CN105240450A - Auxiliary damping system for precise machining - Google Patents

Abstract

The invention relates to an auxiliary damping system for precise machining. The auxiliary damping system comprises a base. A damping pedestal is arranged on the upper portion of the base. A left hydraulic device and a right hydraulic device are arranged on the left side and the right side of the upper portion of the damping pedestal respectively. The upper portion of the left hydraulic device and the upper portion of the right hydraulic device are connected with a left hydraulic telescopic pillar and a right hydraulic telescopic pillar respectively. The upper portion of the left hydraulic telescopic pillar and the upper portion of the right hydraulic telescopic pillar are connected with a first damping cavity and a second damping cavity respectively. The left side of the first damping cavity and the right side of the second damping cavity are provided with a first adjusting rod and a second adjusting rod respectively. The right side of the first adjusting rod and the left side of the second adjusting rod are connected with a first damping plate and a second damping plate respectively. According to the auxiliary damping system, damping processing effects of precise machining can be effectively achieved, damping processing is facilitated, a machined workpiece can be conveniently installed and used, damping processing is facilitated during machining, the precision and efficiency of workpiece machining are improved, and use is convenient.

Description

A kind of precision machining damping auxiliary system

Technical field

The invention belongs to precision processing technology field, be specifically related to a kind of precision machining damping auxiliary system.

Background technique

At present, in precision machining, reach machining accuracy more than micron, submicron order, therefore very strict to the requirement of processing environment, the requirement wherein for vibrations is very important one.Carrying out in precision machined process to workpiece, the impact shaken must paid much attention to, inherent and external various interference are being eliminated as far as possible or isolated out, makes vibration of workpiece amplitude extremely low, otherwise be difficult to obtain high-quality finished surface.Therefore, in precision machining, damping device is essential.Utilize damping device absorbing vibration, make workpiece keep stable, ensure that workpiece obtains the surface quality of higher machining accuracy and ultra-smooth.

Summary of the invention

The object of the present invention is to provide a kind of precision machining damping auxiliary system, to improve precision machining damping effect better, conveniently realize precision machining better, improve work efficiency.

To achieve these goals, technological scheme of the present invention is as follows.

A kind of precision machining damping auxiliary system, comprise base, base top is provided with damping base, the left and right sides, damping base top is respectively arranged with left hydraulic pressure device and right hydraulic pressure device, left hydraulic pressure device and right hydraulic pressure device top are connected to left hydraulically extensible post and right hydraulically extensible post, left hydraulically extensible post and right hydraulically extensible post top are connected to the first damping chamber and the second damping chamber, the first adjustable lever and the second adjustable lever is respectively arranged with on the left of first damping chamber He on the right side of the second damping chamber, the first vibration damper plate and the second vibration damper plate is connected on the right side of first adjustable lever He on the left of the second adjustable lever, multiple first spring and the second spring is connected on the right side of first vibration damper plate He on the left of the second vibration damper plate, the first shock-absorbing ball and the second shock-absorbing ball is connected on the right side of first spring He on the left of the second spring, the left and right sides, base top is connected to left support post and right support post, left support post and right support post top are connected with top board, left support post and right support post neutral position are respectively arranged with left sleeve and right sleeve, left sleeve and right sleeve inner are respectively arranged with left support frame and right support frame, the 3rd damping chamber and the 4th damping chamber is connected on the right side of left support frame He on the left of right support frame, 3rd damping chamber and the 4th top, damping chamber are connected to multiple 3rd spring and the 4th spring, 3rd spring and the 4th spring bottom are connected to the 3rd shock-absorbing ball and the 4th shock-absorbing ball, the 3rd adjustable lever and the 4th adjustable lever is connected on the left of 3rd shock-absorbing ball He on the right side of the 4th shock-absorbing ball, the top board left and right sides is respectively arranged with the 5th damping chamber and the 6th damping chamber, 5th damping chamber and the 6th top, damping chamber are respectively arranged with the 5th adjustable lever and the 6th adjustable lever, 5th adjustable lever and the 6th adjustable lever bottom are connected to the 3rd vibration damper plate and the 4th vibration damper plate, 3rd vibration damper plate and the 4th vibration damper plate bottom are connected to the 5th spring and the 6th spring, and the 5th spring and the 6th spring bottom are connected to the 5th shock-absorbing ball and the 6th shock-absorbing ball, damping base upper middle position is provided with the 7th damping chamber, and the 7th inside, damping chamber is provided with multiple 7th spring, and the 7th spring top is connected with arc-shaped shock-absorbing plate.

Further, top board neutral position is provided with threaded stem, and threaded stem bottom is provided with emery wheel, and threaded stem top has been threaded set screw nut.

Further, arc-shaped shock-absorbing plate top is provided with workpiece.

Further, the 7th inside, damping chamber is provided with multiple rubber grain.

Further, the 5th damping chamber and the 6th top, damping chamber are respectively arranged with left fixing pin and right fixing pin.

In this device, workpiece is placed on arc-shaped shock-absorbing plate, under the effect of left hydraulic pressure device and right hydraulic pressure device, left hydraulically extensible post and right hydraulically extensible post drive respectively on the first damping chamber and the second damping chamber and rise, workpiece is risen to suitable height, the left and right sides, workpiece top is touched with the 5th damping chamber and the 6th damping chamber bottom connection respectively.Left sleeve and right sleeve is utilized to drive left support frame and right support frame to move up and down, 3rd damping chamber and the 4th damping chamber are adjusted to suitable height, recycling left support frame and right support frame regulate the position in the 3rd damping chamber and the 4th damping chamber, and the 3rd damping chamber and the 4th damping chamber are contacted with the workpiece left and right sides respectively.Utilize the first adjustable lever and the second adjustable lever to drive the first vibration damper plate and the second vibration damper plate to move, the first shock-absorbing ball and the second shock-absorbing ball are adjusted to suitable position; Utilize the 3rd adjustable lever and the 4th adjustable lever that the 3rd shock-absorbing ball and the 4th shock-absorbing ball are adjusted to suitable position; Utilize the 5th adjustable lever and the 6th adjustable lever to regulate the position of the 3rd vibration damper plate and the 4th vibration damper plate, make the 5th spring and the 6th spring keep suitable elasticity, and utilize left fixing pin and right fixing pin to be fixed the 5th adjustable lever and the 6th adjustable lever.Utilize set screw nut to regulate threaded stem, emery wheel is declined and absorption surface, workpiece is processed.In course of working, the vibrations that workpiece is subject to Vertical direction utilize the 5th shock-absorbing ball, the 6th shock-absorbing ball and arc-shaped shock-absorbing plate to carry out damping, recycling the 5th spring, the 6th spring and the 7th spring absorbing vibration, and wherein rubber grain can absorbing vibration better; The vibrations in all the other directions that workpiece is subject to utilize the first shock-absorbing ball, the second shock-absorbing ball, the 3rd shock-absorbing ball and the 4th shock-absorbing ball to carry out damping, recycle the first spring, the second spring, the 3rd spring and the 4th spring absorbing vibration, make workpiece in course of working, keep stable, thus ensure the precision of workpiece.

This beneficial effect of the invention is: this contrive equipment can realize precision machined damping treatment effect effectively, facilitate damping process, and facilitate installation and the use of operative workpiece, and work in-process facilitates damping process, improve precision and the work efficiency of work pieces process, easy to use.

Accompanying drawing explanation

Fig. 1 is institute's operative installations structural representation in the embodiment of the present invention.

Description of symbols in figure: 1, base; 2, the 7th spring; 3, arc-shaped shock-absorbing plate; 4, damping base; 5, rubber grain; 6, right sleeve; 7, right support frame; 8, the 4th shock-absorbing ball; 9, the 4th spring; 10, right support post; 11, the 4th damping chamber; 12, the 6th shock-absorbing ball; 13, the 6th damping chamber; 14, the 6th adjustable lever; 15, right fixing pin; 16, threaded stem; 17, set screw nut; 18, top board; 19, the 5th adjustable lever; 20, left fixing pin; 21, the 3rd vibration damper plate; 22, the 5th spring; 23, left support post; 24, the 5th damping chamber; 25, the 3rd damping chamber; 26, the 3rd spring; 27, the 3rd shock-absorbing ball; 28, left support frame; 29, the 3rd adjustable lever; 30, left sleeve; 31, the first adjustable lever; 32, the first vibration damper plate; 33, the first spring; 34, left hydraulic pressure device; 35, left hydraulically extensible post; 36, the first damping chamber; 37, the 7th damping chamber; 38, right hydraulic pressure device; 39, right hydraulically extensible post; 40, the second shock-absorbing ball; 41, the second spring; 42, the second vibration damper plate; 43, the second adjustable lever; 44, the second damping chamber; 45, the 4th adjustable lever; 46, the 6th spring; 47, the 4th vibration damper plate; 48, emery wheel; 49, workpiece; 50, the 5th shock-absorbing ball; 51, the first shock-absorbing ball.

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described, better to understand the present invention.

Precision machining damping auxiliary system as shown in Figure 1, comprise base 1, base 1 top is provided with damping base 4, the left and right sides, damping base 4 top is respectively arranged with left hydraulic pressure device 34 and right hydraulic pressure device 38, left hydraulic pressure device 34 and right hydraulic pressure device 38 top are connected to left hydraulically extensible post 35 and right hydraulically extensible post 39, left hydraulically extensible post 35 and right hydraulically extensible post 39 top are connected to the first damping chamber 36 and the second damping chamber 44, the first adjustable lever 31 and the second adjustable lever 43 is respectively arranged with on the left of first damping chamber 36 He on the right side of the second damping chamber 44, the first vibration damper plate 32 and the second vibration damper plate 42 is connected on the right side of first adjustable lever 31 He on the left of the second adjustable lever 43, multiple first spring 33 and the second spring 41 is connected on the right side of first vibration damper plate 32 He on the left of the second vibration damper plate 42, the first shock-absorbing ball 51 and the second shock-absorbing ball 40 is connected on the right side of first spring 33 He on the left of the second spring 41, the left and right sides, base 1 top is connected to left support post 23 and right support post 10, left support post 23 and right support post 10 top are connected with top board 18, left support post 23 and right support post 10 neutral position are respectively arranged with left sleeve 30 and right sleeve 6, left sleeve 30 and right sleeve 6 inside are respectively arranged with left support frame 28 and right support frame 7, the 3rd damping chamber 25 and the 4th damping chamber 11 is connected on the right side of left support frame 28 He on the left of right support frame 7, 3rd damping chamber 25 and the 4th top, damping chamber 11 are connected to multiple 3rd spring 26 and the 4th spring 9, 3rd spring 26 and the 4th spring 9 bottom are connected to the 3rd shock-absorbing ball 27 and the 4th shock-absorbing ball 8, the 3rd adjustable lever 29 and the 4th adjustable lever 45 is connected on the left of 3rd shock-absorbing ball 27 He on the right side of the 4th shock-absorbing ball 8, top board 18 left and right sides is respectively arranged with the 5th damping chamber 24 and the 6th damping chamber 13,5th damping chamber 24 and the 6th top, damping chamber 13 are respectively arranged with the 5th adjustable lever 19 and the 6th adjustable lever 14,5th adjustable lever 19 and the 6th adjustable lever 14 bottom are connected to the 3rd vibration damper plate 21 and the 4th vibration damper plate 47,3rd vibration damper plate 21 and the 4th vibration damper plate 47 bottom are connected to the 5th spring 22 and the 6th spring the 46, five spring 22 and the 6th spring 46 bottom and are connected to the 5th shock-absorbing ball 50 and the 6th shock-absorbing ball 12, damping base 4 upper middle position is provided with the 7th inside, damping chamber 37, damping chamber the 37, seven and is provided with multiple 7th spring the 2, seven spring 2 top and is connected with arc-shaped shock-absorbing plate 3.Top board 18 neutral position is provided with threaded stem 16, and threaded stem 16 bottom is provided with emery wheel 48, and threaded stem 16 top has been threaded set screw nut 17.Arc-shaped shock-absorbing plate 3 top is provided with workpiece 49.7th inside, damping chamber 37 is provided with multiple rubber grain 5.5th damping chamber 24 and the 6th top, damping chamber 13 are respectively arranged with left fixing pin 20 and right fixing pin 15.

This device in the specific implementation, workpiece 49 is placed on arc-shaped shock-absorbing plate 3, under the effect of left hydraulic pressure device 34 and right hydraulic pressure device 38, left hydraulically extensible post 35 and right hydraulically extensible post 39 drive the first damping chamber 36 and the second damping chamber 44 to rise respectively, workpiece 49 is risen to suitable height, the left and right sides, workpiece 49 top is touched with the 5th damping chamber 24 and the 6th damping chamber 13 bottom connection respectively.Left sleeve 30 and right sleeve 6 is utilized to drive left support frame 28 and right support frame 7 to move up and down, 3rd damping chamber 25 and the 4th damping chamber 11 are adjusted to suitable height, recycling left support frame 28 and right support frame 7 regulate the position in the 3rd damping chamber 25 and the 4th damping chamber 11, and the 3rd damping chamber 25 and the 4th damping chamber 11 are contacted with workpiece 49 left and right sides respectively.Utilize the first adjustable lever 31 and the second adjustable lever 43 to drive the first vibration damper plate 32 and the second vibration damper plate 42 to move, the first shock-absorbing ball 51 and the second shock-absorbing ball 40 are adjusted to suitable position; Utilize the 3rd adjustable lever 29 and the 4th adjustable lever 45 that the 3rd shock-absorbing ball 27 and the 4th shock-absorbing ball 8 are adjusted to suitable position; The 5th adjustable lever 19 and the 6th adjustable lever 14 is utilized to regulate the position of the 3rd vibration damper plate 21 and the 4th vibration damper plate 47, make the 5th spring 22 and the 6th spring 46 keep suitable elasticity, and utilize left fixing pin 20 and right fixing pin 15 to be fixed the 5th adjustable lever 19 and the 6th adjustable lever 14.Utilize set screw nut 17 to regulate threaded stem 16, emery wheel 48 is declined and contacts with workpiece 49, workpiece 49 is processed.In course of working, the vibrations that workpiece 49 is subject to Vertical direction utilize the 5th shock-absorbing ball 50, the 6th shock-absorbing ball 12 and arc-shaped shock-absorbing plate 3 to carry out damping, recycle the 5th spring 22, the 6th spring 46 and the 7th spring 2 absorbing vibration, wherein rubber grain 5 can absorbing vibration better; The vibrations in all the other directions that workpiece 49 is subject to utilize the first shock-absorbing ball 51, second shock-absorbing ball 40, the 3rd shock-absorbing ball 27 and the 4th shock-absorbing ball 8 to carry out damping, recycle the first spring 33, second spring 41, the 3rd spring 26 and the 4th spring 9 absorbing vibration, make workpiece in course of working, keep stable, thus ensure the precision of workpiece.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (5)

1. a precision machining damping auxiliary system, comprise base, it is characterized in that: described base top is provided with damping base, the left and right sides, described damping base top is respectively arranged with left hydraulic pressure device and right hydraulic pressure device, described left hydraulic pressure device and right hydraulic pressure device top are connected to left hydraulically extensible post and right hydraulically extensible post, described left hydraulically extensible post and right hydraulically extensible post top are connected to the first damping chamber and the second damping chamber, the first adjustable lever and the second adjustable lever is respectively arranged with on the left of described first damping chamber He on the right side of the second damping chamber, the first vibration damper plate and the second vibration damper plate is connected on the right side of described first adjustable lever He on the left of the second adjustable lever, multiple first spring and the second spring is connected on the right side of described first vibration damper plate He on the left of the second vibration damper plate, the first shock-absorbing ball and the second shock-absorbing ball is connected on the right side of described first spring He on the left of the second spring, the left and right sides, described base top is connected to left support post and right support post, described left support post and right support post top are connected with top board, described left support post and right support post neutral position are respectively arranged with left sleeve and right sleeve, described left sleeve and right sleeve inner are respectively arranged with left support frame and right support frame, the 3rd damping chamber and the 4th damping chamber is connected on the right side of described left support frame He on the left of right support frame, described 3rd damping chamber and the 4th top, damping chamber are connected to multiple 3rd spring and the 4th spring, described 3rd spring and the 4th spring bottom are connected to the 3rd shock-absorbing ball and the 4th shock-absorbing ball, the 3rd adjustable lever and the 4th adjustable lever is connected on the left of described 3rd shock-absorbing ball He on the right side of the 4th shock-absorbing ball, the described top board left and right sides is respectively arranged with the 5th damping chamber and the 6th damping chamber, described 5th damping chamber and the 6th top, damping chamber are respectively arranged with the 5th adjustable lever and the 6th adjustable lever, described 5th adjustable lever and the 6th adjustable lever bottom are connected to the 3rd vibration damper plate and the 4th vibration damper plate, described 3rd vibration damper plate and the 4th vibration damper plate bottom are connected to the 5th spring and the 6th spring, and described 5th spring and the 6th spring bottom are connected to the 5th shock-absorbing ball and the 6th shock-absorbing ball, described damping base upper middle position is provided with the 7th damping chamber, and described 7th inside, damping chamber is provided with multiple 7th spring, and described 7th spring top is connected with arc-shaped shock-absorbing plate.

2. precision machining damping auxiliary system according to claim 1, it is characterized in that: described top board neutral position is provided with threaded stem, described threaded stem bottom is provided with emery wheel, and described threaded stem top has been threaded set screw nut.

3. precision machining damping auxiliary system according to claim 1, is characterized in that: described arc-shaped shock-absorbing plate top is provided with workpiece.

4. precision machining damping auxiliary system according to claim 1, is characterized in that: described 7th inside, damping chamber is provided with multiple rubber grain.

5. precision machining damping auxiliary system according to claim 1, is characterized in that: described 5th damping chamber and the 6th top, damping chamber are respectively arranged with left fixing pin and right fixing pin.