CN209939714U - Portable material transporting device for constructional engineering - Google Patents

Abstract

The utility model relates to the technical field of material transporting devices, and provides a portable material transporting device for building engineering, which comprises a bottom plate, a material transporting assembly arranged above the bottom plate, and a positioning mechanism which can transfer the position of the material transporting assembly and can lock the position of the material transporting assembly, wherein the positioning mechanism is positioned below the bottom plate; the material transporting assembly comprises a supporting rod which is fixedly and vertically installed on the bottom plate, one end, far away from the bottom plate, of the supporting rod is hinged to a material transporting swing rod, the hinged point of the supporting rod and the material transporting swing rod is located between the head end and the tail end of the material transporting swing rod, a material containing hopper is installed at the head end of the material transporting swing rod, and a driving assembly used for providing downward driving force is installed at the tail end of the material transporting swing rod. The utility model discloses a portable material transporting device for building engineering can upwards transport the material through the lever principle of fortune material subassembly, and has solved the problem of portability through positioning mechanism for portability and stable transportation have been compromise to this device.

Description

Portable material transporting device for constructional engineering

Technical Field

The utility model relates to a fortune material technical field specifically is a portable fortune material device for building engineering.

Background

Various material transporting devices are often used in building engineering, but most of the existing material transporting devices cannot transport materials upwards, so that the transporting direction of the device is limited, and most of the existing material transporting equipment cannot give consideration to portability and stability.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable material transporting device for building engineering can upwards transport the material through the lever principle of fortune material subassembly, and has solved the problem of portability through positioning mechanism for portability and stable transportation have been compromise to this device.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: a portable material conveying device for constructional engineering comprises a bottom plate, a material conveying assembly and a positioning mechanism, wherein the material conveying assembly is arranged above the bottom plate, the positioning mechanism can transfer the position of the material conveying assembly and can lock the position of the material conveying assembly, and the positioning mechanism is positioned below the bottom plate; the material transporting assembly comprises a supporting rod which is fixedly and vertically installed on the bottom plate, one end, far away from the bottom plate, of the supporting rod is hinged to a material transporting swing rod, the hinged point of the supporting rod and the material transporting swing rod is located between the head end and the tail end of the material transporting swing rod, a material containing hopper is installed at the head end of the material transporting swing rod, and a driving assembly used for providing downward driving force is installed at the tail end of the material transporting swing rod.

Furthermore, the positioning mechanism comprises a plurality of supporting legs arranged below the bottom plate, and universal wheels are arranged below the supporting legs; the positioning mechanism further comprises a support assembly capable of supporting the bottom plate so that each universal wheel leaves the ground.

Further, the supporting component including set up relatively in two threaded rod fixed blocks of bottom plate bottom, run through two the regulation pole, the cover of threaded rod fixed block adjust two sliders on the pole, respectively with two the backup pad that slider articulated push rod and level set up, two the threaded rod fixed block with adjust the pole and all pass through bearing swing joint, two the slider all with adjust pole threaded connection, and two the screw thread opposite direction of slider, the backup pad articulates two the push rod is kept away from the one end of slider, it wears out to adjust the pole the rotation knob is installed to the one end of threaded rod fixed block.

Further, the supporting component further comprises a limiting rod fixedly connected between the two threaded rod fixing blocks, the limiting rod penetrates through the two sliding blocks, and the limiting rod is located above the adjusting rod.

Further, the bottom of the supporting plate is provided with a rubber protective layer.

Further, the height adjusting device also comprises a height adjusting component used for adjusting the height of the material containing hopper.

Further, height adjusting part includes that vertical and rotatable the installing two internal thread loop bars on the bottom plate, two threaded connection has two external screw thread telescopic links respectively in the inner chamber of internal thread loop bar, two the external screw thread telescopic link supports has can hold up the altitude mixture control board of holding hopper, two fixed cover respectively of internal thread loop bar outer wall is equipped with two gears, two have all and two between the gear No. two gear engagement's gear, No. two gear connection have first rotation motor, the axis of rotation of No. two gears with the coaxial setting of the output shaft of first rotation motor.

Further, the shock absorption device also comprises a shock absorption assembly capable of buffering the material containing hopper.

Further, the damping assembly comprises a damping plate which can be arranged on the bottom plate, two elastic part fixing blocks which are oppositely arranged are arranged on the damping plate, longitudinal damping elastic parts are vertically arranged on the two elastic part fixing blocks, and a damping top plate for placing the material containing hopper is supported by the two longitudinal damping elastic parts; two fixedly connected with shock attenuation slide bar between the elastic component fixed block, the cover is equipped with horizontal shock attenuation elastic component and slip cover and is equipped with two shock attenuation sliders on the shock attenuation slide bar, the both ends of horizontal shock attenuation elastic component are connected respectively two on the shock attenuation slider, shock attenuation roof bottom is equipped with two shock attenuation ejector pads, two shock attenuation ejector pad bottom all articulates there is the shock attenuation push rod, two the shock attenuation push rod respectively with two the shock attenuation slider is articulated.

Furthermore, the driving assembly comprises a belt pulley, a second rotating motor used for driving the belt pulley to rotate, a motor mounting table used for placing the second rotating motor, and a binding arm arranged at one end, far away from the material containing hopper, of the material conveying swing rod, the binding arm is connected with a stretching belt partially wrapping the belt pulley, and the motor mounting table is arranged on the bottom plate.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a portable material transporting device for building engineering, can upwards transport the material through the lever principle of fortune material subassembly, and has solved the problem of portability through positioning mechanism for portability and stable transportation have been compromise to this device.

Drawings

Fig. 1 is a schematic structural view of a portable material conveying device for construction engineering according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a support assembly of a portable material conveying device for construction engineering according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a height adjustment component of the portable material conveying device for construction engineering according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a shock-absorbing assembly of a portable material transporting device for construction engineering according to an embodiment of the present invention;

in the reference symbols: 1-bottom plate, 2-support rod, 3-material-carrying swing rod, 4-material-containing hopper, 5-binding arm, 6-height adjusting part, 61-internal thread loop bar, 62-external thread telescopic rod, 63-height adjusting plate, 64-first gear, 65-first rotating motor, 66-second gear, 7-damping component, 71-damping plate, 72-elastic piece fixing block, 73-longitudinal damping elastic piece, 74-damping top plate, 75-damping slide rod, 76-damping push block, 77-damping push rod, 78-damping slide block, 79-transverse damping elastic piece, 8-motor mounting table, 9-second rotating motor, 10-belt pulley, 11-stretching belt, 12-supporting leg, 13-universal wheel, 14-support component, 141-threaded rod fixed block, 142-adjusting rod, 143-sliding block, 144-push rod, 145-supporting plate, 146-limiting rod and 147-rotating knob.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention provides a portable material transporting device for building engineering, including a bottom plate 1, a material transporting assembly disposed above the bottom plate 1, and a positioning mechanism capable of transferring a position of the material transporting assembly and locking the position of the material transporting assembly, wherein the positioning mechanism is located below the bottom plate 1; fortune material subassembly is including fixed and vertical installation bracing piece 2 on the bottom plate 1, bracing piece 2 keeps away from the one end of bottom plate 1 articulates there is fortune material pendulum rod 3, bracing piece 2 with the pin joint of fortune material pendulum rod 3 is located between the head and the tail both ends of fortune material pendulum rod 3, the flourishing hopper 4 has been installed to the head end department of fortune material pendulum rod 3, and the drive assembly who is used for providing decurrent drive power is installed to the tail end. In this embodiment, fortune material subassembly has utilized lever principle ingeniously, can upwards transport the material of putting in hopper 4, has filled the function that current material transporting device upwards transported the material. Moreover, the device can be conveniently transferred to other places through the positioning mechanism, the portability is improved, and after a working place is determined, the position of the device is locked so as to stably carry out material transporting operation.

The following are specific examples:

optimizing the positioning mechanism, referring to fig. 1, the positioning mechanism includes a plurality of support legs 12 installed below the bottom plate 1, and a universal wheel 13 is installed below each support leg 12; the positioning mechanism further comprises a support assembly 14 which can support the base plate 1 so that each universal wheel 13 is away from the ground. In this embodiment, the positioning mechanism has two functions, one of which is to drive the device or the material transporting assembly to transfer to a work place, and the other is to lock the current position after reaching the work place, so as to facilitate construction. Therefore, in the present embodiment, the transfer function is first detailed, specifically, the support legs 12 and the universal wheels 13 are used, but of course, the transfer function may be moved in a manner similar to the crawler of the excavator. Then, the locking function is refined, specifically, the bottom plate 1 is supported by the supporting assembly 14 so that the supporting legs 12 and the universal wheels 13 arranged below the bottom plate 1 are away from the ground to prevent the universal wheels 13 from rolling, and of course, the device can also be locked by locking the universal wheels 13.

The supporting component 14 is optimized, referring to fig. 1 and 2, the supporting component 14 includes two threaded rod fixing blocks 141 oppositely disposed at the bottom of the bottom plate 1, an adjusting rod 142 penetrating through the two threaded rod fixing blocks 141, two sliding blocks 143 sleeved on the adjusting rod 142, push rods 144 respectively hinged to the two sliding blocks 143, and a supporting plate 145 horizontally disposed, the two threaded rod fixing blocks 141 and the adjusting rod 142 are movably linked through a bearing, the two sliding blocks 143 are both in threaded connection with the adjusting rod 142, the thread directions of the two sliding blocks 143 are opposite, the supporting plate 145 is hinged to one end of the two push rods 144 far away from the sliding blocks 143, and a rotating knob 147 is installed at one end of the adjusting rod 142 penetrating through the threaded rod fixing blocks 141. In this embodiment, according to the principle of screw transmission, the rotating knob 147 is screwed, the two sliding blocks 143 are opposite in thread, and therefore they can be close to or far away from each other, so as to adjust the inclination angle of the push rod 144, when the push rod 144 is inclined to a height greater than the height of the supporting leg 12+ the universal wheel 13, the supporting plate 145 contacts the ground, and at this time, the universal wheel 13 leaves the ground, so as to support the bottom plate 1, thereby achieving the purpose of locking the device, and when the place needs to be transferred, the rotating knob 147 is rotated in reverse, so that the universal wheel 13 contacts the ground again, and the device can be transferred. Of course, in addition to this, an electric push rod or an air cylinder may be used for supporting, and a description thereof will not be provided.

Continuing to optimize the supporting assembly 14, referring to fig. 1 and 2, the supporting assembly 14 further includes a limiting rod 146 fixedly connected between the two threaded rod fixing blocks 141, the limiting rod 146 penetrates through the two sliding blocks 143, and the limiting rod 146 is located above the adjusting rod 142. In the present embodiment, the limit rod 146 is provided to prevent the interference caused by the proximity of the adjustment rod 142 and the bottom plate 1.

As the embodiment of the utility model provides an optimize the scheme, the bottom of backup pad 145 is equipped with the rubber protection layer. In this embodiment, a rubber protective layer is disposed at the bottom of the supporting plate 145 to prevent slipping and protect the supporting plate 145.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1 and 3, the apparatus further includes a height adjusting component 6 for adjusting the height of the material containing hopper 4. In this embodiment, the initial height of the hopper 4 can be adjusted by the height adjusting member 6 to assist the upward conveyance.

The height adjusting component 6 is optimized, referring to fig. 1 and 3, the height adjusting component 6 includes two internal thread loop bars 61 vertically and rotatably mounted on the bottom plate 1, two external thread telescopic rods 62 are respectively and threadedly connected in inner cavities of the two internal thread loop bars 61, a height adjusting plate 63 capable of supporting the material containing hopper 4 is supported by the two external thread telescopic rods 62, two first gears 64 are respectively and fixedly sleeved on outer walls of the two internal thread loop bars 61, a second gear 66 engaged with the two first gears 64 is arranged between the two first gears 64, the second gear 66 is connected with a first rotating motor 65, and a rotating shaft of the second gear 66 is coaxially arranged with an output shaft of the first rotating motor 65. In this embodiment, screw transmission is also adopted, the first rotating motor 65 rotates to drive the second gear 66 to rotate, then the second gear 66 drives the two first gears 64 to rotate again, then the two first gears 64 drive the two internal thread loop bars 61 to rotate again, the external thread telescopic rod 62 in threaded connection with the two internal thread loop bars 61 vertically moves up and down under the effect of the screw transmission, namely stretches out and draws back in the vertical direction, so as to adjust the height of the material containing hopper 4 above the external thread telescopic rod. The first rotating motor 65 is electrically connected to an external power source through a control switch. Of course, in addition to this, the lifting can also be driven by an electric push rod or an air cylinder, which is the prior art and will not be described in detail here.

As an optimized scheme of the embodiment of the present invention, please refer to fig. 1 and 4, the apparatus further includes a damping component 7 capable of buffering the material containing hopper 4. In the present embodiment, the hopper 4 generates a slight impact force when it is lowered, and the damper unit 7 can provide a cushioning effect to the hopper 4.

The damping assembly 7 is optimized, and referring to fig. 1 and 4, the damping assembly 7 includes a damping plate 71 capable of being placed on the bottom plate 1, two elastic element fixing blocks 72 oppositely arranged are mounted on the damping plate 71, a longitudinal damping elastic element 73 is vertically mounted on each of the two elastic element fixing blocks 72, and a damping top plate 74 for placing the material containing hopper 4 is supported by the two longitudinal damping elastic elements 73; two fixedly connected with shock attenuation slide bar 75 between elastic component fixed block 72, the cover is equipped with horizontal shock attenuation elastic component 79 and the slip cover is equipped with two damping slide block 78 on the shock attenuation slide bar 75, the both ends of horizontal shock attenuation elastic component 79 are connected respectively two on the damping slide block 78, damping roof 74 bottom is equipped with two shock attenuation ejector pads 76, two shock attenuation ejector pad 76 bottom all articulates there is shock attenuation push rod 77, two shock attenuation push rod 77 respectively with two damping slide block 78 articulates. In the present embodiment, the damping is performed from two sides, one is performed by two longitudinal damping elastic members 73, and the other is performed by a transverse damping elastic member 79, which may use springs to achieve the damping. Specifically, when the hopper 4 is lowered to give an impact, first, the two longitudinal damping elastic members 73 are compressed to absorb the impact, and the two damping sliders 78 are moved toward each other, at which time the transverse damping elastic members 79 are compressed to further absorb the impact. Therefore, better shock absorption effect can be achieved. Of course, the transverse damping elastic members 79 may be omitted, and more longitudinal damping elastic members 73 may be provided, thereby achieving a good damping effect.

The driving assembly is optimized, referring to fig. 1, the driving assembly comprises a belt pulley 10, a second rotating motor 9 for driving the belt pulley 10 to rotate, a motor mounting table 8 for placing the second rotating motor 9, and a binding arm 5 mounted at one end of the material conveying swing rod 3 far away from the material containing hopper 4, the binding arm 5 is connected with a stretching belt 11 partially wrapping the belt pulley 10, and the motor mounting table 8 is mounted on the bottom plate 1. In the embodiment, a second rotating motor 9 provides a rotating force to the belt pulley 10, and then the belt pulley 10 retracts the stretching belt 11, at this time, the stretching belt 11 provides a traction force to the binding arm 5, so that the right side (in the figure) of the material conveying swing rod 3 can be driven to descend, and the material in the material containing hopper 4 can be conveyed upwards. Of course, in addition to this, an electric push rod may be used to extend and contract to pull and release the tension belt 11. The second rotating motor 9 is electrically connected to an external power source through a control switch.

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

Claims (10)

1. The utility model provides a portable material transporting device for building engineering, includes the bottom plate, its characterized in that: the material conveying device further comprises a material conveying assembly arranged above the bottom plate and a positioning mechanism capable of transferring the position of the material conveying assembly and locking the position of the material conveying assembly, wherein the positioning mechanism is positioned below the bottom plate; the material transporting assembly comprises a supporting rod which is fixedly and vertically installed on the bottom plate, one end, far away from the bottom plate, of the supporting rod is hinged to a material transporting swing rod, the hinged point of the supporting rod and the material transporting swing rod is located between the head end and the tail end of the material transporting swing rod, a material containing hopper is installed at the head end of the material transporting swing rod, and a driving assembly used for providing downward driving force is installed at the tail end of the material transporting swing rod.

2. The portable material conveying device for the building engineering as claimed in claim 1, characterized in that: the positioning mechanism comprises a plurality of supporting legs arranged below the bottom plate, and universal wheels are arranged below the supporting legs; the positioning mechanism further comprises a support assembly capable of supporting the bottom plate so that each universal wheel leaves the ground.

3. The portable material conveying device for the building engineering as claimed in claim 2, characterized in that: the supporting component including set up relatively in two threaded rod fixed blocks of bottom plate bottom, run through two the regulation pole, the cover of threaded rod fixed block adjust two sliders on the pole, respectively with two the backup pad that slider articulated push rod and level set up, two the threaded rod fixed block with adjust the pole and all pass through bearing swing joint, two the slider all with adjust pole threaded connection, and two the screw thread opposite direction of slider, the backup pad articulates two the push rod is kept away from the one end of slider, it wears out to adjust the pole the rotation knob is installed to the one end of threaded rod fixed block.

4. The portable material conveying device for the building engineering as claimed in claim 3, characterized in that: the supporting component further comprises a limiting rod fixedly connected between the two threaded rod fixing blocks, the limiting rod penetrates through the two sliding blocks, and the limiting rod is located above the adjusting rod.

5. The portable material conveying device for the building engineering as claimed in claim 3, characterized in that: and a rubber protective layer is arranged at the bottom of the supporting plate.

6. The portable material conveying device for the building engineering as claimed in claim 1, characterized in that: the height adjusting device is used for adjusting the height of the material containing hopper.

7. The portable material conveying device for the building engineering as claimed in claim 6, characterized in that: height adjusting part includes vertical and rotatable the installation two internal thread loop bars on the bottom plate, two there are two external screw thread telescopic links, two threaded connection respectively in the inner chamber of internal thread loop bar the external screw thread telescopic link supports and has can hold up the altitude mixture control board of holding hopper, two fixed cover is equipped with two gears, two respectively to internal thread loop bar outer wall have between the gear all with two No. two gear of a gear engagement, No. two gear connection have first rotation motor, the axis of rotation of No. two gears with the coaxial setting of output shaft of first rotation motor.

8. The portable material conveying device for the building engineering as claimed in claim 1, characterized in that: the shock absorption device also comprises a shock absorption assembly capable of buffering the material containing hopper.

9. The portable material conveying device for construction engineering as claimed in claim 8, characterized in that: the damping assembly comprises a damping plate which can be arranged on the bottom plate, two elastic part fixing blocks which are oppositely arranged are arranged on the damping plate, longitudinal damping elastic parts are vertically arranged on the two elastic part fixing blocks, and a damping top plate for placing the material containing hopper is supported by the two longitudinal damping elastic parts; two fixedly connected with shock attenuation slide bar between the elastic component fixed block, the cover is equipped with horizontal shock attenuation elastic component and slip cover and is equipped with two shock attenuation sliders on the shock attenuation slide bar, the both ends of horizontal shock attenuation elastic component are connected respectively two on the shock attenuation slider, shock attenuation roof bottom is equipped with two shock attenuation ejector pads, two shock attenuation ejector pad bottom all articulates there is the shock attenuation push rod, two the shock attenuation push rod respectively with two the shock attenuation slider is articulated.

10. The portable material conveying device for the building engineering as claimed in claim 1, characterized in that: the driving assembly comprises a belt pulley, a second rotating motor used for driving the belt pulley to rotate, a motor mounting table used for placing the second rotating motor, and a binding arm arranged at one end, far away from the material containing hopper, of the material conveying swing rod, the binding arm is connected with a stretching belt partially wrapping the belt pulley, and the motor mounting table is arranged on the bottom plate.

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