CN220179796U - Double-end cylinder profiling machine for stone - Google Patents

Abstract

The utility model discloses a double-head cylindrical profiling machine for stone, which structurally comprises a vertical frame, a machine head on the vertical frame and a cutter disc on the machine head, wherein a driving top and a movable top are fixed on a transverse frame, the movable frame is arranged between the driving top and the movable top and comprises a driving part and a liftable bracket, a control switch of the driving part of the movable frame is positioned close to the movable top.

Description

Double-end cylinder profiling machine for stone

Technical Field

The utility model relates to the field of stone machining, in particular to a double-head cylindrical profiling machine for stone.

Background

In the early stage of roman column machining, the roman column is usually clamped on a machine tool and then lathed by manually holding a cutter, and because the roman column is deeper in feeding, the cutter is generally longer and limited and is usually lathed by manually holding the cutter, stone profiling machines are proposed by Huian enterprises in the later development, the clamped square stone is subjected to grinding by a circular cutter disc, thereby the roman column profiling is carried out on the stone, and further, a double-head clamped profiling machine is provided, so that one cutter disc simultaneously carries out grinding on two square stones, and the machining time is greatly shortened.

However, after the time is shortened, the feeding and discharging steps are also quickened, and the existing double-head profiling machine needs two to three persons to carry out during feeding and discharging, including feeding and carrying, feeding and carrying and clamping, and no separate rack or other fixing structure is used for supporting stones in advance during feeding and carrying, so that one worker is required to hold the stones at the clamping position, and then the other worker drives the chuck to tightly jack the stones, so that the labor input is large, the labor is consumed, and inconvenience is caused to use.

Disclosure of Invention

The utility model provides a double-head cylindrical profiling machine for stone, which structurally comprises a vertical frame arranged on a transverse frame, a machine head arranged on the vertical frame and a cutter head arranged on the machine head, wherein a driving top and a movable top are fixedly arranged on the transverse frame, a movable frame is arranged on the transverse frame between the driving top and the movable top, the movable frame comprises a driving part and a lifting bracket, and a control switch of the driving part of the movable frame is positioned at a position close to the movable top.

Further, the movable frame comprises an upper supporting plate and a bottom supporting plate which are connected through a connecting rod, the bracket is fixedly arranged on the upper supporting plate, and the bottom supporting plate is detachably arranged on the transverse frame.

Further, the connecting rod between the upper supporting plate and the bottom supporting plate is in cross connection, one end of the connecting rod in a cross state is respectively connected with the upper supporting plate and the bottom supporting plate in a hinged mode, and the other end of the connecting rod is respectively connected with the upper supporting plate and the bottom supporting plate in a sliding mode.

Further, the movable frame also comprises a pushing piece, and a movable arm of the pushing piece is connected with one end of the connecting rod in a sliding connection mode.

Further, two chucks used for propping up the workpiece are respectively arranged on the driving top and the movable top, and two movable frames are arranged between the driving top and the movable top and correspond to stations between the driving top and the movable top in position.

Further, the lowest height of the top end of the movable frame is lower than the lowest height of a rotating body formed by a workpiece clamped between the driving plug and the movable plug.

Further, the maximum distance between one end of the connecting rod which is in sliding connection with the upper supporting plate and the edge of the upper supporting plate is equal to the distance between the other end of the connecting rod which is in hinged connection with the upper supporting plate and the edge of the upper supporting plate.

Further, the top end of the bracket is provided with a plurality of pulleys, the pulleys are arranged on two sides of the bracket, and the axes of the pulleys are not perpendicular to the surface of the workpiece contacted with the bracket.

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

according to the utility model, the movable frame is arranged on the transverse frame between the driving top and the movable top, square bar stones are lifted onto the bracket when in use, then the switch of the control cylinder pushing piece is pressed down at the movable top, so that the upper supporting plate is jacked up to drive the bracket carrying the square bar stones to ascend, when the square bar stones reach a designated position, the movable top is rotated to drive the pointed end to prop against one end of the square bar stones, then the square bar stones are continuously driven to move on the pulley in the direction of the driving top until the other end of the square bar stones is also propped against the chuck of the driving top, and then the upper supporting plate is driven to descend and leave the rotation range of the square bar stones by the switch control cylinder pushing piece, so that feeding and discharging operations and clamping operations can be performed by one person, the square bar stones are not required to be always supported, and the physical investment is reduced.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a double-ended cylindrical profiling machine for stone materials.

Fig. 2 is a schematic diagram of the working state of the movable frame installed on the profiling machine of the present utility model.

Fig. 3 is a schematic side view of the movable frame of the present utility model.

Fig. 4 is a schematic three-dimensional structure of one embodiment of the bracket of the present utility model.

In the figure: 1. a vertical frame; 2. a cross frame; 3. a machine head; 4. driving the plug; 5. a movable plug; 6. a movable frame; 61. a bracket; 62. an upper supporting plate; 63. a bottom support plate; 64. a connecting rod; 65. a pushing member; 61a, pulleys.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings.

Examples: as shown in fig. 1-4, the utility model provides a double-head cylindrical profiling machine for stone, which structurally comprises a vertical frame 1 arranged on a transverse frame 2, a machine head 3 arranged on the vertical frame 1 and a cutter head arranged on the machine head 3, wherein a driving top head 4 and a movable top head 5 are fixedly arranged on the transverse frame 2, a motor is arranged at the driving top head 4 for driving a chuck to rotate, a tip capable of moving along the axial direction is arranged at the movable top head 5 for clamping a workpiece in a matched manner with the chuck, and a control cabinet is arranged on the whole profiling machine in the aspect of electric control on the basis, and the driving top head 4 and the machine head 3 are allocated through the control cabinet.

Wherein, the movable frame 6 is installed on the transverse frame 2 between the driving top 4 and the movable top 5, the movable frame 6 comprises a driving part and a liftable bracket 61, a control switch of the driving part of the movable frame 6 is positioned at a position close to the movable top 5, so that a user can control the movable frame 6 nearby when controlling the movable top 5, for the driving part, the bracket 61 is mainly controlled to achieve the lifting function of the bracket 61, specifically, the driving part of the movable frame 6 comprises an upper supporting plate 62 and a bottom supporting plate 63 which are connected by a connecting rod 64, the bracket 61 is fixedly installed on the upper supporting plate 62, and the bottom supporting plate 63 is detachably installed on the transverse frame 2.

In this embodiment, the double-end cylindrical profiling machine has two chucks, so that two workpieces can be clamped and machined simultaneously, and the two chucks for tightly jacking the workpieces are respectively arranged on the driving plug 4 and the movable plug 5, and the movable frame 6 is arranged between the driving plug 4 and the movable plug 5 and corresponds to a station between the driving plug 4 and the movable plug 5.

More specifically, the connecting rod 64 between the upper supporting plate 62 and the bottom supporting plate 63 is in cross connection, one end of the connecting rod 64 in the cross state is respectively hinged with the upper supporting plate 62 and the bottom supporting plate 63, the other end of the connecting rod 64 is respectively slidably connected with the upper supporting plate 62 and the bottom supporting plate 63, the movable frame 6 further comprises a pushing piece 65, a movable arm of the pushing piece 65 is connected with one end of the connecting rod 64 in sliding connection, and the sliding piece 65 drives one end of the connecting rod 64 to slide, so that the connecting rod 64 in the cross state performs scissor-like movement, and the upper supporting plate 62 is jacked up.

Alternatively, the pushing member 65 may be an electric push rod, an oil cylinder or an air cylinder, which is only required to have enough pushing force to achieve the push-pull function, in this embodiment, the air cylinder is used, and the control switch is installed at the side end of the movable plug 5.

The lowest height of the top end of the movable frame 6 is lower than the lowest height of the rotating body formed by the workpiece clamped between the driving plug 4 and the movable plug 5, interference with the movable frame 6 is avoided when the workpiece rotates, and furthermore, the maximum distance between one end of the connecting rod 64 which is in sliding connection with the upper supporting plate 62 and the edge of the upper supporting plate 62 is equal to the distance between the connecting rod 64 which is in hinged connection with the upper supporting plate 62 and the edge of the upper supporting plate 62 at the other end, so that the supporting range of the connecting rod 64 is ensured in the gradually reduced distance between the connecting rods 64.

In this embodiment, the top end of the bracket 61 is provided with a plurality of pulleys 61a, the pulleys 61a are mounted on both sides of the bracket 61, and the axis of the pulleys 61a is not perpendicular to the surface of the workpiece contacted by the bracket 61, thereby ensuring that the pulleys 61a are contacted with the workpiece through the working surface.

In the concrete implementation, a worker lifts the square stone on the bracket 61 of the movable frame 6, then walks to the movable top 5, presses the switch of the control cylinder pushing member 65, slides the slidable end of the control connecting rod 64, then drives the cross connecting rod 64 to do scissor-like motion, thereby jack up the upper supporting plate 62 to drive the bracket 61 carrying the square stone to lift, when the center of the square stone reaches the horizontal axis position between the driving top 4 and the movable top 5, rotates the movable top 5 to drive the tip to push against one end of the square stone, then continues to drive the square stone to move towards the driving top 4, the square stone slides on the pulley 61a, so that the user does not need to bear effort when controlling the tip of the movable top 5 to push against the square stone until the other end of the square stone is also pushed against the chuck of the driving top 4, then drives the upper supporting plate 62 to descend and leave the rotation range of the square stone through the switch control cylinder pushing member 65, thereby carrying out feeding and unloading operations by one person, and the clamping effort is not required to be reduced.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

Claims (8)

1. The utility model provides a double-end cylinder profiling machine for stone material, its structure is including installing the grudging post on the crossbearer, install the aircraft nose on the grudging post and install the blade disc on the aircraft nose, fixed mounting has drive top and movable top on the crossbearer, its characterized in that: the movable frame is arranged on the transverse frame between the driving top and the movable top and comprises a driving part and a liftable bracket, and a control switch of the driving part of the movable frame is positioned at a position close to the movable top.

2. The dual-head cylindrical profiling machine for stone materials according to claim 1, wherein: the movable frame comprises an upper supporting plate and a bottom supporting plate which are connected through a connecting rod, the bracket is fixedly arranged on the upper supporting plate, and the bottom supporting plate is detachably arranged on the transverse frame.

3. A dual-headed cylinder profiling machine for stone materials as defined in claim 2, wherein: the connecting rod between the upper supporting plate and the bottom supporting plate is in cross connection, one end of the connecting rod in a cross state is respectively hinged with the upper supporting plate and the bottom supporting plate, and the other end of the connecting rod is respectively in sliding connection with the upper supporting plate and the bottom supporting plate.

4. A dual-headed cylinder profiling machine for stone material as defined in claim 3, wherein: the movable frame also comprises a pushing piece, and a movable arm of the pushing piece is connected with one end of the connecting rod in a sliding connection mode.

5. A dual-headed cylinder profiling machine for stone materials as defined in claim 2, wherein: the driving top and the movable top are respectively provided with two chucks for propping up the workpiece, and the movable frame is provided with two chucks between the driving top and the movable top and corresponds to a station between the driving top and the movable top.

6. A dual-headed cylinder profiling machine for stone materials as defined in claim 2, wherein: the lowest height of the top end of the movable frame is lower than that of a rotating body formed by a workpiece clamped between the driving plug and the movable plug.

7. A dual-headed cylinder profiling machine for stone material as defined in claim 3, wherein: the maximum distance between one end of the connecting rod which is in sliding connection with the upper supporting plate and the edge of the upper supporting plate is equal to the distance between the other end of the connecting rod which is in hinged connection with the upper supporting plate and the edge of the upper supporting plate.

8. A dual-headed cylinder profiling machine for stone material as defined in claim 3, wherein: the top end of the bracket is provided with a plurality of pulleys, the pulleys are arranged on two sides of the bracket, and the axes of the pulleys are not perpendicular to the surface of the workpiece contacted with the bracket.