CN212634457U - Milling machine equipment - Google Patents

Abstract

The utility model relates to a milling machine equipment, including the equipment box, be equipped with the milling machine device in the equipment box, the milling machine device is including the operation base station, be equipped with processing platform on the operation base station, processing platform is last to be equipped with and to treat the machined part, the top of treating the machined part is equipped with the milling machine aircraft nose, the milling machine aircraft nose is established on the aircraft nose portal frame, the bottom and the base station base of operation base station are connected, the base station base is established and is stacked up at the damping on the bottom in the equipment box, it has elastic damping material to press to be filled in between the medial surface of base station base and equipment box, the. The utility model discloses a with the scheme of milling machine device setting in the equipment box body that has the damping function, have the damping, improve processingquality, eliminate the characteristics of potential safety hazard.

Description

Milling machine equipment

Technical Field

The utility model relates to a milling machine equipment, in particular to modified milling machine equipment belongs to milling machine equipment field.

Background

A milling machine is a machine tool that machines various surfaces of a workpiece with a milling cutter. The milling machine is driven by the rotation of the milling cutter, and the feeding motion between the rotating milling cutter and the workpiece is used to realize the machining of different structures. The milling machine can mill planes, grooves, gear teeth, threads and spline shafts, can also process relatively complex molded surfaces, and is widely applied to the field of machining. The existing milling machine equipment exposes the running milling machine to the external environment, the milling machine influences the processing quality of a workpiece due to vibration generated by running, and the exposed milling machine is easily influenced by the external environment and can influence the external environment to a certain extent, so that potential safety hazards are brought.

SUMMERY OF THE UTILITY MODEL

The utility model discloses milling machine equipment discloses new scheme, adopts the scheme of setting up the milling machine device in the equipment box body that has the damping function, has solved current scheme and has produced vibration and milling machine and external environment interact because of the milling machine operation, influences processingquality, brings the problem of potential safety hazard.

The utility model discloses milling machine equipment includes the equipment box, be equipped with the milling machine device in the equipment box, the milling machine device is including the operation base station, be equipped with processing platform on the operation base station, processing platform is last to be equipped with and to treat the machined part, the top of treating the machined part is equipped with the milling machine aircraft nose, the milling machine aircraft nose is established on the aircraft nose portal frame, the bottom and the base station base of operation base station are connected, the base station base is established and is stacked up at the damping on the bottom in the equipment box, it has elastic damping material to press to be filled with between the medial surface of base station base and equipment box.

Further, be equipped with the splint slide rail in the processing platform of this scheme, one of splint slide rail serves and is equipped with left splint slide, left splint slide is connected with the left splint of establishing in processing platform left side mesa top, be equipped with right splint slide on the other end of splint slide rail, right splint slide is connected with the right splint of establishing in processing platform right side mesa top, left splint slide and adjusting screw thread connection, right splint slide and adjusting screw thread connection are turned over, adjusting screw stretches out and is equipped with the operation hand wheel on the end of one side of processing platform, drive left splint through the rotatory adjusting screw of operation hand wheel, right splint move in opposite directions.

Further, the aircraft nose portal frame of this scheme includes left stand, right stand, be equipped with between left stand and right stand and bear the weight of the crossbeam, left stand includes left stand slide, be equipped with left stand body on the left stand slide, left stand slide forms sliding connection A with left stand slide rail, right stand includes right stand slide, be equipped with right stand body on the right stand slide, right stand slide forms sliding connection B with right stand slide rail, the aircraft nose portal frame passes through sliding connection A, sliding connection B and slides along left stand slide rail, right stand slide rail.

Furthermore, be equipped with left stand motor on the outer operation base station of the one end of left stand slide rail of this scheme, the output of left stand motor forms screw drive through left screw rod and left stand slide and is connected A, be equipped with right stand motor on the outer operation base station of the one end of right stand slide rail, the output of right stand motor forms screw drive through right screw rod and right stand slide and is connected B, left stand motor, right stand motor is through the screw drive who corresponds and connect A, screw drive connects B drive aircraft nose portal frame along left stand slide rail, right stand slide rail slides.

Further, the left stand body of this scheme includes left stand shell, bottom in the left stand shell is equipped with left elevator motor, left elevator motor's output is connected with left elevator screw's lower extreme, left elevator screw forms screw transmission with the left end that stretches into the bearing beam of left stand shell and connects C, right stand body includes right stand shell, bottom in the right stand shell is equipped with right elevator motor, right elevator motor's output is connected with right elevator screw's lower extreme, right elevator screw forms screw transmission with the right-hand member that stretches into the bearing beam of right stand shell and connects D, left elevator motor, right elevator motor connects C through the screw transmission that corresponds, screw transmission connects D drive bearing beam and reciprocates.

Furthermore, the bearing cross beam of this scheme includes the crossbeam frame, is equipped with horizontal slide rail on the crossbeam frame, is equipped with the aircraft nose slide on the horizontal slide rail, is equipped with the milling machine aircraft nose on the aircraft nose slide, and the milling machine aircraft nose passes through the aircraft nose slide and moves along horizontal slide rail.

Still further, be equipped with aircraft nose slide motor on the crossbeam frame outside the one end of horizontal slide rail of this scheme, the output of aircraft nose slide motor is connected with the one end of horizontal screw rod, and horizontal screw rod forms screw drive with the aircraft nose slide and is connected E, and aircraft nose slide motor passes through screw drive and connects E drive aircraft nose slide and remove along horizontal slide rail.

Still further, the milling machine aircraft nose of this scheme includes aircraft nose swing motor, aircraft nose motor power, and aircraft nose swing motor fixes on the aircraft nose slide, and aircraft nose swing motor's output is connected with aircraft nose motor power's fuselage, and aircraft nose motor power's output is connected with the milling cutter transmission, and aircraft nose swing motor drives milling cutter horizontal hunting adjustment processing angle, and aircraft nose motor power drives milling cutter and mills the processing.

The utility model discloses milling machine equipment adopts the scheme of setting up the milling machine device in the equipment box body that has the damping function, has the damping, improves processingquality, eliminates the characteristics of potential safety hazard.

Drawings

FIG. 1 is a schematic partial cross-sectional view of a milling machine apparatus.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic front view of a milling machine apparatus.

Fig. 4 is an enlarged partial sectional view of a portion B in fig. 3.

Fig. 5 is a schematic right-hand view of a milling machine device.

Fig. 6 is a schematic top view of a milling machine apparatus.

The device comprises a device box 100, a vibration damping pad 101, an elastic vibration damping material 102, an operation base 210, a left upright post slide rail 211, a right upright post slide rail 212, a processing platform 220, a base 230, a left splint slide seat 311, a left splint 312, a right splint slide seat 321, a right splint 322, an adjusting screw 331, an operation hand wheel 332, a left upright post slide seat 411, a left upright post motor 412, a left screw 413, a left lifting motor 414, a left lifting screw 415, a right upright post slide seat 421, a right upright post motor 422, a right screw 423, a right lifting motor 424, a cross beam 510, a transverse slide rail 511, a machine head slide seat 521, a machine head slide seat motor 523, a transverse screw 601, a milling cutter 610, a machine head swinging motor 522 and a power motor 620.

Detailed Description

As shown in fig. 1, 2 and 3, the milling machine equipment comprises an equipment box body, a milling machine device is arranged in the equipment box body, the milling machine device comprises an operation base platform, a processing platform is arranged on the operation base platform, a workpiece to be processed is arranged on the processing platform, a milling machine head is arranged above the workpiece to be processed, the milling machine head is arranged on a machine head portal frame, the bottom of the operation base platform is connected with a base platform base, the base platform base is arranged on a vibration damping pad on the bottom in the equipment box body, an elastic vibration damping material is filled between the inner side surfaces of the base platform base and the equipment box body in a pressing mode, and. Above-mentioned scheme adopts the scheme of setting up the milling machine device in the equipment box that has the damping function, utilizes the shielding effect of equipment box effectively to avoid the milling machine at the operation in-process with the interact of external environment, sets up damping pad and elastic damping material in the bottom of milling machine and has effectively reduced the influence of the vibration that the milling machine operation produced to processingquality, has improved the security of equipment.

In order to satisfy the effective positioning requirement of processing the work piece in the course of working, as shown in fig. 3, 6, be equipped with the splint slide rail in the processing platform of this scheme, one of splint slide rail is served and is equipped with left splint slide, left splint slide is connected with the left splint of establishing in processing platform left side mesa top, be equipped with right splint slide on the other end of splint slide rail, right splint slide is connected with the right splint of establishing in processing platform right side mesa top, left splint slide and adjusting screw thread connection, right splint slide and adjusting screw thread connection are turned over, be equipped with the operation hand wheel on the end of one side that adjusting screw stretches out processing platform, drive left splint through the rotatory adjusting screw of operation hand wheel, right splint move in opposite directions, press from both sides the machined part on the tight.

In order to realize milling, this scheme discloses a concrete aircraft nose portal frame, as shown in fig. 3, the aircraft nose portal frame of this scheme includes left stand, right stand, be equipped with bearing beam between left stand and right stand, left stand includes left stand slide, be equipped with left stand body on the left stand slide, left stand slide forms sliding connection A with left stand slide, right stand includes right stand slide, be equipped with right stand body on the right stand slide, right stand slide forms sliding connection B with right stand slide, the aircraft nose portal frame passes through sliding connection A, sliding connection B is along left stand slide, right stand slide slides. Based on above scheme, in order to realize the automatic shift of aircraft nose portal frame and adjust, as shown in fig. 6, be equipped with left stand motor on the outer operation base station of the one end of left stand slide rail of this scheme, the output of left stand motor forms screw thread transmission through left screw rod and left stand slide and is connected A, be equipped with right stand motor on the outer operation base station of the one end of right stand slide rail, the output of right stand motor forms screw thread transmission through right screw rod and right stand slide and is connected B, left stand motor, right stand motor connects A through the screw thread transmission that corresponds, screw thread transmission connects B and drives the aircraft nose portal frame along left stand slide rail, right stand slide rail slides.

In order to satisfy the requirement of bearing beam's upper and lower adjusting position, as shown in fig. 3, 4, the left stand body of this scheme includes left stand shell, bottom in the left stand shell is equipped with left elevator motor, left elevator motor's output is connected with the lower extreme of left elevator screw, left elevator screw forms screw transmission with the left end that stretches into the bearing beam of left stand shell and is connected C, right stand body includes right stand shell, bottom in the right stand shell is equipped with right elevator motor, right elevator motor's output is connected with the lower extreme of right elevator screw, right elevator screw forms screw transmission with the right-hand member that stretches into the bearing beam of right stand shell and is connected D, left elevator motor, right elevator motor connects C through the screw transmission that corresponds, screw transmission connects D drive bearing beam and reciprocates.

In order to realize the function of the bearing beam and meet the requirement of the milling machine head for transverse movement and position adjustment, as shown in fig. 3 and 6, the bearing beam comprises a beam frame, a transverse slide rail is arranged on the beam frame, a machine head slide seat is arranged on the transverse slide rail, a milling machine head is arranged on the machine head slide seat, and the milling machine head moves along the transverse slide rail through the machine head slide seat. Based on above scheme, in order to realize the automatic shift adjustment of milling machine aircraft nose, as shown in fig. 3, be equipped with aircraft nose slide motor on the crossbeam frame outside the one end of the horizontal slide rail of this scheme, the output of aircraft nose slide motor is connected with the one end of horizontal screw rod, and horizontal screw rod forms screw thread transmission with the aircraft nose slide and is connected E, and aircraft nose slide motor passes through screw thread transmission and connects E drive aircraft nose slide and move along horizontal slide rail. Further, in order to meet the requirement of flexibly adjusting the machining angle of the milling cutter, as shown in fig. 3 and 5, the milling machine head of the scheme comprises a machine head swing motor and a machine head power motor, wherein the machine head swing motor is fixed on a machine head sliding seat, the output end of the machine head swing motor is connected with the machine body of the machine head power motor, the output end of the machine head power motor is connected with the milling cutter in a transmission manner, the machine head swing motor drives the milling cutter to swing left and right to adjust the machining angle, and the machine head power motor drives the milling cutter to.

The devices, components, etc. disclosed in this embodiment may be implemented in any conventional and customary manner known in the art, unless otherwise specified. The milling machine equipment of the present solution is not limited to what is disclosed in the specific embodiments, the technical solutions presented in the examples can be extended based on the understanding of the person skilled in the art, and simple alternatives made by the person skilled in the art according to the present solution in combination with common general knowledge also belong to the scope of the present solution.

Claims (8)

1. Milling machine equipment, characterized by includes the equipment box, be equipped with the milling machine device in the equipment box, the milling machine device is including the operation base station, be equipped with processing platform on the operation base station, processing platform is last to be equipped with and to treat the machined part, the top of treating the machined part is equipped with the milling machine aircraft nose, the milling machine aircraft nose is established on the aircraft nose portal frame, the bottom and the base station base of operation base station are connected, the base station base is established damping on the bottom in the equipment box stacks up, the base station base with the elastic damping material has been filled in to the pressure between the medial surface of equipment box, damping pad, elastic damping material absorb the vibration that the operation of milling machine device produced.

2. The milling machine equipment as claimed in claim 1, wherein a clamp slide rail is arranged in the processing platform, a left clamp slide seat is arranged at one end of the clamp slide rail, the left clamp slide seat is connected with a left clamp plate arranged above the left table board of the processing platform, a right clamp slide seat is arranged at the other end of the clamp slide rail, the right clamp slide seat is connected with a right clamp plate arranged above the right table board of the processing platform, the left clamp slide seat is in positive threaded connection with an adjusting screw, the right clamp slide seat is in reverse threaded connection with the adjusting screw, an operation hand wheel is arranged at the end of one side of the processing platform, from which the adjusting screw extends, and the left clamp plate and the right clamp plate are driven to move in opposite directions by the rotation of the operation hand wheel.

3. The milling machine equipment of claim 1, wherein the machine head portal frame comprises a left column and a right column, a bearing beam is arranged between the left column and the right column, the left column comprises a left column slide seat, a left upright body is arranged on the left column slide seat, the left column slide seat and the left column slide rail form a sliding connection A, the right column comprises a right column slide seat, a right upright body is arranged on the right column slide seat, the right column slide seat and the right column slide rail form a sliding connection B, and the machine head portal frame slides along the left column slide rail and the right column slide rail through the sliding connection A and the sliding connection B.

4. The milling machine equipment according to claim 3, wherein a left column motor is disposed on the operation base station outside one end of the left column slide rail, an output end of the left column motor forms a threaded transmission connection A with the left column slide seat through a left screw, a right column motor is disposed on the operation base station outside one end of the right column slide rail, an output end of the right column motor forms a threaded transmission connection B with the right column slide seat through a right screw, and the left column motor and the right column motor drive the machine head portal frame to slide along the left column slide rail and the right column slide rail through the corresponding threaded transmission connection A and the corresponding threaded transmission connection B.

5. The milling machine apparatus of claim 3, wherein the left upright column includes a left upright housing, the bottom in the left upright shell is provided with a left lifting motor, the output end of the left lifting motor is connected with the lower end of a left lifting screw rod, the left lifting screw rod is in threaded transmission connection with the left end of the bearing cross beam extending into the left upright shell, the right upright post body comprises a right upright post shell, the bottom in the right upright post shell is provided with a right lifting motor, the output end of the right lifting motor is connected with the lower end of a right lifting screw rod, the right lifting screw rod is in threaded transmission connection with the right end of the bearing cross beam extending into the right upright shell, and the left lifting motor and the right lifting motor drive the bearing beam to move up and down through the corresponding threaded transmission connection C and the threaded transmission connection D.

6. Milling machine equipment according to claim 3, characterized in that the carrying beam comprises a beam frame, on which a transverse slide rail is provided, on which a head slide is provided, on which the milling machine head is provided, which moves along the transverse slide rail via the head slide.

7. The milling machine apparatus of claim 6, wherein a head carriage motor is provided on the cross beam frame outside one end of the transverse slide rail, an output end of the head carriage motor is connected with one end of a transverse screw, the transverse screw forms a threaded drive connection E with the head carriage, and the head carriage motor drives the head carriage to move along the transverse slide rail through the threaded drive connection E.

8. The milling machine equipment as claimed in claim 6, wherein the milling machine head comprises a head swing motor and a head power motor, the head swing motor is fixed on the head slide, an output end of the head swing motor is connected with a machine body of the head power motor, an output end of the head power motor is in transmission connection with the milling cutter, the head swing motor drives the milling cutter to swing left and right to adjust a machining angle, and the head power motor drives the milling cutter to perform milling.

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