CN212420569U

CN212420569U - Sliding assembly with counterweight mechanism

Info

Publication number: CN212420569U
Application number: CN202021186660.0U
Authority: CN
Inventors: 张玉飞; 张宇峰; 季闻捷; 丁绍峰
Original assignee: Zhangjiagang Yucheng Machine Co ltd
Current assignee: Zhangjiagang Yucheng Machine Co ltd
Priority date: 2020-06-23
Filing date: 2020-06-23
Publication date: 2021-01-29
Anticipated expiration: 2030-06-23

Abstract

The utility model discloses a sliding component with a counterweight mechanism, which comprises a first sliding block capable of sliding along the horizontal direction and a second sliding block capable of sliding along the vertical direction; the counterweight mechanism comprises a first mounting piece fixedly arranged on the first sliding block, a first roller arranged on the first mounting piece, a second mounting piece fixedly arranged on the supporting seat, a roller assembly arranged on the second mounting piece, and a hanging rope of which two ends are respectively connected with the second sliding block and the first counterweight block; the roller assembly comprises a second roller and a third roller which are respectively arranged at two adjacent sides of the second mounting part, and the second roller is arranged between the first roller and the third roller; the axial leads of the first roller and the third roller are parallel to each other and are vertical to the axial lead of the second roller; when the second sliding block slides up and down and/or left and right, the second sliding block is used for driving the first balancing weight to do lifting motion through the hanging rope. The utility model relates to a slip subassembly with counter weight mechanism, when the horizontal slip about the second slider, hang the rope and drive first balancing weight and only do elevating movement.

Description

Sliding assembly with counterweight mechanism

Technical Field

The utility model relates to a sliding assembly with counter weight mechanism.

Background

In the processing equipment, the tool bit often needs to carry out the removal of vertical direction, and the quality of tool bit, the driving motor who drives the tool bit and the slider is heavier, can lead to bearing great gravity along the motor of vertical direction drive slider motion, can damage the motor even when serious.

In this case, the mass of the cutter head, drive motor and slide is generally balanced by suspending a counterweight on the machine base to solve this problem. However, when the cutter head needs to move in the horizontal direction, the common suspension structure can cause the hanging rope for connecting the balancing weight to fall off from the roller, and the balance function cannot be realized.

Disclosure of Invention

The utility model aims at providing a sliding assembly with counter weight mechanism, when the second slider was from top to bottom and/or horizontal slip, can only be elevating movement through hanging the first balancing weight of rope drive.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a sliding assembly with a counterweight mechanism comprises a first sliding block which can slide along the horizontal direction and is arranged on a supporting seat, a second sliding block which can slide along the vertical direction and is arranged on the first sliding block, a first motor which is arranged on the supporting seat and is used for driving the first sliding block, and a second motor which is arranged on the first sliding block and is used for driving the second sliding block;

the counterweight mechanism comprises a first mounting piece fixedly arranged on the first sliding block, a first roller arranged on the first mounting piece, a second mounting piece fixedly arranged on the supporting seat, a roller assembly arranged on the second mounting piece, a hanging rope with one end fixed on the second sliding block and tensioned in the first roller and the roller assembly, and a first counterweight block fixed at the other end of the hanging rope and positioned below the second mounting piece;

the first mounting part is positioned between the second sliding block and the second mounting part, the roller assembly comprises a second roller and a third roller which are respectively arranged at two adjacent sides of the second mounting part, and the second roller is arranged at one side of the second mounting part facing the first mounting part; the axis of the first roller is parallel to the axis of the third roller and is perpendicular to the axis of the second roller;

and when the second sliding block slides up and down and/or left and right, the second sliding block is used for driving the first balancing weight to do lifting motion through the hanging rope.

Preferably, a part of the hanging rope between the first roller and the second roller is located in a first vertical plane, a part of the hanging rope between the second roller and the third roller is located in a second vertical plane, and the first vertical plane is perpendicular to the second vertical plane.

Preferably, the second roller is lower than the third roller, which is lower than the first roller.

Preferably, the lanyard is tensioned over the first roller, and is tensioned under the second roller, and is tensioned over the third roller.

Preferably, the counterweight mechanism further comprises a second counterweight block arranged between the first counterweight block and the first sliding block and positioned below the second mounting part, and a fourth roller arranged on the second counterweight block, wherein the hanging rope is tensioned in the fourth roller;

and when the second sliding block slides up and down and/or left and right, the second sliding block is used for driving the first balancing weight and the second balancing weight to synchronously lift through the hanging rope.

More preferably, the axis of the fourth roller is parallel to the axis of the first roller, and the suspension rope is tensioned below the fourth roller.

Still further preferably, an axis of the fourth roller is parallel to a sliding direction of the first slider.

More preferably, the third roller has a plurality of, the hanging rope passes through the upper part of the first roller, the lower part of the second roller, a part of the upper part of the third roller, the lower part of the fourth roller and the other part of the upper part of the third roller in sequence.

More preferably, the counterweight mechanism further comprises a connecting member for fixedly connecting the first counterweight block and the second counterweight block.

Preferably, the first mount is located above the first slider.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage: the utility model relates to a slip subassembly with counter weight mechanism, through setting up first gyro wheel and wheel components on first installed part and second installed part respectively, wheel components includes axial lead and first gyro wheel axial lead vertically second gyro wheel, the third gyro wheel that axial lead and first gyro wheel axial lead are parallel, can turn into the horizontal motion of second slider the up-and-down motion of first balancing weight, and when the second slider was from top to bottom and/or the horizontal slip, can only be elevating movement through hanging the rope and drive first balancing weight. The second motor is effectively protected, the service life is prolonged, and the processing efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of the device of the present invention;

fig. 2 is a schematic structural diagram of the counterweight mechanism.

Wherein: 1. a supporting seat; 2. a first slider; 3. a second slider; 4. a first motor; 5. a second motor; 6. a first mounting member; 7. a first roller; 8. a second mount; 9. hanging a rope; 10. a first weight block; 11. a second roller; 12. a third roller; 13. a second counterweight block; 14. a fourth roller; 15. a cutter head; 16. the motor is driven.

Detailed Description

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

Referring to fig. 1-2, the sliding assembly with the counterweight mechanism includes a first sliding block 2 disposed on a supporting base 1 and capable of sliding along a horizontal direction, a second sliding block 3 disposed on the first sliding block 2 and capable of sliding along an up-down direction, a first motor 4 disposed on the supporting base 1 and used for driving the first sliding block 2 to slide left and right along the horizontal direction, and a second motor 5 disposed on the first sliding block 2 and used for driving the second sliding block 3 to slide up and down along a vertical direction. The second motor 5 is located above the second slider 3.

The counterweight mechanism comprises a first mounting part 6 fixedly arranged on the first sliding block 2, a first roller 7 arranged on the first mounting part 6, a second mounting part 8 fixedly arranged on the supporting seat 1, a roller assembly arranged on the second mounting part 8, a hanging rope 9 with one end fixed on the second sliding block 3 and tensioned in the first roller 7 and the roller assembly, and a first counterweight 10 fixed at the other end of the hanging rope 9 and positioned below the second mounting part 8. In this embodiment, the first mount 6 is located above the first slider 2.

The first mounting part 6 is positioned between the second sliding block 3 and the second mounting part 8, and the roller assembly comprises a second roller 11 arranged on one side of the second mounting part 8 facing the first mounting part 6 and a third roller 12 arranged on one side of the second mounting part 8 in the length extension direction; the axis of the first roller 7 is parallel to the axis of the third roller 12 and perpendicular to the axis of the second roller 11. The axis of the first roller 7 is parallel to the sliding direction of the first slider 2. The second roller 11 and the third roller 12 are respectively positioned on two adjacent sides of the second mounting member 8. The second roller 11 is arranged between the first roller 7 and the third roller 12, and the hanging rope 9 sequentially passes through the first roller 7, the second roller 11 and the third roller 12.

In the present embodiment, the second roller 11 is lower than the third roller 12, and the third roller 12 is lower than the first roller 7. The roping 9 is tensioned over the first roller 7, under the second roller 11 and over the third roller 12. The part of the roping 9 between the first roller 7 and the second roller 11 is in a first vertical plane, and the part of the roping 9 between the second roller 11 and the third roller 12 is in a second vertical plane, the first vertical plane being perpendicular to the second vertical plane.

When the second sliding block 3 slides up and down and/or left and right, the first balancing weight 10 is driven to move up and down through the hanging rope 9.

The counterweight mechanism further comprises a second counterweight block 13 arranged between the first counterweight block 10 and the first sliding block 2 and positioned below the second mounting part 8, a fourth roller 14 arranged on the second counterweight block 13, and a hanging rope 9 tensioned in the fourth roller 14. The axis of the fourth roller 14 is parallel to the axis of the first roller 7, and the hanging rope 9 is tensioned below the fourth roller 14. The axis of the fourth roller 14 is parallel to the sliding direction of the first slider 2.

When the second sliding block 3 slides up and down and/or left and right, the first balancing weight 10 and the second balancing weight 13 are driven to synchronously lift through the hanging rope 9.

Referring to fig. 1, the first weight block 10 and the second weight block 13 are located on one side of the supporting base 1, the first slider 2 is located on the other side of the supporting base 1, and the second slider 3 is located on one side of the first slider 2 away from the supporting base 1. The cutter head 15 and a driving motor 16 for driving the cutter head 15 to rotate are arranged on the second sliding block 3.

Regarding the second slider 3, the tool bit 15 and the driving motor 16 as a whole, respectively adjusting the weight of the first balancing weight 10 and the second balancing weight 13 according to the whole weight, so that when the second slider 3 slides, the first balancing weight 10 and the second balancing weight 13 can be driven to synchronously lift through the hanging rope 9. In order to further ensure the synchronous lifting of the first balancing weight 10 and the second balancing weight 13, the balancing mechanism further comprises a connecting member (not shown) for fixedly connecting the first balancing weight 10 and the second balancing weight 13. Through this setting, when second balancing weight 13 only has one, can shorten the distance that the balancing weight wholly rises and descends into half of tool bit 15 stroke, first balancing weight 10 and second balancing weight 13 rise and descend the distance and be half of tool bit 15 stroke promptly, when having solved the distance that can supply the balancing weight to rise and descend and be less than the stroke of tool bit 15, can lead to the problem of balanced inefficacy. When there are two or more second weights 13, the distance of the overall raising and lowering of the weights can be further compressed.

The third rollers 12 are provided with a plurality of third rollers, and as shown in fig. 2, one end of the hanging rope 9 is connected to the second slider 3, and passes through the upper portion of the first roller 7, the lower portion of the second roller 11, the upper portions of the two third rollers 12, the lower portion of the fourth roller 14 and the upper portions of the other two third rollers 12 in sequence, and is finally connected to the first balancing weight 10. Through setting up second gyro wheel 11, when second slider 3 slided along with first slider 2 from side to side, the rope 9 of hanging between second gyro wheel 11 and the first gyro wheel 7 can be flexible at the slope in first vertical plane, and this first vertical plane is on a parallel with the slip direction of first slider 2.

Referring to fig. 2, the first rollers 7 are two and are arranged in a direction perpendicular to the sliding direction of the first slider 2; the number of the second rollers 11 is two, and the second rollers are obliquely arranged along the up-down direction, and the arrangement direction of the second rollers is parallel to the first vertical plane; four third rollers 12 are arranged along the sliding direction vertical to the first sliding block 2; one fourth roller 14 is located directly below the middle of the four third rollers 12.

Referring to fig. 2, there are two sets of the first rollers 7, the second rollers 11, and the third rollers 12, the two sets of the first rollers 7 are arranged along a direction perpendicular to the arrangement direction of the first weight block 10 and the second weight block 13, the two sets of the second rollers 11 are arranged along a direction perpendicular to the arrangement direction of the first weight block 10 and the second weight block 13, and the two sets of the third rollers 12 are arranged along a direction perpendicular to the arrangement direction of the first weight block 10 and the second weight block 13. The arrangement direction of the first balancing weight 10 and the second balancing weight 13 is perpendicular to the sliding direction of the first slider 2 and extends along the horizontal direction. Through setting up two sets of first gyro wheel 7, second gyro wheel 11 and third gyro wheel 12, improved the stability of first balancing weight 10 and second balancing weight 13 at the lift in-process, prevent that it from to a lopsidedness at the lift in-process.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. The utility model provides a sliding assembly with counter weight mechanism which characterized in that: the sliding assembly comprises a first sliding block which can slide along the horizontal direction and is arranged on the supporting seat, a second sliding block which can slide along the vertical direction and is arranged on the first sliding block, a first motor which is arranged on the supporting seat and is used for driving the first sliding block, and a second motor which is arranged on the first sliding block and is used for driving the second sliding block;

2. The slide assembly with the counterweight mechanism of claim 1, further comprising: the part of the hanging rope between the first roller and the second roller is positioned in a first vertical plane, the part of the hanging rope between the second roller and the third roller is positioned in a second vertical plane, and the first vertical plane is perpendicular to the second vertical plane.

3. The slide assembly with the counterweight mechanism of claim 1, further comprising: the second roller is lower than the third roller, and the third roller is lower than the first roller.

4. The slide assembly with the counterweight mechanism of claim 1, further comprising: the hanging rope is tensioned above the first roller, tensioned below the second roller and tensioned above the third roller.

5. The slide assembly with the counterweight mechanism of claim 1, further comprising: the counterweight mechanism further comprises a second counterweight block arranged between the first counterweight block and the first sliding block and positioned below the second mounting piece, and a fourth roller arranged on the second counterweight block, and the hanging rope is tensioned in the fourth roller;

6. The slide assembly with the counterweight mechanism of claim 5, wherein: the axis of the fourth roller is parallel to the axis of the first roller, and the hanging rope is tensioned below the fourth roller.

7. The slide assembly with the counterweight mechanism of claim 6, further comprising: the axis of the fourth roller is parallel to the sliding direction of the first sliding block.

8. The slide assembly with the counterweight mechanism of claim 5, wherein: the third roller has a plurality of, it is a plurality of to hang the rope and pass through in proper order first roller top, second roller below, partly third roller top, fourth roller below, another part third roller top.

9. The slide assembly with the counterweight mechanism of claim 5, wherein: the counterweight mechanism further comprises a connecting piece for fixedly connecting the first counterweight block and the second counterweight block.

10. The slide assembly with the counterweight mechanism of claim 1, further comprising: the first mount is located above the first slider.