CN218363884U - Stable and efficient aluminum row lifting type crystal facet machine - Google Patents

Abstract

The utility model relates to a quartzy facet machine technical field especially relates to a quartzy facet machine of steady high-efficient aluminium row over-and-under type. It mainly does not have stabilizing mean to keep its stable problem in position after the aluminium row goes up and down, proposes following technical scheme: including quick-witted case and aluminium row, quick-witted case upper end intermediate position rotates and is connected with the drive pivot, the fixed mill of drive pivot upper end fixedly connected with, the equal fixedly connected with guide bar in quick-witted case upper end four corners, sliding connection has the bottom plate on the guide bar, and be located the equal fixedly connected with extension spring in the gag lever post outside between bottom plate and the quick-witted case, and bottom plate upper end four corners passes through carriage fixedly connected with crane. The utility model discloses in utilizing stabilizing mean's inserted block to peg graft the constant head tank on the guide bar, can be with the rigidity of bottom plate to in quartzy course of working, carry out the rigidity to the aluminium row, finally can make the quartzy remain stable processing of fixing on the aluminium row, improved the precision of arranging the processing to the aluminium.

Description

Stable and efficient aluminum row lifting type crystal facet machine

Technical Field

The utility model relates to a quartzy facet machine technical field especially relates to a quartzy facet machine of steady high-efficient aluminium row over-and-under type.

Background

The crystal faceting machine is a device for processing the surface of the crystal, wherein the crystal is fixed on a fixing piece of an aluminum row, and a driving device in a case is utilized to drive a fixed grinding disc to rotate, so that the surface of the crystal is contacted with the grinding disc, and the surface of the crystal is processed.

According to the investigation, a full-automatic aluminum bar lifting crystal faceting machine with the publication number of "CN201002202" is mainly to arrange a crystal clamping mechanism (aluminum bar) and a grinding surface adjusting mechanism on two opposite wall plates, the wall plates are vertically and slidably connected with a bracket, and guide wheels are arranged on the wall plates and are in rolling contact with inclined irons arranged on guide rods, so that the guide rods are pushed by a driving mechanism to move, thereby achieving the purpose of automatically controlling the lifting of the aluminum bar.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a quartzy faceting machine of steady high-efficient aluminium row over-and-under type to the problem that exists among the background art.

The technical scheme of the utility model: the utility model provides a quartzy faceting machine of steady high-efficient aluminium row over-and-under type, includes quick-witted case and aluminium row, machine case upper end intermediate position rotates and is connected with the drive pivot, quick-witted incasement install and to drive pivot pivoted drive device, the fixed mill of drive pivot upper end fixedly connected with, the equal fixedly connected with guide bar in quick-witted case upper end four corners, sliding connection has the bottom plate on the guide bar, just be located the equal fixedly connected with extension spring in the gag lever post outside between bottom plate and the quick-witted case, bottom plate upper end four corners passes through carriage fixedly connected with crane, fixedly connected with mount between the crane, aluminium row fixed connection just is located fixed mill top on the mount, the guide bar passes and is provided with stabilizing mean in carriage and the carriage, be provided with elevating system between bottom plate and the quick-witted case.

Preferably, the lifting mechanism comprises guide wheels and oblique blocks, the guide wheels are installed at the lower end of the bottom plate and distributed in a rectangular array, the oblique blocks are slidably connected to the position, corresponding to the guide wheels, of the case, linkage blocks are fixedly connected to the bottoms of the oblique blocks and slidably connected to the bottoms of the linkage blocks in the case, and the inclined planes at the upper ends of the oblique blocks are abutted to the bottoms of the guide wheels.

Preferably, a bidirectional screw rod is rotatably connected to the position, corresponding to the linkage block on the same side, in the case, and the bidirectional screw rod penetrates through the linkage block and is in threaded connection with the linkage block.

Preferably, a servo motor is installed in the case and at a position corresponding to the bidirectional screw rod, and an output end of the servo motor is fixedly connected to the bidirectional screw rod.

Preferably, the stabilizing mechanism comprises a positioning groove and a sliding plate, the positioning groove is uniformly formed in the outer side of the guide rod, the sliding plate is connected to the inner wall of the bottom of the connecting frame in a sliding mode, a groove is formed in one end, close to the limiting rod, of the sliding plate, and an inserting block is fixedly connected to the inner side wall of the groove.

Preferably, a telescopic cylinder is installed on the inner side wall of the connecting frame, a connecting rotating rod is arranged between the telescopic cylinder and the sliding plate, and two ends of the connecting rotating rod are respectively hinged to the output end of the telescopic cylinder and the sliding plate.

Preferably, one end of the sliding plate, which is far away from the limiting rod, is provided with a limiting groove, the side wall of the connecting frame is fixedly connected with the limiting rod at a position corresponding to the limiting groove, and the end part of the limiting rod is slidably connected in the limiting groove.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the utility model discloses in utilizing stabilizing mean's inserted block to peg graft the constant head tank on the guide bar, can be with the rigidity of bottom plate to in quartzy course of working, carry out the rigidity to the aluminium row, finally can make the quartzy remain stable processing of fixing on the aluminium row, improved the precision of arranging the processing to the aluminium.

Drawings

FIG. 1 is a front partial sectional structure of the present invention;

FIG. 2 is a schematic view of the appearance structure of the connection between the swash block and the two-way screw rod of the present invention;

fig. 3 is a schematic view of the appearance structure of the sliding plate of the present invention;

fig. 4 is a schematic view of the bottom plate of the present invention.

Reference numerals: 1. a chassis; 2. driving the rotating shaft; 3. fixing the grinding disc; 4. aluminum bars; 5. a fixed mount; 6. a lifting frame; 7. a guide bar; 8. a stabilizing mechanism; 81. positioning a groove; 82. a sliding plate; 83. inserting a block; 84. a telescopic cylinder; 85. connecting the rotating rod; 9. a lifting mechanism; 91. a guide wheel; 92. a sloping block; 93. a linkage block; 94. a bidirectional screw rod; 10. a connecting frame; 11. a base plate.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-4, the utility model provides a quartzy faceting machine of steady high-efficient aluminium row over-and-under type, including quick-witted case 1 and aluminium row 4, quick-witted case 1 upper end intermediate position rotates and is connected with drive pivot 2, drive pivot 2 upper end fixedly connected with fixed mill 3, the equal fixedly connected with guide bar 7 in quick-witted case 1 upper end four corners, sliding connection has bottom plate 11 on the guide bar 7, between bottom plate 11 and the quick-witted case 1 and be located the equal fixedly connected with extension spring in the gag lever post outside, bottom plate 11 upper end four corners is through carriage 10 fixedly connected with crane 6, fixedly connected with mount 5 between the crane 6, aluminium row 4 fixed connection just is located fixed mill 3 top on the mount 5, guide bar 7 passes and is provided with stabilizing mean 8 in carriage 10 and the carriage 10, be provided with elevating system 9 between bottom plate 11 and the quick-witted case 1, at first connect the external power supply with whole device, then fix on the mounting of quick-witted case 1 below, and make its surface and fixed mill 3 contact, utilize the rotation of drive pivot 2, drive fixed mill 3 to rotate, make fixed mill 3 can process quartzy surface.

The lifting mechanism 9 comprises guide wheels 91 and oblique blocks 92, the guide wheels 91 are installed at the lower end of the bottom plate 11 and are distributed in a rectangular array, oblique blocks 92 are slidably connected to positions, corresponding to the guide wheels 91, on the case 1, linkage blocks 93 are fixedly connected to the bottoms of the oblique blocks 92, the linkage blocks 93 are slidably connected to the inside of the case 1, the upper end inclined planes of the oblique blocks 92 abut against the bottoms of the guide wheels 91, bidirectional lead screws 94 are rotatably connected to positions, corresponding to the linkage blocks 93, in the case 1, the bidirectional lead screws 94 penetrate through the linkage blocks 93 and are in threaded connection with the linkage blocks 93, servo motors are installed in the case 1 and correspond to the bidirectional lead screws 94, output ends of the servo motors are fixedly connected to the bidirectional lead screws 94, when one ground surface is machined to be changed, and when the aluminum row 4 needs to be lifted, the output ends of the servo motors in the case 1 drive the bidirectional lead screws 94 to rotate, so that the linkage blocks 93 and the oblique blocks 92 slide above the case 1, and the crystal guide wheels are driven to lift the aluminum row 4.

Stabilizing mean 8 includes constant head tank 81 and sliding plate 82, the constant head tank 81 evenly sets up in the 7 outsides of guide bar, sliding plate 82 sliding connection is at the 10 bottom inner walls of connecting frame, the sliding plate 82 is close to gag lever post one end and sets up flutedly, recess inside wall fixedly connected with inserted block 83, telescopic cylinder 84 is installed to the 10 inside walls of connecting frame, be provided with between telescopic cylinder 84 and the sliding plate 82 and be connected bull stick 85, connect bull stick 85 both ends and articulate respectively on telescopic cylinder 84 output and sliding plate 82, the gag lever post one end has been kept away from to sliding plate 82 and has been seted up the spacing groove, connecting frame 10 lateral walls just with the corresponding position fixedly connected with gag lever post in spacing groove, gag lever post tip sliding connection is in the spacing groove.

In this embodiment, go up and down to the assigned height at aluminium row 4, perhaps after quartzy end bottom and fixed mill 3 contact mutually, can open telescoping cylinder 84, make telescoping cylinder 84 output downstream, make to articulate the connecting bull stick 85 between telescoping cylinder 84 output and sliding plate 82 and rotate, thereby drive sliding plate 82 and slide, finally make inserted block 83 peg graft in corresponding constant head tank 81, make linking frame 10 unable slide on guide bar 7, finally can be with 4 rigidity of aluminium row, fixed mill 3 is in rotating the course of working, the position that keeps aluminium row 4 is stable, thereby realize the stable processing to quartzy.

The above embodiments are merely some preferred embodiments of the present invention, and those skilled in the art can make various alternative modifications and combinations to the above embodiments based on the technical solution of the present invention and the related teachings of the above embodiments.

Claims (7)

1. The utility model provides a quartzy faceting machine of steady high-efficient aluminium row over-and-under type, includes quick-witted case (1) and aluminium row (4), quick-witted case (1) upper end intermediate position rotates and is connected with drive pivot (2), the fixed mill (3) of drive pivot (2) upper end fixedly connected with, its characterized in that: equal fixedly connected with guide bar (7) in quick-witted case (1) upper end four corners, sliding connection has bottom plate (11) on guide bar (7), just be located the equal fixedly connected with extension spring in the gag lever post outside between bottom plate (11) and quick-witted case (1), connecting frame (10) fixedly connected with crane (6) are passed through in bottom plate (11) upper end four corners, fixedly connected with mount (5) between crane (6), aluminium row (4) fixed connection just is located fixed mill (3) top on mount (5), guide bar (7) are passed and are provided with stabilizing mean (8) in connecting frame (10) and connecting frame (10), be provided with elevating system (9) between bottom plate (11) and quick-witted case (1).

2. The stable and efficient aluminum bar lifting type crystal faceting machine as claimed in claim 1, wherein the lifting mechanism (9) comprises guide wheels (91) and inclined blocks (92), the guide wheels (91) are mounted at the lower end of the bottom plate (11) and distributed in a rectangular array, the inclined blocks (92) are slidably connected to the positions, corresponding to the guide wheels (91), on the machine case (1), linkage blocks (93) are fixedly connected to the bottoms of the inclined blocks (92), the linkage blocks (93) are slidably connected in the machine case (1), and the inclined planes at the upper ends of the inclined blocks (92) are abutted to the bottoms of the guide wheels (91).

3. The stable and efficient aluminum row lifting type crystal faceting machine as claimed in claim 2, wherein a bidirectional screw rod (94) is rotatably connected to a position in the case (1) corresponding to the linkage block (93) on the same side, and the bidirectional screw rod (94) penetrates through the linkage block (93) and is in threaded connection with the linkage block (93).

4. The stable and efficient aluminum row lifting type crystal faceting machine as claimed in claim 3, wherein a servo motor is installed in the machine box (1) and at a position corresponding to the bidirectional screw rod (94), and an output end of the servo motor is fixedly connected to the bidirectional screw rod (94).

5. The stable and efficient aluminum row lifting type crystal faceting machine as claimed in claim 1, wherein the stabilizing mechanism (8) comprises a positioning groove (81) and a sliding plate (82), the positioning groove (81) is uniformly formed in the outer side of the guide rod (7), the sliding plate (82) is slidably connected to the inner wall of the bottom of the connecting frame (10), a groove is formed in one end, close to the limiting rod, of the sliding plate (82), and an inserting block (83) is fixedly connected to the inner wall of the groove.

6. The stable and efficient aluminum row lifting type crystal faceting machine as claimed in claim 5, wherein a telescopic cylinder (84) is installed on the inner side wall of the connecting frame (10), a connecting rotating rod (85) is arranged between the telescopic cylinder (84) and the sliding plate (82), and two ends of the connecting rotating rod (85) are respectively hinged to the output end of the telescopic cylinder (84) and the sliding plate (82).

7. The stable and efficient aluminum row lifting type crystal faceting machine as claimed in claim 5, wherein a limiting groove is formed at one end of the sliding plate (82) far away from the limiting rod, the limiting rod is fixedly connected to the side wall of the connecting frame (10) and the position corresponding to the limiting groove, and the end of the limiting rod is slidably connected in the limiting groove.

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