CN215661164U

CN215661164U - Stone angle-adjustable material table

Info

Publication number: CN215661164U
Application number: CN202121035012.XU
Authority: CN
Inventors: 保文明; 王桀
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-14
Filing date: 2021-05-14
Publication date: 2022-01-28
Anticipated expiration: 2031-05-14

Abstract

The utility model relates to a stone angle-adjustable material table, which comprises a stone supporting rotary seat arranged at the front end of a table top, wherein the bottom of stone is arranged on the stone supporting rotary seat; the cutting device is matched with a horizontal cutting assembly and a vertical cutting assembly which are arranged on a bridge cutting machine, can meet the requirements of cutting cornerstone with various types and included angles, and has the advantages of wide application range, high cutting efficiency and stable quality; through the characteristic of adjustable inclination angle, easily realize cutting out the unequal corner stone of both sides face thickness of equidimension in proper order along same direction, need not under the prerequisite of alternative thickness direction promptly, can cut out each stone material all be the unequal thick angle stone of equal specification in succession, show improvement cutting efficiency, cutting handicraft accuse.

Description

Stone angle-adjustable material table

Technical Field

The utility model relates to the technical field of stone cutting equipment, mainly relates to a skip car for bearing stones during integrated corner stone cutting, and particularly relates to a stone angle-adjustable material platform.

Background

Cutting machines are well established machines widely used for cutting materials, most commonly stone cutting machines, which are used to cut large pieces of stone wool into slabs of desired thickness. In actual stone construction application, profiles with corners, such as ladders, door cases, window case corner lines, decorative wall corners, skirting lines, bar counters, wash tables, large curbstones and the like, are often required. Because the existing stone cutting machine can not directly process corner section bars, which takes much labor, time and great waste, two sheets of plates are generally spliced and adhered at the corners by workers when the stone cutting machine is needed. However, the spliced and bonded angle stone has the problems of aging and falling of glue, influence on appearance, troublesome construction and poor mechanical strength.

The inventor aims to solve the problem that the existing stone cutting machine cannot process corner profiles, and over the years, the inventor researches and designs a plurality of types of corner stone cutting equipment and provides corner stone cutting machines which have multiple purposes and are used in multiple scenes, such as 201810061618.7 horizontal multi-cutter co-cutting one-seam material cutting machine, 201520338017.8 material moving type multi-angle corner stone material cutting machine, 201720163777.9 material rotating type angle profile cutting skip car, 201920218572.5 bridge type corner stone cutting machine which can co-cut one material with oblique guide pillar bridge type cutting machine, CN201920218585.2 large-block material fixed multi-cutter co-cutting one-seam cutting head assembly and the like; the integrated cutting of the diagonal stone is generally realized by sequentially cutting two sections of vertical planes and horizontal planes on a stone to realize the cutting of a complete integrated stone, but the stone is generally vertically placed or obliquely placed, and then the inclination angle of the cutting assembly relative to the stone is adjusted according to information such as specification, model size and the like of the stone to be cut, and the stone is sequentially cut. When cutting corner stone materials with two surfaces of different thicknesses, the cutting of a stone material can be completed only by a mode of alternating the directions of thick edges on the stone material, and the angle direction of a cutting tool needs to be changed repeatedly. In the traditional stone cutting industry, stones on a skip are often fixed.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects existing in the prior art, the inventor provides a stone angle-adjustable material table which is more ingenious and practical and can realize the cutting of stones with various specifications in the cutting process through research, development and improvement, the cutting efficiency can be effectively improved, and particularly, the continuous equidirectional cutting of the angle stones with different thicknesses on two sides can be carried out without frequently adjusting and changing the cutting angle of a cutting assembly, so that the cutting efficiency is greatly improved. Specifically, the utility model is realized by the following steps:

a material platform of building stones angularly adjustable for installing building stones includes: mesa, setting support the roating seat at the building stones of mesa front end, the bottom of building stones is installed on the building stones supports the roating seat, and one row or multirow, with at least two sets of flexible roof device along building stones distribution direction installation are installed to the other end of mesa, but the bottom of flexible roof device is installed on the mesa with angle of adjustment's mode, and its top props the top on the building stones face, flexible roof device and building stones support the roating seat and mutually support the contained angle that can pass through between flexible adjustment building stones and the horizontal plane to can maintain certain angle and keep fixed.

Further, the stone supporting swivel includes: the rotary supporting seat is used for being connected and fixed with the bottom of stone materials, the bottom of the rotary supporting seat is hinged to the table board, the movable end of the rotary supporting seat is connected with an angle adjusting fixed block arranged on the table board, an arc adjusting groove is formed in the angle adjusting fixed block and is arranged on the angle adjusting fixed block through an arc groove locking bolt, and the rotation and the fixation of the rotary supporting seat during angle adjustment can be controlled through the tightness of the arc groove locking bolt.

Further, the telescopic roof device comprises: the bottom of the telescopic ejector rod is connected to the reverse rotation seat through the reverse control part, the reverse rotation seat is installed on the table board, the reverse control part is connected with the reverse rotation seat through the rotating shaft pin, and the rotating shaft pin of the reverse rotation seat penetrates through an arc-shaped groove formed in the reverse rotation seat to realize rotation and fixation during adjustment of the stone inclination angle.

Further, the fold-back control part includes: the reverse-folding ejector rod turning seat is used for mounting the telescopic ejector rod, and the reverse-folding ejector rod locking pin, the reverse-folding ejector rod pin seat and the reverse-folding shaft pin are matched with each other and mounted with the reverse-folding ejector rod pin seat and used for controlling the reverse folding or straightening of the telescopic ejector rod; the reverse folding control part further comprises: the backward-folding ejector rod buffering support is arranged in the backward-folding direction of the telescopic ejector rod, and a backward-folding ejector rod buffering rubber block is arranged on the backward-folding ejector rod buffering support.

Furthermore, the bottom of the stone material is bonded and fixed with the auxiliary stone into a whole, and the auxiliary stone and the stone material are jointly arranged on the stone material supporting rotary seat; the stone supporting rotary seat is arranged on a high step, and the telescopic top device is arranged on a low step.

Furthermore, the adjusting cushion blocks with the quantity capable of being increased and decreased are arranged below the stone on the rotary supporting seat, the adjusting cushion blocks can penetrate through the clamping and fixing part through adjusting bolts, and the quantity of the adjusting cushion blocks can be adjusted adaptively according to the thickness of the stone to be cut to be fixed and installed.

Furthermore, the bottom of the table top is provided with an installation support, and the material table with the adjustable stone angle can be detached, installed, moved and replaced for alternate use.

Further, the trolley structure comprises a trolley structure which can move or be fixed on the ground or a track.

The working principle of the utility model is introduced: the stone is arranged on the material platform of which the angle can be adjusted at will, and the inclination angle of the stone at any angle can be adjusted relative to the horizontal plane through the material platform with the changeable angle. The adjustable stone supporting rotary seat is mainly characterized in that a stone supporting rotary seat on a stone angle-variable table and a telescopic top capable of telescopically adjusting stone supporting angles are matched to complete the adjustable stone supporting, the telescopic top can use electrical equipment to electrically control the telescopic degree of the adjustable stone supporting rotary seat, the stone is driven to rotate on the rotary supporting seat along with the adjustable stone supporting rotary seat, after a preset angle is rotated, a locking arc groove locking bolt and a shaft pin of an inverted rod rotary seat can complete the fixed positioning of an inclination angle of the stone, the telescopic top provides support for the stone, the telescopic top can be gradually thinned along with the stone, the telescopic top can be internally folded to make a cut space of the stone out, the tail of the stone is provided with a structural design for adhering auxiliary stones, and the final quantity of waste materials can be reduced as much as possible. Through the angle variable design of the stone, the function of the horizontal direction angle adjustable of the horizontal cutting tool is matched, so that the utility model can cut the section bars with various specifications and sizes, particularly when the dimension stone with two sides of different thicknesses is cut, as shown in figures 4 and 5, when the stone inclines at a certain angle, the intersection point of each cutting is positioned on a line parallel to the edge of the stone according to the thickness proportion of two sides of the dimension stone, therefore, the stone is kept to incline at the angle before cutting, so that the corner stone with two sides of different thicknesses can be cut in sequence along the same direction, the thickness cutting direction is not required to be alternated in the previous cutting mode, and the angle stone cutting process is efficiently completed.

Compared with the prior art, the utility model has the following beneficial effects:

(1) this material platform can adjust the inclination of putting of building stones as required, and angularly adjustable is convenient for cut the stone material of various specification kinds, and the cooperation can be independent oscilaltion, the cutting assembly mechanism of sideslip uses two independent cutting assemblies, is responsible for the cutting of vertical angle and the cutting of horizontal angle respectively, and the cooperation horizontal cutting assembly can select the horizontal gradient, can satisfy the cutting of the angle stone of various types, contained angle, and the range of application is wide, cutting efficiency is high, the cutting quality is stable. The method can realize the cutting of the stone with the specification of unequal thickness on two side surfaces, and calculates that when the stone inclines at a certain angle, the intersection point of each cutting is positioned on a line parallel to the edge of the stone through the thickness proportion of two sides of the stone with the specification, so that the stone is adjusted to keep the inclination at the angle, thereby sequentially cutting corner stones with unequal thickness on two side surfaces along the same direction, and needing no alternate thickness cutting direction to the previous cutting mode, thereby efficiently finishing the angle stone cutting process, greatly improving the cutting efficiency, cutting each stone to be the unequal thickness angle stone with the equal specification, and remarkably improving the quality control of the cutting process.

Drawings

FIG. 1 is a front view of a stone angle adjustable material table;

FIG. 2 is a top view of a stone angle adjustable material table;

FIG. 3 is a schematic view of a material table with an adjustable angle of stone;

fig. 4 is a schematic view illustrating a cutting state of corner stone cut from stone;

FIG. 5 is a schematic view of a continuous cutting principle of an integrated corner stone with two sides of different thickness cut by a material table with an adjustable stone angle after the material table is adjusted in angle;

FIG. 6 is a schematic view of stone cutting;

wherein: 11 table top, 12 stone supporting rotating base, 13 telescopic ejector rod, 14 rotating supporting base, 15 stone angle adjusting fixed block, 16 arc adjusting groove, 17 arc groove locking bolt, 18 reverse seat rotating fixed base, 19 rotating shaft pin, 181 reverse folding rod rotating base shaft pin, 182 arc groove, 183 reverse folding ejector rod rotating base, 184 reverse folding ejector rod locking pin, 185 reverse folding ejector rod pin base, 186 reverse folding shaft pin, 187 reverse folding ejector rod buffering support, 188 reverse folding ejector rod buffering rubber block, 189 adjusting cushion block, 190 adjusting bolt, 5 mounting support, 6 auxiliary stone, 7 stone, 8 cutter seam, 9 cut corner stone.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1: as shown in fig. 1 to 3, a material table with adjustable stone angles is positioned right below a bridge cutting machine, stone is installed on the material table, and the material table can adjust the inclination angle of the installed stone and is fixed at the adjusted angle for stone cutting; the horizontal cutting assembly can adjust the included angle between the horizontal cutting tool and the horizontal plane. Specifically, the method comprises the following steps: the variable material platform of building stones angle includes: mesa 11, the setting supports roating seat 12 at the building stones of mesa front end, and the bottom of building stones is installed on the building stones supports the roating seat, and one row or multirow, with at least two sets of flexible roof device along building stones distribution direction installation are installed to the other end of mesa, but the bottom of flexible roof device is installed on the mesa with angle of adjustment's mode, and its top props the top on the building stones face, flexible roof device and building stones support the roating seat and mutually support the contained angle that can pass through between flexible adjustment building stones and the horizontal plane to can maintain certain angle and keep fixed. The rotary supporting seat 14 is used for being connected and fixed with the bottom of stone materials, the bottom of the rotary supporting seat is hinged to the table board, the movable end of the rotary supporting seat is connected with an angle adjusting fixing block 15 arranged on the table board, an arc adjusting groove 16 is formed in the angle adjusting fixing block and is arranged on the angle adjusting fixing block through an arc groove locking bolt 17, and rotation and fixation of the rotary supporting seat during angle adjustment can be controlled through tightness of the arc groove locking bolt. The flexible roof device includes: the bottom of the telescopic ejector rod is connected to a reverse seat rotating fixed seat 18 through a reverse control part, the reverse seat rotating fixed seat is installed on the table top, the reverse control part is connected with the reverse seat rotating fixed seat through a rotating shaft pin 19, and the reverse rod rotating base shaft pin 181 penetrates through an arc-shaped groove 182 formed in the reverse seat rotating fixed seat to realize rotation and fixation when the inclination angle of stone is adjusted. The reverse folding control part comprises: the reverse-folding ejector rod turning seat 183, the reverse-folding ejector rod locking pin 184, the reverse-folding ejector rod pin seat 185 and the reverse-folding shaft pin 186 are used for installing the telescopic ejector rod, and the reverse-folding ejector rod locking pin, the reverse-folding shaft pin and the reverse-folding ejector rod pin seat are mutually matched and installed for controlling the reverse folding or the straightening of the telescopic ejector rod; the reverse folding control part further comprises: an inverted push rod buffer support 187 installed in the inverted direction of the telescopic push rod is provided with an inverted push rod buffer rubber block 188. Generally, there are two rows of telescopic ejector pins, and when the building stones are gradually cut and are close to the bottom, the first row of telescopic ejector pins needs to be removed for smooth cutting, so that the cutting space cannot be shielded after the first row of telescopic ejector pins is folded backwards. The inverted telescopic ram is placed transversely on the inverted ram buffer support 187. On the other hand, the adjusting cushion blocks 189 which can be increased or decreased in number are arranged below the stone on the rotary supporting seat, and the adjusting cushion blocks can penetrate through the adjusting bolts 190 to be clamped and fixed. The adjusting blocks 189 and the adjusting bolts 190 of the stones often have product changes in the production process, and the product changes are correspondingly increased and decreased according to the sizes of the stones. The bottom of the stone is bonded and fixed with the auxiliary stone 6 into a whole, and the auxiliary stone 6 and the stone are jointly arranged on the stone supporting rotary seat 12; the stone supporting rotary seat is arranged on a high step, and the telescopic top device is arranged on a low step.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims

1. The utility model provides a building stones angularly adjustable material platform for install building stones, its characterized in that includes: the stone supporting rotary table comprises a table top (11) and a stone supporting rotary seat (12) arranged at the front end of the table top, wherein the bottom of stone is arranged on the stone supporting rotary seat, one or more rows of telescopic top devices arranged in at least two groups along the distribution direction of the stone are arranged at the other end of the table top, the bottom of each telescopic top device is arranged on the table top in an angle-adjustable mode, the top of each telescopic top device is supported on the stone surface, and the telescopic top devices and the stone supporting rotary seat are matched with each other to adjust the included angle between the stone and the horizontal plane in a telescopic mode and keep a certain angle fixed; the material platform is of a skip structure and can move or be fixed on the ground or a track.

2. The stone angle adjustable material table as claimed in claim 1, wherein the stone supporting rotation base comprises: the rotary supporting seat is used for being connected and fixed with the bottom of stone, the bottom of the rotary supporting seat is hinged to a table board, the movable end of the rotary supporting seat is connected with an angle adjusting fixing block (15) installed on the table board, an arc-shaped adjusting groove (16) is formed in the angle adjusting fixing block and is installed on the angle adjusting fixing block through an arc-shaped groove locking bolt (17), and the rotation and the fixation of the rotary supporting seat during angle adjustment can be controlled through the tightness of the arc-shaped groove locking bolt.

3. The stone angle adjustable material table as claimed in claim 1, wherein the telescopic top means comprises: the bottom of the telescopic ejector rod is connected to a reverse rotation seat (18) through a reverse control part, the reverse rotation seat is installed on the table top, the reverse control part is connected with the reverse rotation seat through a rotation shaft pin (19), and the rotation and fixation of the stone inclination angle can be realized by the fact that the shaft pin (181) of the reverse rotation seat penetrates through an arc-shaped groove (182) formed in the reverse rotation seat.

4. A stone angle adjustable material table as claimed in claim 3, wherein the reverse-folding controlling part comprises: the reverse-folding ejector rod is used for installing the telescopic ejector rod, and the reverse-folding ejector rod rotates to a seat (183), a reverse-folding ejector rod locking pin (184), a reverse-folding ejector rod pin seat (185) and a reverse-folding shaft pin (186), and the reverse-folding ejector rod locking pin and the reverse-folding shaft pin are installed in a mutually matched mode with the reverse-folding ejector rod pin seat and used for controlling the reverse folding or straightening of the telescopic ejector rod; the reverse folding control part further comprises: and an inverted mandril buffer bracket (187) arranged in the inverted direction of the telescopic mandril, and an inverted mandril buffer rubber block (188) arranged on the inverted mandril buffer bracket.

5. The angle adjustable stone material table as claimed in claim 1, wherein the bottom of the stone material is fixed into a whole by bonding with the auxiliary stone (6), the auxiliary stone (6) and the stone material are installed together on the stone material supporting rotary base (12); the stone supporting rotary seat is arranged on a high step, and the telescopic top device is arranged on a low step.

6. The angle adjustable stone material table as claimed in claim 5, wherein the rotary supporting base is provided with adjusting cushion blocks (189) below the stone material, the number of the adjusting cushion blocks can be increased or decreased, the adjusting cushion blocks can be fixed by passing through the clamp through adjusting bolts (190), and the number of the adjusting cushion blocks can be adjusted adaptively according to the thickness of the stone material to be cut, so that the adjusting cushion blocks can be fixed.

7. The stone angle adjustable material table as claimed in claim 1, characterized in that the table top (11) is provided with a mounting support (5) at the bottom, and the stone angle adjustable material table can be detachably mounted, moved and replaced for alternative use.