The present invention relates to a tool clamping device of a multifunctional machining center, particularly to a compact tool clamping device of a tool seat, whereby tools can be fast exchanged.
The conventional manual tool clamping device of a multifunctional machining center comprises a draw rod, a rotation block, a gripper, a fixing block and a spring. The user rotates the rotation block with the draw rod, and the elastic force of the spring pushes the fixing block to slide via the irregular cross section of the rotation block to close and open the gripper, whereby the tool is clamped or released. The conventional manual tool clamping device needs a longer time to exchange tools.
To automate tool exchanging, a conventional automatic tool clamping device comprises a gripper, a spring and a displacement member. The displacement member is driven to slide, and the spring restores the displacement member to a given position. Therefore, automating the moving of the displacement member can automate the opening and closing of the gripper. The conventional automatic tool clamping device needs a longer displacement for the sliding of the gripper and a greater space for the opening and closing of the gripper. Therefore, tool exchanging is hard to undertaken in a limited space.
The primary objective of the present invention is to provide a manual/automatic tool clamping device, which has a short stroke of tool exchanging and needs less time and space for tool exchanging, whereby is achieved a compact tool clamping device of a tool seat.
To achieve the abovementioned objective, the present invention proposes a tool clamping device of a tool seat, which is installed on a multifunctional machining center and used to firmly secure a tool having a steel ball collar, and which comprises a spindle, a disc-type spring, a draw rod, a hydraulic member and a steel ball. The spindle has an accommodation space accommodating the disc-type spring. The draw rod is installed inside the accommodation space, able to slide with respect to the spindle, and pressed by the disc-type spring to contact the spindle. The draw rod has a draw ring. The hydraulic member is arranged close to the draw rod and applies pressure to separate the draw rod from the spindle. The steel ball is accommodated in the draw ring. The disc-type spring presses the draw rod and makes the draw ring push the steel ball outward and latch the steel ball collar of the tool, whereby the tool is secured firmly. The hydraulic member applies pressure to move the draw ring to accommodate the steel ball, whereby the tool is released.
As the present invention uses a steel ball and a draw ring to secure the tool, the draw rod of the tool clamping device of the present invention has a shorter stroke. Therefore, manual or automatic tool exchanging needs a smaller space in the present invention than in the conventional technologies.
Below, the embodiments are described in detail to demonstrate the technical contents of the present invention. However, the embodiments are only to exemplify the present invention but not to limit the scope of the present invention.
Refer to from
The hydraulic member 50 is arranged close to the draw rod 40 and applies pressure to separate the draw rod 40 from the spindle 20. The steel ball 60 is accommodated in the draw ring 41. The disc-type spring 30 presses the draw rod 40 and makes the draw ring 41 push the steel ball 60 outward and latch the steel ball collar 11 of the tool 10, whereby the tool 10 is secured firmly, as shown in
The present invention further comprises a tool seat 70, and the spindle 20 is rotatably installed in the tool seat 70 via at least one bearing 71. At least one planar oil seal 80 is arranged between the tool seat 70 and the spindle 20. The spindle 20 and the tool seat 70 respectively have hydraulic pipings 22 and 72. The planar oil seal 80 has two flanges 81 and at least one through-hole 82. The flanges 81 are compressed to press against the spindle 20 and encase the hydraulic piping 22 with the through-hole 82 exactly facing the hydraulic piping 72 of the tool seat 70.
Refer to
The first collar 91 can be screwed to engage with the tool seat 70. The second collar 92 has an annular inner concave gear 923, and the spindle 20 has an annular outer gear 23 corresponding to the inner concave gear 923. The inner concave gear 923 can latch with the outer gear 23, and the spindle 20 can slide axially into the second collar 92 to engage with the second collar 92.
Refer to
In conclusion, the present invention uses the steel ball 60 and the draw ring 41 to secure and release the tool 10, wherein the draw rod 40 has a stroke shorter than the conventional clamping device. Therefore, manual or automatic tool exchanging needs a smaller space in the present invention. The present invention also discloses the planar oil seal 80, which can form planar contact to provide better airtightness. Further, the present invention also discloses the angle-positioning device 90, which enables the spindle 20 to have a specified angle with respect to the tool seat 70, whereby the outer gear 23 of the spindle 20 can precisely mate with the multifunctional machining center without collision of gear teeth.