CN217046894U - Fly ash evaporates presses production of air entrainment piece with upset shedder - Google Patents

Abstract

The utility model discloses a turnover demoulding device for producing a fly ash autoclaved aerated block, which comprises a base platform; the large frame is arranged on the upper surface of the base platform and consists of two groups of portal frames which are arranged left and right, and two parallel tracks are arranged on the upper surface of the base platform and between the two groups of portal frames. The utility model discloses, through two sets of infrared receiving terminals and infrared transmitting terminal, can confirm after the ferry vehicle parks the end whether in adjustment range, the signal that infrared transmitting terminal sent is received to two sets of infrared receiving terminal homoenergetic, lead just the device and just can continue work, lead positive board through the cylinder drive and rise, lead positive board through the slope that sets up with the rolling contact on the framed board, lead positive board and continuously rise and just drive the gyro wheel through the slope, framed board, the ferry vehicle is to two sets of positive board centers removal of leading, and finally stop in the position placed in the middle, the control range is wide, it is not high to the first precision requirement of parkking of ferry vehicle.

Description

Fly ash evaporates presses production of air entrainment piece with upset shedder

Technical Field

The utility model relates to a fly ash evaporates presses and presses air entrainment piece production technical field, especially relates to a fly ash evaporates presses air entrainment piece production with upset shedder.

Background

In the production process of the fly ash autoclaved aerated block, the aerated block is a whole continuous process from pouring to final forming and demoulding, wherein an aerated block template is an important device, the template is a combined template consisting of a template body and a side plate, after demoulding is finished, the template body and the side plate are in a separated state, the template body and the side plate need to be recombined together when production is continued, then the template body and the side plate are transferred to a pouring track together for pouring operation, the demoulding process is to transport the template from a ferry vehicle to a cutting production line track through an air turnover stripper, and the turnover action is finished through a material grabbing turnover structure in the transportation process, the air turnover stripper needs to ensure that the position of the ferry vehicle is accurate before grabbing the template, otherwise the ferry vehicle cannot grab.

The existing turnover demoulding device is generally provided with two positioning plates on one side of a mould frame plate, a rotating motor is arranged beside a track, an output shaft of the rotating motor is provided with two helical blades which are oppositely arranged, after a ferry vehicle is parked, the rotating motor rotates to drive the helical blades, and the helical blades contact the positioning plates and push the positioning plates through the shape of a helix, so that the position of the ferry vehicle is adjusted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a coal ash evaporates and presses the turnover demoulding device for producing an air-entraining block.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a turnover demoulding device for producing a fly ash autoclaved aerated block comprises a base platform; the large frame is arranged on the upper surface of the bottom table and consists of two groups of portal frames which are arranged left and right, and two tracks which are distributed in parallel are arranged on the upper surface of the bottom table and between the two groups of portal frames; the two groups of transverse rails are fixedly connected between the two groups of door frames and close to the upper ends of the two groups of door frames, and the two groups of transverse rails are respectively close to the front walls and the rear walls of the two groups of door frames; the walking frame is connected between the two groups of transverse rails in a rolling mode, a translation assembly used for driving the walking frame to move left and right is arranged between the walking frame and the transverse rails, and two groups of telescopic arms are arranged at the lower end of the walking frame and close to the front side and the rear side; the ferry vehicle is arranged on the upper wall of the track and used for transferring, and a mould frame plate for loading the aerated block blank is arranged on the upper wall of the ferry vehicle; the detection assembly is arranged between the upper surface of the base platform and the walking frame and used for confirming the parking position of the ferry vehicle; the guide device is arranged between the inner wall of the bottom table and the die frame plate and used for guiding the parking position of the ferry vehicle, and the driving component is used for driving the guide device; two sets of telescopic boom keep away from the one end of walking frame and be provided with respectively and be used for grabbing the material flip structure of grabbing that the framed panel overturned, framed panel antetheca and back wall all are provided with the locating pin that supplies to grab material flip structure and snatch.

As a further description of the above technical solution:

the translation subassembly includes two sets of racks, driving motor, gear, and is two sets of rack difference fixed connection is two sets of transverse rail upper walls, and is two sets of the equal fixed connection of driving motor is just being close to respectively on the walking frame upper wall and surveys before and after, and is two sets of gear difference fixed connection is at two sets of driving motor projecting shaft outer walls, and is two sets of the gear respectively with two sets of rack toothing.

As a further description of the above technical solution:

the detection assembly comprises two sets of infrared transmitting ends and two sets of infrared receiving ends, wherein the infrared receiving ends are fixedly connected to the front wall and the rear wall of the walking frame respectively and are two sets of the infrared transmitting ends are fixedly connected to the upper surface of the base platform and are located between the two rails, and the infrared transmitting ends correspond to the two sets of the infrared receiving ends in the vertical position.

As a further description of the above technical solution:

the driving assembly comprises two cylinders, two sinking grooves are formed in the upper wall of the base platform and close to the left side of the track, the two sinking grooves correspond to the two groups of infrared emission ends in the left-right direction respectively, and the two cylinders are fixedly connected to the lower walls of the inner sides of the two sinking grooves respectively.

As a further description of the above technical solution:

the guide device comprises two guide plates, two rotating shafts and two rollers, wherein the two guide plates are respectively and fixedly connected to the end parts of the extending shafts of the two cylinders and the outer walls of the extending shafts of the two cylinders and are respectively and slidably connected with the two sinking grooves, the two rotating shafts are respectively and fixedly connected to the left wall of the template frame plate and are respectively close to the front wall and the rear wall, and the two rollers are respectively and rotatably connected to the outer walls of the two rotating shafts.

As a further description of the above technical solution:

and one ends of the two guide plates, which are far away from the cylinder, are provided with slopes, and the slope directions of the two slopes face to the space between the two guide plates.

The utility model discloses following beneficial effect has:

1. compared with the prior art, the turnover demoulding device for producing the fly ash autoclaved aerated block can confirm whether the ferry vehicle is in an adjusting range or not after the ferry vehicle is parked through the two groups of infrared receiving ends and the infrared transmitting ends, the two groups of infrared receiving ends can receive signals sent by the infrared transmitting ends, and the guide device can continue to work.

2. Compared with the prior art, this fly ash evaporates presses production of air entrainment piece to use upset shedder leads the positive board through the cylinder drive and rises, leads the positive board and contacts through the slope that sets up with rolling on the framed board, leads the positive board and continuously rises and just drives gyro wheel, framed board, ferry car through the slope and lead positive board central removal to two sets of to finally stop at the position placed in the middle, accommodation is wide, and is not high to the first parking precision requirement of ferry car.

Drawings

FIG. 1 is a schematic view of the overall structure of an overturning and demolding device for producing fly ash autoclaved aerated blocks, which is provided by the utility model;

fig. 2 is a partial sectional view of a side structure of a translation component of the turnover demoulding device for producing a fly ash autoclaved aerated block provided by the utility model;

fig. 3 is a partial sectional view of the side structure of the straightening device of the turnover demoulding device for producing the fly ash autoclaved aerated block provided by the utility model;

fig. 4 is a schematic view of a guide plate structure of an overturning demoulding device for producing fly ash autoclaved aerated blocks provided by the utility model;

FIG. 5 is a schematic view of the structure of the roller and the shaft of the turnover de-molding device for producing fly ash autoclaved aerated block of the present invention;

fig. 6 is the utility model provides a fly ash evaporates presses production of aerated block with upset shedder's walking frame and infrared receiving terminal connection structure sketch map.

Illustration of the drawings:

1. a base table; 2. a large frame; 3. a transverse rail; 4. a rack; 5. a drive motor; 6. a gear; 7. an infrared receiving end; 8. an infrared emitting end; 9. a walking frame; 10. a telescopic arm; 11. a ferry vehicle; 12. a template plate; 13. a correcting plate; 14. a rotating shaft; 15. a roller; 16. sinking a groove; 17. and a cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 all belong to the protection scope of the present invention.

Referring to fig. 1 to 6, the utility model provides a pair of fly ash evaporates presses production of air entrainment piece with upset shedder: comprises a base table 1; the large frame 2 is arranged on the upper surface of the bottom table 1, the large frame 2 consists of two groups of portal frames which are arranged left and right, and two tracks which are distributed in parallel are arranged on the upper surface of the bottom table 1 and between the two groups of portal frames; two sets of transverse rails 3 fixedly connected between the two sets of door frames and close to the upper end, the two sets of transverse rails 3 are respectively close to the front walls and the rear walls of the two sets of door frames, a ferry vehicle 11 used for transporting is arranged on the upper wall of the rail, a mold frame plate 12 used for loading air-entraining block blanks is arranged on the upper wall of the ferry vehicle 11, and positioning pins used for grabbing the material grabbing overturning structure to grab are arranged on the front wall and the rear wall of the mold frame plate 12.

The traveling frame 9 is connected between the two groups of transverse rails 3 in a rolling mode, a translation assembly used for driving the traveling frame 9 to move left and right is arranged between the traveling frame 9 and the transverse rails 3, two groups of telescopic arms 10 are arranged at the lower end of the traveling frame 9 and close to the front side and the rear side, one ends of the two groups of telescopic arms 10 far away from the traveling frame 9 are respectively provided with a material grabbing and overturning structure used for grabbing a formwork plate 12 and overturning, the translation assembly comprises two groups of racks 4, driving motors 5 and gears 6, the two groups of racks 4 are respectively and fixedly connected to the upper walls of the two groups of transverse rails 3, the two groups of driving motors 5 are respectively and fixedly connected to the upper walls of the traveling frame 9 and respectively close to the front side and the rear side, the two groups of gears 6 are respectively and fixedly connected to the outer walls of extending shafts of the two groups of driving motors 5, the two groups of gears 6 are respectively meshed with the two groups of racks 4, the driving motors 5 are stepping motors, the parking device can be stopped at an accurate parking position, when the driving motors 5 rotate, the gear 6 is driven to rotate, so that the walking frame 9 can move horizontally through the transmission of the rack 4 meshed with the gear 6.

The detection assembly is arranged between the upper surface of the base platform 1 and the walking frame 9 and used for confirming the parking position of the ferry vehicle 11, the detection assembly comprises two groups of infrared transmitting ends 8 and two groups of infrared receiving ends 7, the two groups of infrared receiving ends 7 are respectively and fixedly connected to the front wall and the rear wall of the walking frame 9, the two groups of infrared transmitting ends 8 are respectively and fixedly connected to the upper surface of the base platform 1 and are respectively positioned between two tracks, the two groups of infrared transmitting ends 8 correspond to the two groups of infrared receiving ends 7 in the vertical position, the distance between the two groups of infrared transmitting ends 8 is equal to the maximum range which can be guided by the guiding device, after the ferry vehicle 11 is parked, as long as the two groups of infrared receiving ends 7 can normally receive infrared signals, the ferry vehicle 11 is shown to be parked between the two groups of infrared transmitting ends 8, and the guiding device can normally work.

A guide device and a driving component for driving the guide device, wherein the guide device is arranged between the inner wall of the base platform 1 and the mould frame plate 12 and is used for guiding the parking position of the ferry vehicle 11;

the driving component comprises two cylinders 17, two sinking grooves 16 are formed in the upper wall of the base platform 1 and close to the left side of the track, the two sinking grooves 16 respectively correspond to the two groups of infrared emission ends 8 in the left-right direction, the two cylinders 17 are respectively and fixedly connected to the lower walls of the inner sides of the two sinking grooves 16, and the extending shafts of the cylinders 17 extend and retract to drive the guide plate 13 to ascend and descend;

lead just device and include two and lead positive board 13 and two pivot 14, gyro wheel 15, two lead positive board 13 respectively fixed connection at two cylinders 17 projecting shaft tip and outer wall respectively with two heavy groove 16 sliding connection, two equal fixed connection of pivot 14 are at template 12 left side wall and are close to antetheca and back wall respectively, two gyro wheels 15 rotate respectively and connect at two pivot 14 outer walls, two lead the one end that positive board 13 kept away from cylinder 17 and all are provided with the slope, two slope incline direction all lead between the positive board 13 towards two, thereby the extrusion through the slope makes ferry push 11 remove the position between two parties and accomplish and lead just.

The working principle is as follows: after the ferry vehicle 11 is parked, signals are sent out through the two groups of infrared transmitting ends 8, the two groups of infrared receiving ends 7 can normally receive the infrared signals, the ferry vehicle 11 is parked between the two groups of infrared transmitting ends 8, the guide device can normally work, the extending shaft of the air cylinder 17 extends out of and retracts into the air cylinder 17 to drive the guide plates 13 to ascend and descend, slopes are arranged at the ends, far away from the air cylinder 17, of the two guide plates 13, the slope directions of the two slopes face towards the positions between the two guide plates 13, and the ferry vehicle 11 is moved to the center position through the extrusion of the slopes so as to complete the guide.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a fly ash evaporates presses production of air entrainment piece with upset shedder which characterized in that: comprises a base platform (1);

the large frame (2) is arranged on the upper surface of the bottom table (1), the large frame (2) consists of two groups of portal frames which are arranged left and right, and two tracks which are distributed in parallel are arranged on the upper surface of the bottom table (1) and between the two groups of portal frames;

two groups of transverse rails (3) which are fixedly connected between the two groups of door frames and are close to the upper ends of the two groups of door frames, wherein the two groups of transverse rails (3) are respectively close to the front walls and the rear walls of the two groups of door frames;

the walking frame (9) is connected between the two groups of transverse rails (3) in a rolling mode, a translation assembly used for driving the walking frame (9) to move left and right is arranged between the walking frame (9) and the transverse rails (3), and two groups of telescopic arms (10) are arranged at the lower end of the walking frame (9) and close to the front side and the rear side;

the ferry vehicle (11) is arranged on the upper wall of the track and used for transferring, and a mould frame plate (12) for loading the aerated block blank is arranged on the upper wall of the ferry vehicle (11);

the detection assembly is arranged between the upper surface of the base platform (1) and the walking frame (9) and used for confirming the parking position of the ferry vehicle (11);

the guiding device is arranged between the inner wall of the base platform (1) and the template plate (12) and used for guiding and correcting the parking position of the ferry vehicle (11), and the driving component is used for driving the guiding device;

two sets of telescopic boom (10) keep away from the one end of walking frame (9) and are provided with respectively and are used for grabbing material flip structure that grabs of grabbing framed bent (12) and upset, framed bent (12) antetheca and back wall all are provided with the locating pin that supplies to grab material flip structure and snatch.

2. The turnover demoulding device for producing the fly ash autoclaved aerated block as claimed in claim 1, which is characterized in that: translation subassembly includes two sets of racks (4), driving motor (5), gear (6), and is two sets of rack (4) fixed connection respectively is at two sets of horizontal track (3) upper walls, and is two sets of equal fixed connection of driving motor (5) is just being close to respectively before and after surveying on walking frame (9) upper wall, and is two sets of gear (6) fixed connection respectively is at two sets of driving motor (5) extension shaft outer wall, and is two sets of gear (6) meshes with two sets of racks (4) respectively.

3. The turnover demoulding device for producing the fly ash autoclaved aerated block as claimed in claim 2, which is characterized in that: detection subassembly includes two sets of infrared transmitting terminal (8), infrared receiving terminal (7), and is two sets of infrared receiving terminal (7) is fixed connection respectively at walking frame (9) antetheca and back wall, and is two sets of the equal fixed connection of infrared transmitting terminal (8) just all is located between two tracks at base platform (1) upper surface, and is two sets of position corresponds about infrared transmitting terminal (8) and two sets of infrared receiving terminal (7).

4. The turnover demoulding device for producing the fly ash autoclaved aerated block as claimed in claim 3, which is characterized in that: drive assembly includes two cylinders (17), base frame (1) upper wall just is close to the track left side and is provided with two heavy grooves (16), two heavy groove (16) correspond with two sets of infrared emission end (8) left and right sides respectively, two cylinder (17) fixed connection is respectively at two heavy groove (16) inboard lower walls.

5. The turnover demoulding device for producing the fly ash autoclaved aerated block as claimed in claim 4, which is characterized in that: lead just device and include two and lead positive board (13) and two pivot (14), gyro wheel (15), two lead positive board (13) fixed connection respectively extend out shaft ends portion and outer wall respectively with two heavy groove (16) sliding connection, two in two cylinder (17) equal fixed connection in pivot (14) left wall just is close to antetheca and back wall respectively, two gyro wheel (15) rotate respectively and connect in two pivot (14) outer walls.

6. The turnover demoulding device for producing the fly ash autoclaved aerated block as claimed in claim 5, wherein: one ends, far away from the air cylinder (17), of the two guide plates (13) are provided with slopes, and the slope directions of the two slopes face to the space between the two guide plates (13).

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