CN212171805U - Splicing mechanism for artificial stone construction - Google Patents

Abstract

The utility model relates to a building processing equipment especially relates to a concatenation mechanism is used in construction of artificial stone material, including the rack, one side of rack is stone material concatenation portion, and the opposite side is stone material transportation portion, and concatenation portion includes a fixed platen, and fixed platen middle part is provided with a logical groove, leads to inslot portion and is provided with one and can be leading to inslot portion pivoted movable platen, and fixed platen is provided with a plurality of cylinders around activity platen week portion, still is provided with a support on the fixed platen, is provided with a silo that is used for depositing the adhesive on the support, and the silo below is extended and is provided with a conveying pipeline, stone material transportation portion is provided with a conveyer belt. The utility model overcomes the artificial stone material among the prior art splices efficiently, splices not tight defect, can effectively promote artificial stone material's concatenation efficiency through the setting that adopts conveyer belt and activity platen, and the setting through the cylinder can guarantee concatenation degree of closeness and the concatenation quality between the artificial stone material at the concatenation in-process simultaneously.

Description

Splicing mechanism for artificial stone construction

Technical Field

The utility model relates to a building processing equipment especially relates to a concatenation mechanism is used in artificial stone material construction.

Background

The novel thin artificial stone has the advantages of saving stone resources, saving energy and protecting environment, and can greatly reduce the main load and reduce the construction cost of engineering paving in practical application. In addition, due to the fact that patterns of the novel decorative pattern are changeable, various appearances can be formed after splicing.

The existing artificial stone is usually spliced by a binder to obtain a large sheet through manual work in the construction splicing process, but the manual splicing has the defects of low efficiency and loose splicing and is not beneficial to quick high-quality splicing and installation. But at present, no splicing mechanism specially used for artificial stone construction exists.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an it is efficient to overcome the artificial stone material concatenation among the prior art, splices not defect densely, provides a splicing mechanism is used in artificial stone material construction, can high-efficient high-quality artificial stone material concatenation of carrying on.

In order to realize the purpose of the utility model, the utility model discloses a following technical scheme realizes:

the splicing mechanism comprises a rack, wherein a stone splicing part is arranged on one side of the rack, a stone conveying part is arranged on the other side of the rack, the splicing part comprises a fixed platen, a through groove is formed in the middle of the fixed platen, a movable platen capable of rotating in the through groove is arranged in the through groove, a plurality of cylinders are arranged on the periphery of the fixed platen, a support is further arranged on the fixed platen, a trough used for storing an adhesive is arranged on the support, a conveying pipeline is arranged below the trough in an extending mode, and the stone conveying part is provided with a conveying belt.

The utility model provides an artificial stone splices and is provided with a movable platen on the mechanism, when the artificial stone board carried the movable platen along the conveyer belt on, the adhesive in the silo can evenly be smeared at artificial stone board side along the conveying pipeline, rotates movable platen and makes the cylinder can effectively press from both sides tight artificial stone board for gap between the slabstone can reduce by a wide margin, thereby connects between the slabstone inseparabler. Meanwhile, the design of the conveyor belt and the movable bedplate capable of rotating is adopted, so that the artificial stone plate is convenient to rotate and transport, and the construction efficiency of workers is improved.

Preferably, a lifting oil cylinder is arranged on the splicing part, a lifting rod extends upwards, a rotating bearing is rotatably connected to the end part of the lifting rod, and the upper end of the rotating bearing is fixedly connected with the movable bedplate.

Preferably, a stepping motor is arranged on the lifting rod, a gear is arranged at the upper end of the stepping motor, and a tooth groove matched with the gear is formed in the outer side of the rotating bearing.

The utility model discloses a step motor control activity platen's rotation can effectively improve activity platen turned angle's accurate nature, has guaranteed the concatenation quality of rostone panel.

Preferably, the middle part of the movable bedplate is also provided with a rubber pad for increasing the friction force.

The position of the artificial stone plate at the movable bedplate can be effectively fixed through arranging the rubber pad, and the artificial stone plate is prevented from shifting in the rotating process.

Preferably, the front end of the air cylinder is provided with a push rod, and the front end of the push rod is fixedly connected with a push plate.

Preferably, the number of cylinders is 3.

Therefore, the utility model discloses following beneficial effect has:

(1) the arrangement of the conveyor belt and the movable bedplate can effectively improve the splicing efficiency of the artificial stone;

(2) the splicing tightness and splicing quality between the artificial stones can be ensured in the splicing process through the arrangement of the air cylinder.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of fig. 1 with the stent removed.

Wherein: the stone material conveying device comprises a rack 1, a stone material splicing part 2, a fixed bedplate 3, a through groove 4, a movable bedplate 5, a cylinder 6, a support 7, a trough 8, a stone material conveying part 9, a lifting oil cylinder 10, a lifting rod 11, a rotating bearing 12, a stepping motor 13, a gear 14, a rubber pad 15, a push rod 16, a push plate 17, a conveying pipe 18 and a conveying belt 19.

Detailed Description

The invention is further described with reference to the drawings and the specific embodiments. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Moreover, the embodiments of the invention described in the following description are generally only some embodiments, but not all embodiments, of the invention. Therefore, all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention shall fall within the protection scope of the present invention.

As shown in figures 1-2, the splicing mechanism for artificial stone construction comprises a rack 1, wherein one side of the rack 1 is a stone splicing part 2 for stone splicing, and the other side of the rack is a stone transportation part 2.

The splicing part 2 comprises a rectangular fixed bedplate 3, a through groove 4 is formed in the middle of the fixed bedplate 3, a lifting oil cylinder 10 is further arranged on the splicing part 2, a lifting rod 11 extends upwards and is provided, a rotating bearing 12 with a tooth socket on the surface is rotatably connected to the end part of the lifting rod 11, a stepping motor 13 is further arranged on the lifting rod 11, a gear 14 capable of being embedded with the tooth socket on the surface of the rotating bearing 12 is arranged at the upper end of the stepping motor 13, a circular movable bedplate 5 is fixedly connected to the upper end of the rotating bearing 12, the movable bedplate 5 is arranged in the inner area of the through groove 4, and a rubber pad 15 used for increasing friction force is further arranged in the middle of the movable bedplate 5.

The fixed bedplate 3 is provided with three cylinders 6 for fixing the artificial stone plate around the periphery of the movable bedplate 5, the three cylinders are distributed at 90 degrees, the front end of each cylinder 6 is provided with a push rod 16 facing the inside of the movable bedplate 5, and the front end of each push rod 16 is fixedly connected with a push plate 17.

The fixed bedplate 3 is also provided with a bracket 7, the bracket 7 is provided with a trough 8 for storing the adhesive, a material conveying pipe 18 for conveying the adhesive extends below the trough 8, and the stone material conveying part 2 is provided with a conveyor belt 9 for conveying the artificial stone material plate.

The utility model discloses a use method as follows: at first place the rostone board that will need the concatenation on conveyer belt 9 and shift it to the activity platen 5 of stone material concatenation portion 2 department, then scribble the side at activity platen 5 through the adhesive in conveying pipeline 18 with silo 8, and will next rostone board and the laminating of last rostone board, start cylinder 6 after rotating activity platen 5, and with two blocks of rostone boards inseparable pressfittings, make the gap between two blocks of rostone boards reduce by a wide margin, thereby effectively promote concatenation degree of closeness and the concatenation quality between the rostone board.

Claims (6)

1. The splicing mechanism for artificial stone construction comprises a rack (1) and is characterized in that, one side of the rack (1) is a stone splicing part (2), the other side is a stone transportation part (9), the splicing part (2) comprises a fixed bedplate (3), a through groove (4) is arranged in the middle of the fixed bedplate (3), a movable bedplate (5) which can rotate in the through groove (4) is arranged in the through groove (4), a plurality of cylinders (6) are arranged on the periphery of the fixed bedplate (3) around the movable bedplate (5), the stone material conveying device is characterized in that the fixed bedplate (3) is further provided with a support (7), the support (7) is provided with a trough (8) for storing an adhesive, a conveying pipe (18) extends below the trough (8), and the stone material conveying part (9) is provided with a conveying belt (19).

2. The splicing mechanism for artificial stone construction according to claim 1, wherein the splicing portion (2) is provided with a lifting cylinder (10) extending upward and provided with a lifting rod (11), the end of the lifting rod (11) is rotatably connected with a rotating bearing (12), and the upper end of the rotating bearing (12) is fixedly connected with the movable platen (5).

3. The splicing mechanism for artificial stone construction according to claim 2, wherein the lifting rod (11) is provided with a stepping motor (13), the upper end of the stepping motor (13) is provided with a gear (14), and the outer side of the rotating bearing (12) is provided with a tooth groove matched with the gear (14).

4. Splicing mechanism for artificial stone construction according to claim 1, 2 or 3, wherein said movable platen (5) is further provided with a rubber pad (15) in the middle for increasing friction.

5. The splicing mechanism for artificial stone construction as claimed in claim 1, wherein a push rod (16) is provided at the front end of the cylinder (6), and a push plate (17) is fixedly connected to the front end of the push rod (16).

6. The jointing mechanism for artificial stone construction as claimed in claim 1 or 5, wherein the number of the cylinders (6) is 3, and the three cylinders are distributed at 90 degrees.

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