CN213257539U - Gear machining numerical control equipment - Google Patents

Abstract

The utility model discloses a gear machining numerical control equipment, which comprises a supporting table, a support body, electric putter, the slide bar, first motor, the mill, control panel, power cord and clamping device, this gear machining numerical control equipment is through having set up clamping device, it makes the threaded rod rotate after adjusting the angle of regulating plate well to rotate the knob, the second motor drives the lead screw and rotates and make two sliding plates be close to and press from both sides tightly, increase the fixity, it can produce the impact force and make the gear displacement to have solved current numerical control equipment when grinding the gear, make the gear fluting department offset easily, the problem that leads to processing failure, through having set up the bearing, when the lead screw rotates work, the right side can carry out spacing rotation through the bearing, make the lead screw rotate more stably.

Description

Gear machining numerical control equipment

Technical Field

The utility model relates to a gear machining relevant field specifically is a gear machining numerical control equipment.

Background

The gear is a core transmission component in the movement of the automobile, the quality of the processing quality of the gear directly affects the vibration noise, the reliability and the like of an automobile assembly and even the whole automobile, and sometimes becomes a key factor for restricting the improvement of the product level.

The gear groove needs to be ground by using numerical control equipment in the gear machining process, but the existing numerical control equipment can generate impact force to enable the gear to displace when the gear is ground, so that the position of the gear groove is easy to deviate, and the machining failure is caused.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above insufficiency, the utility model provides a gear machining numerical control equipment here.

The utility model is realized by constructing a gear processing numerical control device, which comprises a support table, wherein the support table is vertically fixed with the bottom of the frame body, the top of the frame body is connected with an electric push rod through a bolt, the bottom of the electric push rod is connected with a sliding rod, the middle part of the sliding rod slides up and down along the frame body, the right side of the sliding rod is connected with a first motor through a bolt, the support table is connected with the bottom of a clamping device, the clamping device comprises a frame body, a second motor, a screw rod, a bearing, a sliding plate, a sliding ring and an adjusting mechanism, the bottom of the frame body is connected with the support table, the right side of the second motor is connected with the frame body through a bolt, an output shaft of the second motor is connected with the screw rod, the screw rod is rotationally matched with the inner side of the frame, the adjusting mechanism is connected with the front end of the sliding plate.

Preferably, the output shaft of the first motor is connected with the grinding disc through a transmission rod, a control panel is arranged on the right side of the frame body, the right side of the control panel is tightly stretched into the control panel through a power line, and the electric push rod, the first motor and the second motor are electrically connected with the power line through the control panel.

Preferably, adjustment mechanism includes block, knob, threaded rod, connecting axle, regulating plate and pivot, the block right side is connected with the sliding plate, the knob left side is fixed with the threaded rod to connecting axle and regulating plate normal running fit are passed through to the threaded rod left side, regulating plate bottom is through pivot and block normal running fit, the pivot sets up in the threaded rod middle part.

Preferably, the frame body is in a C shape, and the length-width ratio of the frame body is 4: 1.

Preferably, the screw rods are symmetrically provided with two sections, and the middle lines of the two sections of screw rods are opposite.

Preferably, the left side of the block body is arc-shaped, and the length of the arc-shaped part is the same as that of the right side of the adjusting plate.

Preferably, the surface of the knob is provided with anti-skid grains, and each anti-skid grain is arranged at equal distance.

Preferably, the adjusting plate is arc-shaped, and a rubber pad is arranged on the left side surface of the adjusting plate.

Preferably, the rotating shaft is made of stainless steel.

The utility model has the advantages of as follows: the utility model discloses an improve and provide a gear machining numerical control equipment here, compare with equipment of the same type, have following improvement:

the method has the advantages that: a gear machining numerical control equipment, through having set up clamping device, rotate the knob and make the threaded rod rotate the angle back of adjusting the board, the second motor drives the lead screw and rotates and make two sliding plates be close to and press from both sides tightly, increases the fixity, has solved current numerical control equipment and can produce the impact force when grinding the gear and make gear displacement, makes gear fluting department offset easily, leads to the problem of processing failure.

The method has the advantages that: a gear machining numerical control equipment, through having set up the bearing, when the lead screw rotates work, the right side can carry out spacing rotation through the bearing for the lead screw rotates more stably.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the clamping device of the present invention;

fig. 3 is a schematic top view of the bearing of the present invention;

fig. 4 is a schematic view of the adjusting mechanism of the present invention;

fig. 5 is a schematic structural diagram of the point a in fig. 4 according to the present invention.

In the figure: the device comprises a support table-1, a frame body-2, an electric push rod-3, a sliding rod-4, a first motor-5, a grinding disc-6, a control panel-7, a power line-8, a clamping device-9, a frame body-91, a second motor-92, a screw rod-93, a bearing-94, a sliding plate-95, a sliding ring-96, an adjusting mechanism-97, a block body-971, a knob-972, a threaded rod-973, a connecting shaft-974, an adjusting plate-975 and a rotating shaft-976.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1, the utility model discloses a gear machining numerical control equipment, including brace table 1, brace table 1 is vertical fixed in 2 bottoms of support body, 2 tops of support body are connected with electric putter 3 through the bolt, electric putter 3 bottoms are connected with slide bar 4, slide bar 4 middle part slides from top to bottom along support body 2, and slide bar 4 right side is connected with first motor 5 through the bolt, brace table 1 is connected with clamping device 9 bottom, first motor 5 output shaft is connected with mill 6 through the transfer line, 2 right sides of support body are provided with control panel 7, control panel 7 right side is closely stretched into by power cord 8, electric putter 3, first motor 5 and second motor 92 all are connected with power cord 8 electricity through control panel 7.

Referring to fig. 2-3, the utility model discloses a gear machining numerical control device, clamping device 9 includes framework 91, second motor 92, lead screw 93, bearing 94, sliding plate 95, sliding ring 96 and adjustment mechanism 97, framework 91 bottom is connected with supporting bench 1, second motor 92 right side is connected with framework 91 through the bolt, and second motor 92 output shaft is connected with lead screw 93, lead screw 93 passes through bearing 94 and framework 91 inboard normal running fit, sliding plate 95 middle part passes through sliding ring 96 and slides along lead screw 93 from side to side, adjustment mechanism 97 is connected with the sliding plate 95 front end, framework 91 is the C word shape, and the long wide ratio of framework 91 is 4:1, can fine installation, lead screw 93 is provided with two sections each other symmetrically, and two sections lead screw 93 line middle parts are opposite, better transmission carries out.

Please refer to fig. 4-5, the utility model discloses a gear machining numerical control device, adjustment mechanism 97 includes block 971, knob 972, threaded rod 973, connecting axle 974, regulating plate 975 and pivot 976, block 971 right side is connected with sliding plate 95, knob 972 left side is fixed with threaded rod 973, and threaded rod 973 left side is through connecting axle 974 and regulating plate 975 normal running fit, regulating plate 975 bottom is through pivot and block 971 normal running fit, pivot 976 sets up in threaded rod 973 middle part, block 971 left side is the arc, and arc department length is the same with regulating plate 975 right side, the knob 972 surface is provided with anti-skidding line, and every equal distance of antiskid is seted up, be difficult for taking off the hand during use, regulating plate 975 is the arc, and regulating plate 975 left side surface is provided with the rubber pad, can increase frictional force.

The utility model provides a gear machining numerical control device through improvement, and the working principle is as follows;

firstly, after a power line 8 is connected, a control panel 7 is used for starting equipment, so that an electric push rod 3 drives a sliding rod 4 to move downwards, meanwhile, a first motor 5 drives a grinding disc 6 to rotate through a transmission rod for grinding, and a support table 1 and a frame body 2 play a main supporting role;

secondly, after the knob 972 is rotated to enable the threaded rod 973 to rotate through the rotating shaft 976 and the connecting shaft 974 to adjust the angle of the adjusting plate 975, the second motor 92 drives the screw rod 93 to rotate under the fixation of the frame 91 to enable the two sliding plates 95 to approach and clamp the two sliding plates, and therefore the fixation performance is improved;

thirdly, when the lead screw 93 rotates, the right side can carry out spacing rotation through the bearing 94 for the lead screw 93 rotates more stably, the block 971 plays a fixed role, and the slip ring 96 plays a role in increasing the sliding stability.

Claims (8)

1. A gear machining numerical control device comprises a support table (1), wherein the support table (1) is vertically fixed with the bottom of a frame body (2), the top of the frame body (2) is connected with an electric push rod (3) through a bolt, the bottom of the electric push rod (3) is connected with a sliding rod (4), the middle part of the sliding rod (4) slides up and down along the frame body (2), and the right side of the sliding rod (4) is connected with a first motor (5) through a bolt;

the method is characterized in that: the clamping device (9) comprises a frame body (91), a second motor (92), a screw rod (93), a bearing (94), a sliding plate (95), a sliding ring (96) and an adjusting mechanism (97), the bottom of the frame body (91) is connected with the clamping device (9), the right side of the second motor (92) is connected with the frame body (91) through a bolt, an output shaft of the second motor (92) is connected with the screw rod (93), the screw rod (93) is in rotating fit with the inner side of the frame body (91) through the bearing (94), the middle of the sliding plate (95) slides left and right along the screw rod (93) through the sliding ring (96), and the adjusting mechanism (97) is connected with the front end of the sliding plate (95).

2. The numerical control gear machining apparatus according to claim 1, characterized in that: the output shaft of the first motor (5) is connected with the grinding disc (6) through a transmission rod, a control panel (7) is arranged on the right side of the frame body (2), the right side of the control panel (7) is tightly stretched into the grinding disc through a power line (8), and the electric push rod (3), the first motor (5) and the second motor (92) are electrically connected with the power line (8) through the control panel (7).

3. The numerical control gear machining apparatus according to claim 1, characterized in that: adjustment mechanism (97) include block (971), knob (972), threaded rod (973), connecting axle (974), regulating plate (975) and pivot (976), block (971) right side is connected with sliding plate (95), knob (972) left side is fixed with threaded rod (973) to threaded rod (973) left side is through connecting axle (974) and regulating plate (975) normal running fit, regulating plate (975) bottom is through pivot and block (971) normal running fit, pivot (976) set up in threaded rod (973) middle part.

4. The numerical control gear machining apparatus according to claim 1, characterized in that: the frame body (91) is C-shaped, and the length-width ratio of the frame body (91) is 4: 1.

5. The numerical control gear machining apparatus according to claim 1, characterized in that: the screw rod (93) is symmetrically provided with two sections, and the lines of the middle parts of the two sections of screw rods (93) are opposite.

6. A gear processing numerical control apparatus according to claim 3, characterized in that: the left side of the block body (971) is arc-shaped, and the length of the arc-shaped position is the same as that of the right side of the adjusting plate (975).

7. A gear processing numerical control apparatus according to claim 3, characterized in that: the surface of the knob (972) is provided with anti-skid grains, and each anti-skid grain is arranged at equal distance.

8. A gear processing numerical control apparatus according to claim 3, characterized in that: the adjusting plate (975) is arc-shaped, and a rubber pad is arranged on the left side surface of the adjusting plate (975).

Images