CN111350357B

CN111350357B - Brick receiving device with automatic sequencing function

Info

Publication number: CN111350357B
Application number: CN202010178395.XA
Authority: CN
Inventors: 请求不公布姓名
Original assignee: Cheng Haide
Current assignee: Haihao Construction (Jiangxi) Co.,Ltd.
Priority date: 2020-03-14
Filing date: 2020-03-14
Publication date: 2023-05-23
Anticipated expiration: 2040-03-14
Also published as: CN111350357A

Abstract

The invention discloses a brick receiving device with an automatic sequencing function, which comprises an elastic plate which is obliquely arranged, wherein side plates are symmetrically arranged on the front side and the rear side of the left end of the elastic plate, a left baffle is connected between the two side plates, a supporting plate positioned between the left baffle and the elastic plate is connected between the two side plates, a sequencing mechanism is arranged on the elastic plate, and a pulling mechanism connected with the sequencing mechanism is arranged on the left baffle and the side plates. The invention has the advantages that: the structure is simple, the fallen bricks are fallen on the supporting plate along the displacement box along the hinge strip, and meanwhile, the impact force of the bricks enables the displacement box to move forward once through the pulling mechanism, so that the bricks are arranged on the supporting plate in sequence, the bricks can be automatically connected and ordered without power, and the brick sorting machine is safe and reliable.

Description

Brick receiving device with automatic sequencing function

Technical Field

The invention relates to brick receiving equipment, in particular to a brick receiving device with an automatic sequencing function.

Background

When brickwork construction, need to throw the brick to the top and carry out the receiving brick, need accurately judge the drop through artifical receiving brick, make the fragment of brick landing pound to subaerial throwing brick personnel or fall on the ground easily, can damage the brick or cause personnel to hurt, long-time receiving brick can bring the damage to the receiver, and the receiver still need turn around after having received the brick and bend to put the brick in order the brick moreover to cause physical damage to the receiver, waste time and energy.

Disclosure of Invention

The invention mainly aims to provide the brick receiving device with the automatic sequencing function, which has a simple structure, falls down bricks on the support plate along the displacement box along the hinge strip, and simultaneously, the impact force of the bricks moves the displacement box forward once through the pulling mechanism, so that the bricks are sequentially arranged on the support plate, and the bricks can be automatically received and sequenced without power, thereby being safe and reliable.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a brick receiving device with automatic sequencing function, includes the elastic plate that the slope set up, the front and back bilateral symmetry of elastic plate left end is provided with the curb plate, two be connected with left baffle between the curb plate, two be connected with between the curb plate be located left baffle with backup pad between the elastic plate, be equipped with sequencing mechanism on the elastic plate, left baffle be equipped with on the curb plate with the pulling mechanism that sequencing mechanism is connected.

Further, the sorting mechanism comprises a displacement box which slides on the elastic plate in a back-and-forth moving manner, a front baffle and a rear baffle are symmetrically arranged at the front end and the rear end of the elastic plate, a first spring is connected between the rear end of the displacement box and the rear baffle, sliding grooves are formed in the right ends of the front baffle and the rear baffle, sliding blocks are arranged in the sliding grooves in a sliding manner, a first hinge strip is connected between the sliding blocks at the rear side and the rear end of the displacement box, and a second hinge strip is connected between the sliding blocks at the front side and the front end of the displacement box. The brick falls behind the elastic plate and contacts with the articulated strip, gets into the displacement box along the articulated strip, corrects the angle of brick, guarantees that the length direction of brick is perpendicular to left baffle, falls on the backup pad along the displacement box again, cooperates with pulling mechanism, and the displacement box forward movement certain distance is pulled to pulling mechanism at every turn, can make the brick arrange in order in the backup pad.

Further, the pulling mechanism comprises a sliding strip which is slidingly matched with the left baffle, an inclined groove is sequentially formed in the right end of the sliding strip from front to back, an inclined block matched with the inclined groove is sequentially arranged in the right end of the left baffle from front to back, a second spring is connected between the inclined block and the left baffle, a stabilizing block is arranged at the front end of the side plate and at the front side, a rotating shaft is rotationally arranged in the stabilizing block, gears meshed with the sliding strip are respectively bonded at the left end and the right end of the rotating shaft, a winding wheel is wound with a steel wire rope connected with the displacement box. The setting can make the sloping block move left through the impulsive force of brick, and the sloping block makes the draw runner move forward a certain distance through the inclined groove, and the draw runner drives the gear and rotates, and the gear drives the winding wheel and rotates, and winding wheel rolling wire rope makes displacement box move forward a certain distance, and next brick will get into the next section of backup pad.

Further, the width of the inclined groove is reduced from front to back at equal intervals, and when the inclined blocks are sequentially moved left from front to back, the inclined blocks push the sliding strips to move forwards at equal intervals through the inclined grooves. The arrangement can enable the inclined blocks to move left from front to back in sequence under the impact of bricks, and push the sliding strips to move forwards at equal intervals each time, so that the displacement boxes move forwards at equal intervals each time.

Further, the angle between the second hinge strip and the longitudinal section of the elastic plate is less than forty degrees. This setting can make the in-process that the brick got into the displacement box, corrects the angle of brick to guarantee the length direction perpendicular to left baffle of brick.

Furthermore, the upper ends of the front baffle and the rear baffle are provided with inclined baffles with openings at the lower ends. After the bricks are prevented from contacting the elastic plates, the bricks are prevented from bouncing up to hit objects.

Further, a guide groove for allowing the displacement box to move back and forth is formed in the elastic plate, and an ash collecting box communicated with the guide groove is arranged at the lower end of the elastic plate. The arrangement can enable the displacement box to be in sliding fit on the guide groove, ash on the brick head can enter the guide groove along the elastic plate, and the ash can enter the ash collecting box again, so that collection is convenient.

The invention has the advantages that: the structure is simple, the fallen bricks are fallen on the supporting plate along the displacement box along the hinge strip, and meanwhile, the impact force of the bricks enables the displacement box to move forward once through the pulling mechanism, so that the bricks are arranged on the supporting plate in sequence, the bricks can be automatically connected and ordered without power, and the brick sorting machine is safe and reliable.

Drawings

FIG. 1 is a perspective view of a device according to the present invention;

FIG. 2 is a schematic diagram of a structure according to the present invention;

FIG. 3 is a front view according to the present invention;

FIG. 4 is a top view according to the present invention;

FIG. 5 is a cross-sectional view A-A of FIG. 4;

FIG. 6 is a top view of a first tile according to the present invention slid onto a support plate;

FIG. 7 is a top view of a first tile according to the present invention slid onto a support plate and the displacement cassette advanced;

FIG. 8 is a top view of the slide bar, ramp as the first tile slides onto the support plate and the displacement box advances in accordance with the present invention;

FIG. 9 is a top view of the bricks according to the present invention both resting on the support plate and the displacement cassette being advanced to the bottom;

FIG. 10 is a top view of a slide, bevel block with the bricks according to the present invention both resting on the support plate and the displacement cassette being advanced to the bottom;

FIG. 11 is a cross-sectional view of the support plate separated from the left baffle and the brick slid down the support plate in accordance with the present invention;

fig. 12 is an enlarged view of a portion B of fig. 5.

Reference numerals: 1. the device comprises an elastic plate, 2, a side plate, 3, a left baffle plate, 4, a supporting plate, 51, a displacement box, 52, a first hinging strip, 53, a second hinging strip, 54, a sliding block, 55, a sliding groove, 61, a sliding strip, 62, an inclined block, 63, a gear, 64, a stabilizing block, 65, a winding wheel, 66, a steel wire rope, 7, a guide groove, 8, an ash collecting box, 9, an inclined baffle plate, 10, a first fixing block, 11, a hinging hook, 12 and a second fixing block.

Detailed Description

As shown in fig. 1 to 12, a brick receiving device with automatic sequencing function comprises an elastic plate 1 obliquely arranged, wherein side plates 2 are symmetrically arranged on the front side and the rear side of the left end of the elastic plate 1, a left baffle plate 3 is connected between the two side plates 2, a supporting plate 4 positioned between the left baffle plate 3 and the elastic plate 1 is connected between the two side plates 2, a sequencing mechanism is arranged on the elastic plate 1, and a pulling mechanism connected with the sequencing mechanism is arranged on the left baffle plate 3 and the side plates 2.

The sequencing mechanism comprises a displacement box 51 sliding on an elastic plate 1 in a front-back moving manner, front baffles and rear baffles are symmetrically arranged at the front end and the rear end of the elastic plate 1, a first spring is connected between the rear end of the displacement box 51 and the rear baffles, sliding grooves 55 are formed in the right ends of the front baffles and the rear baffles, sliding blocks 54 are arranged in the sliding grooves 55 in a sliding manner, a first hinge strip 52 is connected between the sliding blocks 54 at the rear side and the rear end of the displacement box 51, and a second hinge strip 53 is connected between the sliding blocks 54 at the front side and the front end of the displacement box 51. The brick falls behind the elastic plate and contacts with the articulated strip, gets into the displacement box along the articulated strip, corrects the angle of brick, guarantees that the length direction of brick is perpendicular to left baffle, falls on the backup pad along the displacement box again, cooperates with pulling mechanism, and the displacement box forward movement certain distance is pulled to pulling mechanism at every turn, can make the brick arrange in order in the backup pad.

The pulling mechanism comprises a slide bar 61 which is slidingly matched in the left baffle plate 3, the right end of the slide bar 61 is sequentially provided with an inclined groove from front to back, the right end of the left baffle plate 3 is sequentially provided with an inclined block 62 which is matched with the inclined groove from front to back, a second spring is connected between the inclined block 62 and the left baffle plate 3, the front end of the side plate 2 at the front side is provided with a stabilizing block 64, a rotating shaft is rotationally arranged in the stabilizing block 64, the left end and the right end of the rotating shaft are respectively and fixedly connected with a gear 63 meshed with the slide bar 61, a winding wheel 65, and a steel wire rope 66 connected with the displacement box 51 is wound on the winding wheel 65. The setting can make the sloping block move left through the impulsive force of brick, and the sloping block makes the draw runner move forward a certain distance through the inclined groove, and the draw runner drives the gear and rotates, and the gear drives the winding wheel and rotates, and winding wheel rolling wire rope makes displacement box move forward a certain distance, and next brick will get into the next section of backup pad.

The width of the inclined groove becomes smaller from front to rear at equal intervals, and when the inclined block 62 moves left from front to rear in sequence, the inclined block 62 pushes the slide bar 61 to move forward at equal intervals through the inclined groove. The arrangement can enable the inclined blocks to move left from front to back in sequence under the impact of bricks, and push the sliding strips to move forwards at equal intervals each time, so that the displacement boxes move forwards at equal intervals each time.

The angle between the second hinge strip 53 and the longitudinal section of the elastic panel 1 is less than forty degrees. This setting can make the in-process that the brick got into the displacement box, corrects the angle of brick to guarantee the length direction perpendicular to left baffle of brick.

The upper ends of the front baffle and the rear baffle are provided with inclined baffles 9 with openings at the lower ends. After the bricks are prevented from contacting the elastic plates, the bricks are prevented from bouncing up to hit objects.

The elastic plate 1 is provided with a guide groove 7 for accommodating the displacement box 51 to move back and forth, and the lower end of the elastic plate 1 is provided with an ash collecting box 8 communicated with the guide groove 7. The arrangement can enable the displacement box to be in sliding fit on the guide groove, ash on the brick head can enter the guide groove along the elastic plate, and the ash can enter the ash collecting box again, so that collection is convenient.

The backup pad 4 articulates the right-hand member at both sides board 2, has first torsional spring between backup pad 4 and the curb plate 2, and the left end of draw runner 61 is equipped with first fixed block 10, and the left end of backup pad 4 is equipped with second fixed block 12, and the left end of left baffle 3 articulates has the articulated hook 11 that hooks second fixed block 12, is connected with the second torsional spring between articulated hook 11 and the left baffle 3, mutually support between first fixed block 10 and the articulated hook 11. After the bricks are arranged on the supporting plate, the first fixing block pushes the upper end of the hinged hook, the hinged hook is separated from the second fixing block under the rotation of the hinged hook, the supporting plate rotates around the hinged position of the supporting plate and the side plate under the action force of the gravity of the bricks, the bricks slide down, then the supporting plate returns to the original position under the action force of the first torsion spring, the hinged hook continues to hook the second fixing block, and bricks can be automatically dropped.

The working principle is as follows: when the bricks are connected, the first brick falls on the elastic plate, the brick lies down through the opening at the lower end of the inclined baffle, then the brick contacts with the hinged strip, the angle of the brick is corrected in the process that the brick enters the displacement box, so that the length direction of the brick is vertical to the left baffle, the brick slides on the supporting plate and moves the rearmost inclined block leftwards under the impact of the brick, the rearmost inclined block moves the sliding strip forwards through the rearmost inclined groove, the sliding strip rotates with the gear, the gear rotates with the winding wheel, the winding wheel winds the steel wire rope to move the displacement box forwards for a certain distance, the second brick falls on the elastic plate, the brick slides onto the supporting plate after entering the displacement box and moves the rearmost second inclined block leftwards under the impact of the brick, the rearmost inclined block moves the sliding strip forwards through the rearmost second inclined groove, the sliding bar rotates with the winding wheel through the gear, the winding wheel winds the steel wire rope to enable the displacement box to move forwards for the same distance, the steps are repeated, bricks on the supporting plate are placed, the inclined blocks move leftwards, the bricks are ordered on the supporting plate, as shown in figures 9 and 10, in the process that the sliding bar moves forwards finally, the first fixed block on the sliding bar pushes the upper end of the hinged hook, under the condition that the hinged hook rotates, the hinged hook is separated from the second fixed block, the supporting plate rotates around the hinged position of the supporting plate and the side plate under the action of gravity of the bricks, the brick slides down, at the moment, the inclined blocks move rightwards under the action of the second spring to return to the original position, the displacement box moves backwards under the action of the first spring, the winding wheel rotates with the gear through the steel wire rope, the gear moves backwards to the original position, the first fixed block is separated from the upper end of the hinged hook after the sliding bar is carried by the gear, then, under the action force of the first torsion spring, the supporting plate returns to the original position, the second fixing block springs off the hinged hooks, and the hinged hooks hook the second fixing block, so that the process of completing the brick receiving, sorting and sliding down of bricks at one time is completed.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims

1. The utility model provides a brick device that connects with automatic sequencing function which characterized in that: the device comprises an elastic plate (1) which is obliquely arranged, side plates (2) are symmetrically arranged on the front side and the rear side of the left end of the elastic plate (1), a left baffle plate (3) is connected between the two side plates (2), a supporting plate (4) which is positioned between the left baffle plate (3) and the elastic plate (1) is connected between the two side plates (2), a sorting mechanism is arranged on the elastic plate (1), a pulling mechanism which is connected with the sorting mechanism is arranged on the left baffle plate (3) and the side plates (2), the sorting mechanism comprises a displacement box (51) which slides on the elastic plate (1) in a front-rear moving way, a front baffle plate and a rear baffle plate are symmetrically arranged on the front end and the rear end of the elastic plate (1), a first spring is connected between the rear end of the displacement box (51) and the rear baffle plate, a sliding groove (55) is arranged on the right end of the rear baffle plate, a sliding block (54) is arranged in the sliding groove (55), a pulling mechanism which is connected between the sliding block (54) on the rear side and the first sliding block (51) and the first sliding block (52) which is connected with the rear end of the sliding block (51), a sliding block (61) which is connected with the sliding block (61) in sequence, the right-hand member of left baffle (3) from the front to the back be equipped with in proper order with inclined groove matched with sloping block (62), sloping block (62) with be equipped with the second spring between left baffle (3), the front side the front end of curb plate (2) is equipped with firm piece (64), be equipped with the pivot rotationally in firm piece (64), both ends key respectively about the pivot have with gear (63), winding wheel (65) of draw runner (61) meshing, the winding has on winding wheel (65) with wire rope (66) that displacement box (51) are connected, preceding baffle the upper end of backplate is equipped with inclined baffle (9) of opening are established to the lower extreme.

2. A brick receiving device with automatic sequencing function as claimed in claim 1, wherein: the width of the inclined groove is reduced from front to back at equal intervals, and when the inclined blocks (62) move left to right in sequence from front to back, the inclined blocks (62) push the sliding strips (61) to move forwards at equal intervals through the inclined grooves.

3. A brick receiving device with automatic sequencing function as claimed in claim 1, wherein: the angle between the second hinge strip (53) and the longitudinal section of the elastic plate (1) is smaller than forty degrees.

4. A brick receiving device with automatic sequencing function as claimed in claim 1, wherein: the elastic plate (1) is provided with a guide groove (7) for accommodating the displacement box (51) to move back and forth, and the lower end of the elastic plate (1) is provided with an ash collecting box (8) communicated with the guide groove (7).