CN215515899U - Device is stacked to fragment of brick for construction - Google Patents

Abstract

The utility model discloses a brick stacking device for construction, which belongs to the technical field of constructional engineering equipment and comprises a turnover plate sliding mechanism and a storage mechanism, wherein the sliding mechanism also comprises a sliding plate, a plurality of second partition plates with equal intervals are arranged on the sliding plate, the left side and the right side of the sliding mechanism are respectively connected with a first upright post and a second upright post, the first upright post is connected with a second rotating shaft, the second rotating shaft is connected with a plurality of blocking discs, each blocking disc is uniformly connected with three blocking rods along the circumferential direction, the second upright post is connected with a third rotating shaft, the third rotating shaft is connected with a plurality of push rods, and a clamping mechanism is connected between the second rotating shaft and the third rotating shaft. The utility model can automatically stack the bricks in the carriage on the ground in order, thereby avoiding the bricks from being damaged by larger impact force and facilitating workers to convey the bricks to all places of a construction site.

Description

Device is stacked to fragment of brick for construction

Technical Field

The utility model belongs to the technical field of constructional engineering equipment, and particularly relates to a brick stacking device for construction.

Background

The urbanization process is continuously promoted, the building industry is rapidly developed, and bricks are used as main building materials and are unnecessary to be used in various construction sites.

At present, the freight train transports the fragment of brick to the job site after, generally directly rises boxcar, directly pours out the fragment of brick in the carriage, and this kind of mode of unloading is though swift, but the in-process fragment of brick of unloading can receive great impact force and cracked, and then improves construction cost to when needs use the fragment of brick, need the workman to load with chaotic fragment of brick, waste time and energy.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: the utility model aims at providing a device is stacked to fragment of brick for construction, can stack the fragment of brick in the carriage neatly on the ground automatically, avoid the fragment of brick to receive great impact force and damage, make things convenient for the workman to transport the fragment of brick to building site everywhere.

In order to achieve the technical purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a fragment of brick stacking device for construction, includes turns over board, slide mechanism and stores the mechanism, it is located the slide mechanism below to store the mechanism.

The sliding mechanism comprises a sliding plate, a plurality of second partition plates with equal intervals are arranged on the sliding plate, the left side and the right side of the sliding mechanism are respectively connected with a first stand column and a second stand column, the first stand column is located at the front side of the second stand column, a second rotating shaft is connected onto the first stand column, a plurality of blocking discs are connected onto the second rotating shaft, three blocking rods are evenly connected onto each blocking disc along the circumferential direction, a third rotating shaft is connected onto the second stand column, a plurality of push rods are connected onto the third rotating shaft, a clamping mechanism is connected between the second rotating shaft and the third rotating shaft, a rotating pin is arranged at the right end of the sliding plate, a clamping plate is arranged at the left end of the rotating plate, and the rotating pin is rotatably connected into the clamping plate. Slide mechanism makes only after the push rod downside is slided to current fragment of brick, and the later fragment of brick just can slide from blockking the pole downside to make the fragment of brick slide in the storage mechanism in proper order.

Further inject, block mechanism includes chuck and connecting rod again, the tip at the second pivot is connected to the chuck, be provided with three draw-in groove on the chuck, be connected with spring mounting panel on the first stand, still rotate on the first stand and be connected with the jack catch, be connected with first spring between jack catch and the spring mounting panel, the connecting rod is connected at the tip of third pivot, be connected with between connecting rod and the jack catch and act as go-between. The clamping mechanism can work by utilizing the gravity of the brick block, and has the advantage of energy conservation.

Further limiting, a plurality of first partition plates with equal intervals are arranged on the turning plate, one end of the turning plate is connected with a hanging ring, and the other end of the turning plate is connected with a semi-tooth-shaped part.

Further inject, store the mechanism and include a plurality of hold up tanks again, be provided with arc portion on the lateral wall of every hold up tank, the top of hold up tank is connected with the baffle, and sliding connection has the backup pad in every hold up tank, be connected with the second spring between the bottom of backup pad and hold up tank.

Further inject, the slide right-hand member is provided with the commentaries on classics round pin, it is provided with the cardboard to turn over the board left end, the commentaries on classics round pin rotates to be connected in the cardboard.

Drawings

The utility model is further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic structural diagram of a sliding mechanism according to an embodiment of the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 3;

FIG. 5 is a schematic structural diagram of a storage mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic front view of a storage mechanism according to an embodiment of the present invention;

fig. 7 is a schematic structural view of the block;

the main element symbols are as follows:

the brick making machine comprises a turning plate 1, a first partition plate 11, a clamping plate 14, bricks 2, a sliding mechanism 5, a sliding plate 51, a second partition plate 52, a first upright post 53, a second upright post 54, a second rotating shaft 55, a blocking disc 56, a blocking rod 57, a third rotating shaft 58, a push rod 59, a rotating pin 510, a storage mechanism 6, a storage groove 61, an arc-shaped part 62, a baffle 63, a supporting plate 64, a second spring 65, a clamping disc 81, a connecting rod 82, a clamping groove 83, a spring mounting plate 84, a clamping jaw 85, a first spring 86 and a pull wire 87.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in fig. 1 to 7, a construction brick stacking apparatus of the present invention for unloading bricks on a truck on the ground includes a turn plate 1, a sliding mechanism 5, and a storage mechanism 6, the storage mechanism 6 being located below the sliding mechanism 5.

The brick loading and unloading method comprises the steps that a plurality of first partition plates 11 with equal intervals are arranged on a turning plate 1, a clamping plate 14 is arranged at the left end of the turning plate 1, when bricks 2 are loaded into a boxcar, firstly, the turning plate 1 is placed at the bottom of the boxcar, then, a layer of bricks 2 are placed on the turning plate 1 according to the same direction, each row of bricks 2 are separated by the first partition plates 11, then, one turning plate 1 is placed on the layer of bricks 2, and the process is repeated, so that one turning plate 1 is arranged at the bottom of each layer of bricks 2.

The sliding mechanism 5 further comprises a sliding plate 51, a plurality of second partition plates 52 with equal intervals are arranged on the sliding plate 51, the left side and the right side of the sliding mechanism 5 are respectively connected with a first upright column 53 and a second upright column 54, the first upright column 53 is located on the front side of the second upright column 54, a second rotating shaft 55 is connected onto the first upright column 53, a plurality of blocking discs 56 are connected onto the second rotating shaft 55, three blocking rods 57 are evenly connected onto each blocking disc 56 along the circumferential direction, a third rotating shaft 58 is connected onto the second upright column 54, a plurality of push rods 59 are connected onto the third rotating shaft 58, a clamping mechanism is connected between the second rotating shaft 55 and the third rotating shaft 58, a rotating pin 510 is arranged at the right end of the sliding plate 51, and the rotating pin 510 is rotatably connected into the clamping plate 14.

The clamping mechanism further comprises a chuck 81 and a connecting rod 82, the chuck 81 is connected to the end portion of the second rotating shaft 55, three clamping grooves 83 are formed in the chuck 81, a spring mounting plate 84 is connected to the first upright post 53, a clamping jaw 85 is further rotatably connected to the first upright post 53, a first spring 86 is connected between the clamping jaw 85 and the spring mounting plate 84, the connecting rod 82 is connected to the end portion of the third rotating shaft 58, and a pull wire 87 is connected between the connecting rod 82 and the clamping jaw 85.

The brick 2 slides on the sliding plate 51 from the turning plate 1 and slides downwards along the sliding plate 51, then the blocking rod 57 blocks the brick 2, at the moment, the connecting rod 82 rotates clockwise, the connecting rod 82 pulls the clamping jaw 85 to rotate through the pull wire 87, so that the clamping jaw 85 is separated from the clamping groove 83, the brick 2 pushes the blocking rod 57 away under the action of gravity and then continuously slides downwards along the sliding plate 51, after the clamping jaw 81 rotates 120 degrees, the first spring 86 enables the clamping jaw 85 to be clamped into the next clamping groove 83, the clamping jaw 85 clamps the clamping jaw 81, the clamping jaw 81 and the second rotating shaft 55 are prevented from continuously rotating, the blocking rod 57 is inserted into the arc-shaped part of the next brick 2 to block the brick 2 to continuously slide downwards, and meanwhile, the clamping jaw 85 pulls the connecting rod 82 and the push rod 59 to reset through the pull wire 87;

the former brick 2 continues to slide downwards, then the push rod 59 is impacted, the push rod 59 is rotated, the brick 2 continues to slide downwards through the lower side of the push rod 59 and falls into the storage mechanism 6, meanwhile, the rotation of the push rod 59 drives the connecting rod 82 to rotate, the connecting rod 82 pulls the clamping jaw 85 to rotate through the pull wire 87, the clamping jaw 85 is separated from the clamping groove 83, the latter brick 2 continues to slide downwards along the sliding plate 51 after pushing the blocking rod 57 away under the action of gravity, after the chuck 81 rotates for 120 degrees, the first spring 86 enables the clamping jaw 85 to be clamped into the next clamping groove 83, the clamping jaw 85 clamps the chuck 81, the chuck 81 and the second rotating shaft 55 are prevented from continuing to rotate, the blocking rod 57 blocks the latter brick 2 to continue to slide downwards, meanwhile, the clamping jaw 85 pulls the connecting rod 82 and the push rod 59 to reset through the pull wire 87, and the process is repeated, and the brick 2 slides downwards at intervals. Slide mechanism makes only after the push rod downside is slided to current fragment of brick, and the later fragment of brick can just slide from blockking the pole downside to make fragment of brick 2 slide in storage mechanism 6 at the interval in proper order.

The storage mechanism 6 further comprises a plurality of storage tanks 61, an arc-shaped part 62 is arranged on the side wall of each storage tank 61, a baffle 63 is connected to the top of each storage tank 61, a support plate 64 is slidably connected in each storage tank 61, and a second spring 65 is connected between the support plate 64 and the bottom of each storage tank 61. The bricks 2 slid down from the slide plate 51 fall onto the support plate 64 in the storage groove 61, the blocking plate 63 prevents the bricks 2 from turning over, and as the number of bricks 2 on the support plate 64 gradually increases, the pressure applied to the second spring 65 gradually increases, and the second spring 65 is compressed by a distance for each increase of the number of bricks 2, so that the falling heights of each brick 2 are equal, and the arc-shaped portion 62 allows the bricks 2 to be stacked neatly. When the bricks 2 in the storage mechanism 6 are full, the truck and the discharging device are moved to the proper position, and then the next discharging is performed.

The construction brick stacking apparatus according to the present invention is described in detail above. The description of the specific embodiments is only intended to facilitate an understanding of the method of the utility model and its core ideas. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (6)

1. The utility model provides a device is stacked to fragment of brick for construction which characterized in that: the device comprises a turning plate (1), a sliding mechanism (5) and a storage mechanism (6), wherein the storage mechanism (6) is positioned below the sliding mechanism (5);

slide mechanism (5) includes slide (51) again, be provided with second baffle (52) that a plurality of intervals equal on slide (51), the left and right sides of slide mechanism (5) is connected with first stand (53) and second stand (54) respectively, first stand (53) are located second stand (54) front side, be connected with second pivot (55) on first stand (53), be connected with a plurality of discs (56) that block on second pivot (55), evenly be connected with three pole (57) that block along the circumferencial direction on every blocks disc (56), be connected with third pivot (58) on second stand (54), be connected with a plurality of push rods (59) on third pivot (58), be connected with the block mechanism between second pivot (55) and third pivot (58).

2. A construction brick stacking apparatus according to claim 1, wherein: the block mechanism includes chuck (81) and connecting rod (82) again, the tip at second pivot (55) is connected in chuck (81), be provided with three draw-in groove (83) on chuck (81), be connected with spring mounting plate (84) on first stand (53), it is connected with jack catch (85) still to rotate on first stand (53), be connected with first spring (86) between jack catch (85) and spring mounting plate (84), the tip at third pivot (58) is connected in connecting rod (82), be connected with between connecting rod (82) and jack catch (85) and act as go-between (87).

3. A construction brick stacking apparatus according to claim 1, wherein: the storage mechanism (6) comprises a plurality of storage grooves (61), an arc-shaped part (62) is arranged on the side wall of each storage groove (61), a support plate (64) is connected in each storage groove (61) in a sliding mode, and a second spring (65) is connected between the support plate (64) and the bottom of each storage groove (61).

4. A construction brick stacking apparatus according to claim 3, wherein: the top of the storage tank (61) is connected with a baffle (63).

5. A construction brick stacking apparatus according to claim 1, wherein: a plurality of first partition plates (11) with equal intervals are arranged on the turning plate (1).

6. A construction brick stacking apparatus according to claim 1, wherein: the sliding plate is characterized in that a rotating pin (510) is arranged at the right end of the sliding plate (51), a clamping plate (14) is arranged at the left end of the turning plate (1), and the rotating pin (510) is rotatably connected in the clamping plate (14).

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