TW201408894A - Brake mechanism of linear slide rails - Google Patents
Brake mechanism of linear slide rails Download PDFInfo
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- TW201408894A TW201408894A TW102101704A TW102101704A TW201408894A TW 201408894 A TW201408894 A TW 201408894A TW 102101704 A TW102101704 A TW 102101704A TW 102101704 A TW102101704 A TW 102101704A TW 201408894 A TW201408894 A TW 201408894A
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- brake mechanism
- linear slide
- oil
- slide rail
- deformation
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- Braking Arrangements (AREA)
Abstract
Description
本發明涉及數位控制設備製造技術應用領域,特別是一種線性滑軌制動機構。 The invention relates to the field of application of digital control device manufacturing technology, in particular to a linear slide brake mechanism.
目前線性滑軌在數控設備製造行業普遍使用,得到了很好的使用效果。但是由於線性滑軌的滑動摩擦係數小,定位剛性差,給數控設備的精確定位及應用帶來了弊端。特別是數控設備在單軸工作時,容易使其它軸向產生反向竄動,從而降低了設備的切削剛性和定位精度。 At present, linear slide rails are widely used in the numerical control equipment manufacturing industry, and have been well used. However, due to the small sliding friction coefficient of the linear slide rail and the poor positioning rigidity, it brings disadvantages to the precise positioning and application of the numerical control device. In particular, when the numerical control device is operated in a single axis, it is easy to cause reverse pulsation in other axial directions, thereby reducing the cutting rigidity and positioning accuracy of the device.
臺灣專利TW471574公開了一種線性滑軌智慧型自動阻尼產生裝置,包含有至少一線性軌道、數可供與線性軌道滑合的滑塊、數可供 與線性軌道滑合的阻尼滑塊。該阻尼滑塊分別具有二可相封於線性軌道位移的阻尼塊,使阻尼塊能與線性軌道密合或與線性軌道保持一段同隙。藉此,若有工作平臺必須利用滑塊獲得順暢且高速的滑移效果時,只須使阻尼塊能與線性軌道保持一段間隙,就不會產生阻尼作用,相反的,若要提高工作平臺與線性軌道的鋼性配合,只須使阻尼塊與線性軌道密合,即能獲得高阻尼、吸震的效果。但此技術方案的目的是通過改變阻尼塊和線性軌道之間的配合方式減小工作平臺在運動當中的震動,以提 高工作平臺在行進中的穩定性,該技術方案並不能完成工作平臺在切削加工中的定位,無法滿足設備在切削工作中所需的固定剛性,無法達到加工的定位精度要求。 Taiwan Patent TW471574 discloses a linear slide intelligent automatic damping generating device comprising at least one linear track, a number of sliders for sliding with a linear track, and a plurality of damping sliders for sliding with a linear track. The damper blocks respectively have two damping blocks which can be sealed to the linear track displacement, so that the damping block can be closely meshed with the linear track or with the linear track. Therefore, if the working platform must use the slider to obtain a smooth and high-speed sliding effect, it is only necessary to keep the damping block in a gap with the linear track, so that no damping effect occurs. On the contrary, if the working platform is to be improved The linear fit of the linear track only needs to make the damping block close to the linear track, which can achieve high damping and shock absorption. However, the purpose of this technical solution is to reduce the vibration of the working platform during the movement by changing the cooperation between the damping block and the linear track. The stability of the high working platform during travel, the technical solution can not complete the positioning of the working platform in the cutting process, can not meet the fixed rigidity required for the cutting work of the equipment, and can not meet the positioning accuracy requirements of the machining.
本發明的目的是為了解決上述問題,設計了一種線性滑軌制動機構。 The object of the present invention is to solve the above problems and to design a linear slide brake mechanism.
實現上述目的本發明的技術方案為,本發明的線性滑軌制動機構,包括線性滑軌和套接在線性滑軌上的滑塊,上述線性滑軌制動機構中包括制動機構座、儲油瓶、增壓缸和控制器;制動機構座的側面成“凹”字型結構,設置在兩個滑塊之間,並將線性滑軌包圍在其中部的凹槽中;在制動機構座內部設置相互連通的油路和油缸,油缸內設置朝向凹槽內側方向的活塞;制動機構座的凹槽中設置形變塊,形變塊的底部與制動機構座一體連接,且形變塊與制動機構座之間設置形變間隙,上述活塞與形變塊的位置相互對應;在線性滑軌兩側相向設置的形變塊內側分別固定制動塊;制動機構座上設有與油路連通的進油口和出油口,儲油瓶分別與進油口和出油口連接,而儲油瓶與增壓缸對接,在增壓缸上設有電磁閥和為增壓缸提供氣壓的氣泵,增壓缸上的電磁閥通過繼電器與控制器連接。 The technical solution of the present invention is that the linear slide brake mechanism of the present invention comprises a linear slide rail and a slider sleeved on the linear slide rail, and the linear slide brake mechanism includes a brake mechanism seat and an oil storage bottle. a booster cylinder and a controller; the side of the brake mechanism seat has a "concave" shape, is disposed between the two sliders, and surrounds the linear slide rail in the middle portion of the groove; An oil passage and a cylinder connected to each other, a piston facing the inner side of the groove is disposed in the cylinder; a deformation block is disposed in the groove of the brake mechanism seat, and a bottom of the deformation block is integrally connected with the brake mechanism seat, and between the deformation block and the brake mechanism seat The deformation gap is set, and the positions of the piston and the deformation block correspond to each other; the brake block is fixed on the inner side of the deformation block disposed on opposite sides of the linear slide rail; the brake mechanism seat is provided with an oil inlet port and an oil outlet port communicating with the oil passage, The oil storage bottle is respectively connected with the oil inlet port and the oil outlet port, and the oil storage bottle is docked with the booster cylinder, and a solenoid valve and a gas pump for supplying pressure to the booster cylinder are provided on the booster cylinder, and a solenoid valve on the booster cylinder is provided. Through the relay connected to the controller.
本發明還可以採用以下技術措施:上述活塞在油缸中的油壓增大時向各自對應的形變塊方向滑動,且抵住形變塊使其向線性滑軌方向形變靠攏。 The present invention can also adopt the following technical measures: the piston slides in the direction of the corresponding deformation block when the oil pressure in the cylinder increases, and the deformation block abuts toward the linear slide direction.
利用本發明的技術方案製作的線性滑軌制動機構,解決了目前線性滑軌數控設備的定位竄動問題,當增大油缸內的油壓時,通過多個制動塊將線性滑軌抱死,從而將工作平臺牢固的固定在預定位置,提高了線性滑軌數位控制設備的切削剛性及定位精度的準確性。 The linear slide brake mechanism manufactured by the technical scheme of the invention solves the problem of the positioning and tilting of the current linear slide numerical control device. When the oil pressure in the oil cylinder is increased, the linear slide rail is locked by a plurality of brake blocks. Thereby, the working platform is firmly fixed at a predetermined position, and the cutting rigidity and the positioning accuracy of the linear slide digital position control device are improved.
1‧‧‧線性滑軌 1‧‧‧Linear slides
2‧‧‧滑塊 2‧‧‧ Slider
3‧‧‧制動機構座 3‧‧‧ brake mechanism seat
4‧‧‧進油口 4‧‧‧Inlet
5‧‧‧出油口 5‧‧‧ Oil outlet
6‧‧‧儲油瓶 6‧‧‧ oil storage bottle
7‧‧‧增壓缸 7‧‧‧Supercharged cylinder
8‧‧‧電磁閥 8‧‧‧ solenoid valve
9‧‧‧氣泵 9‧‧‧Air pump
10‧‧‧繼電器 10‧‧‧ Relay
11‧‧‧控制器 11‧‧‧ Controller
12‧‧‧形變塊 12‧‧‧ deformation block
13‧‧‧制動塊 13‧‧‧ brake pads
14‧‧‧油路 14‧‧‧ oil road
15‧‧‧油缸 15‧‧‧Cylinder
16‧‧‧活塞 16‧‧‧Piston
17‧‧‧形變間隙 17‧‧‧ deformation gap
圖1是本發明所述線性滑軌制動機構的結構示意圖;圖2是本發明所述線性滑軌制動機構中制動機構座內部結構局部放大圖;圖3是本發明所述線性滑軌制動機構中制動機構座的剖面結構圖。 1 is a schematic structural view of a linear slide rail brake mechanism according to the present invention; FIG. 2 is a partially enlarged view showing the internal structure of a brake mechanism seat in the linear slide rail brake mechanism of the present invention; and FIG. 3 is a linear slide rail brake mechanism according to the present invention; Cross-sectional structural view of the middle brake mechanism seat.
下面結合附圖對本發明進行具體描述。 The invention will now be described in detail with reference to the accompanying drawings.
圖1是本發明所述線性滑軌制動機構的結構示意圖;圖2是本發明所述線性滑軌制動機構中制動機構座內部結構局部放大圖;圖3是本發明所述線性滑軌制動機構中制動機構座的剖面結構圖。 1 is a schematic structural view of a linear slide rail brake mechanism according to the present invention; FIG. 2 is a partially enlarged view showing the internal structure of a brake mechanism seat in the linear slide rail brake mechanism of the present invention; and FIG. 3 is a linear slide rail brake mechanism according to the present invention; Cross-sectional structural view of the middle brake mechanism seat.
如圖所示,本發明的線性滑軌制動機構,包括線性滑軌1和套接在線性滑軌上的滑塊2,上述線性滑軌制動機構中包括制動機構座3、儲油瓶6、增壓缸7和控制器11;制動機構座3的側面成“凹”字型結構,設置在兩個滑塊之間,並將線性滑軌包圍在其中部的凹槽中;在制動機構座內部設置相互連通的油路14和油缸15,油缸內設置 朝向凹槽內側方向的活塞16;制動機構座的凹槽中設置形變塊12,形變塊12的底部與制動機構座3一體連接,且形變塊與制動機構座之間設置形變間隙17,上述活塞與形變塊的位置相互對應;在線性滑軌兩側相向設置的形變塊內側分別固定制動塊13,制動塊13的內側形狀與線性滑軌的外壁形狀相互對應,當制動發生時制動塊與線性滑軌緊密貼合;制動機構座上設有與油路連通的進油口4和出油口5,儲油瓶分別與進油口和出油口連接,而儲油瓶6與增壓缸7對接,在增壓缸上設有電磁閥8和為增壓缸提供氣壓的氣泵9,增壓缸上的電磁閥8通過繼電器10與控制器11連接。 As shown in the figure, the linear slide brake mechanism of the present invention comprises a linear slide rail 1 and a slider 2 sleeved on the linear slide rail. The linear slide brake mechanism includes a brake mechanism base 3 and an oil storage bottle 6, The booster cylinder 7 and the controller 11; the side of the brake mechanism seat 3 has a "concave" shape, is disposed between the two sliders, and surrounds the linear slide rail in the groove of the middle portion; Internally connected oil passages 14 and cylinders 15 that are connected to each other, and are arranged in the cylinder a piston 16 facing the inner side of the groove; a deformation block 12 is disposed in the groove of the brake mechanism seat, the bottom of the deformation block 12 is integrally connected with the brake mechanism seat 3, and a deformation gap 17 is disposed between the deformation block and the brake mechanism seat, the piston Corresponding to the position of the deformation block; the brake block 13 is fixed on the inner side of the deformation block disposed on opposite sides of the linear slide rail, and the inner shape of the brake block 13 and the outer wall shape of the linear slide rail correspond to each other, and the brake block and the linearity occur when braking occurs. The sliding rail is closely fitted; the brake mechanism seat is provided with an oil inlet 4 and an oil outlet 5 which are in communication with the oil passage, and the oil storage bottle is respectively connected with the oil inlet and the oil outlet, and the oil storage bottle 6 and the pressure cylinder 7 docking, a solenoid valve 8 is provided on the booster cylinder and a gas pump 9 for supplying air pressure to the booster cylinder, and the solenoid valve 8 on the booster cylinder is connected to the controller 11 via the relay 10.
上述活塞16在油缸中的油壓增大時向各自對應的形變塊方向滑動,且抵住形變塊12使其向線性滑軌方向形變靠攏,從而推動形變塊上的制動塊13與線性滑軌緊密貼合,使滑塊與線性滑軌之間的位置維持固定。當油壓減小時,形變塊帶動制動塊恢復至原來位置。 The piston 16 slides in the direction of the corresponding deformation block when the oil pressure in the cylinder increases, and abuts against the deformation block 12 to deform toward the linear slide direction, thereby pushing the brake block 13 and the linear slide on the deformation block. Fits tightly to maintain a fixed position between the slider and the linear slide. When the oil pressure is reduced, the deformation block drives the brake block back to its original position.
上述電子繼電器同數控系統連接,直接由數控系統自動控制。制動機構以線性滑軌本體為鎖緊基準。制動單元鎖緊時自動定位,不會因為鎖緊力的變動而影響線性滑軌的定位精度,以防止制動機構在軸向的反向竄動。 The above electronic relay is connected with the numerical control system and directly controlled by the numerical control system. The brake mechanism uses a linear slide body as the locking reference. The brake unit is automatically positioned when it is locked, and the positioning accuracy of the linear slide rail is not affected by the change of the locking force to prevent the brake mechanism from being reversed in the axial direction.
上述技術方案僅體現了本發明技術方案的優選技術方案,本技術領域的技術人員對其中某些部分所可能做出的一些變動均體現了本發明的原理,屬於本發明的保護範圍之內。 The above technical solutions only exemplify the preferred technical solutions of the technical solutions of the present invention, and some variations that may be made by those skilled in the art to some of them may embodies the principles of the present invention and fall within the protection scope of the present invention.
1‧‧‧線性滑軌 1‧‧‧Linear slides
2‧‧‧滑塊 2‧‧‧ Slider
3‧‧‧制動機構座 3‧‧‧ brake mechanism seat
4‧‧‧進油口 4‧‧‧Inlet
5‧‧‧出油口 5‧‧‧ Oil outlet
6‧‧‧儲油瓶 6‧‧‧ oil storage bottle
7‧‧‧增壓缸 7‧‧‧Supercharged cylinder
8‧‧‧電磁閥 8‧‧‧ solenoid valve
9‧‧‧氣泵 9‧‧‧Air pump
10‧‧‧繼電器 10‧‧‧ Relay
11‧‧‧控制器 11‧‧‧ Controller
14‧‧‧油路 14‧‧‧ oil road
15‧‧‧油缸 15‧‧‧Cylinder
16‧‧‧活塞 16‧‧‧Piston
17‧‧‧形變間隙 17‧‧‧ deformation gap
Claims (2)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2012103160662A CN103252653A (en) | 2012-08-31 | 2012-08-31 | Brake mechanism of linear slide rails |
Publications (2)
Publication Number | Publication Date |
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TW201408894A true TW201408894A (en) | 2014-03-01 |
TWI541451B TWI541451B (en) | 2016-07-11 |
Family
ID=48957049
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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TW102101704A TWI541451B (en) | 2012-08-31 | 2013-01-16 | Linear slide brake mechanism |
Country Status (2)
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CN (1) | CN103252653A (en) |
TW (1) | TWI541451B (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103769873A (en) * | 2014-01-06 | 2014-05-07 | 中国一拖集团有限公司 | Plunger oil cylinder structure for locking combined lathe |
CN107263131A (en) * | 2016-10-12 | 2017-10-20 | 天津市天工伟业数控机床有限公司 | High-precision numerical control machine positioning and locking system |
CN107387555B (en) * | 2017-08-03 | 2020-05-08 | 张佳恩 | Mechanical guide rail capable of reducing resistance |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH08121476A (en) * | 1994-10-27 | 1996-05-14 | Nippon Thompson Co Ltd | Stopping device and rolling guide unit equipped with this stopping device |
US6578677B2 (en) * | 2001-11-21 | 2003-06-17 | Industrial Technology Research Institute | Braking device of linear guide |
CN201177553Y (en) * | 2008-03-03 | 2009-01-07 | 苏州试验仪器总厂 | Independent oil cylinder type gas-liquid supercharging band brake device |
DE102009012626B4 (en) * | 2009-03-11 | 2017-04-20 | Schaeffler Technologies AG & Co. KG | Linear guide with braking device |
CN201684804U (en) * | 2010-01-21 | 2010-12-29 | 上海埃锡尔数控机床有限公司 | Servo control system for plate bending machine |
CN101987419A (en) * | 2010-07-01 | 2011-03-23 | 周玲奇 | Brake block for numerical control machine |
CN203125138U (en) * | 2012-08-31 | 2013-08-14 | 天津市天工伟业数控机床有限公司 | Linear sliding rail braking mechanism |
-
2012
- 2012-08-31 CN CN2012103160662A patent/CN103252653A/en active Pending
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2013
- 2013-01-16 TW TW102101704A patent/TWI541451B/en not_active IP Right Cessation
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TWI541451B (en) | 2016-07-11 |
CN103252653A (en) | 2013-08-21 |
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