly around the support column, the both sides of anticollision board are provided with picture peg one and picture peg two respectively, picture peg one and picture peg two all are provided with a plurality of at anticollision board side interval, a plurality of picture peg one and a plurality of picture peg two stagger the setting in the horizontal direction, picture peg one inserts between two picture peg two on adjacent anticollision board.

Through adopting above-mentioned technical scheme, the anticollision board sets up in the outside of support column, when the anticollision board receives the impact, buffers the impact force that the anticollision board received through buffer assembly, and picture peg one simultaneously removes in picture peg two, promotes complex stability between two adjacent anticollision boards, promotes the protection effect to the support column, and then promotes the stability that the support column supported the roof.

Optionally, the buffer unit includes interior pole, outer pole and buffer, outer pole and support column are connected, the opening has been seted up for hollow structure and the one end that deviates from the support column to outer pole, interior pole slides the setting in outer pole, the one end and the crashproof board that the interior pole deviates from outer pole are connected, the buffer sets up in outer pole and the end connection of interior pole is used for adjusting the position of interior pole.

Through adopting above-mentioned technical scheme, when crashproof board receives the impact and removes, drive interior pole and remove in outer pole, cushion interior pole through the bolster simultaneously, reduce the impact force that receives the support column and cushion, protect the support column.

Optionally, a shielding plate is arranged between two adjacent first plugboards, a yielding groove is formed in a position, opposite to the shielding plate, on the anti-collision plate, the side face of the shielding plate extends into the yielding groove, the shielding plate is slidably arranged along the direction facing the yielding groove, and the first plugboard is abutted to the side face of the shielding plate on the adjacent anti-collision plate.

Through adopting above-mentioned technical scheme, set up the shielding plate between picture peg one, shelter from the clearance between picture peg one and the adjacent anticollision board side through the shielding plate, reduce that external impurity from appearing entering into the phenomenon between anticollision board and the support column, promote the stability when anticollision board removes.

Optionally, the one end that interior pole is close to the crashproof board is provided with the connecting ball, interior pole is rotated through connecting ball and crashproof board and is connected, the middle part position that interior pole is close to the crashproof board sets up, be provided with the elastic component between crashproof board and the support column, the elastic component is provided with two, two the elastic component is close to the both ends setting of crashproof board respectively.

Through adopting above-mentioned technical scheme, set up the connecting ball for the crashproof board can rotate relative support column, and when the impact force that the tip of crashproof board received was great, further buffer the impact force that receives through crashproof board rotation, protect the support column.

Optionally, the mounting groove has been seted up to the both sides of anticollision board, the side of picture peg one and picture peg two extends to the mounting groove respectively in, picture peg one is the same with the structure of picture peg two, picture peg one includes inner panel, planking and the piece that resets, inner panel and planking set up along the length direction of anticollision board, the inner panel slides along the length direction towards the anticollision board in the planking and sets up, the piece that resets sets up in the planking and the position that the inner panel is used for adjusting with the inner panel connection, the side of inner panel and planking all extends to the mounting groove in, the planking slides in the mounting groove and sets up.

Through adopting above-mentioned technical scheme, when the anticollision board rotates, the inner panel slides in the planking, and the planking can slide in the installation simultaneously to two adjacent picture peg one and the length of picture peg one are adjusted to picture peg one rotates along with the anticollision board, reduces picture peg one and appears interfering the rotatory phenomenon of anticollision board.

Optionally, the mounting groove is internally provided with the installation pole along the length direction of anticollision board, the installation pole runs through inner panel and planking setting, inner panel and planking slide the setting in the outside of installation pole, be provided with the tensile piece that is used for adjusting planking position on the installation pole, tensile piece and planking are connected.

Through adopting above-mentioned technical scheme, restrict the position of inner panel and planking through the installation pole, set up simultaneously and stretch the piece and adjust the position of planking and inner panel, promote the stability when inner panel and planking remove.

Optionally, the fillet has been seted up to one side that the inner panel deviates from the planking, the fillet has also been seted up to one side that the planking deviates from the inner panel.

By adopting the technical scheme, the side surfaces of the outer plate and the outer plate are provided with the rounding corners, so that the resistance during rotation is reduced, and the inner plate and the outer plate can rotate conveniently.

Optionally, shielding plate includes baffle one and baffle two, shielding groove has been seted up to one side that the baffle one deviates from ground, baffle two is in shielding inslot along vertical direction slip setting, be provided with the impeller one that is used for adjusting baffle two positions in shielding the inslot, one side that baffle two was kept away from to baffle one and the inner panel butt on the adjacent crashproof board, one side that baffle two was kept away from and the planking butt on the adjacent crashproof board.

Through adopting above-mentioned technical scheme, when the anticollision board rotates, the interval between two adjacent picture peg I changes, drives baffle two simultaneously and slides in baffle one to compression impeller one, make baffle one and baffle two when removing, be in the state of butt with picture peg one all the time, when reducing baffle one and baffle two appearance interference anticollision board rotation, reduce the phenomenon that the material appears entering into between anticollision board and the support column.

Optionally, the crashproof board is close to one side and the ground interval setting on ground, logical groove has been seted up to one side that the crashproof board is close to ground, be provided with extension in the logical groove, extension slides along the direction towards ground in logical inslot and sets up, be provided with the impeller second that is used for adjusting the position messenger extension and ground butt of extension in logical inslot.

Through adopting above-mentioned technical scheme, set up the extension in logical inslot for under the effect of impeller two for the extension keeps the state with ground butt, shelters from the clearance department between crashproof board and the ground, reduces that external impurity appears entering into the phenomenon between crashproof board and the support column.

Drawings

Fig. 1 is a schematic structural view of an impact resistant structure between linked bins according to an embodiment of the application.

Fig. 2 is a structural view of a support column in an impact resistant structure between linked bins according to an embodiment of the application.

Fig. 3 is a structural view of an impact plate in an impact structure between linked bins according to an embodiment of the present application.

Fig. 4 is a partial cutaway view of an impact plate in an impact structure between linked bins according to an embodiment of the application.

Fig. 5 is a structural view of a first insert plate in an impact resistant structure between linked storage bins according to an embodiment of the application.

Fig. 6 is a structural view of a shielding plate in an impact resistant structure between linked bins according to an embodiment of the application.

Fig. 7 is a structural view of an extension in an impact resistant structure between linked bins according to an embodiment of the application.

Reference numerals: 1. a wall body; 11. a top plate; 2. a support column; 3. an anti-collision plate; 31. a plugboard I; 311. an inner plate; 312. an outer plate; 313. a reset member; 32. a second plugboard; 33. an elastic member; 34. a mounting groove; 35. a relief groove; 4. a buffer assembly; 41. an inner rod; 411. a connecting ball; 42. an outer rod; 43. a buffer member; 5. a mounting rod; 51. a stretching member; 6. a shielding plate; 61. a first baffle; 611. a shielding groove; 62. a second baffle; 7. a pushing piece I; 8. a through groove; 9. an extension; 91. and a pushing piece II.

Detailed Description

The application is described in further detail below with reference to fig. 1-7.

The application discloses an impact-resistant structure between continuous-span bins. Referring to fig. 1 and 2, the impact-resistant structure between the continuous span bins comprises a bin surrounded by a plurality of walls 1, a plurality of groups of support columns 2 are arranged in the bin, the groups of support columns 2 are arranged at intervals in the bin, a top plate 11 is arranged at the top of the bin, and the top plate 11 is supported by the support columns 2 and the walls 1, so that the top plate 11 is arranged in a plurality of small spans on the walls 1.

Referring to fig. 2 and 3, an anti-collision plate 3 for protecting the support column 2 is disposed on a side surface of the support column 2, the anti-collision plate 3 is disposed along a length direction of the support column 2, the anti-collision plate 3 and the support column 2 are disposed at intervals, a buffer assembly 4 is disposed between the anti-collision plate 3 and the support column 2, the buffer assembly 4 comprises an inner rod 41, an outer rod 42 and a buffer member 43, the outer rod 42 is connected with the support column 2, the outer rod 42 is of a hollow structure and is provided with an opening at one end deviating from the support column 2, the inner rod 41 is slidably disposed in the outer rod 42, one end deviating from the outer rod 42 is connected with the anti-collision plate 3, both the inner rod 41 and the outer rod 42 are disposed along a horizontal direction, the buffer member 43 can be provided as a spring, the spring is disposed in the outer rod 42 and is connected with an end portion of the inner rod 41, and the spring is used for adjusting a position of the inner rod 41. When the side of the support column 2 is impacted by the material, the force of the material acts on the anti-collision plate 3, the anti-collision plate 3 moves to drive the inner rod 41 to move in the outer rod 42, and meanwhile, the spring is compressed to buffer the force transmitted to the support column 2.

Referring to fig. 2 and 3, the crashproof board 3 is provided with a plurality of, and a plurality of crashproof boards 3 set up around support column 2, and crashproof board 3 sets up to eight in this embodiment, and crashproof board 3's side is connected rather than adjacent crashproof board 3, and through a plurality of crashproof boards 3 around support column 2 setting, carries out the omnidirectional to support column 2's side and separates shelves, promotes the protective effect to support column 2.

Referring to fig. 3 and 4, a first insert plate 31 and a second insert plate 32 are respectively disposed at two sides of the anti-collision plate 3, the first insert plate 31 and the second insert plate 32 have the same structure, the first insert plate 31 and the second insert plate 32 are respectively disposed in plurality, the first insert plate 31 and the second insert plate 32 are respectively disposed at intervals along the length direction of the side surface of the anti-collision plate 3 at the side surface of the anti-collision plate 3, the first insert plate 31 and the second insert plate 32 are disposed in a staggered manner in the horizontal direction, the distance between the first insert plate 31 and the second insert plate 32 is the same as the length of the second insert plate 32 in the vertical direction, and the first insert plate 31 on one side of the anti-collision plate 3 is inserted between the second insert plate 32 adjacent to the second insert plate 32 on the adjacent anti-collision plate 3, and the two adjacent anti-collision plates 3 are connected through the first insert plate 31 and the second insert plate 32. In the initial state, the first plugboard 31 and the adjacent side surfaces of the anti-collision boards 3 are arranged at intervals, when the anti-collision boards 3 are impacted, the first plugboard 31 is driven to move between the second plugboards 32, and the stability of the anti-collision boards 3 during movement is improved.

Referring to fig. 2 and 3, a connection ball 411 is provided at one end of the inner rod 41 near the impact plate 3, the inner rod 41 is rotatably connected with the impact plate 3 through the connection ball 411, and the inner rod 41 is provided near the middle position of the impact plate 3, elastic members 33 are provided between the impact plate 3 and the support column 2, two elastic members 33 are provided at intervals in the vertical direction, and are provided near both ends of the impact plate 3, respectively. When stacking the material in to the feed bin, the material is strikeed the bottom of anticollision board 3, and at this moment, anticollision board 3 when moving towards support column 2, and the one end that its is close to the ground rotates along the direction towards support column 2, further cushions the impact force that conveys on the support column 2, promotes the protection effect to support column 2.

Referring to fig. 4 and 5, in order to reduce the phenomenon that the first insert plate 31 and the second insert plate 32 interfere with the rotation of the impact plate 3, mounting grooves 34 are formed in both sides of the impact plate 3, the first insert plate 31 and the second insert plate 32 respectively correspond to the mounting grooves 34, the first insert plate 31 includes an inner plate 311, an outer plate 312 and a return member 313, the inner plate 311 and the outer plate 312 are disposed along the length direction of the impact plate 3, the outer plate 312 is of a hollow structure and one side is provided with an opening, the inner plate 311 is slidably disposed in the outer plate 312 through the opening, the sides of the inner plate 311 and the outer plate 312 both extend into the mounting grooves 34, the outer plate 312 is slidably disposed in the mounting grooves 34, the return member 313 may be provided as a spring, the spring is disposed in the outer plate 312, and the spring and the inner plate 311 is connected to adjust the position of the inner plate 311. When the anti-collision plate 3 rotates, the side surfaces of the first inserting plate 31 and the second inserting plate 32 are abutted against each other, the inner plate 311 moves relative to the outer plate 312, the lengths of the first inserting plate 31 and the second inserting plate 32 are adjusted, the outer plate 312 slides in the mounting groove 34, the positions of the first inserting plate 31 and the second inserting plate 32 relative to the anti-collision plate 3 are adjusted, the phenomenon that the first inserting plate 31 and the second inserting plate 32 interfere with the rotation of the anti-collision plate 3 is reduced, and meanwhile, the reset piece 313 is arranged in the outer plate 312, so that the side surface of the first inserting plate 31 is always abutted against the side surface of the second inserting plate 32, and the stability of the anti-collision plate 3 during rotation is improved.

Referring to fig. 4 and 5, the installation rod 5 is disposed along the length direction of the impact-resistant plate 3 in the installation groove 34, the installation rod 5 penetrates through the inner plate 311 and the outer plate 312, the inner plate 311 and the outer plate 312 are slidably disposed along the length direction of the installation rod 5 outside the installation rod 5, the tension member 51 is disposed on the installation rod 5, the tension member 51 can be set as a spring, the spring is sleeved outside the installation rod 5, one end of the spring is connected with the installation rod 5, the other end is connected with the outer plate 312, after the impact-resistant plate 3 receives the impact force and returns to the initial position, the inner plate 311 and the outer plate 312 return to the initial position under the action of the tension member 51, and the stability of the impact-resistant plate 3 is improved. Rounded corners are formed on one side of the inner plate 311 away from the outer plate 312, and rounded corners are also formed on one side of the outer plate 312 away from the inner plate 311, so that the inner plate 311 can rotate relative to the outer plate 312 on the adjacent collision avoidance plate 3 when the collision avoidance plate 3 rotates.

Referring to fig. 3 and 4, in order to reduce the entry of material between the first insert plate 31 and the adjacent first insert plate 3 through the gap between the first insert plate 31 and the adjacent first insert plate 3, a shielding plate 6 is disposed between the first insert plate 31 and the second adjacent insert plate, a relief groove 35 is formed in the position corresponding to the shielding plate 6 on the first insert plate 3, one side of the shielding plate 6 extends into the relief groove 35, and the shielding plate 6 is slidably disposed in the relief groove 35 along a direction facing into the relief groove 35, and the first insert plate 31 on the adjacent first insert plate 3 abuts against a side surface of the shielding plate 6. When the anti-collision plate 3 moves, the first plugboard 31 is driven to move, meanwhile, the first plugboard 31 drives the shielding plate 6 to move along the direction facing the yielding groove 35, the gap between the first plugboard 31 and the side face of the adjacent anti-collision plate 3 is shielded through the shielding plate 6, and the phenomenon that materials enter between the anti-collision plate 3 and the supporting columns 2 is reduced.

Referring to fig. 4 and 6, the shielding plate 6 includes a first plate 61 and a second plate 62, a shielding groove 611 is formed on one side of the first plate 61, which is away from the ground, the second plate 62 is disposed in the shielding groove 611, the second plate 62 is slidably disposed in the shielding groove 611 along a vertical direction, a first pushing member 7 is disposed in the shielding groove 611, the first pushing member 7 may be configured as a spring, one end of the spring abuts against an inner wall of the shielding groove 611, the other end of the spring is connected with the second plate 62, one side of the first plate 61, which is away from the second plate 62, abuts against an inner plate 311 on an adjacent anti-collision plate 3, one side of the second plate 62, which is away from the first plate 61, abuts against an outer plate 312 on the adjacent anti-collision plate 3, and when the anti-collision plate 3 rotates to drive the inner plate 311 to slide in the outer plate 312, the first plate 61 moves in the second plate 62, and the phenomenon that the first plate 61 and the second plate 62 interfere with the rotation of the anti-collision plate 3 is reduced.

Referring to fig. 3 and 7, the side that anticollision board 3 is close to the ground and ground interval set up, the logical groove 8 has been seted up to one side that anticollision board 3 is close to the ground, be provided with extension 9 in logical inslot 8, extension 9 is provided with push member two 91 in logical inslot 8 along the direction towards the ground, push member two 91 can set up to the spring, the one end and the logical inslot 8 inner wall connection of spring, the other end and extension 9 are connected, under the effect of spring, drive extension 9 and ground butt, and when anticollision board 3 rotates, can make extension 9 keep the state with the ground butt, reduce the phenomenon that the material appears entering between anticollision board 3 and support column 2 from the bottom of extension 9, stability when the material impact is put to the anticollision board 3 is promoted.

The implementation principle of the application is as follows: the anti-collision plate 3 is installed on the side face of the support column 2, the buffer component 4 is arranged between the anti-collision plate 3 and the support column 2, when the anti-collision plate 3 is impacted, the impact force transmitted to the support column 2 is buffered through the buffer component 4, the impact force received by the support column 2 is reduced, the stability of the support column 2 is improved, and then the stability of the support column 2 to the top plate 11 is improved.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. Even stride shock resistance structure between feed bin, including a plurality of support column (2) that support roof (11), its characterized in that: the side interval of support column (2) is provided with anticollision board (3), be provided with buffer assembly (4) between anticollision board (3) and support column (2), anticollision board (3) are installed on support column (2) through buffer assembly (4), anticollision board (3) are provided with a plurality ofly around support column (2), the both sides of anticollision board (3) are provided with picture peg one (31) and picture peg two (32) respectively, picture peg one (31) and picture peg two (32) are all provided with a plurality ofly in anticollision board (3) side interval, a plurality of picture peg one (31) and a plurality of picture peg two (32) are crisscross the setting in the horizontal direction, picture peg one (31) inserts between two picture peg two (32) of establishing on adjacent anticollision board (3), buffer assembly (4) are including interior pole (41), outer pole (42) and buffer piece (43), outer pole (42) and support column (2) are connected, outer pole (42) are hollow structure and deviate from support column (2) side interval and are equipped with opening, outer pole (42) are in interior pole (41) and one end (41), the buffer piece (43) is arranged in the outer rod (42) and is connected with the end part of the inner rod (41) and used for adjusting the position of the inner rod (41), shielding plates (6) are arranged between two adjacent inserting plates (31), a yielding groove (35) is formed in the position, opposite to the shielding plates (6), of each of the anti-collision plates (3), the side face of each of the shielding plates (6) extends into the corresponding yielding groove (35), the shielding plates (6) are arranged in a sliding mode along the direction in the yielding groove (35), and the side faces of the shielding plates (6) on the inserting plates (31) and the adjacent anti-collision plates (3) are in butt joint.

2. The impact resistant structure between continuous straddling bins of claim 1, wherein: the utility model discloses a bumper plate, including interior pole (41), bumper plate (3) and support column (2), interior pole (41) are close to one end of bumper plate (3) and are provided with connecting ball (411), interior pole (41) are rotated through connecting ball (411) and bumper plate (3) and are connected, interior pole (41) are close to the middle part position setting of bumper plate (3), be provided with elastic component (33) between bumper plate (3) and support column (2), elastic component (33) are provided with two, two elastic component (33) are close to the both ends setting of bumper plate (3) respectively.

3. The impact resistant structure between continuous straddling bins of claim 2, wherein: the anti-collision plate is characterized in that mounting grooves (34) are formed in two sides of the anti-collision plate (3), the side faces of the first inserting plate (31) and the second inserting plate (32) are respectively extended into the mounting grooves (34), the first inserting plate (31) and the second inserting plate (32) are identical in structure, the first inserting plate (31) comprises an inner plate (311), an outer plate (312) and a reset piece (313), the inner plate (311) and the outer plate (312) are arranged in the length direction of the anti-collision plate (3), the inner plate (311) is arranged in the outer plate (312) in a sliding mode in the length direction of the anti-collision plate (3), the reset piece (313) is arranged in the outer plate (312) and connected with the inner plate (311) to adjust the position of the inner plate (311), the side faces of the inner plate (311) and the outer plate (312) are both extended into the mounting grooves (34), and the outer plate (312) is arranged in the mounting grooves (34).

4. The impact resistant structure between continuous and spanning bins of claim 3, wherein: the anti-collision mounting device is characterized in that a mounting rod (5) is arranged in the mounting groove (34) along the length direction of the anti-collision plate (3), the mounting rod (5) penetrates through the inner plate (311) and the outer plate (312), the inner plate (311) and the outer plate (312) are arranged outside the mounting rod (5) in a sliding mode, a stretching piece (51) for adjusting the position of the outer plate (312) is arranged on the mounting rod (5), and the stretching piece (51) is connected with the outer plate (312).

5. The impact resistant structure between continuous straddling bins of claim 4, wherein: the inner plate (311) is provided with a rounding on one side deviating from the outer plate (312), and the outer plate (312) is also provided with a rounding on one side deviating from the inner plate (311).

6. The impact resistant structure between continuous straddling bins of claim 5, wherein: the shielding plate (6) comprises a first shielding plate (61) and a second shielding plate (62), a shielding groove (611) is formed in one side, deviating from the ground, of the first shielding plate (61), the second shielding plate (62) is arranged in the shielding groove (611) in a sliding mode along the vertical direction, a first pushing piece (7) used for adjusting the position of the second shielding plate (62) is arranged in the shielding groove (611), one side, far away from the second shielding plate (62), of the first shielding plate (61) is abutted against an inner plate (311) on an adjacent anti-collision plate (3), and one side, far away from the first shielding plate (61), of the second shielding plate (62) is abutted against an outer plate (312) on the adjacent anti-collision plate (3).

7. The impact resistant structure between continuous straddling bins of claim 6, wherein: the anti-collision plate (3) is close to one side of the ground and the ground is arranged at intervals, a through groove (8) is formed in one side of the anti-collision plate (3) close to the ground, an extension part (9) is arranged in the through groove (8), the extension part (9) is arranged in the through groove (8) in a sliding mode along the direction towards the ground, and a pushing piece II (91) for adjusting the position of the extension part (9) to enable the extension part (9) to be in butt with the ground is arranged in the through groove (8).