CN221027474U - Brick pillar transferring equipment - Google Patents

Abstract

The utility model discloses a brick pillar transferring device, which comprises: the base table is of an annular or semi-annular structure; the rotating mechanism is arranged at the inner ring position of the base table and is provided with a rotating table capable of rotating by taking the annular center of the base table as a rotation center; the horizontal moving mechanism is arranged on the rotary table of the rotating mechanism and is provided with a horizontal guide rail, a sliding table capable of sliding back and forth on the horizontal guide rail and a second driving assembly for driving the sliding table to slide horizontally; and the lifting mechanism is arranged on the sliding table of the horizontal moving mechanism and is provided with a vertical sliding rail, a fork head assembly arranged on the sliding rail and a third driving assembly for driving the fork head assembly to slide up and down. The transfer equipment can realize efficient and stable transfer of the brick pillar between two conveying equipment.

Description

Brick pillar transferring equipment

Technical Field

The utility model relates to the technical field of brick stacking and packing equipment, in particular to brick pile transferring equipment.

Background

Along with the continuous improvement of the brick sintering process of the tunnel kiln and the increasing maturity of the mechanized automation technology of the brick bad forming equipment, a lot of brick factory forming workshops currently adopt a code cutting and transporting technology with higher mechanized automation degree, thereby improving the labor environment, ensuring the product quality and improving the production efficiency, for example, the standard brick packing line equipment in reference 1:

Reference 1: chinese patent document with patent publication No. CN 214930933U.

Reference 1 discloses a standard brick packing line equipment, including the hacking machine, the hacking machine includes the frame, and the direction removes to be provided with in the frame and snatchs anchor clamps and first actuating mechanism. The device also comprises a first conveying device, a second conveying device and a transfer mechanism. Each conveying device comprises a conveying guide rail and a walking tray, the walking tray comprises a chassis, a walking driving mechanism is arranged on the chassis, and the tray and a first rotating mechanism are rotatably arranged on the chassis. The conveying guide rail of the first conveying device is provided with an extending part extending into the lower part of the rack. The first conveying track is provided with a joint closer and a first baler, and the second conveying track is provided with a second baler. The standard brick pile is transported to the lower part of the stacker through the steam curing vehicle, the first clamping fixture is placed on a traveling tray of the first conveying device after being grabbed, the standard brick pile is transported to a traveling tray of the second conveying device through the transfer mechanism after being subjected to joint close and bundling, and the standard brick pile is bundled again. The bundled standard brick pile has strong integrity and is not easy to fall down in transportation.

In the automated stacking and packing process, a plurality of conveying devices are arranged, bricks need to be transported between different conveying devices, and at present, most of mechanisms for realizing transportation between different conveying devices are like the brick packing machine conveying structure in reference 2:

reference 2: chinese patent document with patent publication No. CN 204999311U.

Reference 2 discloses a brick baling press transmission structure, including horizontal transport mechanism and vertical transport mechanism, the exit end of horizontal transport mechanism is connected with the entrance point of vertical transport mechanism through transfer transport mechanism, transfer transport mechanism includes the liftable support be provided with many rollers side by side on the support, and the setting direction of this roller with the length direction of horizontal transport mechanism is perpendicular, many the roller is driven by power device still be provided with pushing mechanism on the support, the direction of motion of this pushing mechanism with the length direction of vertical transport mechanism is unanimous, is used for with horizontal transport mechanism exports to the brick pillar of transfer transport mechanism pushes extremely vertical transport mechanism. The remarkable effects are as follows: compared with the prior art, the structure is simpler, the use is more convenient, the abrasion is difficult, the later maintenance cost can be reduced, and the service life of the scheme is ensured.

However, the above-mentioned transfer structure core still realizes the transmission of battle stack through the roller to transfer mechanism's roller set up the direction with the length direction of horizontal transfer mechanism is perpendicular, and this just leads to the rotation of horizontal transfer mechanism when shifting into transfer mechanism, and the bottom has great frictional resistance, and then influences stability and the energy consumption when transporting.

Disclosure of utility model

The utility model aims to solve the problems that in the prior art, when a roller shaft is used for realizing the transportation of a brick pile among different conveying devices, larger friction resistance exists at the bottom, so that the stability and the energy consumption during transportation are affected, and provides brick pile transportation equipment.

The utility model solves the technical problems, and adopts the following technical scheme: a brick pillar transfer apparatus having:

the base table is of an annular or semi-annular structure; and

A rotating mechanism disposed at an inner ring position of the base table and having a rotary table rotatable about an annular center of the base table; and

The horizontal moving mechanism is arranged on the rotary table of the rotating mechanism and is provided with a horizontal guide rail, a sliding table capable of sliding back and forth on the horizontal guide rail and a second driving assembly for driving the sliding table to slide horizontally; and

The lifting mechanism is arranged on the sliding table of the horizontal moving mechanism and is provided with a vertical sliding rail, a fork head assembly arranged on the sliding rail and a third driving assembly for driving the fork head assembly to slide up and down.

Further optimizing the brick pile transferring equipment: the horizontal moving mechanism is also provided with a supporting frame, and the corners of the supporting frame are provided with idler wheels which can slide on the upper end face of the base table.

Further optimizing the brick pile transferring equipment: the rotating shaft of the roller is arranged along the radial direction of the circle where the moving track of the roller is located.

Further optimizing the brick pile transferring equipment: the second driving assembly comprises a rack arranged on the supporting frame, a gear arranged on the sliding table and a motor for driving the gear to rotate, and the gear is meshed with the rack.

Further optimizing the brick pile transferring equipment: the cross section of the horizontal guide rail is U-shaped, openings of the two horizontal guide rails are relatively fixed on the supporting frame, and pulleys capable of being embedded into the horizontal guide rails are arranged on two sides of the sliding table.

Further optimizing the brick pile transferring equipment: the fork head assembly comprises a supporting plate and two L-shaped fork arms which are fixed on the supporting plate side by side.

Further optimizing the brick pile transferring equipment: the cross section of the vertical sliding rail of the lifting mechanism is U-shaped, openings of the two vertical sliding rails are relatively fixed on the sliding table, tops of the two vertical sliding rails are connected through a top beam, and pulleys capable of being embedded into the vertical sliding rails are arranged on two sides of a supporting plate of the fork head assembly.

Further optimizing the brick pile transferring equipment: the third driving assembly is a hydraulic cylinder, the hydraulic cylinder is vertically arranged on the sliding table, the bottom of the hydraulic cylinder is fixed on the sliding table through a support, and a telescopic rod of the hydraulic cylinder is connected with a supporting plate of the fork head assembly.

Further optimizing the brick pile transferring equipment: the lifting mechanism is also provided with a position sensor which can limit the up-and-down sliding limit position of the fork head assembly.

The utility model has the following beneficial effects: the transfer equipment can realize efficient and stable transfer of the brick pillar between two conveying equipment.

Drawings

FIG. 1 is a schematic diagram I of a brick pillar transfer apparatus according to the present utility model;

FIG. 2 is a schematic structural view II of the brick pillar transferring equipment of the present utility model;

FIG. 3 is a schematic view III of the construction of the brick pillar transfer apparatus of the present utility model;

The marks in the figure:

1. A base table;

2. A rotary table;

3. A horizontal guide rail;

4. A sliding table;

5. a vertical slide rail;

6. a fork head assembly;

7. A support frame;

8. A roller;

9. A rack;

10. A gear;

11. and a hydraulic cylinder.

Detailed Description

For a better understanding of the present utility model, the following examples are set forth to illustrate, but are not to be construed as limiting the utility model.

As shown in fig. 1-3: a brick pile transferring device is provided with a base table 1, a rotating mechanism, a horizontal moving mechanism and a lifting mechanism.

The base table 1 is of an annular or semi-annular structure, the base table 1 is composed of a table top and supporting legs for supporting the table top, the table top can be 1/4 annular, and brick stacks between two conveying devices arranged at an angle of 90 degrees can be transported. The table top can also be semi-annular, and brick stacks between two conveying devices arranged at an angle of 180 degrees can be transferred.

Wherein the rotation mechanism is placed at an inner ring position of the table 1, which has a turntable 2 capable of rotating about an annular center of the table 1 as a rotation center. The rotary table 2 may be any structure capable of rotating in the prior art, and will not be described in detail herein.

The horizontal moving mechanism is arranged on a rotary table 2 of the rotating mechanism, and is provided with a horizontal guide rail 3, a sliding table 4 capable of sliding back and forth on the horizontal guide rail 3 and a second driving component for driving the sliding table 4 to slide horizontally.

It is envisioned that the horizontal movement mechanism further has a support frame 7, a roller 8 capable of sliding on the upper end surface of the base table 1 is disposed at a corner of the support frame 7, and a rotation axis of the roller 8 is disposed along a radial direction of a circle along which a movement track of the roller 8 is located. The roller 8 plays a role in rotation support, so that the support frame 7 can be effectively supported in the rotation process.

The cross section of the horizontal guide rail 3 is U-shaped, the openings of the two horizontal guide rails 3 are relatively fixed on the supporting frame 7, and pulleys capable of being embedded into the horizontal guide rails 3 are arranged on two sides of the sliding table 4.

The second driving assembly comprises a rack 9 arranged on the supporting frame 7, a gear 10 arranged on the sliding table 4 and a motor for driving the gear 10 to rotate, wherein the gear 10 is meshed with the rack 9. When the motor drives the gear 10 to rotate, the sliding table 4 can be driven to slide under the condition of the gear 10 and the rack 9, and the rotating direction of the motor can control the forward movement or the backward movement of the motor.

The fork head assembly 6 comprises a support plate and two L-shaped fork arms fixed side by side on the support plate.

The lifting mechanism is arranged on the sliding table 4 of the horizontal moving mechanism and is provided with a vertical sliding rail 5, a fork head assembly 6 arranged on the vertical sliding rail 5 and a third driving assembly for driving the fork head assembly 6 to slide up and down.

The cross section of the vertical sliding rail 5 of the lifting mechanism is U-shaped, openings of the two vertical sliding rails 5 are relatively fixed on the sliding table 4, tops of the two vertical sliding rails 5 are connected through a top beam, and pulleys capable of being embedded into the vertical sliding rails 5 are arranged on two sides of a supporting plate of the fork head assembly 6.

The third drive assembly is a hydraulic cylinder 11, the hydraulic cylinder 11 is vertically arranged on the sliding table 4, the bottom of the hydraulic cylinder 11 is fixed on the sliding table 4 through a support, and a telescopic rod of the hydraulic cylinder 11 is connected with a support plate of the fork head assembly 6. The lifting mechanism also has a position sensor that can limit the up-and-down sliding limit position of the fork head assembly 6. The setting position of the position sensor can be set according to actual requirements, and will not be described in detail here.

In this embodiment, the base table 1 is configured as a 1/4 ring structure, so that the transfer of the brick pillar between two transport devices arranged at an angle of 90 ° can be achieved, when the first transport device transports the brick pillar to the vicinity of the base table 1, the brick pillar is forked by the fork head assembly 6, in the forking process, the fork arm can be controlled to advance by the horizontal movement mechanism so as to extend into the insertion hole of the brick pillar, after the brick pillar is inserted, the brick pillar is lifted by the lifting mechanism, then the brick pillar is rotated to the upper side of the other transport device by the rotary table, then the brick pillar is put down by the lifting mechanism, the fork arm can be controlled to retreat by the horizontal movement mechanism so as to extend out of the insertion hole of the brick pillar, and the transfer of the brick pillar seen by the two transport devices is completed.

The foregoing describes specific embodiments of the present utility model. It is to be understood that the utility model is not limited to the particular embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the claims without affecting the spirit of the utility model.

Claims (9)

1. A brick pillar transfer apparatus, characterized in that it has:

a base table (1) of annular or semi-annular configuration; and

A rotation mechanism disposed at an inner ring position of the base table (1) and having a rotary table (2) rotatable about an annular center of the base table (1) as a rotation center; and

The horizontal moving mechanism is arranged on the rotary table (2) of the rotating mechanism and is provided with a horizontal guide rail (3), a sliding table (4) capable of sliding back and forth on the horizontal guide rail (3) and a second driving component for driving the sliding table (4) to slide horizontally; and

The lifting mechanism is arranged on the sliding table (4) of the horizontal moving mechanism and is provided with a vertical sliding rail (5), a fork head assembly (6) arranged on the vertical sliding rail (5) and a third driving assembly for driving the fork head assembly (6) to slide up and down.

2. A brick pillar transfer apparatus according to claim 1, wherein: the horizontal moving mechanism is also provided with a supporting frame (7), and a roller (8) capable of sliding on the upper end surface of the base table (1) is arranged at the corner of the supporting frame (7).

3. A brick pillar transfer apparatus according to claim 2, wherein: the rotating shaft of the roller (8) is arranged along the radial direction of the circle where the moving track of the roller (8) is located.

4. A brick pillar transfer apparatus according to claim 1, wherein: the second driving assembly comprises a rack (9) arranged on the supporting frame (7), a gear (10) arranged on the sliding table (4) and a motor for driving the gear (10) to rotate, and the gear (10) is meshed with the rack (9).

5. A brick pillar transfer apparatus according to claim 4, wherein: the cross section of the horizontal guide rail (3) is U-shaped, openings of the two horizontal guide rails (3) are relatively fixed on the supporting frame (7), and pulleys capable of being embedded into the horizontal guide rails (3) are arranged on two sides of the sliding table (4).

6. A brick pillar transfer apparatus according to claim 1, wherein: the fork head assembly (6) comprises a supporting plate and two L-shaped fork arms which are fixed on the supporting plate side by side.

7. The battlement transfer apparatus of claim 6, wherein: the cross section of a vertical sliding rail (5) of the lifting mechanism is U-shaped, openings of the two vertical sliding rails (5) are relatively fixed on the sliding table (4), tops of the two vertical sliding rails (5) are connected through a top beam, and pulleys capable of being embedded into the vertical sliding rails (5) are arranged on two sides of a supporting plate of the fork head assembly (6).

8. The battlement transfer apparatus of claim 7, wherein: the third driving assembly is a hydraulic cylinder (11), the hydraulic cylinder (11) is vertically arranged on the sliding table (4), the bottom of the hydraulic cylinder (11) is fixed on the sliding table (4) through a support, and a telescopic rod of the hydraulic cylinder (11) is connected with a supporting plate of the fork head assembly (6).

9. A brick pillar transfer apparatus according to claim 1, wherein: the lifting mechanism is also provided with a position sensor which can limit the up-and-down sliding limit position of the fork head assembly (6).