CN207071794U - Bore milling tooth machining unit - Google Patents

Abstract

The utility model discloses a kind of brill milling tooth machining unit.The brill milling tooth machining unit includes base, the workbench being fixed on the base, located at the base and positioned at the erecting bed of the workbench side, located at the X-axis drive mechanism of the erecting bed, it is set up in the erecting bed and the saddle driven by the X-axis drive mechanism, located at the Y-axis drive mechanism of the saddle, the column driven located at the saddle and by the Y-axis drive mechanism, Z axis drive mechanism located at the column side, the main spindle box and the knife-changing system with being fixedly connected at the top of the column driven located at the column side and by the Z axis drive mechanism, the main spindle box and the knife-changing system are located above the workbench, the knife-changing system includes the fixed mount being fixedly connected with column top and the tool magazine for being connected to the fixed mount, the tool magazine is flying disc type servo tool magazine.The brill milling tooth machining unit that the utility model also provides, load is constant, stability is good.

Description

Bore milling tooth machining unit

Technical field

It the utility model is related to technical field of processing equipment, and in particular to one kind bores milling tooth machining unit.

Background technology

Drilling machine is a kind of common process equipment in mechanical field, and its is simple to operate, practical and convenient, is particularly suitable for small workpiece The processing of product.With the development of science and technology, variously-shaped complicated product continues to bring out, the processing request of device to hole is also more next Higher, therefore, three axle compounding machines also arise at the historic moment, and it mainly includes three line shafts, drives corresponding cutter to work to be processed Part carries out milling, tapping, drilling etc., workpiece is completed milling, tapping, drilling three process, processing on the basis of once clamping Efficiency is improved, and reduces the labor intensity of worker.

In correlation technique, bore milling tooth machining unit and designed using vertical machining centre, C-shaped structure, workpieces processing is with work Platform and saddle move on base, and main spindle box moves up and down with column.Due to workpiece as movable workbench, load be not permanent It is fixed, machinery easily abrasion, and mechanical stability is poor.

Therefore, it is necessary to providing a kind of new structure solves above-mentioned technical problem.

Utility model content

The purpose of this utility model is to overcome above-mentioned technical problem, there is provided a kind of to load the dynamic pillar constant, stability is good Bore milling tooth machining unit.

The technical solution of the utility model is：

One kind bores milling tooth machining unit, including base, be fixed on the base workbench, located at the base and be located at institute State the erecting bed of workbench side, the X-axis drive mechanism located at the erecting bed, be set up in the erecting bed and by the X-axis Drive mechanism driving saddle, the Y-axis drive mechanism located at the saddle, located at the saddle and by the Y-axis drive mechanism The column of driving, the Z axis drive mechanism located at the column side, located at the column side and by the Z axis drive mechanism The main spindle box of driving and the knife-changing system with being fixedly connected at the top of the column, the main spindle box and the knife-changing system are located at institute State above workbench, the knife-changing system includes that one end is fixedly connected with column top and the other end is connected the fixation of tool magazine Frame, the loose cutter block for being installed on the fixed mount and the arm of forging a knife being connected with the loose cutter block, the tool magazine are flying disc type servo knife Storehouse.

Preferably, the X-axis drive mechanism include located at the X-axis line slideway of the erecting bed, X-axis servo motor, with The X-axis leading screw of the X-axis servo motor connection and the X-axis feed screw nut for being sheathed on the X-axis leading screw；The saddle includes being located at The X-axis slide block and X-axis nut seat of its bottom, the X-axis slide block are connected with the X-axis line slideway, the X-axis nut seat It is fixedly connected with the X-axis feed screw nut.

Preferably, the Y-axis drive mechanism includes Y-axis line slideway, Y-axis servo motor and the institute located at the saddle State the Y-axis screw mandrel of Y-axis servo motor connection and be sheathed on the Y-axis feed screw nut of the Y-axis screw mandrel, the Y-axis line slideway, Y Axle servo motor, Y-axis screw mandrel are located at the surface of the saddle and the X-axis slide block opposite side；The column includes being located at it The Y-axis sliding block and Y-axis nut seat of bottom, the Y-axis sliding block and the Y-axis line slideway are connected, the Y-axis nut seat with The Y-axis feed screw nut is fixedly connected.

Preferably, the Z axis drive mechanism include located at the Z axis line slideway of the column side, Z axis servo motor, The Z axis screw mandrel that is connected with the Z axis servo motor and the Z axis feed screw nut for being sheathed on the Z axis leading screw；The main spindle box includes Casing, Z axis sliding block and Z axis nut seat located at the casing side, the Z axis sliding block coordinate with the Z axis line slideway and connected Connect, the Z axis nut seat is fixedly connected with the Z axis feed screw nut.

Preferably, the main spindle box is dry also includes being installed on the spindle motor of the casing, is connected with the spindle motor Main shaft and being used for of being connected with the main shaft connect the broaching tool bar of handle of a knife.

Preferably, the broaching tool bar is located at the surface of the tool magazine tool changing position.

Preferably, the fixed mount is in frame structure, and the spindle motor, the Z axis servo motor pass through the fixation Frame.

Preferably, the loose cutter block is cylinder.

Compared with prior art, brill milling tooth machining unit provided by the utility model, beneficial effect are：

First, the brill milling tooth machining unit is using dynamic pillar, and workpiece and workbench are fixed, and saddle, column and the axle of main spindle box three Superposition is located at base, the main spindle box is moved along X-axis, Y-axis and Z axis, and load is constant, and machinery does not allow easy to wear, stability Preferably；The lathe of same specification, brill milling tooth machining unit floor space provided by the utility model are fewer than traditional vertical processing center line Half.

2nd, the brill milling tooth machining unit can the optional position tool changing in X-axis effective travel, and use flying disc type tool magazine, tool changing Speed is fast, improves and bores milling tapping efficiency.

3rd, machining area and the moving area for boring milling tooth machining unit separates, and useless cut after work pieces process is not easy to fall on On machine tool movement part, aspect is useless to cut cleaning.

Brief description of the drawings

Fig. 1 is the structural representation of brill milling tooth machining unit provided by the utility model；

Fig. 2 is the structural representation that X-axis drive mechanism in milling tooth machining unit is bored shown in Fig. 1；

Fig. 3 is that saddle, the structural representation of Y-axis drive mechanism in milling tooth machining unit are bored shown in Fig. 1；

Fig. 4 is the structural representation that milling tooth machining unit central post, Z axis drive mechanism, main spindle box and knife-changing system are bored shown in Fig. 1 Figure；

Fig. 5 is the structural representation of column, Z axis drive mechanism and knife-changing system shown in Fig. 4；

Fig. 6 is the structural representation of main spindle box shown in Fig. 4.

Embodiment

Below in conjunction with drawings and embodiments, the utility model is described in further detail.

Referring to Fig. 1, the structural representation for brill milling tooth machining unit provided by the utility model.The brill milling tooth machining unit 100 Including base 11, fixed workbench 12 with the base 11, located at the base 11 and it is located at the side of workbench 12 Erecting bed 13, the X-axis drive mechanism 14 located at the erecting bed 13, be set up in the erecting bed 13 and driven by the X-axis Saddle 15 that mechanism 14 drives, the Y-axis drive mechanism 16 located at the saddle 15, driven located at the saddle 15 and by the Y-axis Motivation structure 16 drive column 17, the Z axis drive mechanism 18 located at the column side, located at the side of column 17 and by institute State the main spindle box 19 of the driving of Z axis drive mechanism 18, with the knife-changing system 20 that is fixedly connected at the top of the column 17 and located at described The protective cover 21 of base 11.The main spindle box 19 and the knife-changing system 20 are positioned at the top of workbench 12.

The base 11 is used as support base, for supporting other parts.The workbench 12 is fixed with the erecting bed 13 It is installed on the base 11, and both are set up in parallel.The workbench 12 is used to fix processing work, i.e., described workpieces processing It is positioned on the workbench 12 and is not moved；The erecting bed 13 is used to install processing process equipment, and its upper surface is downward Depression forms the first groove 131.

Fig. 2 is please referred to, is the structural representation that X-axis drive mechanism in milling tooth machining unit is bored shown in Fig. 1.The X-axis is driven Motivation structure 14 is located at the erecting bed 13, it include X-axis line slideway 141, X-axis servo motor 142, X-axis motor base 143, with The X-axis bearing block 145 that the X-axis leading screw 144 and the tail end of X-axis leading screw 144 that the X-axis servo motor 142 connects are connected And it is sheathed on the X-axis feed screw nut 146 of the X-axis leading screw 144.The quantity of the X-axis line slideway 141 is two, parallel Every in setting and the erecting bed 13；The X-axis servo motor 142, X-axis leading screw 144 are in the groove 131 and positioned at two Between the individual X-axis line slideway 141.

Fig. 3 is please referred to, is that saddle, the structural representation of Y-axis drive mechanism in milling tooth machining unit are bored shown in Fig. 1.It is described Saddle 15 includes the X-axis slide block 151 and X-axis nut seat (not shown) located at its bottom, and the X-axis slide block 151 and the X-axis are straight Line guide rail 141 is connected, and the X-axis nut seat is fixedly connected with the X-axis feed screw nut 146.The saddle 15 is by upper table Depression forms the second groove 153 downwards.

The X-axis drive mechanism 14 drives the operation principle of the saddle 15 as follows：The X-axis servo motor 142 works, The X-axis leading screw 144 is driven to rotate, the X-axis leading screw 144 rotates, and drives and is sheathed on X-axis feed screw nut 146 outside it along X side To moving along a straight line, because the X-axis feed screw nut 146 and the saddle 15 pass through the Z axis nut located at the bottom of saddle 15 Seat is fixedly connected, so as to drive the saddle 15 to be moved along a straight line along X-direction.The saddle 15 does straight line fortune along X-direction When dynamic, it is connected by the X-axis slide block 151 and the X-axis line slideway 141, makes the saddle 15 along the X-axis straight line Guide rail 141 slides.

The Y-axis drive mechanism 16 includes Y-axis line slideway 161, Y-axis servo motor 162, the Y located at the saddle 15 Axle motor base 163, the Y-axis leading screw 164 being connected with the Y-axis servo motor 162 and the tail end of Y-axis leading screw 164 are connected Y-axis bearing block 165 and be sheathed on the Y-axis feed screw nut 166 of the Y-axis leading screw 164.The Y-axis line slideway 161, Y-axis are watched Motor 162, Y-axis motor base 163 and the Y-axis leading screw 164 are taken located at the saddle 15 and the opposite side of X-axis slide block 151 Surface, and Y-axis servo motor 162, Y-axis motor base 163, the Y-axis leading screw 164 are in second groove 153.

Fig. 4 and Fig. 5 are please referred to, wherein Fig. 4 is that milling tooth machining unit central post, Z axis drive mechanism, main shaft are bored shown in Fig. 1 The structural representation of case and knife-changing system, Fig. 5 are the structural representation of column, Z axis drive mechanism and knife-changing system shown in Fig. 4. The column 17 includes the Y-axis sliding block 171 and Y-axis nut seat (not shown) located at its bottom, the Y-axis sliding block 171 and the Y Axle line slideway 161 is connected, and the Y-axis nut seat is fixedly connected with the Y-axis feed screw nut 166.The column 17 hangs down Straight and close to the workbench side surface indentation forms the 3rd groove 173.

The operation principle that the Y-axis drive mechanism 16 drives the column 17 to move is driven with reference to the X-axis drive mechanism 14 The operation principle that the dynamic saddle 15 moves, will not be described here.

The Z axis drive mechanism 18 includes Z axis line slideway 181, Z axis servo motor 182, the Z located at the column 17 Axle motor base 183, the Z axis leading screw 184 being connected with the Z axis servo motor 182 and the tail end of Z axis leading screw 184 are connected Z axis bearing block 185 and be sheathed on the Z axis feed screw nut 186 of the Z axis leading screw 184.The Z axis line slideway 181, Z axis are watched The side that motor 182, Z axis motor base 183, Z axis leading screw 184 and Z axis bearing block 185 are located at the column is taken, and the Z axis is watched Motor 182, Z axis motor base 183, Z axis leading screw 184 and Z axis bearing block 185 are taken in the 3rd groove 173.

Fig. 6 is please referred to, is the structural representation of main spindle box shown in Fig. 4.The main spindle box 19 is located at the column 17 Side, and its up and down motion is driven by the Z axis drive mechanism.The main spindle box 19 includes casing 191, located at the casing The Z axis sliding block 192 and Z axis nut seat (not shown) of side, the spindle motor 193 for being installed on the top of the casing 191, with it is described The main shaft (non-label) of the connection of spindle motor 193 and the broaching tool bar 195 for being used to connect handle of a knife being connected with the main shaft.The Z Axle sliding block 192 is connected with the Z axis line slideway 181, and the Z axis nut seat is fixed with the Z axis feed screw nut 186 to be connected Connect.

The knife-changing system 20 is fixedly connected with the top of the column 17, and it includes what is be connected with the top of column 17 Fixed mount 201, the tool magazine 202 for being fixed on the fixed mount 201, the loose cutter block 203 for being installed on the fixed mount 201 and one end with The arm 204 of forging a knife that the loose cutter block 203 connects.

The fixed mount 201 is in frame structure, and the spindle motor 193 and the Z axis servo motor 182 both pass through described Fixed mount, the design can make device structure more compact, save floor occupying area.One end of the fixed mount 201 is fixed on described vertical The top of post 17, the other end fix the tool magazine 202.

Several cutters for meeting different processing technologys are stored on the tool magazine 202, the tool magazine 202 rotates, will changed Cutter spacing is rotated to the lower section of the main shaft, carries out tool changing program.Preferably, the tool magazine 202 is flying disc type servo tool magazine, tool changing Speed is fast, and tool change time can reach 1.2s.

One end of the arm 204 of forging a knife is connected with the loose cutter block 203, and the other end is located at the top of broaching tool bar 195, institute State loose cutter block 203 and provide power for the arm 204 of forging a knife, shown arm 204 of forging a knife is moved up and down.

Tool changing operation principle is as follows：During tool changing, the main spindle box 19 is moved to change to position after, the end of the arm 204 of forging a knife Portion presses down the flange face that broaching tool bar 195 is stated in residence, and the loose cutter block 203 provides lower pressure, while the cutter claw of the tool magazine 20 The handle of a knife that the broaching tool bar 195 connects is clasped, the main shaft is moved up, and handle of a knife is pulled down from the broaching tool bar 195；The knife Storehouse 202 is rotated, and the handle of a knife of another cutter spacing is moved to the lower section of the main shaft, and the spindle motor 193 drives the main shaft Move down, install the handle of a knife positioned at the tool changing position.

Brill milling tooth machining unit provided by the utility model, operation principle are as follows：

Workpiece to be processed is positioned on the workbench 12, passes through the X-axis drive mechanism 14, the Y-axis driving machine Structure 16 and the Z axis drive mechanism 18, above the main shaft corresponding displaced of the main spindle box 19 to the workpiece to be processed, now The tool magazine 202 is similarly positioned in above the workpiece to be processed；Handle of a knife to be installed in the tool magazine 202 is rotated to tool changing Position, starts the spindle motor 193, the handle of a knife positioned at tool changing position is attached into the main shaft；According to setting control program, control Cutter on the handle of a knife is processed to the workpiece to be processed.

Using brill milling tooth machining unit provided by the utility model, movable part uses light-weight design, and mobile load is constant, Quick translational speed reaches 20-24m/min, and similar-type products are processed, and processing efficiency improves than traditional vertical machining centre 30-50%.

Compared with prior art, brill milling tooth machining unit provided by the utility model, beneficial effect are：

First, the brill milling tooth machining unit is using dynamic pillar, and workpiece and workbench are fixed, and saddle, column and the axle of main spindle box three Superposition is located at base, the main spindle box is moved along X-axis, Y-axis and Z axis, and load is constant, and machinery does not allow easy to wear, stability Preferably；The lathe of same specification, brill milling tooth machining unit floor space provided by the utility model are fewer than traditional vertical processing center line Half.

2nd, the brill milling tooth machining unit can the optional position tool changing in X-axis effective travel, and use flying disc type tool magazine, tool changing Speed is fast, improves and bores milling tapping efficiency.

3rd, machining area and the moving area for boring milling tooth machining unit separates, and useless cut after work pieces process is not easy to fall on On machine tool movement part, aspect is useless to cut cleaning.

Embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, it is every The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in Other related technical fields, are similarly included in scope of patent protection of the present utility model.

Claims (8)

1. one kind bores milling tooth machining unit, it is characterised in that including base, the workbench being fixed on the base, located at the bottom Seat and positioned at the erecting bed of the workbench side, the X-axis drive mechanism located at the erecting bed, be set up in the erecting bed simultaneously By the saddle of X-axis drive mechanism driving, the Y-axis drive mechanism located at the saddle, located at the saddle and by the Y-axis Drive mechanism driving column, the Z axis drive mechanism located at the column side, located at the column side and by the Z axis The main spindle box and the knife-changing system with being fixedly connected at the top of the column of drive mechanism driving, the main spindle box and the tool changing system System is above the workbench, and the knife-changing system is fixedly connected including one end with column top and the other end is connected knife The fixed mount in storehouse, the loose cutter block for being installed on the fixed mount and the arm of forging a knife being connected with the loose cutter block, the tool magazine are flying saucer Formula servo tool magazine.

2. brill milling tooth machining unit according to claim 1, it is characterised in that the X-axis drive mechanism includes being located at the peace Fill the X-axis line slideway of platform, X-axis servo motor, the X-axis leading screw being connected with the X-axis servo motor and be sheathed on the X-axis silk The X-axis feed screw nut of thick stick；The saddle includes the X-axis slide block and X-axis nut seat located at its bottom, the X-axis slide block and the X Axle line slideway is connected, and the X-axis nut seat is fixedly connected with the X-axis feed screw nut.

3. brill milling tooth machining unit according to claim 2, it is characterised in that the Y-axis drive mechanism includes being located at the saddle The Y-axis line slideway of seat, Y-axis servo motor, the Y-axis screw mandrel being connected with the Y-axis servo motor and it is sheathed on the Y-axis screw mandrel Y-axis feed screw nut, the Y-axis line slideway, Y-axis servo motor, Y-axis screw mandrel are located at the saddle and the X-axis slide block phase To the surface of side；The column includes the Y-axis sliding block and Y-axis nut seat located at its bottom, the Y-axis sliding block and the Y-axis Line slideway is connected, and the Y-axis nut seat is fixedly connected with the Y-axis feed screw nut.

4. brill milling tooth machining unit according to claim 3, it is characterised in that the Z axis drive mechanism is included located at described vertical The Z axis line slideway of post side, Z axis servo motor, the Z axis screw mandrel being connected with the Z axis servo motor and it is sheathed on the Z axis The Z axis feed screw nut of leading screw；The main spindle box includes casing, Z axis sliding block and Z axis nut seat located at the casing side, institute State Z axis sliding block to be connected with the Z axis line slideway, the Z axis nut seat is fixedly connected with the Z axis feed screw nut.

5. brill milling tooth machining unit according to claim 4, it is characterised in that the main spindle box is dry also to be included being installed on the case The spindle motor of body, the main shaft being connected with the spindle motor and the broaching tool bar for being used to connect handle of a knife being connected with the main shaft.

6. brill milling tooth machining unit according to claim 5, it is characterised in that the broaching tool bar is located at the tool magazine tool changing position Surface.

7. brill milling tooth machining unit according to claim 6, it is characterised in that the fixed mount is in frame structure, the main shaft Motor, the Z axis servo motor pass through the fixed mount.

8. brill milling tooth machining unit according to claim 7, it is characterised in that the loose cutter block is cylinder.