CN220051187U - Building stone chamfer processing equipment - Google Patents

Abstract

The building stone chamfering processing device comprises a frame and a base body movably arranged with the frame, wherein the base body is connected with a first motor for driving a grinding head to rotate, the moving track of the base body relative to the frame is arc-shaped, and the circle center of the arc-shaped moving track is positioned at one side close to a stone to be processed; the grinding head moves along with the seat body.

Description

Building stone chamfer processing equipment

Technical Field

The utility model relates to building stone chamfering processing equipment.

Background

The utility model provides a building stone chamfer processing equipment among the prior art includes a bistrique and drive bistrique pivoted motor, and the motor is the wobbling usually when processing the stone material, and the swing point of this motor is the tail end of motor or the middle part of motor, and no matter that the structure, the rotation point all is in the one side of keeping away from the processed stone material on the movable track line, consequently the distance between bistrique activity time and the stone material can change, and the part of the friction effect of bistrique also can change, and the variable is more can lead to the stone material uniformity of being processed poor afterwards, influences pleasing to the eye.

Disclosure of Invention

The utility model solves the defects existing in the prior art and provides building stone chamfering processing equipment with good processing effect.

The technical scheme adopted by the utility model is as follows: the building stone chamfering processing device comprises a frame and a base body movably arranged with the frame, wherein the base body is connected with a first motor for driving a grinding head to rotate, the moving track of the base body relative to the frame is arc-shaped, and the circle center of the arc-shaped moving track is positioned at one side close to a stone to be processed; the grinding head moves along with the seat body.

Wherein the central axis of the grinding head and the radius line of the arc-shaped movable track are in the same straight line.

The device also comprises a driving mechanism for driving the seat body to move.

The driving mechanism comprises an arc-shaped rack concentric with the arc-shaped movable track, the arc-shaped rack is connected with the frame, the seat body is provided with a gear which is rotationally arranged, the gear is driven by a second motor, the second motor is fixedly connected with the seat body, the gear is meshed with the arc-shaped rack, and the seat body is driven to move after the gear rotates.

The track mechanism is arranged between the frame and the seat body and enables the seat body to move along the arc-shaped moving track.

The track mechanism comprises an arc track concentric with the arc movable track, and pulleys which are respectively arranged on the upper side and the lower side of the arc track and are rotatably arranged, wherein the pulleys are tightly attached to the arc track; the arc-shaped track and the pulley are respectively arranged on the frame and the seat body.

The track mechanism comprises an arc-shaped groove concentric with the arc-shaped movable track and a pulley which is arranged in the arc-shaped groove and is rotationally arranged, and the pulley moves along the arc-shaped groove; the arc-shaped groove and the pulley are respectively arranged on the frame and the seat body.

The track mechanism comprises a rotating point which is rotatably connected between the frame and the seat body, and the rotating point is concentric with the circle center of the circular arc-shaped movable track.

The seat body comprises two side parts and a cross beam connected with the two side parts, and the first motor is connected with the cross beam; the two sides are respectively connected with a rotary gear, the number of arc racks corresponding to the gears is also two, and the two gears are connected through a transmission rod.

The seat body comprises two side parts and a cross beam connected with the two side parts, and the first motor is connected with the cross beam; the two track mechanisms are respectively arranged between the two side parts and the frame.

The first motor comprises a shell, a rotor arranged in the shell in a rotating way, two bearings and two bearings, wherein a cavity is formed in a rotating shaft of the rotor, the cavity is used for an output shaft to extend in, the output shaft is arranged in the cavity and is matched with the rotating shaft of the rotor in a concave-convex way, the output shaft and the rotating shaft of the rotor are movable in the axial direction and limited in the circumferential direction, the rotating shaft of the rotor rotates to drive the output shaft to rotate, the two bearings are respectively arranged at two ends of the rotating shaft, and the rotating shaft is connected with the shell in a rotating way through the bearings; the grinding head is connected with the output shaft.

Wherein, a channel is arranged in the output shaft, two ends of the channel are communicated, one end of the output shaft is connected with a rotary joint for water, the water is injected at one end of the output shaft through the rotary joint for water, and the water is discharged at the other end of the output shaft.

The driving mechanism comprises an air cylinder or an oil cylinder, and two ends of the air cylinder or the oil cylinder are respectively and rotatably connected with the seat body and the frame; or a transmission shaft rotationally connected with the base body, and the other end of the transmission shaft is eccentrically rotationally connected with the motor.

Compared with the prior art, the utility model has the beneficial effects that: the circle center of the circular arc movable track of the grinding head is positioned at the inner side, the consistency of the part of the dense head for grinding stone material contacted with the stone material is good when the grinding head moves, the stone material processing change caused by the change of the grinding head part is eliminated after the dense head moves, and the consistency of the processed stone material is good. When the stone is placed at the accurate position, the distance between the position movement of the grinding head and the stone cannot be changed, and the position of the grinding head cannot be changed, so that the standard circular arc shape can be processed.

Drawings

Fig. 1 is a schematic diagram of a prior art structure.

Fig. 2 is a schematic structural view of the present utility model.

Fig. 3 is a schematic view of another view of the present utility model.

Fig. 4 is a schematic structural view of a preferred embodiment of the first motor of the present utility model.

Detailed Description

The utility model is further illustrated by way of example with reference to the accompanying drawings.

As shown in fig. 2 and 4, the chamfering processing apparatus for building stone in this embodiment includes a frame 1 and a base 2 movably disposed with the frame 1, where the base 2 is connected to a first motor 31 for driving the grinding head 3 to rotate, the first motor 31 may be a motor in the prior art, and the moving track of the base 2 relative to the frame 1 is in a circular arc shape, and the center of the circular arc-shaped moving track is located at one side close to the stone to be processed; the grinding head 3 moves along with the seat body 2. The moving track of the seat body 2 in this embodiment is a circular arc line relative to the frame 1, and because the grinding head 3 is used for processing stone, the grinding head 3 is also positioned at one side close to the stone to be processed, and the moving track of the grinding head 3 under the structure is also an arc line with the circular arc moving track, the lines after chamfering processing on the stone without any problem are more uniform, the appearance is more consistent, and the installation is beautiful. As a preferred embodiment, the central axis of the grinding head 3 is in the same line with the radius line of the circular arc-shaped movable track. The grinding head 3 in the structure is also positioned on the radius line, so that the radian of the chamfer machined by the grinding head 3 along the radius line, which is close to and far away from the stone, is the same, and the operation and adjustment during use are convenient. The stone material in the utility model comprises cement products and natural stone materials.

In this embodiment, preferably, the device further includes a driving mechanism 4 for driving the seat 2 to move.

Preferably, in the embodiment of the driving mechanism 4, the rack 1 is provided with an arc-shaped rack 41 concentric with the arc-shaped moving track, the seat 2 is provided with a gear 42 rotatably arranged, the gear 42 is driven by a second motor 43, the second motor 43 is fixedly connected with the seat 2, the gear 42 is meshed with the arc-shaped rack 41, and the gear 42 rotates to drive the seat 2 to move. In the embodiment, the arc-shaped rack 41 and the gear 42 meshed with the arc-shaped rack are arranged, the seat body 2 is driven to move through the driving gear 42, and the structure is in meshed transmission, so that the slipping and other conditions can be avoided.

Preferably, the driving mechanism 4 may also be an embodiment, where the driving mechanism 4 includes an air cylinder or an oil cylinder with two ends rotatably connected to the base 2 and the frame 1, and the air cylinder or the oil cylinder stretches to drive the base 2 to move. Another embodiment is to adopt motor drive, the transmission shaft is rotationally connected with the base body 2, the other end of the transmission shaft is rotationally connected with the output shaft 64 of the motor, and the rotation point of the rotationally connected transmission shaft is deviated from the axial lead of the output shaft 64.

In this embodiment, a track mechanism for enabling the seat body 2 to move along a circular arc-shaped moving track is arranged between the frame 1 and the seat body 2. As a preferred embodiment, the track mechanism comprises an arc-shaped track 52 concentric with the arc-shaped movable track, and pulleys 51 respectively arranged on the upper and lower sides of the arc-shaped track 52 and in a rotating manner, wherein the pulleys 51 are closely attached to the arc-shaped track 52; the arc-shaped track 52 and the pulley 51 are respectively arranged on the frame 1 and the seat body 2. The condition that the arc-shaped track 52 and the pulley 51 are respectively arranged on the frame 1 and the seat body 2 includes that the arc-shaped track 52 is arranged on the frame 1 and the pulley 51 is arranged on the seat body 2; and, the arc track 52 is arranged on the base 2, and the pulley 51 is arranged on the frame 1.

As a preferred embodiment, the track mechanism comprises an arc-shaped groove concentric with the arc-shaped movable track, and a pulley 51 arranged in the arc-shaped groove in a rotating way, wherein the pulley 51 moves along the arc-shaped groove; the arc-shaped groove and the pulley 51 are respectively arranged on the frame 1 and the seat body 2. The corresponding objects of the arc-shaped groove and the pulley 51 are the same as the arc-shaped track 52 and the pulley 51 described above.

As a preferred embodiment, the track mechanism comprises a rotation point which is rotatably connected between the frame 1 and the seat 2 and is concentric with the center of the circular arc movable track.

In this embodiment, as a preferred embodiment, the base 2 includes two side portions 21 and a beam 22 connecting the two side portions 21, and the first motor 31 is connected to the beam 22; the two side parts 21 are respectively connected with a rotary gear 42, the number of arc racks 41 corresponding to the gears 42 is two, and the two gears 42 are connected through a transmission rod 44. The number of the gears 42 and the arc racks 41 is two, and the gears 42 and the arc racks 41 are arranged on two sides respectively, so that the operation is more stable and reliable.

In this embodiment, as a preferred embodiment, the base 2 includes two side portions 21 and a beam 22 connecting the two side portions 21, and the first motor 31 is connected to the beam 22; the two track mechanisms are respectively arranged between the two side parts 21 and the frame 1. The track mechanisms are two and are respectively arranged on two sides, so that the track mechanisms can be more stable and reliable in operation.

In this embodiment, as a preferred embodiment, the first motor 31 includes a housing 61, a rotor 62 rotatably disposed in the housing 61, a rotating shaft 63 of the rotor 62 having a cavity into which an output shaft 64 extends, the output shaft 64 being disposed in the cavity and being in concave-convex fit with the rotating shaft 63 of the rotor 62, the output shaft 64 being axially movable with the rotating shaft 63 of the rotor 62 and being limited in movement in a circumferential direction, the rotating shaft 63 of the rotor 62 rotating to drive the output shaft 64 to rotate, and two bearings 65, the two bearings 65 being disposed at two ends of the rotating shaft 63, the rotating shaft 63 being rotatably connected to the housing 61 by the bearings 65; and the grinding head 3 is connected with the output shaft 64, and further comprises a driving device 67 for driving the output shaft 64 to axially move, wherein the driving device 67 is fixedly arranged with the shell 61, a driving shaft of the driving device 67 is connected with the output shaft 64, and the grinding head 3 is connected with the output shaft 64. The driving device 67 may be a cylinder, an oil cylinder or a linear motor. As a preferred embodiment, the output shaft 64 of the first motor 31 can move telescopically, and the telescopic movement of the output shaft 64 drives the grinding head 3 to approach and separate from the stone to be processed. The movable track of the grinding head 3 is arc-shaped, the position of the grinding head 3 can be adjusted in the radial line direction of the arc without changing the arc-shaped size, and the adjustment is more convenient.

Preferably, a channel 640 is provided in the output shaft 64, two ends of the channel 640 are penetrated, one end of the output shaft 64 is connected to a rotary joint 66 for water, water is injected into one end of the output shaft 64 through the rotary joint 66 for water, and water is discharged from the other end of the output shaft 64. The stone material needs to be processed by water injection, so that dust is suppressed, the temperature is reduced, and the water supply scheme of the structure is simple and the temperature of a motor can be reduced.

Claims (13)

1. The building stone chamfering processing device comprises a frame and a seat body movably arranged with the frame, wherein the seat body is connected with a first motor for driving a grinding head to rotate, and is characterized in that the moving track of the seat body relative to the frame is arc-shaped, and the circle center of the arc-shaped moving track is positioned at one side close to a stone to be processed; the grinding head moves along with the seat body.

2. The building stone chamfering apparatus according to claim 1, wherein the center axis of the grinding head is in the same line as the radius line of the circular arc-shaped movable locus.

3. The building stone chamfer processing apparatus of claim 1, further comprising a drive mechanism for driving the movement of the housing.

4. The building stone chamfering processing apparatus according to claim 3, wherein the driving mechanism includes an arc-shaped rack concentric with the arc-shaped moving track, the arc-shaped rack is connected to the frame, the base is provided with a gear rotatably provided, the gear is driven by a second motor, the second motor is fixedly connected to the base, the gear is meshed with the arc-shaped rack, and the gear rotates to drive the base to move.

5. The building stone chamfering machine according to any one of claims 1 to 4, wherein a track mechanism that moves the seat body in a circular arc-shaped movement track is provided between the frame and the seat body.

6. The building stone chamfering processing apparatus according to claim 5, wherein the track mechanism comprises an arc track concentric with the arc movable track, pulleys respectively provided on the upper and lower sides of the arc track and provided in rotation, the pulleys being closely attached to the arc track; the arc-shaped track and the pulley are respectively arranged on the frame and the seat body.

7. The building stone chamfering processing apparatus according to claim 5, wherein the track mechanism includes an arc-shaped groove concentric with the arc-shaped movable track, a pulley provided in the arc-shaped groove and rotatably provided, the pulley being movable along the arc-shaped groove; the arc-shaped groove and the pulley are respectively arranged on the frame and the seat body.

8. The building stone chamfering machine according to claim 5, wherein the track mechanism includes a rotation point rotatably connected between the frame and the base, the rotation point being concentric with a center of the circular arc-shaped movable track.

9. The building stone chamfering apparatus according to claim 4, wherein the seat body includes both side portions and a cross member connecting both side portions, the first motor being connected to the cross member; the two sides are respectively connected with a rotary gear, the number of arc racks corresponding to the gears is also two, and the two gears are connected through a transmission rod.

10. The building stone chamfering apparatus according to claim 5, wherein the seat body includes both side portions and a cross member connecting both side portions, the first motor being connected to the cross member; the two track mechanisms are respectively arranged between the two side parts and the frame.

11. The building stone chamfering processing apparatus according to claim 1 or 2, wherein the first motor includes a housing, a rotor rotatably provided in the housing, a rotating shaft of the rotor having a cavity into which an output shaft extends, the output shaft being provided in the cavity and being mated with a concave-convex portion of the rotating shaft of the rotor, the output shaft being movable in an axial direction and restricted in a circumferential direction with respect to the rotating shaft of the rotor, the rotating shaft of the rotor rotating to drive the output shaft to rotate, and two bearings provided at both ends of the rotating shaft, respectively, the rotating shaft being rotatably connected to the housing by the bearings; the grinding head is connected with the output shaft.

12. The building stone chamfering machine according to claim 11, wherein the output shaft has a passage inside, both ends of the passage are penetrated, one end of the output shaft is connected to a rotary joint for water, water is injected at one end of the output shaft through the rotary joint for water, and water is discharged at the other end of the output shaft.

13. The building stone chamfering processing apparatus according to claim 3, wherein the driving mechanism comprises a cylinder or an oil cylinder with both ends rotatably connected to the base and the frame, respectively; or a transmission shaft rotationally connected with the base body, and the other end of the transmission shaft is eccentrically rotationally connected with the motor.