CN112976901A

CN112976901A - Horizontal processing equipment for stone

Info

Publication number: CN112976901A
Application number: CN202110188090.1A
Authority: CN
Inventors: 王兆广
Original assignee: Ningbo Huiji Stone Industry Co ltd
Current assignee: Ningbo Huiji Stone Industry Co ltd
Priority date: 2021-02-18
Filing date: 2021-02-18
Publication date: 2021-06-18

Abstract

The invention relates to horizontal stone processing equipment which comprises a bedplate, two end plates and two joists, wherein the two end plates are respectively fixed at the left end and the right end of the bedplate; the support frame is fixed on the top of the supporting plate, the back plate is vertically arranged on the front side of the support frame, the engraving machine is fixed on the front side of the back plate, the second supporting table and the first supporting table are respectively fixed on the left side and the right side of the top of the bedplate, and the driving assembly and the jacking assembly are respectively arranged on the second supporting table and the first supporting table and are matched with each other; the invention can automatically carve the surface of the stone pillar to reduce the labor intensity and improve the operation efficiency, and simultaneously greatly improve the carving precision, and in addition, the close-range dust contact of operators is effectively avoided, thereby thoroughly preventing the human health from being harmed.

Description

Horizontal processing equipment for stone

Technical Field

The invention relates to a horizontal stone processing device.

Background

The stone material is as a high-grade architectural decoration material wide application in indoor outer decoration design, curtain is decorated and the public facilities construction, the stone pillar is one of the stone material, there are circular, square, toper etc. stone pillar surface is carved with the texture in order to promote aesthetic measure mostly, current stone pillar surface is accomplished by artifical handheld engraver, intensity of labour is big, operating efficiency and sculpture precision are all lower, operating personnel closely contacts the dust moreover, very easily harm the health, urgent need to wait for the solution.

Disclosure of Invention

In view of the current situation of the prior art, the technical problem to be solved by the invention is to provide a stone horizontal processing device which can automatically carve the surface of a stone pillar to reduce labor intensity and improve operation efficiency, and meanwhile, greatly improve carving precision and thoroughly prevent human health from being harmed.

The technical scheme adopted by the invention for solving the technical problems is as follows: a horizontal stone processing device comprises a bedplate, two end plates fixed at the left end and the right end of the bedplate respectively, and two joists which are transversely and symmetrically fixed at the front side and the rear side of the bedplate and arranged in parallel, wherein the left end and the right end of each joists are fixed on the two end plates respectively, the horizontal stone processing device is characterized by further comprising a supporting plate, a support frame, a back plate, an engraving machine, a first saddle, a second saddle, a jacking assembly and a driving assembly, wherein the support frame is fixed above the transverse bedplate of the supporting plate, the support frame is fixed at the top of the supporting plate, the back plate is vertically arranged at the front side of the support frame, the engraving machine is fixed at the front side of the back plate, the second saddle and the first saddle are respectively fixed at the left side and the right side of the top of the bedplate, and the driving assembly and; a first transverse moving component is arranged between the supporting plate and the bedplate, a second transverse moving component is arranged between the supporting frame and the supporting plate, a lifting assembly is further arranged between the back plate and the support frame, the first transverse moving assembly comprises a first motor, a first lead screw, a first internal thread block, a connecting plate, a first seat block, a side plate, a first guide rail, a first sliding block and a connecting plate, the connecting plate is transversely arranged below the two joists, the first internal thread block is fixed at the top of the connecting plate and arranged below the two joists, the first lead screw is transversely inserted and screwed in the first internal thread block and is arranged between the two joists, the two connecting plates are fixed between the bottoms of the two joists and are symmetrically arranged at the left side and the right side of the connecting plate, the two first seat blocks are respectively fixed at the tops of the two connecting plates; the left end and the right end of the first lead screw are respectively rotatably inserted into the two first seat blocks, the first motor is fixed on the outer side of one end plate on the left side, a rotating shaft of the first motor transversely penetrates through one end plate on the left side rightwards and is connected with the left end of the first lead screw, the first guide rails comprise two guide rails, the two first guide rails are respectively transversely fixed on the outer sides of the two joist beams and are symmetrically arranged in parallel in the front-back direction, the two side plates are respectively arranged on the outer sides of the two first guide rails, the lower sides of the two side plates are respectively fixed on the connecting plate, and each first guide rail is further sleeved with a plurality of first sliding blocks; the outer side of each first sliding block on the front side is fixed on the inner side of one side plate on the front side, and the outer side of each first sliding block on the rear side is fixed on the inner side of one side plate on the rear side.

Preferably, the second traverse moving assembly comprises a second motor, a second lead screw, two second inner thread blocks, second seat blocks, second guide rails and two second sliding blocks, the two second guide rails are transversely fixed at the top of the supporting plate and are arranged in parallel in a bilateral symmetry manner, the second inner thread blocks are fixed at the bottom of the supporting frame and are arranged between the two second guide rails, each second guide rail is further sleeved with a plurality of second sliding blocks, the top of each second sliding block is fixed at the bottom of the supporting frame, the second lead screw is transversely inserted and screwed into the second inner thread blocks, the two second seat blocks are fixed at the top of the supporting plate and are respectively arranged at the front side and the rear side of the second lead screw, and the front end and the rear end of the second lead screw are respectively rotatably inserted and connected into the two second seat blocks; the second motor is fixed on the rear side of the supporting plate, and a rotating shaft of the second motor is transversely arranged forwards and is connected with the rear end of the second lead screw.

Preferably, the lifting assembly comprises a third motor, a third lead screw, a third internal thread block, a third seat block, a third guide rail and a third slide block; the third motor is fixed at the top of the support frame, the third guide rails comprise two third guide rails which are vertically fixed at the front side of the support frame and are arranged in a bilateral symmetry mode, the third internal thread block is fixed at the rear side of the back plate and is arranged between the two third guide rails, the third lead screw is vertically inserted into the third internal thread block in a threaded mode, each third guide rail is further provided with a plurality of third sliding blocks in a sleeved mode, each third sliding block is fixed at the rear side of the back plate at the front side, the third seat blocks comprise two third seat blocks, the third seat blocks are fixed at the front side of the support frame and are respectively arranged on the upper side and the lower side of the third lead screw, the upper end and the lower end of the third lead screw are respectively inserted into the two third seat blocks in a threaded mode, and the rotating shaft of the third motor vertically penetrates through the top of the support frame downwards and is connected with the upper end of the.

Preferably, the jacking assembly comprises a box body, a screw rod, a conical head, a hand wheel and a knob screw; the box body is fixed on the top of the first supporting table, the screw rod is transversely inserted and screwed in the box body, the conical head is concentrically fixed at the left end of the screw rod, the hand wheel is concentrically fixed at the right end of the screw rod, the knob screw is inserted and screwed outside the box body, and the threaded end of the knob screw is tightly propped outside the screw rod.

Preferably, the driving assembly comprises a shaft rod, a fourth motor, a chuck, a belt, a first belt wheel and a second belt wheel, the shaft rod is transversely and rotatably inserted into the top of the second saddle and concentrically arranged with the screw rod, the chuck is concentrically fixed at the right end of the shaft rod, the first belt wheel is sleeved and fixed on the screw rod and arranged in the second saddle, the fourth motor is fixed on the right side of the second saddle, the rotating shaft of the fourth motor is transversely inserted into the second saddle leftwards, the second belt wheel is sleeved and fixed on the rotating shaft of the fourth motor and arranged below the first belt wheel, and the belt is sleeved on the first belt wheel and the second belt wheel.

Compared with the prior art, the invention has the advantages that: the invention can automatically carve the surface of the stone pillar to reduce the labor intensity and improve the operation efficiency, and simultaneously greatly improve the carving precision, and in addition, the close-range dust contact of operators is effectively avoided, thereby thoroughly preventing the human health from being harmed.

Drawings

FIG. 1 is a left front side block diagram of the present invention;

FIG. 2 is a rear right side structural view of the present invention;

FIG. 3 is a block diagram of a first traverse assembly of the present invention;

fig. 4 is a structural view of the lifting assembly of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, a detailed description of known functions and known components of the invention have been omitted.

As shown in fig. 1 to 4, a horizontal stone processing device comprises a bedplate 1, two end plates 2 fixed at the left and right ends of the bedplate 1, and two joists 14 transversely and symmetrically fixed at the front and rear sides of the bedplate 1 and arranged in parallel, wherein the left and right ends of each joist 14 are fixed on the two end plates 2; the support frame 4 is fixed on the top of the support plate 3, the back plate 5 is vertically arranged on the front side of the support frame 4, the engraving machine 6 is fixed on the front side of the back plate 5, the second support table 8 and the first support table 7 are respectively fixed on the left side and the right side of the top of the bedplate 1, and the driving component 13 and the jacking component 12 are respectively arranged on the second support table 8 and the first support table 7 and are matched with each other; a first traverse component 9 is arranged between the supporting plate 3 and the bedplate 1, a second traverse component 10 is arranged between the support frame 4 and the supporting plate 3, a lifting component 11 is arranged between the back plate 5 and the support frame 4, the first traverse component 9 comprises a first motor 95, a first lead screw 96, a first internal thread block 97 and a connecting plate 98, the connecting plate 92 is transversely arranged below the two joists 14, the first inner thread block 97 is fixed at the top of the connecting plate 92 and arranged below the two joists 14, the first lead screw 96 is transversely threaded in the first inner thread block 97 and is arranged between the two joists 14, the connecting plates 98 comprise two, the two connecting plates 98 are fixed between the bottoms of the two joists 14 and are symmetrically arranged at the left side and the right side of the connecting plate 92, the first seat blocks 99 comprise two, and the two first seat blocks 99 are respectively fixed at the tops of the two connecting plates 98; the left end and the right end of a first lead screw 96 are respectively rotatably inserted into two first seat blocks 99, a first motor 95 is fixed on the outer side of one left end plate 2, a rotating shaft of the first motor 95 transversely penetrates through the left end plate 2 rightwards and is connected with the left end of the first lead screw 96, the number of first guide rails 94 is two, the two first guide rails 94 are respectively transversely fixed on the outer sides of the two joists 14 and are symmetrically arranged in parallel in a front-back manner, the number of side plates 91 is two, the two side plates 91 are respectively arranged on the outer sides of the two first guide rails 94, the lower sides of the two side plates 91 are respectively fixed on a connecting plate 92, and a plurality of first sliding blocks 93 are further sleeved on each first guide rail 94; the outer side of each first slider 93 on the front side is fixed to the inner side of one side plate 91 on the front side, and the outer side of each first slider 93 on the rear side is fixed to the inner side of one side plate 91 on the rear side.

The second traverse moving assembly 10 comprises a second motor 101, a second lead screw 104, second inner thread blocks 105, second seat blocks 106, second guide rails 107 and second sliders 103, the second guide rails 107 comprise two second guide rails 107, the two second guide rails 107 are transversely fixed on the top of the supporting plate 3 and are arranged in parallel in a bilateral symmetry manner, the second inner thread blocks 105 are fixed on the bottom of the supporting frame 4 and between the two second guide rails 107, each second guide rail 107 is also sleeved with a plurality of second sliders 103, the top of each second slider 103 is fixed on the bottom of the supporting frame 4, the second lead screw 104 is transversely inserted and screwed into the second inner thread blocks 105, the second seat blocks 106 comprise two second seat blocks 106, the two second seat blocks 106 are fixed on the top of the supporting plate 3 and are respectively arranged on the front side and the rear side of the second lead screw 104, and the front end and rear end of the second lead screw 104 are respectively rotatably inserted and connected into the two second seat blocks 106; the second motor 101 is fixed on the rear side of the pallet 3, and the rotating shaft of the second motor 101 is arranged laterally forward and connected with the rear end of the second lead screw 104.

The lifting assembly 11 comprises a third motor 111, a third lead screw 112, a third internal thread block 116, a third seat block 113, a third guide rail 114 and a third slide block 115; the third motor 111 is fixed at the top of the strut 4, the third guide rails 114 include two, two third guide rails 114 are vertically fixed at the front side of the strut 4 and are arranged in bilateral symmetry, a third internal thread block 116 is fixed at the rear side of the back plate 5 and is arranged between the two third guide rails 114, a third lead screw 112 is vertically inserted and screwed in the third internal thread block 116, each third guide rail 114 is further sleeved with a plurality of third sliding blocks 115, the front side of each third sliding block 115 is fixed at the rear side of the back plate 5, the third seat blocks 113 include two, the two third seat blocks 113 are fixed at the front side of the strut 4 and are respectively arranged at the upper side and the lower side of the third lead screw 112, the upper end and the lower end of the third lead screw 112 are respectively inserted and screwed in the two third seat blocks 113, and the rotating shaft of the third motor 111 vertically penetrates through the top of the strut 4 downwards and is connected with the upper end of the third lead screw.

The jacking assembly 12 comprises a box body 121, a screw 122, a conical head 123, a hand wheel 124 and a knob screw 125; the box body 121 is fixed on the top of the first saddle 7, the screw rod 122 is transversely inserted and screwed in the box body 121, the conical head 123 is concentrically fixed on the left end of the screw rod 122, the hand wheel 124 is concentrically fixed on the right end of the screw rod 122, the knob screw 125 is inserted and screwed outside the box body 121, and the threaded end of the knob screw 125 is tightly pressed outside the screw rod 122.

Drive assembly 13 includes axostylus axostyle 131, fourth motor 132, chuck 133, belt 134, first band pulley 136 and second band pulley 135, axostylus axostyle 131 transversely and rotatable interlude sets up at second saddle 8 top and with screw rod 122 concentric setting, chuck 133 fixes the right-hand member at axostylus axostyle 131 concentrically, first band pulley 136 cover is established and is fixed on screw rod 122 and locate in the second saddle 8, fourth motor 132 is fixed on the right side of second saddle 8, the axis of rotation of fourth motor 132 is horizontal inside inserting second saddle 8 left, second band pulley 135 cover is established and is fixed in the axis of rotation of fourth motor 132 and locate the below of first band pulley 136, belt 134 cover is established on first band pulley 136 and second band pulley 135.

The working principle is as follows: the stone pillar 15 is transversely arranged between the chuck 133 and the conical head 123, the left end of the stone pillar 15 is inserted into the chuck 133 and fixed by the chuck 133, the hand wheel 124 is held by hand and rotated, the conical head 123 is driven by the screw rod 122 to move leftwards to tightly push the right end of the stone pillar 15, so that the stone pillar 15 is fixed, and finally the knob screw 125 is screwed to prevent the screw rod 122 from loosening.

The first motor 95 is started to rotate the rotating shaft of the first motor, so that the first lead screw 96 is driven to rotate in the first internal thread block 97, the connecting plate 92 and the two side plates 91 are driven to move left and right according to the principle of threaded connection, the engraving machine 6 is driven to move left and right by means of the supporting plate 3, and when the two side plates 91 move, the first sliding block 93 on each side plate 91 can slide along the corresponding first guide rail 94 to ensure the smoothness of the movement of the supporting plate 3.

The second motor 101 is started to rotate the rotating shaft of the second motor, so that the second lead screw 104 is driven to rotate in the second internal thread block 105, the support frame 4 is driven to move back and forth according to the principle of threaded connection, the back plate 5 is used for driving the engraving machine 6 to move back and forth, and when the support frame 4 moves, each second sliding block 103 fixed at the bottom of the support frame 4 can slide back and forth along a corresponding second guide rail 107 to ensure the smoothness of the movement of the support frame 4.

The third motor 111 is started to rotate the output end of the third motor, and then the third screw rod 112 is driven to rotate in the third internal thread block 116, so as to drive the back plate 5 to move up and down to drive the engraving machine 6 to move up and down, and when the back plate 5 moves, each third sliding block 11 fixed on the rear side of the back plate 5 can slide up and down along a corresponding third guide rail 114 to ensure the smoothness of the movement of the back plate 5.

The fourth motor 132 is started to rotate the rotating shaft thereof, and the shaft 131 is further driven to rotate by the second belt pulley 135, the belt 134 and the first belt pulley 136, so that the stone pillar 15 is driven to rotate by the chuck 133, and then the front, rear, left, right, up and down positions of the engraving machine 6 can be adjusted to adjust the position of the engraving head fixed on the rotating shaft of the engraving machine 6, and finally the engraving head engraves a pattern on the surface of the stone pillar 15.

The invention can automatically carve the surface of the stone pillar to reduce the labor intensity and improve the operation efficiency, and simultaneously greatly improve the carving precision, and in addition, the close-range dust contact of operators is effectively avoided, thereby thoroughly preventing the human health from being harmed.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A horizontal stone processing device comprises a bedplate, two end plates fixed at the left end and the right end of the bedplate respectively, and two joists which are transversely and symmetrically fixed at the front side and the rear side of the bedplate and arranged in parallel, wherein the left end and the right end of each joists are fixed on the two end plates respectively, the horizontal stone processing device is characterized by further comprising a supporting plate, a support frame, a back plate, an engraving machine, a first saddle, a second saddle, a jacking assembly and a driving assembly, wherein the support frame is fixed above the transverse bedplate of the supporting plate, the support frame is fixed at the top of the supporting plate, the back plate is vertically arranged at the front side of the support frame, the engraving machine is fixed at the front side of the back plate, the second saddle and the first saddle are respectively fixed at the left side and the right side of the top of the bedplate, and the driving assembly and; a first transverse moving component is arranged between the supporting plate and the bedplate, a second transverse moving component is arranged between the supporting frame and the supporting plate, a lifting assembly is further arranged between the back plate and the support frame, the first transverse moving assembly comprises a first motor, a first lead screw, a first internal thread block, a connecting plate, a first seat block, a side plate, a first guide rail, a first sliding block and a connecting plate, the connecting plate is transversely arranged below the two joists, the first internal thread block is fixed at the top of the connecting plate and arranged below the two joists, the first lead screw is transversely inserted and screwed in the first internal thread block and is arranged between the two joists, the two connecting plates are fixed between the bottoms of the two joists and are symmetrically arranged at the left side and the right side of the connecting plate, the two first seat blocks are respectively fixed at the tops of the two connecting plates; the left end and the right end of the first lead screw are respectively rotatably inserted into the two first seat blocks, the first motor is fixed on the outer side of one end plate on the left side, a rotating shaft of the first motor transversely penetrates through one end plate on the left side rightwards and is connected with the left end of the first lead screw, the first guide rails comprise two guide rails, the two first guide rails are respectively transversely fixed on the outer sides of the two joist beams and are symmetrically arranged in parallel in the front-back direction, the two side plates are respectively arranged on the outer sides of the two first guide rails, the lower sides of the two side plates are respectively fixed on the connecting plate, and each first guide rail is further sleeved with a plurality of first sliding blocks; the outer side of each first sliding block on the front side is fixed on the inner side of one side plate on the front side, and the outer side of each first sliding block on the rear side is fixed on the inner side of one side plate on the rear side.

2. The horizontal stone processing apparatus as claimed in claim 1, wherein the second traverse assembly comprises a second motor, a second lead screw, a second internal thread block, a second seat block, a second guide rail and a second slide block, the two second guide rails are transversely fixed at the top of the supporting plate and are arranged in parallel in a bilateral symmetry manner, the second internal thread block is fixed at the bottom of the bracket and is arranged between the two second guide rails, each second guide rail is also sleeved with a plurality of second sliding blocks, the top of each second sliding block is fixed at the bottom of the bracket, the second screw rod is transversely inserted and screwed in the second internal thread blocks, the second seat blocks comprise two, the two second seat blocks are fixed at the top of the supporting plate and are respectively arranged at the front side and the rear side of the second screw rod, the front end and the rear end of the second lead screw are respectively and rotatably inserted into the two second seat blocks; the second motor is fixed on the rear side of the supporting plate, and a rotating shaft of the second motor is transversely arranged forwards and is connected with the rear end of the second lead screw.

3. The horizontal stone processing equipment as claimed in claim 2, wherein the lifting assembly comprises a third motor, a third lead screw, a third internally threaded block, a third seat block, a third guide rail and a third slide block; the third motor is fixed at the top of the support frame, the third guide rails comprise two third guide rails which are vertically fixed at the front side of the support frame and are arranged in a bilateral symmetry mode, the third internal thread block is fixed at the rear side of the back plate and is arranged between the two third guide rails, the third lead screw is vertically inserted into the third internal thread block in a threaded mode, each third guide rail is further provided with a plurality of third sliding blocks in a sleeved mode, each third sliding block is fixed at the rear side of the back plate at the front side, the third seat blocks comprise two third seat blocks, the third seat blocks are fixed at the front side of the support frame and are respectively arranged on the upper side and the lower side of the third lead screw, the upper end and the lower end of the third lead screw are respectively inserted into the two third seat blocks in a threaded mode, and the rotating shaft of the third motor vertically penetrates through the top of the support frame downwards and is connected with the upper end of the.

4. The horizontal stone processing equipment as claimed in claim 3, wherein the tightening assembly comprises a box body, a screw rod, a conical head, a hand wheel and a knob screw; the box body is fixed on the top of the first supporting table, the screw rod is transversely inserted and screwed in the box body, the conical head is concentrically fixed at the left end of the screw rod, the hand wheel is concentrically fixed at the right end of the screw rod, the knob screw is inserted and screwed outside the box body, and the threaded end of the knob screw is tightly propped outside the screw rod.

5. The horizontal stone processing equipment as claimed in claim 4, wherein the driving assembly comprises a shaft rod, a fourth motor, a chuck, a belt, a first belt pulley and a second belt pulley, the shaft rod is transversely and rotatably inserted into the top of the second saddle and concentrically arranged with the screw rod, the chuck is concentrically fixed at the right end of the shaft rod, the first belt pulley is sleeved and fixed on the screw rod and arranged in the second saddle, the fourth motor is fixed at the right side of the second saddle, a rotating shaft of the fourth motor is transversely inserted into the second saddle leftwards, the second belt pulley is sleeved and fixed on the rotating shaft of the fourth motor and arranged below the first belt pulley, and the belt is sleeved and arranged on the first belt pulley and the second belt pulley.