CN115257905B - Building material has conveyer of shock-absorbing function - Google Patents

Abstract

The invention relates to the technical field of building material transportation, in particular to a transportation device with a damping function for building materials. The invention provides a transportation device with a damping function for building materials, which directly buffer and protect the building materials. The utility model provides a building material has damping function's conveyer, includes handle, mount and transport vechicle, and the mount is installed in transport vechicle roof left side, installs the handle in the middle of the mount left side, still including damper and buffer gear, the transport vechicle roof is equipped with damper, is equipped with buffer gear on the damper. In the process of vertical sliding of the support column, the first pressure spring is subjected to adaptive deformation, so that the building material is buffered through the first pressure spring, the support column and the placing table, and the building material is prevented from being damaged due to collision with the placing table when the building material shakes, so that the building material is guaranteed to be intact.

Description

Building material has conveyer of shock-absorbing function

Technical Field

The invention relates to the technical field of building material transportation, in particular to a transportation device with a damping function for building materials.

Background

Building materials are various materials used in construction work, and in a construction site, it is often necessary to transport the building materials, and since manual transportation of the building materials is labor-intensive and dangerous, and at the same time, the manual transportation of the building materials is inefficient, a building material transport device is generally used to transport the building materials.

Patent publication number is CN 211252639U's patent discloses a building material carrier, including the gyro wheel, the bottom surface at the bottom plate is installed to the gyro wheel, four damping device's bottom is fixed connection respectively all around to the bottom plate top surface, and four damping device's top fixed connection around placing the board bottom surface, place the left side of board and be fixed connection two sliders respectively, two the one end joint of placing the board is kept away from to the slider is in spout one, spout one is offered and is being close to one side of placing the board at the fixed plate, the quantity of spout one has two and is parallel to each other.

The above-mentioned patent can not directly protect building material, and when the carrier was through the road surface that jolts the degree big, building material was rolled over from placing the board easily and is fallen out, leads to building material damage, in order to solve above-mentioned problem, we have designed a kind of building material that directly carries out buffering protection to building material and have the conveyer of shock-absorbing function.

Disclosure of Invention

In order to overcome the defect that building materials cannot be directly protected, the technical problems of the invention are as follows: a transportation device with a damping function for a building material is provided, which directly buffers and protects the building material.

The technical proposal is as follows: the utility model provides a building material has damping function's conveyer, including handle, mount and transport vechicle, the mount is installed in transport vechicle roof left side, installs the handle in the middle of the mount left side, still including damper and buffer gear, the transport vechicle roof is equipped with and is used for carrying out absorbing damper to building material bottom, is equipped with on the damper and is used for carrying out absorbing buffer gear to building material left and right sides.

Further stated, the damping mechanism comprises a fixed column, a first pressure spring, support columns and a placing table, wherein the fixed columns are symmetrically arranged on the left side and the right side of the top wall of the transport vehicle, the support columns are connected in the fixed columns in a sliding mode, the placing table is arranged between the tops of the support columns, the support columns are wound with the first pressure spring, and the upper end and the lower end of the first pressure spring are respectively connected with the support columns and the fixed columns.

Further, the buffer mechanism comprises a first fixed block, gas springs and a first sliding frame, wherein the first fixed block is installed on the left side and the right side of the placing table, two gas springs capable of contracting and extending are connected to the inner side of the first fixed block, and the first sliding frame is connected between the gas springs on the left part and the gas springs on the right part.

Further, the anti-shaking mechanism for preventing building materials from shaking out of the placing table is further included, the anti-shaking mechanism comprises a second sliding frame, a second pressure spring, a second fixing block, sliding blocks and a third pressure spring, the second sliding frame for supporting building materials is connected to the placing table in a sliding mode, the second sliding frame slides downwards under the action of gravity of the building materials, the middle of the placing table penetrates through the middle of the second sliding frame, the second pressure spring is connected to the lower portion of the second sliding frame, the bottom ends of the second pressure springs are connected with the transport vehicle, the second fixing blocks are installed on the front side and the rear side of the placing table, the upper portions of the second fixing blocks are arranged to be inclined planes inclined inwards and downwards, the upper portions of the front side and the rear side of the second sliding frame are connected with the sliding blocks for limiting the front side and the rear side of the top of the building materials in a sliding mode, the sliding blocks move downwards to be in contact with the second fixing blocks, and the sliding blocks slide downwards and simultaneously horizontally inwards to be in contact with the top of the building materials under the guiding effect of the inclined planes of the second fixing blocks.

Further, the device further comprises an interception mechanism for buffering and intercepting building materials with short lengths, the interception mechanism comprises a third fixed block, torsion springs and a first rotating frame, the third fixed block is symmetrically arranged on the left side and the right side of the top wall of the placement table, the third fixed block is rotationally connected with the first rotating frame, the first rotating frame at the front is located in front of the first sliding frame, the first rotating frame at the rear is located behind the first sliding frame, the torsion springs are wound on the first rotating frame, and the upper end and the lower end of each torsion spring are connected with the first rotating frame and the third fixed block respectively.

Further, the anti-tilting mechanism for pressing building materials is further included, the anti-tilting mechanism comprises a first fixing ring, a third sliding frame and a tension spring, two first fixing rings are mounted on the inner side of the sliding block, the third sliding frame is connected between the two first fixing rings at the front portion in a sliding mode, the third sliding frame is also connected between the two first fixing rings at the rear portion in a sliding mode, the tension spring is wound on the left portion and the right portion of the third sliding frame, and the upper end and the lower end of the tension spring are connected with the third sliding frame and the first fixing rings respectively.

The anti-spurting mechanism comprises a second fixed ring, a second rotating frame and a baffle plate, wherein the second fixed ring is symmetrically arranged in the middle of the right wall of the fixed frame, the second rotating frame is rotationally connected between the second fixed rings, and the baffle plate is arranged on the second rotating frame.

Further, the baffle plate fixing device further comprises limiting blocks, wherein the limiting blocks are arranged on the front side and the rear side of the lower portion of the right wall of the fixing frame, and the limiting blocks support the left portion of the baffle plate.

The beneficial effects of the invention are as follows:

1. in the process of sliding the support column up and down, the first pressure spring is subjected to adaptive deformation, so that the building material is buffered through the first pressure spring, the support column and the placing table, the damage caused by colliding with the placing table when the building material shakes is avoided, and the building material is guaranteed to be intact;

2. when the building material shakes and breaks away from the first sliding frame, the gas spring stretches to enable the first sliding frame to slide inwards to reset, so that the lower portion of the building material is buffered and protected through the first sliding frame and the gas spring, the building material is prevented from being damaged due to the fact that the building material falls out of the placing table in a side-turning mode, and the building material is guaranteed to be good;

3. in the downward movement process of the sliding block, the sliding block extrudes the second fixed block, and the reaction of the second fixed block enables the sliding block to slide inwards to be positioned above the building material, so that the building material can be prevented from shaking out of the placing table, the building material is prevented from being damaged due to impact on the ground, and the building material is further guaranteed to be intact;

4. the torsion spring and the first rotating frame are used for buffering and intercepting the building material with the shorter length, so that the building material with the shorter length can be prevented from directly shaking out of the placing table without contacting with the gas spring when shaking, and the building material with the shorter length can be ensured to be good, and the applicability is strong;

5. in the process of the up-and-down sliding of the third sliding frame, the tension spring is subjected to adaptive deformation, so that the third sliding frame always presses the top of the building material, the building material is buffered through the tension spring and the third sliding frame, the building material is prevented from shaking and jolting at will, and the building material is further guaranteed to be intact;

6. when building material finishes placing, the baffle rotates downwards to the normal position, and at this moment, the baffle can cover building material to can avoid easily splashing building material to burst out and bring the injury for people, the security is good.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic perspective view of a shock absorbing mechanism according to the present invention.

Fig. 4 is a schematic perspective view of a buffer mechanism according to the present invention.

Fig. 5 is a schematic perspective view of the anti-shake-out mechanism according to the present invention.

Fig. 6 is a schematic perspective view of an interception mechanism according to the present invention.

Fig. 7 is an enlarged perspective view of the present invention at a.

Fig. 8 is a schematic diagram of a perspective mechanism of the anti-tilting mechanism of the present invention.

Fig. 9 is an enlarged perspective view of the present invention at B.

Fig. 10 is a schematic perspective view of the anti-burst mechanism of the present invention.

The reference symbols in the drawings: 1: handle, 2: fixing frame, 3: transport vehicle, 4: damping mechanism, 41: fixing column, 42: first pressure spring, 43: support column, 44: placing table, 5: buffer mechanism, 51: first fixed block, 52: gas spring, 53: first carriage, 6: anti-shake out mechanism, 61: second carriage, 62: second pressure spring, 63: second fixed block, 64: sliding block, 65: third pressure spring, 7: intercept mechanism, 71: third fixed block, 72: torsion spring, 73: first rotating frame, 8: anti-jolt mechanism, 81: first retaining ring, 82: third carriage, 83: tension spring, 9: anti-burst mechanism, 91: second fixing ring, 92: second rotating frame, 93: stopper, 94: and a baffle.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Example 1

The utility model provides a building material has damping function's conveyer, as shown in fig. 1, 3 and 4, including handle 1, mount 2, transport vechicle 3, damper 4 and damper 5, the welding of transport vechicle 3 roof left side has mount 2, and the rigid coupling has handle 1 in the middle of the mount 2 left side, and transport vechicle 3 roof is equipped with damper 4, is equipped with damper 5 on the damper 4.

As shown in fig. 1 and 3, the damping mechanism 4 includes four fixing columns 41, a first pressure spring 42, supporting columns 43 and a placing table 44, the fixing columns 41 are symmetrically welded on the left side and the right side of the top wall of the transport vehicle 3, the supporting columns 43 are slidably connected in the fixing columns 41, the supporting columns 43 are respectively wound with the first pressure spring 42, the upper end and the lower end of the first pressure spring 42 are respectively connected with the supporting columns 43 and the fixing columns 41, and the placing table 44 is fixedly connected between the tops of the supporting columns 43.

As shown in fig. 2 and 4, the buffer mechanism 5 includes a first fixed block 51, gas springs 52 and a first sliding frame 53, the left and right sides of the placement table 44 are welded with the first fixed block 51, the inner sides of the first fixed blocks 51 are connected with two gas springs 52, the gas springs 52 can contract and extend, and the first sliding frames 53 are fixedly connected between the gas springs 52 at the left part and between the gas springs 52 at the right part.

When building materials need to be transported, people place the building materials on the placing table 44, the building materials are located between the two first sliding frames 53, under the action of gravity of the building materials, the placing table 44 moves downwards, so that the supporting columns 43 slide downwards, at the moment, the first pressure springs 42 are compressed, then the transport vehicle 3 can be pulled through the handles 1 and the fixing frames 2, the building materials are transported to a designated position through the fixing columns 41, the supporting columns 43 and the placing table 44, the transport vehicle 3 is easy to jolt due to uneven pavement of a construction site, the building materials jolt, the placing table 44 is caused to jolt, the placing table 44 is extruded by the building materials, the supporting columns 43 slide upwards and downwards, the first pressure springs 42 are subjected to adaptive deformation, the first pressure springs 42 are buffered by the first pressure springs 42, the supporting columns 43 and the placing table 44, the building materials are prevented from being damaged when jolt, the building materials are jolt on the first sliding frames 53, the first sliding frames 53 slide outwards and squeeze the air springs 52, the air springs 52 are prevented from being separated from the first sliding frames 53, the air springs are prevented from rolling upwards and being prevented from being damaged when the first sliding frames 53 are retracted, the air springs are prevented from rolling upwards, the air springs 52 are prevented from moving downwards, and the air springs are prevented from rolling upwards and being moved downwards by the first sliding frames 53, the air springs 52 are prevented from rolling upwards and being damaged when the first sliding frames 52 are prevented from rolling upwards, thereby driving the placing table 44 to move upward for resetting.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 5, the anti-shake-out mechanism 6 is further included, the anti-shake-out mechanism 6 includes a second sliding frame 61, a second pressure spring 62, a second fixing block 63, a sliding block 64 and a third pressure spring 65, the second sliding frame 61 is slidably connected to the placement table 44, the middle of the second sliding frame 61 passes through the middle of the placement table 44, the second pressure spring 62 is connected to the lower portion of the second sliding frame 61, the bottom end of the second pressure spring 62 is connected to the transport vehicle 3, the front side and the rear side of the placement table 44 are welded with the second fixing block 63, the upper portions of the second fixing block 63 are inclined inwards and downwards, the upper portions of the front side and the rear side of the second sliding frame 61 are slidably connected with the sliding block 64, the sliding block 64 moves downwards and can be in contact with the second fixing block 63, and the third pressure spring 65 is connected between the sliding block 64 and the second sliding frame 61.

When building materials need to be transported, people place the building materials on the second sliding frame 61, the second sliding frame 61 slides downwards under the gravity action of the building materials, at the moment, the second pressure spring 62 is compressed, when the second sliding frame 61 slides downwards, the sliding frame 61 drives the building materials to move downwards to be positioned on the placing table 44, the second sliding frame 61 slides downwards to drive the sliding block 64 to move downwards, the sliding block 64 moves downwards to squeeze the second fixing block 63, the reaction of the second fixing block 63 enables the sliding block 64 to slide inwards to be positioned above the building materials, so that the building materials can be prevented from shaking out of the placing table 44, the building materials are prevented from being damaged due to the impact of the building materials on the ground, the building materials are further guaranteed to be well-in-service, when the building materials of people are transported to a specified position, the building materials are extracted, the second pressure spring 62 resets to enable the second sliding frame 61 to slide upwards to reset, the sliding block 64 is driven to move upwards to be separated from the second fixing block 63, and then the third pressure spring 65 resets to enable the sliding block 64 to slide outwards to reset.

As shown in fig. 2, 6 and 7, the device further comprises an interception mechanism 7, the interception mechanism 7 comprises a third fixed block 71, a torsion spring 72 and a first rotating frame 73, the third fixed block 71 is symmetrically welded on the left side and the right side of the top wall of the placing table 44, the third fixed block 71 is connected with the first rotating frame 73 through bearings, the first rotating frame 73 at the front is located close to the front of the first sliding frame 53, the first rotating frame 73 at the rear is located close to the rear of the first sliding frame 53, the torsion spring 72 is wound on the first rotating frame 73, and the upper end and the lower end of the torsion spring 72 are respectively connected with the first rotating frame 73 and the third fixed block 71.

When the building material to be transported is short in length, people place the building material with short length between the four first rotating frames 73, when the building material shakes, the building material extrudes the first rotating frames 73, so that the first rotating frames 73 rotate inwards and outwards, at the moment, the torsion springs 72 are subjected to adaptive deformation, the building material with short length can be buffered and intercepted through the torsion springs 72 and the first rotating frames 73, the situation that the placing table 44 is directly shaken out without being contacted with the air springs 52 when the building material with short length shakes is avoided, and accordingly the integrity of the building material with short length can be guaranteed, and the applicability is strong.

As shown in fig. 2, 8 and 9, the anti-tilting mechanism 8 further comprises a first fixing ring 81, a third sliding frame 82 and a tension spring 83, wherein two first fixing rings 81 are welded on the inner side of the sliding block 64, one third sliding frame 82 is slidably connected between the front two first fixing rings 81, the other third sliding frame 82 is slidably connected between the rear two first fixing rings 81, the left and right parts of the third sliding frame 82 are respectively wound with the tension spring 83, and the upper end and the lower end of the tension spring 83 are respectively connected with the third sliding frame 82 and the first fixing rings 81.

When the sliding block 64 slides inwards, the first fixing ring 81 is driven to move inwards, so that the third sliding frame 82 is driven to move inwards until the third sliding frame 82 is pressed on the top of the building material, the building material shakes and extrudes the third sliding frame 82 in the process of transporting the building material, the third sliding frame 82 slides up and down, at the moment, the tension spring 83 deforms adaptively, so that the third sliding frame 82 always presses the top of the building material, the building material is buffered through the tension spring 83 and the third sliding frame 82, the building material is prevented from shaking randomly, and the perfect condition of the building material is further guaranteed.

As shown in fig. 1 and 10, the anti-spurting device further comprises an anti-spurting mechanism 9, the anti-spurting mechanism 9 comprises a second fixing ring 91, a second rotating frame 92, limiting blocks 93 and a baffle 94, the second fixing ring 91 is symmetrically welded in the middle of the right wall of the fixing frame 2, the second rotating frame 92 is rotationally connected between the second fixing rings 91, the baffle 94 is fixedly connected on the second rotating frame 92, the number of the limiting blocks 93 is two, the limiting blocks 93 are welded on the front side and the rear side of the lower part of the right wall of the fixing frame 2, and the limiting blocks 93 support the left part of the baffle 94.

When the building material needs to be transported, people first rotate the baffle 94 upwards, enable the baffle 94 to rotate ninety degrees upwards, then continue to place the operation of the building material, when the building material is placed, rotate the baffle 94 downwards to the original position, at the moment, the baffle 94 can cover the building material, thereby the building material which is easy to splash can be prevented from splashing and bringing harm to people, the safety is good, when the building material needs to be taken away, the baffle 94 is rotated upwards again, enable the baffle 94 to rotate ninety degrees upwards, then the building material is taken away, and when the building material is taken out, the baffle 94 is rotated downwards to the original position.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (5)

1. The utility model provides a building material has damping function's conveyer, including handle (1), mount (2) and transport vechicle (3), mount (2) are installed in transport vechicle (3) roof left side, install handle (1), characterized by in the middle of mount (2) left side: the device also comprises a damping mechanism (4) and a damping mechanism (5), wherein the top wall of the transport vehicle (3) is provided with the damping mechanism (4) for damping the bottom of the building material, and the damping mechanism (4) is provided with the damping mechanism (5) for damping the left side and the right side of the building material;

the damping mechanism (4) comprises fixing columns (41), first pressure springs (42), supporting columns (43) and placing tables (44), wherein the fixing columns (41) are symmetrically arranged on the left side and the right side of the top wall of the transport vehicle (3), the supporting columns (43) are connected in the fixing columns (41) in a sliding mode, the placing tables (44) are arranged between the tops of the supporting columns (43), the first pressure springs (42) are wound on the supporting columns (43), and the upper ends and the lower ends of the first pressure springs (42) are respectively connected with the supporting columns (43) and the fixing columns (41);

the buffer mechanism (5) comprises a first fixed block (51), gas springs (52) and a first sliding frame (53), the first fixed block (51) is arranged on the left side and the right side of the placing table (44), two gas springs (52) capable of contracting and extending are connected to the inner side of the first fixed block (51), and the first sliding frame (53) is connected between the gas springs (52) at the left part and between the gas springs (52) at the right part;

the anti-shaking mechanism (6) is used for preventing building materials from shaking out of the placing table (44), the anti-shaking mechanism (6) comprises a second sliding frame (61), a second pressure spring (62), a second fixed block (63), a sliding block (64) and a third pressure spring (65), the placing table (44) is connected with the second sliding frame (61) used for supporting building materials in a sliding mode, under the action of gravity of the building materials, the second sliding frame (61) slides downwards, the middle of the second sliding frame (61) passes through the middle of the placing table (44), the lower part of the second sliding frame (61) is connected with the second pressure spring (62), the bottom end of the second pressure spring (62) is connected with the transport vehicle (3), the front side and the rear side of the placing table (44) are respectively provided with the second fixed block (63), the upper parts of the second fixed blocks (63) are respectively provided with inclined planes inclined inwards and downwards, the upper parts of the front side and the rear side of the second sliding frame (61) are respectively connected with the sliding block (64) used for limiting the front side and the rear side of the top of the building materials in a sliding mode, the sliding block (64) is contacted with the second fixed blocks (63) downwards in a horizontal sliding mode at the same time, and a third pressure spring (65) is connected between the sliding block (64) and the second sliding frame (61).

2. A transportation device for building materials with shock absorbing function according to claim 1, characterized in that: the device is characterized by further comprising an interception mechanism (7) for buffering and intercepting building materials with shorter length, wherein the interception mechanism (7) comprises a third fixed block (71), torsion springs (72) and a first rotating frame (73), the third fixed block (71) is symmetrically arranged on the left side and the right side of the top wall of the placing table (44), the first rotating frame (73) is rotationally connected to the third fixed block (71), the first rotating frame (73) at the front is located in front of the first sliding frame (53), the first rotating frame (73) at the rear is located behind the first sliding frame (53), the torsion springs (72) are wound on the first rotating frame (73), and the upper end and the lower end of each torsion spring (72) are respectively connected with the first rotating frame (73) and the third fixed block (71).

3. A transportation device for building materials with shock absorbing function according to claim 2, characterized in that: the anti-tilting mechanism (8) for pressing building materials is further included, the anti-tilting mechanism (8) comprises a first fixing ring (81), a third sliding frame (82) and a tension spring (83), two first fixing rings (81) are installed on the inner sides of sliding blocks (64), the third sliding frame (82) is connected between the two first fixing rings (81) at the front in a sliding mode, the third sliding frame (82) is also connected between the two first fixing rings (81) at the rear in a sliding mode, the tension spring (83) is wound on the left portion and the right portion of the third sliding frame (82), and the upper end and the lower end of the tension spring (83) are connected with the third sliding frame (82) and the first fixing rings (81) respectively.

4. A transportation device for building materials with shock absorbing function according to claim 3, characterized in that: the anti-spurting device is characterized by further comprising anti-spurting mechanisms (9) used for blocking the tops of building materials, wherein the anti-spurting mechanisms (9) comprise second fixing rings (91), second rotating frames (92) and baffle plates (94), the second fixing rings (91) are symmetrically arranged in the middle of the right wall of the fixing frame (2), the second rotating frames (92) are rotatably connected between the second fixing rings (91), and the baffle plates (94) are arranged on the second rotating frames (92).

5. The transportation device with shock absorbing function for building materials according to claim 4, wherein: the device also comprises a limiting block (93), wherein the limiting blocks (93) are arranged on the front side and the rear side of the lower part of the right wall of the fixing frame (2), and the limiting blocks (93) support the left part of the baffle plate (94).