CN115947050A

CN115947050A - Building material transportation equipment

Info

Publication number: CN115947050A
Application number: CN202211722429.2A
Authority: CN
Inventors: 黄龙飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-12-30
Filing date: 2022-12-30
Publication date: 2023-04-11

Abstract

The invention discloses a building material transportation device which comprises a support, wherein a middle support is arranged in the support, symmetrical guide grooves are arranged in the support, waist-shaped sliding fit grooves are formed in the two sides of the support, an inner cavity is formed in each sliding fit groove, a plurality of swing supports are arranged in each inner cavity, a rotating rod is rotatably arranged on one side of each swing support, a side fit plate is arranged on one side of each rotating rod and is in rotating fit connection with the corresponding rotating rod, and a motor for driving the rotating rods to rotate is arranged in a fixed connection block.

Description

Building material transport equipment

Technical Field

The invention relates to the technical field of building material transportation equipment, in particular to building material transportation equipment.

Background

Most of the existing building materials are transported by means of manual carrying, some of the existing building materials are transported by a conveyor belt in general, and during transportation of the conveyor belt, only some articles with the size slightly larger than the bandwidth of the conveyor belt can be transported, but the articles with the size slightly larger than the bandwidth of the conveyor belt cannot be transported, and in the process, the inconvenience degree of the conveyor belt in the building material transportation process is increased.

Disclosure of Invention

The invention aims to solve the technical problem of providing building material transportation equipment, which can solve the problems in the prior art and can realize automatic adjustment of the position of a hook so that the hook can hang large-size articles.

The invention is realized by the following technical scheme: the building material transportation equipment comprises a support, wherein a middle support is arranged in the support, symmetrical guide grooves are formed in the support, waist-shaped sliding fit grooves are formed in the two sides of the support, an inner cavity is formed in each sliding fit groove, a plurality of swing supports are arranged in each inner cavity, a rotating rod is rotatably arranged on one side of each swing support, a side fit plate is arranged on one side of each rotating rod and is connected with the corresponding rotating rod in a rotating fit mode, a motor for driving the rotating rods to rotate is arranged in each fixed connecting block, rotating fit rods are arranged on the outer surfaces of the rotating rods, the rotating fit rods adjacent to the outer surfaces of the rotating rods are arranged in a staggered mode, a plurality of fit rods are arranged in the support, symmetrical abutting shafts are arranged on the two sides of each fit rod and slidably abut against the corresponding sliding fit grooves, the abutting shafts abut against the rotating fit rods, a hanging device for hanging articles is arranged on the outer surfaces of the fit rods, a position changing device for changing the positions of the hanging devices on the outer surfaces of the fit rods is arranged at the ends of the support, a position maintaining device for limiting the hanging devices is arranged on the lower side of the support, a plurality of rotating fit rods, and a plurality of rotating fit rods are arranged in the sliding fit grooves.

According to the technical scheme, the hanging device comprises a box body, a hook is arranged at the bottom of the box body, a clamping inner cavity is arranged in the box body, the clamping inner cavity is connected with a matching rod in a sliding fit mode, two sides of the clamping inner cavity are communicated with symmetrical containing cavities, one side of each containing cavity is communicated with a symmetrical side extending cavity, a movable clamping block is arranged in each containing cavity in a sliding mode, the movable clamping block is connected with the side extending cavity in a sliding fit mode, a containing inner cavity is arranged in each movable clamping block, a buffer connecting spring is elastically arranged between the end wall of each containing inner cavity and the box body and used for compressing the movable clamping block on the outer surface of the matching rod, and a retraction assembly which is arranged in the box body and used for retracting the movable clamping block into the containing cavity is arranged after being pressed down.

Further technical scheme, the retraction subassembly including set up in place the removal cooperation piece of intracavity, remove the symmetry setting of cooperation piece, it is provided with the cooperation and connects the inclined plane to remove cooperation piece one side, gliding being provided with the pressure movable plate in the box, pressure movable plate downside is provided with the lower depression bar of symmetry, the depression bar with the position of removing the cooperation piece contact is provided with connects the face, it is provided with the cooperation and connects the inclined plane to remove cooperation piece one side, the cooperation connect the inclined plane with it sets up to connect the face counterbalance, the pressure movable plate top is provided with the counterbalance arch.

According to the technical scheme, the position changing device comprises a swing support which is arranged on two sides of the support in a rotating mode, the swing support is driven by a motor to rotate, an inclined plane is arranged in the swing support, a vertical plane is arranged on one side of the inclined plane, the abutting protrusion is conical, and the end face of the abutting protrusion abuts against the inclined plane and the vertical plane.

According to the technical scheme, the position retaining device comprises a movable matching plate connected with the guide groove in a sliding fit mode, the movable matching plate is symmetrically arranged, a rotary threaded shaft is arranged in the guide groove in a rotating mode and driven to rotate by a motor, two sections of threads with opposite screwing directions are arranged on the outer surface of the rotary threaded shaft, and the movable matching plate is connected with the threads with opposite screwing directions on the outer surface of the rotary threaded shaft in a threaded fit mode.

The invention has the beneficial effects that:

the device of the invention has simple structure, can adjust the position of the box body according to the articles to be hung, and can keep the distance between the box body and the lower position for hanging the box body.

When the equipment transports objects, firstly, the distance between the box bodies on the outer surface of the matching rod is adjusted according to the objects to be hung, and because of different volumes of different building materials, when the equipment is hung, the distance between the box bodies can be adjusted by using the adjustable box bodies, so that building materials with different specifications can be effectively hung, at this time, because the swinging bracket rotates after working, because the angle between the swinging bracket and the bracket is changed, and the position of the tail end of the swinging bracket is the final position after the angle of the box body can be changed, because the rotating rod in the fixed connecting block rotates, because the rotating rod is fixed with the rotating matching rod, the rotating matching rod rotates along with the rotating rod, because the rotating matching rod continuously moves, and after the abutting shaft abuts against the rotating matching rod, the abutting shaft continuously moves in the sliding matching groove, and because the swinging bracket is arranged at the top of the bracket, during the moving of the matching rod, the inclined surface on one side of the swinging bracket and the abutting shaft abut against the rotating matching rod can continuously move, and the abutting surface and the abutting protrusion can be matched with the inclined surface of the sliding protrusion, and the abutting block can be extruded into the sliding block and the clamping block and the lower surface of the pressing block, and the pressing block can be extruded in the clamping block, and the lower part, and the pressing block can be extruded on the lower part of the sliding block, and the pressing block, and the lower part of the pressing block, the movable clamping block is separated from the support of the matching rod, the box body can freely slide on the outer surface of the matching rod at the moment, the box body slides relative to the matching rod in the process of sliding the matching rod, after the vertical surface touches and matches the supporting protrusion, the state can be maintained until the supporting protrusion is separated from the contact with the inclined surface, the buffer connecting spring enables the movable clamping block to reset, the movable clamping block clamps the matching rod again, at the moment, the box body can be conveniently hung on building materials, and the movable matching plates are driven to be close to or far away from each other in the guide groove after the rotating threaded shaft works, so that the box body on the lower side can be lined when objects are hung on the box body, and the box body can keep the distance and does not deflect.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view showing an overall internal structure of a construction material transportation apparatus according to the present invention;

FIG. 2 is a schematic view at A in FIG. 1;

FIG. 3 is a schematic bottom view of the apparatus of FIG. 1;

FIG. 4 is a schematic side view of the apparatus of FIG. 1;

FIG. 5 is a schematic view at B in FIG. 4;

FIG. 6 is a schematic view of the hook assembly of FIG. 1;

FIG. 7 is a schematic view at C of FIG. 6;

in the figure, the bracket 11, the rotating rod 21, the guide groove 22, the movable matching plate 23, the rotating threaded shaft 24, the rotating matching rod 25, the middle bracket 26, the box body 27, the matching rod 28, the abutting shaft 29, the side matching plate 31, the internal cavity 32, the swinging bracket 33, the fixed connecting block 34, the sliding matching groove 35, the abutting protrusion 42, the vertical surface 46, the inclined surface 47, the pressing plate 51, the sliding groove 52, the clamping inner cavity 54, the side extending cavity 61, the matching connecting inclined surface 62, the movable matching block 63, the movable clamping block 64, the lower pressing rod 65, the connecting surface 66, the placing inner cavity 68, the buffer connecting spring 69 and the accommodating cavity 71 are arranged.

Detailed Description

As shown in fig. 1 to 7, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the building material transportation equipment comprises a support 11, wherein a middle support 26 is arranged in the support 11, symmetrical guide grooves 22 are arranged in the support 11, waist-shaped sliding fit grooves 35 are formed in two sides of the support 11, an inner cavity 32 is formed in each sliding fit groove 35, a plurality of swing supports 33 are arranged in each inner cavity 32, a rotating rod 21 is rotatably arranged on one side of each swing support 33, a side fit plate 31 is arranged on one side of each rotating rod 21, the side fit plates 31 are connected with the rotating rods 21 in a rotating fit mode, a motor for driving the rotating rods 21 to rotate is arranged in a fixed connecting block 34, rotating fit rods 25 are arranged on the outer surfaces of the rotating rods 21, the rotating fit rods 25 on the outer surfaces of the adjacent rotating rods 21 are arranged in a staggered mode, a plurality of fit rods 28 are arranged in the support 11, symmetrical abutting shafts 29 are arranged on two sides of the fit rods 28, the abutting shafts 29 are slidably abutted against the sliding fit grooves 35, the abutting shafts 29 are abutted against the rotating fit rods 25, a plurality of suspension devices for suspending articles are arranged on the outer surfaces of the end portions of the support 11, the positions of the sliding fit rods are changed by a plurality of the abutting shafts 29, and the rotating fit rods are arranged in the sliding fit grooves, and the rotating fit rods 25 continuously.

Beneficially, the suspension device comprises a box body 27, a hook is arranged at the bottom of the box body 27, a clamping inner cavity 54 is arranged in the box body 27, the clamping inner cavity 54 is connected with a matching rod 28 in a sliding fit mode, two sides of the clamping inner cavity 54 are communicated with symmetrical containing cavities 71, one side of each containing cavity 71 is communicated with a symmetrical side extending cavity 61, a movable clamping block 64 is arranged in each containing cavity 71 in a sliding fit mode, the movable clamping block 64 is connected with the side extending cavities 61 in a sliding fit mode, a placing inner cavity 68 is arranged in each movable clamping block 64, a buffer connecting spring 69 is elastically arranged between the end wall of the placing inner cavity 68 and the box body 27, each buffer connecting spring 69 tightly presses the corresponding movable clamping block 64 to the outer surface of the corresponding matching rod 28, and a retraction assembly which enables the corresponding movable clamping block 64 to retract into the corresponding containing cavity 71 after being pressed downwards is arranged in the box body 27.

Beneficially, wherein, the retraction assembly includes a movable matching block 63 disposed in the placement cavity 68, the movable matching block 63 is symmetrically disposed, a matching connection inclined surface 62 is disposed on one side of the movable matching block 63, a pressing plate 51 is slidably disposed in the box 27, symmetrical lower pressing rods 65 are disposed on the lower side of the pressing plate 51, a connection surface 66 is disposed at a contact position of the lower pressing rods 65 and the movable matching block 63, a matching connection inclined surface 62 is disposed on one side of the movable matching block 63, the matching connection inclined surface 62 is disposed to abut against the connection surface 66, and an abutting protrusion 42 is disposed on the top of the pressing plate 51.

Advantageously, the position changing device includes a swing bracket 33 rotatably disposed on both sides of the bracket 11, the swing bracket 33 is driven by a motor to rotate, an inclined surface 47 is disposed in the swing bracket 33, a vertical surface 46 is disposed on one side of the inclined surface 47, the abutting protrusion 42 is conical, and an end surface of the abutting protrusion 42 is disposed abutting against the inclined surface 47 and the vertical surface 46.

Advantageously, the position maintaining device comprises a movable matching plate 23 in sliding fit connection with the guide groove 22, the movable matching plate 23 is symmetrically arranged, a rotating threaded shaft 24 is arranged in the guide groove 22 in a rotating mode, the rotating threaded shaft 24 is driven to rotate by a motor, two sections of threads with opposite rotation directions are arranged on the outer surface of the rotating threaded shaft 24, and the movable matching plate 23 is in threaded fit connection with threads with opposite rotation directions on the outer surface of the rotating threaded shaft 24.

In the initial state, the devices, assemblies and structures are in the inactive state, and the apparatus is capable of adjusting the position of the box 27 according to the article to be hung and also maintaining the spacing thereof in the lower position for the hanging position.

When the equipment transports the article, firstly, the distance between the box bodies 27 and the outer surface of the matching rod 28 is adjusted according to the article to be hung, because the volumes of different building materials are different, when the equipment is hung, the distance between the box bodies 27 can be adjusted by utilizing the adjustable box bodies 27, so that the building materials with different specifications can be effectively hung, then, because the swinging bracket 33 rotates after working, because the angle between the swinging bracket 33 and the bracket 11 is changed, and the position of the tail end of the swinging bracket 33 is the final position after the angle of the box body 27 can be changed, on one hand, because the rotating rod 21 in the fixed connecting block 34 rotates when working, because the rotating rod 21 is fixed with the rotating matching rod 25, the rotating matching rod 25 rotates along with the rotating rod 21, because the rotating matching rod 25 rotates after continuous movement, and after the abutting shaft 29 abuts against the rotating engagement rod 25, the abutting shaft 29 is continuously moved in the sliding engagement groove 35, and since the swing bracket 33 is arranged at the top position of the bracket 11, in the process of moving the engagement rod 28, the inclined surface 47 and the vertical surface 46 at one side of the swing bracket 33 can abut against the abutting protrusion 42, and since the engagement rod 28 is continuously slid, after the inclined surface 47 and the vertical surface 46 abut against the abutting protrusion 42, the abutting protrusion 42 is pressed by the inclined surface 47 to extend the pressing plate 51 into the box 27, and after the down-pressing rod 65 abuts against the connection surface 66, the moving engagement block 63 and the moving clamping block 64 slide in the side extending cavity 61, so that the moving clamping block 64 presses the buffer connection spring 69 to separate the moving clamping block 64 from abutting against the engagement rod 28, and at this time, the box 27 can freely slide on the outer surface of the engagement rod 28, the casing 27 slides relative to the engaging rod 28 during the sliding of the engaging rod 28, and after the vertical surface 46 touches the engaging protrusions 42, the state can be maintained until the engaging protrusions 42 are out of contact with the inclined surfaces 47, and then the buffer connecting spring 69 resets the movable clamping block 64, and the movable clamping block 64 re-clamps the engaging rod 28, at which time the casing 27 can be used for hanging the construction material, and at which time the casing 27 can be lined by driving the movable engaging plates 23 to approach or separate from each other in the guide groove 22 after the operation of the rotating threaded shaft 24, so that the lower casing 27 can be used for hanging the article more smoothly, and the casing 27 can be kept at the interval and not be deflected.

The above is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. Building material transportation equipment, including support (11), be provided with middle support (26) in support (11), be provided with symmetrical guide slot (22) in support (11), support (11) both sides inside is provided with waist type's cooperation groove (35) that slides, be provided with inside chamber (32) in cooperation groove (35) that slides, be provided with a plurality of swing support (33) in inside chamber (32), swing support (33) one side pivoted is provided with dwang (21), dwang (21) one side is provided with side cooperation board (31), side cooperation board (31) with dwang (21) normal running fit is connected, be provided with the drive in fixed connection piece (34) dwang (21) pivoted motor, dwang (21) surface is provided with normal running fit pole (25), and is adjacent the normal running fit pole (25) surface sets up crisscross, be provided with a plurality of cooperation poles (28) in support (11), cooperation pole (28) both sides are provided with symmetrical counterbalance axle (29), counterbalance axle (29) with the cooperation groove (35) counterbalance, counterbalance axle (29) and the normal running fit pole (28) and be used for the suspension device, the end of the support (11) is provided with a position changing device for changing the position of the suspension device on the outer surface of the matching rod (28), a position retaining device for retaining the position of the suspension device is arranged on the lower side of the support (11), the rotating matching rod (25) is provided with a plurality of protruding rods, the protruding rods abut against the abutting shafts (29), and the rotating matching rod (25) rotates to enable the abutting shafts (29) to continuously slide in the sliding matching groove (35).

2. The construction material transportation apparatus according to claim 1, wherein: the suspension device comprises a box body (27), a hook is arranged at the bottom of the box body (27), a clamping inner cavity (54) is arranged in the box body (27), the clamping inner cavity (54) is connected with a matching rod (28) in a sliding fit mode, two sides of the clamping inner cavity (54) are communicated with a symmetrical accommodating cavity (71), one side of the accommodating cavity (71) is communicated with a symmetrical side extending cavity (61), a movable clamping block (64) is arranged in the accommodating cavity (71) in a sliding fit mode, the movable clamping block (64) is connected with the side extending cavity (61) in a sliding fit mode, a placing inner cavity (68) is arranged in the movable clamping block (64), a buffer connecting spring (69) is arranged between the placing inner cavity (68) and the box body (27) in an elastic mode, the buffer connecting spring (69) compresses the movable clamping block (64) on the outer surface of the matching rod (28), and a retraction assembly in the accommodating cavity (71) is arranged in the box body (27) in a downward pressing mode and then enables the movable clamping block (64).

3. The construction material transportation apparatus according to claim 2, wherein: the retraction assembly comprises a movable matching block (63) arranged in the inner cavity (68), the movable matching block (63) is symmetrically arranged, one side of the movable matching block (63) is provided with a matching connection inclined surface (62), the box body (27) is provided with a pressing plate (51) in a sliding mode, the lower side of the pressing plate (51) is provided with a symmetrical lower pressing rod (65), the lower pressing rod (65) is connected with a connecting surface (66) at the position contacted with the movable matching block (63), one side of the movable matching block (63) is provided with a matching connection inclined surface (62), the matching connection inclined surface (62) is connected with the connecting surface (66) in a propping mode, and a propping bulge (42) is arranged at the top of the pressing plate (51).

4. The construction material transportation apparatus according to claim 1, wherein: the position changing device comprises a rotating swing support (33) arranged on two sides of the support (11), the swing support (33) is driven by a motor to rotate, an inclined surface (47) is arranged in the swing support (33), a vertical surface (46) is arranged on one side of the inclined surface (47), the abutting protrusion (42) is conical, and the end surface of the abutting protrusion (42) is abutted to the inclined surface (47) and the vertical surface (46).

5. The construction material transportation apparatus according to claim 1, wherein: the position retaining device comprises a movable matching plate (23) connected with the guide groove (22) in a sliding fit mode, the movable matching plate (23) is symmetrically arranged, a rotary threaded shaft (24) is arranged in the guide groove (22) in a rotating mode, the rotary threaded shaft (24) is driven by a motor to rotate, two sections of thread lines with opposite turning directions are arranged on the outer surface of the rotary threaded shaft (24), and the movable matching plate (23) is connected with the thread lines with opposite turning directions on the outer surface of the rotary threaded shaft (24) in a threaded fit mode.