CN218557580U - Rock plate table board production line - Google Patents

Abstract

The utility model relates to a rock plate processing field specifically discloses a rock plate mesa production line, including last piece conveyer, vertical and horizontal bridge cutter, water sword cutting machine, hole grinder, 45 rock plate double-end transverse cutting machine, 45 rock plate slitter, first cleaning machine, forward position edging machine, second cleaning machine and inspection station, each equipment connects gradually, realizes the automated processing from the rock plate raw materials to the rock plate mesa, and the rock plate mesa production line of this application can effectively improve production efficiency and effectively improve production security simultaneously.

Description

Rock plate table board production line

Technical Field

The utility model relates to a rock plate processing field, concretely relates to rock plate mesa production line.

Background

The rock plate table top is used as a novel building material, has high strength, is wear-resistant and heat-resistant, is commonly used for manufacturing cabinet table tops and bathroom table tops, is usually made of quartz stones, granite, ceramics, marble and other materials, is mainly processed by hands at present, is mainly processed by an infrared bridge cutting machine at present, is only used for cutting rock plate raw materials by a small part of processing plants to obtain rock plates with specified sizes, is manually finished by other procedures (such as loading, polishing, hole turning, cleaning and the like), and has extremely low efficiency, high labor intensity of manual processing, easy injury of workers and low production safety.

Accordingly, the prior art is in need of improvement and development.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a rock plate mesa production line, can effectively improve production efficiency and effectively improve the production security simultaneously.

The technical scheme of the application is as follows:

a rock panel table top production line comprising:

the device comprises an upper piece conveyor, wherein a movable sucker hanging bracket is arranged above the upper piece conveyor and is used for moving the rock plate raw material onto the upper piece conveyor; the upper slice conveyor is used for conveying the rock plate raw material;

the longitudinal and transverse bridge cutting machine is connected to the downstream of the upper sheet conveyor and is used for cutting the rock plate raw material into a rock plate table surface;

the water knife cutting machine is connected to the downstream of the longitudinal and transverse bridge cutting machine and is used for cutting the rock plate table surface to form a hole site;

the hole grinding machine is connected to the downstream of the water jet cutting machine and is used for grinding the hole position;

a 45 ° rock plate dual-head transverse cutter connected downstream of the water jet cutter and configured to cut the rock plate deck to form a 45 ° end;

a 45 ° rock plank slitter connected downstream of the 45 ° rock plank double-ended transverse cutter and configured to cut the rock plank deck to form a 45 ° positioning edge;

a first cleaning machine connected downstream of the 45 ° rock plate slitter and configured to clean the rock plate deck;

the front edge edging machine is connected to the downstream of the first cleaning machine and is used for grinding the edge of the rock plate table top;

the second cleaning machine is connected to the downstream of the front edge grinding machine and is used for cleaning the rock plate table surface;

an inspection station connected downstream of the second cleaning machine and for inspecting the rock deck surface.

The application provides a rock plate mesa production line realizes the automated production from the rock plate raw materials to the rock plate mesa, need not staff's processing, more need not the manual work and moves and lift, effectively improves production efficiency and production security.

Further, the front side of the water-jet cutting machine is connected with a feeding and discharging conveyor;

the downstream of the longitudinal and transverse bridge cutting machine is connected with a plate splitter, and the downstream of the plate splitter is connected with the material inlet and outlet conveyor; and the downstream of the feeding and discharging conveyor is connected with the hole grinding machine.

The plate splitter is arranged to facilitate classification of rock plate table tops of various specifications, so that a downstream water jet cutting machine can switch correct machining procedures to machine the rock plate table tops of corresponding specifications.

Further, the longitudinal and transverse bridge cutting machine is also used for cutting the rock plate raw material into water retaining strips;

the plate splitter comprises a first splitting part and a second splitting part, and the first splitting part is used for receiving the rock plate table top; the second flow dividing part is used for receiving the water retaining strip;

the feeding and discharging conveyor comprises a first feeding and discharging part and a second feeding and discharging part, the first feeding and discharging part is connected with the first shunting part and is close to the water jet cutting machine, and the first feeding and discharging part is used for inputting the rock plate table top to the water jet cutting machine or receiving the rock plate table top from the water jet cutting machine; the second inlet and outlet portion is connected with the second flow dividing portion and used for outputting the water retaining strip.

The rock plate table top and the water bar are convenient to distinguish, and the rock plate table top can be conveniently moved in and out between the first inlet and outlet portion and the water jet cutting machine.

Further, still include the water bar edging machine, the water bar edging machine is used for polishing the edge of water bar.

The edges of the water retaining strips are polished to obtain smooth and clean edges, so that the human body is prevented from being cut easily due to too sharp edges.

Furthermore, the upstream and downstream ends of the water bar edge grinding machine are connected with movable feeding and discharging frames, and the feeding and discharging frames are used for carrying the water bars.

Further, the device also comprises a 45-degree sliver cutting machine, wherein the 45-degree sliver cutting machine can be connected with the feeding and discharging frame and is used for cutting the water retaining strip to form a 45-degree positioning edge.

Furthermore, the strip cutting machine is characterized by further comprising a 360-degree strip cutting machine, wherein the 360-degree strip cutting machine can be connected with the feeding and discharging frame and is used for cutting the water retaining strip to form a round angle.

The first cleaning machine is connected with the front edge edging machine, and the second cleaning machine is connected with the front edge edging machine; the bonding room is used for bonding the water retaining strip on the rock plate table surface.

Further, the bonding room comprises a plurality of placing racks and a plurality of lifting conveyors, the lifting conveyors are linearly arranged along the transmission direction, and the placing racks are arranged on the front side and the rear side of the lifting conveyors; the placing frame is used for placing the rock plate table surface bonded with the water retaining strip; the lifting conveyor is used for taking and placing the rock plate table top bonded with the water retaining strips on the placing frame.

Furthermore, the downstream of the first inlet and outlet part is connected with a positioning conveyor, and the downstream of the positioning conveyor is connected with the hole grinding machine.

The utility model has the advantages that: on the production line of the rock plate table-board, the rock plate table-board is moved on the production line all the time in the whole process from the moment of cutting to the completion of processing of the rock plate raw materials, and the processing of each procedure is automatically completed, so that the processing efficiency is greatly improved, and the whole course of the rock plate does not fall to the ground, so that the manual lifting of the rock plate table-board is not needed, the labor intensity of workers is effectively reduced, and the production safety is further improved.

Drawings

Fig. 1 is a schematic structural diagram of a rock deck production line provided in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a first part of a rock deck production line according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of a second part of a rock deck production line according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a third part of a rock deck production line according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a fourth part of a rock deck production line according to an embodiment of the present disclosure.

Fig. 6 is a schematic structural diagram of a fifth part of a rock deck production line according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a sixth part of a rock deck production line according to an embodiment of the present application.

Description of reference numerals:

100. a feeding conveyor; 110. a suction cup hanger; 200. a longitudinal and transverse bridge cutting machine; 300. a water jet cutter; 400. a hole grinding machine; 500. a 45-degree rock plate double-end transverse cutting machine; 600. a 45-degree rock plate slitting machine; 700. a first cleaning machine; 800. a front edge grinding machine; 900. a second cleaning machine; 1000. a feeding and discharging conveyor; 1100. a plate splitter; 1200. a water bar edge grinding machine; 1300. a feeding and discharging rack; 1400. a 45-degree sliver cutting machine; 1500. a 360-degree sliver cutting machine; 1600. a bonding room; 1610. placing a rack; 1620. a lifting conveyor; 1700. positioning the conveyor; 1800. and (4) marking machine.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically, electrically or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present disclosure may repeat reference numerals and/or reference letters in the various examples for purposes of simplicity and clarity and do not in itself dictate a relationship between the various embodiments and/or arrangements discussed. In addition, the present disclosure provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

In certain embodiments, with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, and fig. 7, a rock deck production line, comprises:

the device comprises an upper piece conveyor 100, wherein a movable sucker hanger 110 is arranged above the upper piece conveyor 100, and the sucker hanger 110 is used for moving the rock plate raw material onto the upper piece conveyor 100; the loading conveyor 100 is used for conveying the rock plate raw material;

a cross-bridge cutter 200, the cross-bridge cutter 200 being connected downstream of the upper conveyor 100 and used for cutting the rock plate raw material into a rock plate table;

a water-jet cutter 300, the water-jet cutter 300 is connected to the downstream of the longitudinal and transverse bridge cutter 200 and is used for cutting the table surface of the rock plate to form a hole site;

a hole grinding machine 400, wherein the hole grinding machine 400 is connected to the downstream of the water jet cutter 300 and is used for grinding hole positions;

a 45 ° rock plate double-ended transverse cutter 500, the 45 ° rock plate double-ended transverse cutter 500 being connected downstream of the water jet cutter 300 and being used to cut the rock plate table to form a 45 ° end (meaning a 45 ° chamfer is cut at the location of the end of the rock plate);

a 45 ° rock plate slitter 600, the 45 ° rock plate slitter 600 connected downstream of the 45 ° rock plate double-ended cross cutter 500 and configured to cut a rock plate deck to form a 45 ° locating edge;

a first cleaning machine 700, the first cleaning machine 700 being connected downstream of the 45 ° rock plate slitting machine 600 and being used for cleaning the rock plate table top;

the front edge grinding machine 800 is connected to the downstream of the first cleaning machine 700, and is used for grinding the edge of the rock plate table surface;

the second cleaning machine 900 is connected to the downstream of the front edge edging machine 800, and is used for cleaning the table top of the rock plate;

an inspection station connected downstream of the second cleaning machine 900 and used to inspect the rock deck.

During actual processing production, the rock plate raw materials are generally stacked in a specific stacking area to wait for taking, when the production is started, the sucking disc hanging bracket 110 is driven to suck the rock plate raw materials tightly and carry the rock plate raw materials onto the upper sheet conveyor 100, a conveying belt is arranged on the upper sheet conveyor 100, the rock plate raw materials move to a downstream vertical and horizontal bridge cutter 200 under the driving of the conveying belt, the vertical and horizontal bridge cutter 200 cuts the rock plate raw materials according to the drawing size to form a rock plate table top, the cut rock plate table top is input into a water cutter 300 to cut hole sites according to the drawing requirements, water flow can cut along with cutting edges in a water cutter cutting mode to take away gravels generated by cutting, and the relative cleanness of the rock plate table top is favorably kept; the rock plate table top subjected to hole site cutting is input into a hole grinding machine to further grind each hole site to form a smooth and burr-free hole; then the table top of the rock plate is sequentially input into a 45-degree rock plate double-end transverse cutting machine 500 and a 45-degree rock plate slitting machine 600 according to requirements to cut 45-degree end heads and 45-degree positioning edges (the 45-degree end heads can be processed according to actual processing requirements, only the 45-degree positioning edges can be cut without cutting the 45-degree end heads, and the table top of the rock plate directly enters the 45-degree rock plate slitting machine 600 only through the 45-degree rock plate double-end transverse cutting machine 500, or only the 45-degree end heads can be cut without cutting the 45-degree positioning edges, and the table top of the rock plate directly outputs to a downstream first cleaning machine 700 through the 45-degree rock plate slitting machine 600 after entering the 45-degree rock plate double-end transverse cutting machine 500); the first cleaning machine 700 mainly cleans the table top of the rock plate comprehensively to wash off stains, sewage, residues and the like attached to the surface, thereby ensuring that the polishing effect is not affected after the rock plate is input into the front edge grinding machine 800; the front edge grinding machine 800 mainly performs fine grinding on the edge of the rock plate table top to obtain a smooth edge, so that the phenomenon that the edge is too sharp and easily cuts a human body is avoided, and grinding fluid, grinding paste and the like are possibly added in the grinding process, so that the rock plate table top needs to be kept clean enough before grinding, and the grinding effect is prevented from being reduced by stains, sewage, residues and the like; the polished rock plate table top is input into a second cleaning machine 900 for secondary overall cleaning so as to wash away grinding fluid, grinding paste, stains, sewage, residues and the like attached to the surface; and finally, inputting the cleaned rock plate table top to an inspection station for quality inspection and appearance inspection, and completing the manufacture of the whole rock plate table top after no errors exist.

In this embodiment, from the moment of rock plate raw materials material loading, all be zonulae occludens between every manufacturing procedure in whole course of working (all be provided with the conveyer belt between equipment and the equipment), the conveyer belt drives the rock plate mesa and passes through each processing equipment in proper order, accomplish the processing of each process automatically, whole journey rock plate mesa of whole manufacture process need not to fall to the ground, consequently, need not the workman and shift the rock plate mesa to each equipment through the transport in, with this production efficiency has improved greatly, workman's intensity of labour has effectively been reduced, and then improve the production security.

In some embodiments, referring to fig. 2, the front side of the waterjet cutter 300 (front side refers to the side of the waterjet cutter that feeds and discharges) is connected with a feed and discharge conveyor 1000;

the downstream of the longitudinal and transverse bridge cutting machine 200 is connected with a plate splitter 1100, and the downstream of the plate splitter is connected with a feeding and discharging conveyor 1000; downstream of the in-out conveyor 1000 is connected a hole grinder 400.

In this embodiment, in practical application, the longitudinal and transverse bridge cutting machine 200 can simultaneously cut rock board table tops of various specifications, and at this time, the plate material dividing machine 1100 needs to classify the rock board table tops of various specifications, so that the downstream water jet cutter 300 can switch correct processing procedures to process the rock board table tops of corresponding specifications; the feeding and discharging conveyor 1000 mainly obtains the corresponding rock plate table from the plate splitter 1100 and conveys the rock plate table to the water jet cutter 300 for hole site processing, and after the hole site processing is completed, the rock plate table is taken back again and conveyed to the hole grinding machine 400.

It should be noted that the sheet material distribution machine 1100 refers to a device that is provided with channels having different conveying directions or guides different specifications of sheet materials to different positions by changing the conveying direction, such as a tilted balance wheel sorter, a roller distribution conveyor, and the like.

In certain embodiments, referring to fig. 3, the cross-bridge cutter 200 is also used to cut rock board stock into water bars;

the panel diverter 1100 comprises a first diverter for receiving a rock deck and a second diverter; the second flow dividing part is used for receiving the water retaining strip;

the material inlet and outlet conveyor 1000 includes a first inlet and outlet portion connected to the first flow dividing portion and close to the water jet cutter 300, and a second inlet and outlet portion for inputting the rock deck to the water jet cutter 300 or receiving the rock deck from the water jet cutter 300; the second in-out portion is connected with the second shunting portion and is used for outputting the water bar.

In this embodiment, in actual application, in the same production run, the longitudinal and transverse bridge cutting machine 200 generally cuts out the rock-slab table top and the water bar with the same specification, so the plate splitter 1100 generally only needs to be provided with the first splitting part and the second splitting part to distinguish and transfer the rock-slab table top and the water bar, and similarly, the material inlet and outlet conveyor 1000 also only needs to be provided with the first inlet and outlet part and the second inlet and outlet part to receive the rock-slab table top and the water bar, wherein the first splitting part is responsible for conveying the rock-slab table top to the first inlet and outlet part, and the first inlet and outlet part is located at one side close to the water jet cutting machine 300, so that the rock-slab table top can be conveyed to the water jet cutting machine 300, or the rock-slab table top can be taken back from the water jet cutting machine 300; the second shunting part is responsible for conveying the water bar to the second access part, and workers can obtain the water bar from the second access part.

It should be noted that the second inlet and outlet portion may be connected to a feeding and discharging rack 1300 mentioned below, and after the second inlet and outlet portion is connected to the feeding and discharging rack 1300, the second inlet and outlet portion may convey the water bar to the feeding and discharging rack 1300, and at this time, a worker removes the connection between the second inlet and outlet portion and the feeding and discharging rack 1300, and drags the feeding and discharging rack 1300 to move to other processing equipment to further process the water bar.

In some embodiments, referring to fig. 7, the rock deck surface production line further comprises a water bar edging machine 1200, wherein the water bar edging machine 1200 is used for grinding the edges of the water bars to obtain smooth and clean edges, so that the human body can be cut easily due to the excessively sharp edges.

In some embodiments, referring to fig. 7, a movable feeding and discharging rack 1300 is connected to both the upstream and downstream ends of the water bar edging machine 1200, and the feeding and discharging rack 1300 is used for carrying the water bar.

In this embodiment, the bottom of the feeding and discharging frame 1300 is provided with the pulley, the worker moves the feeding and discharging frame 1300 to the second feeding and discharging part to obtain the water bar to be processed, then the water bar is carried to the water bar edging machine 1200 through the feeding and discharging frame 1300 to be further processed, the processed water bar is also placed on the feeding and discharging frame 1300, the worker carries the water bar to the processing equipment of other stations through the feeding and discharging frame 1300 again to be further processed, the whole water bar does not need to fall to the ground, and with the aid of the feeding and discharging frame 1300, the labor intensity of the worker can be greatly reduced.

In some embodiments, referring to fig. 7, the rock-slab table production line further includes a 45 ° strip cutter 1400, the 45 ° strip cutter 1400 may be connected to the feeding and discharging frame 1300 and used for cutting the water bar to form a 45 ° positioning edge, when the rock-slab table requires to bond the corresponding water bar, the rock-slab table needs to be processed and cut by the 45 ° rock-slab slitter 600 to form the 45 ° positioning edge, so that the water bar needs to be processed and cut by the 45 ° strip cutter 1400 to form the 45 ° positioning edge, which is used as a positioning for accurate bonding of the two.

In certain embodiments, referring to fig. 7, the rock deck production line further comprises a 360 ° strip cutter 1500, the 360 ° strip cutter 1500 may be connected to the feeding and discharging rack 1300 and configured to cut the water bar to form a fillet, and if a fillet is required to be designed on the water bar during the processing, the fillet may be processed by the 360 ° strip cutter 1500.

In certain embodiments, referring to fig. 4, 5 and 6, the rock deck production line further comprises a bonding house 1600, the bonding house 1600 being connected downstream of the first cleaning machine 700 and upstream of the leading edge edging machine 800; the bonding room 1600 is used for bonding the water bars on the rock plate table surface.

In this embodiment, as described above, if the rock deck is provided with the corresponding water bar, the water bar needs to be adhered to the rock deck, and the adhesion room 1600 is responsible for adhering the two components into a whole.

In the production process, workers can convey the finally processed water retaining strips to the bonding room 1600 through the feeding and discharging frame 1300; the bonding room 1600 specifically refers to an area responsible for a bonding process.

In some embodiments, referring to fig. 5, the bonding room 1600 includes a plurality of racks 1610 and a plurality of lifting conveyors 1620, the plurality of lifting conveyors 1620 being arranged in a straight line along a transfer direction (i.e., a direction from right to left in the drawing), the plurality of racks 1610 being disposed at front and rear sides of the lifting conveyors 1620; the placing frame 1610 is used for placing a rock plate table surface bonded with a water retaining strip; the lifting conveyor 1620 is used for taking and placing the rock board table surface bonded with the water bar on the placing frame 1610.

In order to make reasonable use of the space of bonding room 1600 during practical application, rack 1610 is generally the shelf of multilayer, the rock face that bonds and have the breakwater can both be deposited on every layer of shelf, and for the convenience of workman gets on rack 1610 to put and bonds and have the rock face of breakwater, this embodiment all is supporting in one side of every rack 1610 has 1 at least lift conveyer 1620, lift conveyer 1620 can go up and down and the surface is provided with the conveyer belt that can follow width direction and length direction transportation and bond the rock face that has the breakwater, make the workman manage the rock face that bonds and have the breakwater more conveniently easily, also agree with the requirement that whole course of working does not fall to the ground simultaneously, whole journey need not artifical transport, the workman's intensity of labour has significantly reduced, and then improve the production security.

In some embodiments, referring to fig. 3, a positioning conveyor 1700 is connected downstream of the first access portion, the positioning conveyor 1700 is connected downstream of the positioning conveyor 1700 with the hole grinder 400, and in order to ensure that the rock plate table can be accurately input into the hole grinder 400, the positioning conveyor 1700 is arranged to correct the posture of the rock plate table before being input into the hole grinder 400.

It should be noted that the positioning conveyor 1700 refers to an apparatus capable of directional conveying, such as a positioning belt conveyor, a link plate positioning conveying apparatus, and the like.

In some embodiments, a packaging station is further provided downstream of the inspection station for packaging and shipping the finished product.

In some embodiments, referring to fig. 2, a marking machine 1800 is further disposed between the upper conveyor 100 and the vertical and horizontal bridge cutter 200, the marking machine 1800 is used for setting processing information and issuing processing drawings according to production requirements of the rock plate raw material, the processing information and the processing drawings are transmitted to the vertical and horizontal bridge cutter 200, and the vertical and horizontal bridge cutter 200 performs cutting processing on the rock plate raw material according to the processing information and the processing drawings.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-mentioned preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be limited by the above-mentioned scope.

Claims (10)

1. A rock plate table top production line, comprising:

the device comprises an upper piece conveyor (100), wherein a movable sucker hanging bracket (110) is installed above the upper piece conveyor (100), and the sucker hanging bracket (110) is used for moving the rock plate raw material onto the upper piece conveyor (100); the upper slice conveyor (100) is used for conveying the rock plate raw material;

a longitudinal and transverse bridge cutter (200), the longitudinal and transverse bridge cutter (200) being connected downstream of the upper sheet conveyor (100) and used for cutting the rock plate raw material into a rock plate table;

a water knife cutter (300), the water knife cutter (300) being connected downstream of the longitudinal and transverse bridge cutter (200) and used for cutting the rock deck to form a hole site;

the hole grinding machine (400) is connected to the downstream of the water jet cutting machine (300) and is used for grinding the hole position;

a 45 ° rock plate double-ended transverse cutter (500), said 45 ° rock plate double-ended transverse cutter (500) connected downstream of said water jet cutter (300) and used to cut the rock plate table to form a 45 ° end;

a 45 ° rock plate slitter (600), the 45 ° rock plate slitter (600) connected downstream of the 45 ° rock plate dual head cross cutter (500) and configured to cut the rock plate deck to form a 45 ° locating edge;

a first cleaning machine (700) connected downstream of the 45 ° rock plate slitter (600) and used to clean the rock plate deck;

the front edge edging machine (800) is connected to the downstream of the first cleaning machine (700) and is used for grinding the edge of the rock plate table surface;

a second cleaning machine (900), said second cleaning machine (900) being connected downstream of said leading edge edging machine (800) and being for cleaning said rock deck;

an inspection station connected downstream of the second cleaning machine (900) and for inspecting the rock deck.

2. The rock deck production line of claim 1 wherein an in-out conveyor (1000) is connected to the front side of the water jet cutter (300);

the downstream of the longitudinal and transverse bridge cutting machine (200) is connected with a plate splitter (1100), and the downstream of the plate splitter is connected with the material inlet and outlet conveyor (1000); the downstream of the feeding and discharging conveyor (1000) is connected with the hole grinding machine (400).

3. A rock-deck production line as claimed in claim 2 wherein the cross-bridge cutter (200) is further adapted to cut the rock-slab feedstock into water bars;

the plate splitter (1100) comprises a first splitter portion for receiving the rock deck and a second splitter portion; the second flow dividing part is used for receiving the water retaining strip;

the material inlet and outlet conveyor (1000) comprises a first inlet and outlet part and a second inlet and outlet part, the first inlet and outlet part is connected with the first shunting part and is close to the water-jet cutting machine (300), and the first inlet and outlet part is used for inputting the rock plate table surface to the water-jet cutting machine (300) or receiving the rock plate table surface from the water-jet cutting machine (300); the second inlet and outlet portion is connected with the second flow dividing portion and used for outputting the water retaining strip.

4. A rock panel table top production line as claimed in claim 3 further comprising a water bar edger (1200), the water bar edger (1200) for grinding the edge of the water bar.

5. The rock panel table top production line of claim 4, wherein both upstream and downstream ends of the water bar edging machine (1200) are connected with a movable feeding and discharging rack (1300), and the feeding and discharging rack (1300) is used for carrying the water bar.

6. A rock deck production line as claimed in claim 5 further comprising a 45 ° sliver cutter (1400), the 45 ° sliver cutter (1400) being connectable with the in and out carriage (1300) and being for cutting the water bar to form a 45 ° locating edge.

7. A rock panel bench top production line as claimed in claim 5 further comprising a 360 ° sliver cutter (1500), the 360 ° sliver cutter (1500) being connectable with the in and out carriage (1300) and for cutting the water bar to form a fillet.

8. A rock panel bench top production line as claimed in claim 5, further comprising a bonding house (1600), the bonding house (1600) being connected downstream of the first cleaning machine (700) and upstream of the leading edge edging machine (800); the bonding room (1600) is used for bonding the water bar on the rock plate table surface.

9. The rock deck face production line of claim 8, wherein the splicing room (1600) comprises a plurality of racks (1610) and a plurality of lifting conveyors (1620), the plurality of lifting conveyors (1620) being arranged in a straight line along a transport direction, the plurality of racks (1610) being disposed on both front and rear sides of the lifting conveyors (1620); the placing rack (1610) is used for placing the rock plate table surface bonded with the water retaining strip; the lifting conveyor (1620) is used for picking and placing the rock plate table surface bonded with the water retaining strip on the placing frame (1610).

10. A rock deck production line according to claim 3, characterised in that a positioning conveyor (1700) is connected downstream of the first access portion, the positioning conveyor (1700) being connected downstream of the hole grinder (400).

Images