CN204859891U - Rotation type module chip mounter is fixed to two side arc feed formula levels - Google Patents

Abstract

The rotation type module chip mounter is fixed to two side arc feed formula levels that this reality is new comprises frame (B) and at least one module (M) of installing in frame (B), and a plurality of modules (M) are then arranged along the X direction, its characterized in that: a module (M) flies to reach seat (F), more than one worktable mechenism (W) including rotating head (R), arc, and three horizontal installation is in in the frame, the rotating head constitutes the relation of rotation with the frame, the arc flies to reach the both sides below that the seat is located the rotating head in pairs to the pivot of rotating head is the center in Y direction level facing to fixed, worktable mechenism is located mated arc and flies to reach between the seat and the below of rotating head, with frame constitution relative movement's relation, can all absorb wantonly and assign into arc each on flying to reach the seat and fly to reach contained component when the radius distributes each mounting head on the rotating head. The new novel structure of this reality, uniqueness, any one module can both be worked with " duplexing mode ", and efficiency improves at double.

Description

A kind of bilateral arc feeding type horizontal fixing rotary module chip mounter

Technical field

The utility model relates to chip mounter field, particularly relates to a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter.

Background technology

In high speed placement system many employings rotary type multiheaded structure that China's application is the most general, such as chip shooter machine (fixing horizontal is rotary), lightning head chip mounter (swing arm is vertically rotary), the rotary chip mounter in inclination angle (boom angle is rotary).Wherein chip shooter machine has a fixing capstan head usually, this tower is gear driven type mechanical structure, can not move, only do horizontal direction to rotate, its driven unit comprises power consumption cable, servo system, encoder, transducer and video camera etc. and is arranged on tower outer frame and keeps static, and the motion of its mounting head is carried out around the above-mentioned tower mediated by gear driven.Tower body has ellipse groove, when gear driven suction nozzle moves, mounting head moves up and down at groove, makes mounting head be in extreme lower position when pickup and attachment; While rotating, carry out the replacing etc. of the absorption of element, photograph, attachment and suction nozzle, component feeder is supplied by the truck moved back and forth below at machine, and wiring board realizes attachment by X, Y movable workbench.Machine has multiple mounting head, and the corresponding station of each mounting head, mounting head, under gear driven, through all stations, completes an attachment cycle, and the speed of attachment is determined by the rotating speed of gear and the speed of image processing.The major advantage of this machine is: continuously feeding, paste material continuously, and vision system is arranged between pickup point below mounting head and paster point, can carry out image processing in " flight ", therefore paster speed, has the title of " at a high speed ".

The shortcoming of this kind of machine is: heavy, huge, complicated, noise is large, dumb, efficiency is not high yet.This kind of machine is all that swivel head and motor, driver, power supply, sensor are isolated mostly, and swivel head is mechanical structure purely, and flying in addition to reach seat is motion, therefore complete machine structure is complicated, and operating noise is large, very flexible.The job order of swivel head is: certain working head starts from starting point feeding, and in motion process, then complete correction, test, then paste material, this process has only walked half distance, and second half distance of then going further is back to starting point, completes a paster operation.Its efficiency is not high is only about fifty percent, and this machine limit due to mechanical structure, and its placement speed has reached a limiting value, can not be improved largely again.

Self-defined: unroll rotating disk or capstan head public affairs of any one the attachment working head in a work period interior spinner head have circled the working method of " feeding-corrections-subsides are expected " only once-through operation, are called " single work pattern ".Above-mentioned chip shooter machine should just belong to this pattern.Unroll any one attachment working head in a work period interior spinner head rotating disk or capstan head public affairs have circled the working method of " feeding-corrections-subsides are expected " twice operation, are called " dual-mode ".It is generally acknowledged, the efficiency of " dual-mode " is the twice of the efficiency of " single work pattern ".

Utility model content

For above defect, the technical problems to be solved in the utility model is, a kind of that eliminate many complexity, heavy mechanical part is provided, structure is simplified, volume is little, noise is low, and working method becomes the rotary chip mounter of " dual-mode " by " single work pattern ".

For solving the problems of the technologies described above, the utility model provides a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter, be made up of frame and at least one module rack-mounted, multiple module then arranges along the X direction, it is characterized in that: a described module comprises swivel head, arc flies to reach seat, more than one table mechanism, and three's level is arranged in described frame; Described swivel head forms rotation relation with frame; Described arc flies to reach the down either side that seat is positioned at swivel head in pairs, and centered by the rotating shaft of swivel head, level faces toward fixing in the Y direction; Described table mechanism flies to reach between seat and the below of swivel head at paired arc, forms the relation of relative movement with frame.

Described swivel head is primarily of rotating disk, rotating disk driving machine, mounting head, motion control component, router composition; Described mounting head comprises mounting head body, Z axis attachment driving machine, θ axle attachment driving machine, and wherein Z axis attachment driving machine, θ axle attachment driving machine are fixed on mounting head body; Described rotating disk level is arranged in frame and relatively rotates with frame, and described rotating disk driving machine to be arranged in frame and to drive turntable rotation; Described motion control component and router are fixed on rotating disk, mounting head be uniformly distributed be fixed on rotating disk etc. in radial location; Motion control component mounts driving machine with Z axis respectively, θ axle mounts driving machine and router forms correspondence, and router and host computer form correspondence.

The suction nozzle of described mounting head can cover the PCB part in Y-direction region on involved table mechanism.

Described arc flies to reach seat and comprises that the first arc flies to reach seat, the second arc flies to reach seat, and the two is positioned at the down either side of swivel head in pairs, and centered by the rotating shaft of swivel head, level, facing to fixing, the two have arc round, flying to reach for assigning in the Y direction.

Assign into each center flying the material window reached that described arc flies to reach on seat substantially all equal to the distance in the axle center of rotating disk; Each mounting head can be drawn arbitrarily each that assign into that arc flies to reach on seat and fly to reach contained element.

A described module also comprises photomoduel, and described photomoduel comprises first time and looks photomoduel depending on photomoduel and second time, and the two is fixed on swivel head; Described photomoduel also comprises depending on photomoduel and second look photomoduel on first, and the two is fixed in frame; Photomoduel and host computer form correspondence.

The correspondence that described router, photomoduel become with upper structure by comprise cable, slip ring, wireless, light wave wherein more than one modes transmit.

A described module also comprises protective cover, and this protective cover is arranged in frame, concentric with rotating disk, and is enclosed within swivel head, can keep static, also can do free rotation with frame or swivel head with frame.

The beneficial effects of the utility model are:

Compared to prior art, the utility model uses the arc fixed for a pair to fly to reach the truck of seat replacement movement, mounting head and relevant parts thereof are comprised driving machine, motion control component, router, transducer, electromagnetically operated valve etc. be arranged on rotating disk and replace capstan head and mounting head thereof, that eliminate many complexity, heavy mechanical part, structure is simplified, volume reduces, noise step-down, and working method is become " dual-mode " by " single work pattern ", speed ratio " at a high speed " more " at a high speed ".Multiple module can high mixing SMT attachment.

Accompanying drawing explanation

By reading by means of only illustrating the following detailed description reference accompanying drawing that provide, can have a clear understanding of of the present utility model many-sided.

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (the unshielded cover of single mode group) of the utility model embodiment 1.

Fig. 2 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (single mode group (M1) has protective cover) of the utility model embodiment 1.

Fig. 3 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (bimodulus group (M1, M2) has protective cover) of the utility model embodiment 1.

Fig. 4 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (three modules (M1, M2, M3) have protective cover) of the utility model embodiment 1.

Fig. 5 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (arc flies to reach seat) of the utility model embodiment 1.

Fig. 6 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (single table mechanism (W1)) of the utility model embodiment 1.

Fig. 7 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (dual working table mechanism (W1, W2), X-X) of the utility model embodiment 1.

Fig. 8 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (dual working table mechanism (W1, W2), Y-Y) of the utility model embodiment 1.

Fig. 9 is the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (four table mechanisms (W1, W2, W3, W4), X-Y) of the utility model embodiment 1.

Embodiment

In order to understand the utility model better, explain execution mode of the present utility model in detail below in conjunction with accompanying drawing.

Embodiment 1

As shown in Figure 1, the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (the unshielded cover of single mode group) of the utility model embodiment 1.

A kind of bilateral arc feeding type horizontal fixing rotary module chip mounter, be made up of frame (B) and at least one module (M) be arranged in frame (B), multiple module (M) then arranges along the X direction, it is characterized in that: a described module (M) comprises swivel head (R), arc flies to reach seat (F), more than one table mechanism (w), and three's level is arranged in described frame (B); Described swivel head (R) forms rotation relation with frame (B); Described arc flies to reach the down either side that seat (F) is positioned at swivel head (R) in pairs, and centered by the rotating shaft of swivel head (R), level faces toward fixing in the Y direction; Described table mechanism (W) is positioned at paired arc and flies to reach between seat (F) and the below of swivel head (R), forms the relation of relative movement with frame (B).

Described swivel head (R) is primarily of rotating disk (R1), rotating disk driving machine (R2), mounting head (R3), motion control component (R4), router (R5) composition; Described mounting head (R3) comprises mounting head body (R3N), Z axis attachment driving machine (R3Z), θ axle attachment driving machine (R3A), and wherein Z axis attachment driving machine (R3Z), θ axle attachment driving machine (R3A) are fixed on mounting head body (R3N); Described rotating disk (R1) level is arranged in frame (B) and frame (B) relatively rotates, and described rotating disk driving machine (R2) is arranged on frame (B) and goes up and drive rotating disk (R1) to rotate; Described motion control component (R4) and router (R5) are fixed on rotating disk (R1), mounting head (R3) be uniformly distributed be fixed on rotating disk (R1) etc. in radial location; Motion control component (R4) mounts driving machine (R3Z) with Z axis respectively, θ axle mounts driving machine (R3A) and router (R5) forms correspondence, and router (R5) and host computer form correspondence.

Described rotating disk driving machine (R2) also forms correspondence with host computer, and its other motion control component and router are all placed on the outside of swivel head (R).

The suction nozzle of described mounting head (R3) can cover the PCB part in the upper Y-direction region of involved table mechanism (W).

Described arc flies to reach seat (F) and comprises that the first arc flies to reach seat (F1), the second arc flies to reach seat (F2), the two is positioned at the down either side of swivel head (R) in pairs, centered by the rotating shaft of swivel head (R), level faces toward fixing in the Y direction, the two there is arc round, flying to reach for assigning.

Assign into each center flying the material window reached that described arc flies to reach on seat (F) substantially all equal to the distance in the axle center of rotating disk (R1); Each mounting head (R3) can be drawn arbitrarily each that assign into that arc flies to reach on seat (F) and fly to reach contained element.

A described module (M) also comprises photomoduel (C), described photomoduel (C) comprises first time and looks photomoduel (C2) depending on photomoduel (C1) and second time, and the two is fixed on swivel head (R); Described photomoduel (C) also comprises depending on photomoduel (C3) and second look photomoduel (C4) on first, and the two is fixed in frame (B); Photomoduel (C) and host computer form correspondence.

The correspondence that described router (R5), photomoduel (C) become with upper structure by comprise cable, slip ring, wireless, light wave wherein more than one modes transmit.

Photomoduel (C) can guarantee to precision element attachment accurate.First time depending on photomoduel (C1) and second time main application depending on photomoduel (C2): display flies to reach material window, correction flies to reach position, can limit observation video limit adjustment fly to reach a round to make to fly to reach material window center aligning mounting head suction nozzle; Program communication block mask of taking pictures point (Mark), to determine the position of PCB; To take pictures accurate pad special in PCB pad, to compensate the deviation of current pad actual coordinate value and programming coordinates value; Visual programming, very can write working procedure to PCB to intuitive and convenient online depending on camera under utilization.Depending on the main application depending on photomoduel (C4) on photomoduel (C3) and second on first: take pictures to the element above it, carry out visual identity and correction; Display suction nozzle, corrects suction nozzle position, can observe adjustment mounting head position, video limit or change undesired component (such as suction nozzle) to guarantee that suction nozzle center is correct in limit.

Embodiment 2

As shown in Figure 2, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (single mode group (M1) has protective cover) of the utility model embodiment 2.

Embodiment 2 is roughly the same with embodiment 1, difference is only, a described module (M) also comprises protective cover (S), this protective cover (S) is arranged in frame (B), concentric with rotating disk (R1), and be enclosed within swivel head (R), frame (B) can be followed to keep static, frame (B) or swivel head (R) also can be followed to do free rotation.In addition, the first arc flies to reach seat has plugged first to be flown to reach group (F1F), and the second arc flies to reach seat has plugged second to be flown to reach group (F2F), and two fly to reach group seems curved.

The realization of " dual-mode ".With regard to a module, the implementation procedure of dual-mode is such: the suction nozzle of one of them mounting head (R3) from the off, fly to reach seat (F1) top at the first arc to pass through, fly first one of them reaching in group (F1F) to fly to reach feeding in material window, take pictures depending on the top of photomoduel (C3) on first again, in " flight ", carry out image processing, then on PCB, paste material; Then fly to reach seat (F2) top at the second arc to pass through, fly second one of them reaching in group (F2F) to fly to reach feeding in material window, take pictures depending on the top of photomoduel (C4) on second again, image processing is carried out in " flight ", then on PCB, material is pasted, finally get back to starting point, complete an attachment cycle.In this cycle, attachment working head public affairs circle and have passed through the operating process of twice " feeding-correction-subsides material ", achieve dual-mode.

Embodiment 3

As shown in Figure 3, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (bimodulus group (M1, M2) has protective cover) of the utility model embodiment 3.

Embodiment 3 is roughly the same with embodiment 2, and difference is only, adds a module (M2).

Embodiment 4

As shown in Figure 4, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (three modules (M1, M2, M3) have protective cover) of the utility model embodiment 4.

Embodiment 4 is roughly the same with embodiment 3, and difference is only, adds a module (M3).

Embodiment 5

As shown in Figure 5, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (arc flies to reach seat) of the utility model embodiment 5.

Described arc flies to reach seat (F) and comprises that the first arc flies to reach seat (F1), the second arc flies to reach seat (F2), the two is positioned at the down either side of swivel head (R) in pairs, centered by the rotating shaft of swivel head (R), level faces toward fixing in the Y direction, the two there is arc round, flying to reach for assigning.First arc flies to reach on seat (F1) the first arc round (F1H), and the second arc flies to reach on seat (F2) the second arc round (F2H).

Embodiment 6

As shown in Figure 6, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (single table mechanism (W1)) of the utility model embodiment 6.

Be provided with a workbench (W1), take disk axes as axis coordinate system, workbench (W1) is positioned among four quadrants.

Workbench (W1) and frame (B) form the relation along X-direction relative movement.

Embodiment 7

As shown in Figure 7, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (dual working table mechanism (W1, W2), X-X) of the utility model embodiment 7.

Be provided with the first workbench (W1), the second workbench (W2), belong to X-X distribution, namely be axis coordinate system with disk axes, first workbench (W1) is positioned among second and third quadrant, and the second workbench (W2) is positioned among first and fourth quadrant.

First workbench (W1) and the second workbench (W2) form the relation along X-direction relative movement with frame (B) respectively.

Embodiment 8

As shown in Figure 8, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (dual working table mechanism (W1, W2), Y-Y) of the utility model embodiment 8.

Be provided with the first workbench (W1), the second workbench (W2), belong to Y-Y distribution, namely be axis coordinate system with disk axes, first workbench (W1) is positioned among the third and fourth quadrant, and the second workbench (W2) is positioned among the first and second quadrants.

First workbench (W1) and the second workbench (W2) form the relation along X-direction relative movement with frame (B) respectively.

Embodiment 9

As shown in Figure 9, be the structural representation of a kind of bilateral arc feeding type horizontal fixing rotary module chip mounter (four table mechanisms (W1, W2, W3, W4), X-Y) of the utility model embodiment 9.

Be provided with the first workbench (W1), the second workbench (W2), 3rd workbench (W3), the 4th workbench (W4), belong to X-Y distribution, namely be axis coordinate system with disk axes, first workbench (W1) is positioned among third quadrant, second workbench (W2) is positioned among the second quadrant, and the 3rd workbench (W3) is positioned among fourth quadrant, and the 4th workbench (W4) is positioned among first quartile.

(W2, the 3rd workbench (W3) and the 4th workbench (W4) form the relation along X-direction relative movement with frame (B) respectively for first workbench (W1), the second workbench.

Embodiment of the present utility model just illustrates its embodiment, does not lie in and limits its technical scheme; This description should not be construed as restriction of the present utility model.

Claims (9)

1. a bilateral arc feeding type horizontal fixing rotary module chip mounter, be made up of frame (B) and at least one module (M) be arranged in frame (B), multiple module (M) then arranges along the X direction, it is characterized in that: a described module (M) comprises swivel head (R), arc flies to reach seat (F), more than one table mechanism (W), and three's level is arranged in described frame (B); Described swivel head (R) forms rotation relation with frame (B); Described arc flies to reach the down either side that seat (F) is positioned at swivel head (R) in pairs, and centered by the rotating shaft of swivel head (R), level faces toward fixing in the Y direction; Described table mechanism (W) is positioned at paired arc and flies to reach between seat (F) and the below of swivel head (R), forms the relation of relative movement with frame (B).

2. bilateral arc feeding type according to claim 1 horizontal fixing rotary module chip mounter, is characterized in that: described swivel head (R) is primarily of rotating disk (R1), rotating disk driving machine (R2), mounting head (R3), motion control component (R4), router (R5) composition; Described mounting head (R3) comprises mounting head body (R3N), Z axis attachment driving machine (R3Z), θ axle attachment driving machine (R3A), and wherein Z axis attachment driving machine (R3Z), θ axle attachment driving machine (R3A) are fixed on mounting head body (R3N); Described rotating disk (R1) level is arranged in frame (B) and frame (B) relatively rotates, and described rotating disk driving machine (R2) is arranged on frame (B) and goes up and drive rotating disk (R1) to rotate; Described motion control component (R4) and router (R5) are fixed on rotating disk (R1), mounting head (R3) be uniformly distributed be fixed on rotating disk (R1) etc. in radial location; Motion control component (R4) mounts driving machine (R3Z) with Z axis respectively, θ axle mounts driving machine (R3A) and router (R5) forms correspondence, and router (R5) and host computer form correspondence.

3. bilateral arc feeding type according to claim 2 horizontal fixing rotary module chip mounter, is characterized in that: the suction nozzle of described mounting head (R3) can cover the PCB part in the upper Y-direction region of involved table mechanism (W).

4. bilateral arc feeding type according to claim 1 horizontal fixing rotary module chip mounter, it is characterized in that: described arc flies to reach seat (F) and comprises that the first arc flies to reach seat (F1), the second arc flies to reach seat (F2), the two is positioned at the down either side of swivel head (R) in pairs, centered by the rotating shaft of swivel head (R), level faces toward fixing in the Y direction, the two there is arc round, flying to reach for assigning.

5. the bilateral arc feeding type horizontal fixing rotary module chip mounter according to Claims 1 to 4 any one, is characterized in that: assign into each center flying the material window reached that described arc flies to reach on seat (F) substantially all equal to the distance in the axle center of rotating disk (R1); Each mounting head (R3) can be drawn arbitrarily each that assign into that arc flies to reach on seat (F) and fly to reach contained element.

6. bilateral arc feeding type according to claim 1 horizontal fixing rotary module chip mounter, it is characterized in that: a described module (M) also comprises photomoduel (C), described photomoduel (C) comprises first time and looks photomoduel (C2) depending on photomoduel (C1) and second time, and the two is fixed on swivel head (R); Described photomoduel (C) also comprises depending on photomoduel (C3) and second look photomoduel (C4) on first, and the two is fixed in frame (B); Photomoduel (C) and host computer form correspondence.

7. bilateral arc feeding type according to claim 2 horizontal fixing rotary module chip mounter, it is characterized in that: a described module (M) also comprises photomoduel (C), described photomoduel (C) comprises first time and looks photomoduel (C2) depending on photomoduel (C1) and second time, and the two is fixed on swivel head (R); Described photomoduel (C) also comprises depending on photomoduel (C3) and second look photomoduel (C4) on first, and the two is fixed in frame (B); Photomoduel (C) and host computer form correspondence.

8. bilateral arc feeding type according to claim 7 horizontal fixing rotary module chip mounter, is characterized in that: the correspondence that described router (R5), photomoduel (C) become with upper structure by comprise cable, slip ring, wireless, light wave wherein more than one modes transmit.

9. bilateral arc feeding type according to claim 1 and 2 horizontal fixing rotary module chip mounter, it is characterized in that: a described module (M) also comprises protective cover (S), this protective cover (S) is arranged in frame (B), concentric with rotating disk (R1), and be enclosed within swivel head (R), frame (B) can be followed to keep static, frame (B) or swivel head (R) also can be followed to do free rotation.