JP5058716B2 - robot - Google Patents

Description

  The present invention includes a frame extending in a uniaxial direction, a guide rail installed so as to extend along the frame, a slide table supported so as to be movable along the guide rail, and the slide table with respect to the frame. The present invention relates to a robot provided with a moving drive device.

  Conventionally, as shown in Patent Document 1 below, a slide table that is supported so as to be movable with respect to a frame (fixed base) includes a stator made up of a plurality of permanent magnets, and an electric machine arranged opposite to the stator. In a linear motor robot (linear slider) that is driven by a linear motor having a mover composed of a child coil or the like, a plurality of the mover and the slide table that moves together with the mover are arranged along the moving direction. Things have been done. According to the robot disclosed in Patent Document 1, since a plurality of movable slide tables are provided, by attaching a plurality of work devices to the slide table, the plurality of work devices can be moved simultaneously. However, there is an advantage that a desired operation can be performed efficiently.

  By the way, in the robot as described above, there is foreign matter such as dust inside the frame, and it is necessary to keep the usage environment clean, for example, when the robot is used in a clean room. For this reason, it is desired to prevent the above-mentioned foreign matter from being scattered outside the robot. This is the same even when a drive device of a different type from the linear motor is used as means for moving the slide table.

Therefore, in Patent Document 2 below, a single slide table (slider) is supported so as to be movable along an opening provided on the upper surface of a frame (housing), and is provided integrally with the slide table. In the robot that moves the slide table along the opening of the frame by feeding the ball nut according to the rotational drive of the ball screw shaft screwed with the nut, the opening of the frame is sealed with a seal plate. By blocking, foreign matter existing inside the frame is prevented from scattering outside through the opening.
JP 2001-2111630 A JP 2000-197304 A

  In the robot disclosed in Patent Document 1, a plurality of slide tables to which work devices can be attached are arranged side by side in the moving direction, so that the movable range of one slide table is the same as that of the other slide table. There is a problem that the working area of the working device that is affected by the movement and moves together with the slide tables is limited.

  On the other hand, in the robot disclosed in Patent Document 2, although it is possible to prevent the scattering of foreign matter existing inside the frame, only one movable slide table is provided. There is a problem that only the working device can be driven, and the range of application of the robot is further limited.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a robot that is excellent in usability and that can effectively prevent foreign matters such as dust from being scattered outside. And

In order to solve the above problems, the present invention provides a frame extending in a uniaxial direction, a guide rail installed so as to extend along the frame, and a slide table supported so as to be movable along the guide rail. And a drive device that moves the slide table relative to the frame, wherein the guide rail is provided on each of the left and right sides of the frame, and the drive force of the drive device is used as the slide table. a pair of left and right slide table movable individually along the respective guide rails according to are arranged so as to be aligned in the width direction of the frame, the partition member separating between the pair of the slide table is provided in the frame by being, on one surface of the frame, a pair of openings defined by the partition member It provided corresponding to the movable region of each of the slide table, in which each opening, and wherein the covered respectively by a pair of shutter members (claim 1).

According to the robot of the present invention, a pair of slide tables are arranged so as to be aligned in the width direction of the frame with respect to the frame extending in the uniaxial direction, and each of these slide tables is individually arranged in the longitudinal direction of the frame along the guide rail Since it is supported so as to be movable, when the pair of slide tables are moved, their movable ranges do not affect each other, and each slide table can be moved freely along the longitudinal direction of the frame. Can be made. For this reason, there is an advantage that a desired work can be efficiently performed while freely moving a plurality of work equipments by attaching predetermined work equipments according to applications to the respective slide tables.

In addition, since the pair of openings provided on one surface of the frame corresponding to the movable area of each slide table is covered by the shutter member, each slide table has moved along the frame. Even in this case, it is possible to effectively prevent foreign matters such as dust existing inside the frame from being scattered outside the frame through the openings.

  The type of the driving device that moves the slide table is not particularly limited. For example, the configuration of the present invention is such that the driving device includes a stator having a plurality of magnets arranged along the longitudinal direction of the frame; The present invention can be suitably applied to a linear motor that is provided integrally with each slide table and includes a mover that can move relative to the stator.

When the drive device is a linear motor, a pair of movers corresponding to the slide tables is provided as the mover, and a single row of the stators is provided for the pair of movers. Preferred ( Claim 3 ).

  According to this configuration, there is an advantage that the structure of the robot can be further simplified and the parts cost and the number of assembly steps can be reduced more effectively.

Meanwhile, as the movable element, a pair of movable members corresponding to each of the slide table is provided, as the stator, the stator of the two rows respectively corresponding to the pair of movers are provided, these two rows that said partition member is provided between the stator are also preferred (claim 4).

According to this structure, there exists an advantage that the said partition member can be easily installed with a simple structure between two rows of stators.

Further, the pair of slide table, to be supported movably along the auxiliary guide member provided in the partition wall member is preferably (claim 5).

  As described above, when the auxiliary guide member is provided on the partition wall member separately from the guide rail provided on the frame and the slide tables are moved along the guide rail and the auxiliary guide member, There is an advantage that interference between the tables can be effectively prevented by more accurately defining the trajectory during movement of the slide tables.

  As described above, according to the present invention, it is possible to provide a robot that is easy to use and that can effectively prevent foreign matters such as dust from being scattered outside.

  1 to 3 show a first embodiment of a linear motor robot according to the present invention. As shown in these drawings, the linear motor type robot 1 (hereinafter abbreviated as “robot 1”) of the present embodiment is installed so as to extend in one axis direction (X axis direction shown in FIGS. 1 and 3). A frame 2 and two slide tables 3 and 4 movable along the frame 2 are provided. In the following description, the description will proceed with the longitudinal direction of the frame 2 (X-axis direction) as the front-rear direction and the width direction of the frame 2 (direction perpendicular to the X-axis direction) as the left-right direction.

  The frame 2 has a substantially C-shaped cross section, and is installed with its opening facing upward. That is, the frame 2 includes a bottom wall portion 11 installed horizontally, a pair of left and right side wall portions 12 extending upward from both left and right end portions of the bottom wall portion 11, and an upper end portion of the pair of side wall portions 12. Each has a pair of left and right upper wall portions 13 extending in the horizontal direction. Such a frame 2 can be constituted by an extruded material made of, for example, an aluminum alloy.

  In addition, a pair of left and right guide rails 14 and 15 extending in the front-rear direction are disposed inside the frame 2 on both left and right sides of the bottom wall portion 11, and inside the left and right guide rails 14 and 15. A stator 5 extending in the front-rear direction is disposed at the center of the bottom wall portion 11 positioned.

  The stator 5 is provided on a flat plate-shaped fixed yoke 17 extending in the front-rear direction and the upper surface of the fixed yoke 17 so that the polarities are alternately different (the magnetic poles on the surface side are N, S, N, S... It comprises a plurality of magnets 16 arranged in the front-rear direction.

  The magnets 16 are made of plate-like permanent magnets that are rectangular in top view, and are arranged in parallel to each other and in a line in the front-rear direction at a constant pitch. In addition, the magnet 16 in this embodiment is disposed in a state where the magnet 16 is inclined at a predetermined angle with respect to the longitudinal axis of the frame 2 (the short side of the magnet 16 is not parallel to the longitudinal axis of the frame 2).

  A rail slider 18 is slidably fitted to the pair of left and right guide rails 14 and 15, and the lower portions of the two slide tables 3 and 4 are formed on the upper surface of each rail slider 18. The base portions 19 are fixed by means such as bolt fastening. That is, the slide tables 3 and 4 are movably supported on the guide rails 14 and 15 via the rail slider 18.

  The slide tables 3 and 4 are arranged so as to be lined up in the left-right direction on the upper side of the frame 2, and are supported so as to be individually movable back and forth along the guide rails 14 and 15. Specifically, the pair of left and right slide tables 3, 4 includes a base portion 19 fixed to the rail slider 18, a table body 21 fixed to the upper surface of the base portion 19 by means such as bolt fastening, A table cover 22 that covers the upper surface of the table body 21 is provided. Then, a pair of left and right movable elements 6 (details will be described later) that can move relative to the stator 5 are attached to the base portion 19, so that the movable elements 6 are integrated with the movable elements 6. The slide tables 3 and 4 are configured to move individually along the guide rails 14 and 15. In FIG. 1, the table 4 on one side of the left and right slide tables 3 and 4 is shown with the table cover 22 removed.

  The table main body 21 of the slide tables 3 and 4 has a pair of left and right side frame portions 24 extending in the front-rear direction on both left and right side portions. At two places in the front-rear direction of each side frame portion 24, there are provided mounting seats 24a projecting upward from the other portions, and various work devices according to applications are provided on the upper surface of the mounting seat 24a. It is fixed by means such as bolt fastening.

  Further, two side frame portions 24 adjacent to the mounting seat 24a in the side frame portion 24 project upward with a projecting amount smaller than the mounting seat 24a, and constitute a mounting surface for the table cover 22. A table fixing portion 24b is provided. The table cover 22 is formed so as to cover the upper surface of the table main body 21 excluding the installation portion of the mounting seat 24a, and is fixed to the table main body 21 while being placed on the table fixing portion 24b.

  As shown in FIG. 1, the slide tables 3, 4 including the table main body 21 and the table cover 22 covering the table main body 21 have a substantially rectangular shape when viewed from above. However, of the rectangular slide table 3 (or 4), the side surface portion on the side facing the other adjacent slide table 4 (or 3) (that is, the side surface portion positioned on the inner side in the width direction of the frame 2) A chamfered portion 22a formed by chamfering the corner portion of the table cover 22 is formed at the front and rear end portions thereof.

  A plurality of rollers 23 that are held by the table main body 21 and can be rotated about the vertical axis are provided on the side surfaces of the slide tables 3 and 4 on the same side as the chamfered portion 22a. Specifically, the roller 23 is rotatably mounted while being accommodated in a recess 21b (see FIG. 2) on the side of the table body 21, and slightly protrudes outward from the side surfaces of the slide tables 3 and 4. It is provided to do.

  The mover 6 includes an armature core 25 composed of a plurality of plate-like bodies arranged in a line in the front-rear direction along the lower surface of the base portion 19, and a coil wound around the armature core 25. 26 and a resin protective part 27 filled and molded in a shape that covers the periphery of the armature core 25 and the coil 26. Such a movable element 6 is provided so as to be positioned on the center side in the width direction of the frame 2 with respect to the pair of left and right guide rails 14 and 15, and is separated from the magnet 16 of the movable element 5 by a predetermined gap. Are arranged opposite to each other on the upper side.

  In the mover 6 having such a structure, when a current is supplied to the coil 26 from a control device (not shown), a magnetic flux is generated around each coil 26 according to this, and the magnetic flux The interaction of the stator 5 with the magnet 16 generates a thrust that moves the mover 6 relative to the stator 5, and the thrust is driven in the front-rear direction.

  As shown in FIGS. 1 and 2, a partition wall that separates the pair of left and right slide tables 3 and 4 (and a pair of left and right movable elements 6 provided corresponding thereto) at the center in the width direction of the frame 2. The member 7 is provided so as to stand upward from the bottom wall portion 11 of the frame 2. The partition member 7 includes leg portions 32 that are positioned on both outer sides in the front-rear direction (both ends in the front-rear direction of the frame 2) of the installation portion of the stator 5 and are fixed to the bottom wall portion 11 of the frame 2. A vertical wall portion 31 supported by the portion 32 and installed so as to extend in the front-rear direction above the stator 5, and an upper wall portion 33 extending from the upper end portion of the vertical wall portion 31 toward the left and right sides. have.

  By providing such a partition member 7 inside the frame 2, the upper surface of the frame 2 is partitioned by the upper wall portion 33 of the partition member 7 and the left and right upper wall portions 13 of the frame 2. A pair of left and right openings 35 are formed. The pair of openings 35 are formed so as to extend in the front-rear direction corresponding to the movable regions of the pair of slide tables 3, 4, and protrude above the frame 2 through the openings 35. Each of the slide tables 3 and 4 provided in the front is configured to move in the front-rear direction through the respective openings 35.

  The opening 35 of the frame 2 is covered with a shutter member 37 having a width substantially the same as the opening width and extending in the front-rear direction. The shutter member 37 is formed of a flexible belt-like body, and a part of the shutter member 37 is provided so as to pass through the slide tables 3 and 4.

  That is, the table main body 21 of the slide tables 3 and 4 is provided with rollers 39 (see FIGS. 1 and 3) at a plurality of positions in the front-rear direction, and is guided by the rollers 39 so as to protrude upward. A part of the shutter member 37 is configured to pass through the inside of the slide tables 3, 4, that is, between the table main body 21 and the table cover 22. The shutter member 37 thus introduced into the slide tables 3 and 4 is guided downward by the rollers positioned at the front and rear end portions of the table body 21 among the plurality of rollers 39, whereby the slide Before and after the tables 3 and 4, the shutter member 37 is returned again to a height that covers the opening 35 of the frame 2.

  Here, the shutter member 37 located at a height in contact with the upper wall portion 13 of the frame 2 and covering the opening 35 is guided upward by the roller 39 and separated upward (separated upward from the frame 2). The position changes in the front-rear direction as the slide tables 3 and 4 move. And in the free part of such a shutter member 37, the side part is plugged from the left and right by the inner wall part 24c of the side frame part 24, so that the shutter member 37 is not released as described above. The internal space of the frame 2 is configured to be blocked from the outside.

  On the vertical wall portion 31 of the partition wall member 7, a pair of auxiliary guide members 52 protruding from the left and right wall surfaces are installed so as to extend in the front-rear direction along the vertical wall portion 31. The pair of left and right auxiliary guide members 52 are slidably fitted with a slider 53 provided integrally with the protection portion 27 of the movable element 6, so that the pair of movable elements 6 move integrally with the movable element 6. The slide tables 3 and 4 are supported so as to be movable back and forth along the auxiliary guide members 52. That is, the back and forth movement of the slide tables 3 and 4 movable along the guide rails 14 and 15 installed on the bottom wall portion 11 of the frame 2 is provided independently of the guide rails 14 and 15. Further, by being guided by the auxiliary guide member 52, the trajectory when the slide tables 3 and 4 are moved back and forth is more accurately defined.

  As shown in FIG. 2, the bottom wall 11 of the frame 2 has a plate-like magnetic scale 42 extending in the front-rear direction in parallel with the guide rails 14 and 15 provided on both left and right sides thereof. 11 is provided over substantially the entire length. On the other hand, the base portion 19 of the slide tables 3 and 41 is provided with an MR head 43 that protrudes laterally and downward from the side surface portion on the outer side in the width direction. The MR head 43 is disposed above the magnetic scale 42 so as to detect the front and rear positions of the slide tables 3 and 4 by reading the magnetic scale 42 while the slide tables 3 and 4 are moving. It is configured.

  The frame 2 extending in the uniaxial direction as described above, the guide rails 14 and 15 installed so as to extend along the frame 2, and the slide table 3 supported so as to be movable along the guide rails 14 and 15. 4 and a stator 5 having a plurality of magnets 16 arranged along the longitudinal direction of the frame 2 as a driving device for moving the slide tables 3 and 4 relative to the frame 2, and the slide table In the robot 1 provided with a driving device (that is, a linear motor) that is provided integrally with 3 and 4 and that is movable relative to the stator 5, the slide tables 3 and 4 are attached to the frame. 2 on the left and right sides of the two, and the pair of left and right slide tables 3 and 4 are used as the driving force of the linear motor. Each of the slide tables 3 and 4 is moved individually along the guide rails 14 and 15 to the portion corresponding to the movable area of the slide tables 3 and 4 on the upper surface of the frame 2. According to the configuration of the first embodiment in which a pair of left and right openings 35 partitioned by the partition wall member 7 that separates each other is provided, and each of the openings 35 is covered by a pair of shutter members 37, it is more convenient. There is an advantage that an excellent robot 1 can be realized and foreign matters such as dust can be effectively prevented from scattering from the inside of the robot 1 to the outside.

  That is, according to the robot 1 having the above-described configuration, the two slide tables 3 and 4 are arranged in the left-right direction (the width direction of the frame 2) with respect to the frame 2 extending in the uniaxial direction. 4 is supported so as to be individually movable in the front-rear direction (longitudinal direction of the frame 2) along the plurality of rows of guide rails 14, 15, when the two slide tables 3, 4 are moved back and forth. The movable ranges of the two do not affect each other, and the slide tables 3 and 4 can be moved freely along the longitudinal direction of the frame 2. For this reason, there is an advantage that desired work can be efficiently performed while freely moving a plurality of work devices back and forth by attaching predetermined work devices according to applications to the slide tables 3 and 4.

  In addition, since the pair of left and right openings 35 provided on the upper surface of the frame 2 corresponding to the movable areas of the slide tables 3 and 4 are respectively covered by the pair of shutter members 37, Even when the slide tables 3 and 4 are moved along the frame 2, it is possible to effectively prevent foreign matters such as dust existing inside the frame 2 from being scattered outside the frame 2 through the openings 35. Is possible.

  Even when two robots each having a single slide table are used in parallel instead of the robot 1 having the above-described configuration, the two robots perform work efficiently while individually driving work devices. It is possible. However, in this case, since it is necessary to prepare two independent robots that are separately provided with parts such as the frame 2 and its peripheral parts, unlike the robot 1 configured as described above, more parts costs, etc. There is a problem that it is inevitable to take. On the other hand, according to the configuration of the first embodiment in which the two slide tables 3 and 4 are individually movable with respect to the single frame 2 as described above, the usability of the robot 1 is less expensive. There is an advantage that it can be improved effectively.

  In addition, the robot 1 having the above configuration is configured such that the pair of left and right slide tables 3 and 4 are supported so as to be movable along a plurality of rows of guide rails 14 and 15 provided on the common frame 2. When the robot 1 is manufactured, there is an advantage that the parallelism of the slide tables 3 and 4 is ensured with high accuracy. For this reason, unlike the case where two robots having a single slide table are used side by side as described above, the positional accuracy during the movement of the slide tables 3 and 4 can be effectively improved. There is an advantage that the drive control of the work equipment attached to the slide tables 3 and 4 can be performed with higher accuracy.

  Moreover, in the said 1st Embodiment, with respect to a pair of needle | mover 6 provided corresponding to a pair of left-right slide tables 3 and 4, the fixed yoke 17 extended in the front-back direction and the several magnet 16 arranged on the upper surface are provided. Since only one row of the stators 5 is provided in common, for example, when two rows of stators 5 are provided inside the frame 2 by separately providing the stators 5 for the pair of movers 6 described above, Unlike the above, there is an advantage that the structure of the robot 1 can be further simplified and the cost of parts and the number of assembly steps can be reduced more effectively.

  Further, as in the first embodiment, auxiliary guide members 52 independent of the guide rails 14 and 15 are provided on the left and right wall surfaces of the partition wall member 7, and the slide tables are provided along the auxiliary guide members 52. In the case where 3 and 4 are supported so as to be movable, the back and forth movement of the slide tables 3 and 4 is guided by two types of members, the auxiliary guide member 52 and the guide rails 14 and 15. By doing so, the trajectory at the time of movement can be more accurately defined, so that when the slide tables 3 and 4 pass each other, it is possible to effectively prevent the two from colliding with each other and interfering with each other. There is an advantage that the tables 3 and 4 can be smoothly moved back and forth along the frame 2.

  Further, as in the first embodiment, in the slide table 3 (or 4), the rotatable roller 23 is provided on the side surface facing the other adjacent slide table 4 (or 3). If the slide tables 3 and 4 are inclined in the width direction when they pass each other, even if the side surface portions of the slide tables 3 and 4 slide (contact) with each other, the sliding resistance of the rollers 23 is reduced. Therefore, the slide tables 3 and 4 can be smoothly moved back and forth along the frame 2 regardless of the sliding of the slide tables 3 and 4 as described above. There is an advantage.

  In the first embodiment, the roller 23 is provided on both the pair of left and right slide tables 3 and 4. However, the roller 23 may be omitted for the slide table 3 (or 4) on one side thereof. Good.

  Moreover, in the said 1st Embodiment, the corner | angular part of the front-and-rear both ends is chamfered in the side part of the side facing the other adjacent slide table 4 (or 3) among the said slide tables 3 (or 4). Since the chamfered portion 22a is provided, even if a collision occurs when the slide tables 3 and 4 pass each other, it is possible to effectively prevent a situation in which the movement of the slide tables 3 and 4 is hindered by the collision. There are advantages.

  That is, when the slide tables 3 and 4 are not provided with the chamfered portion 22a as described above, for example, when one slide table 3 is inclined in the width direction and tries to pass the other slide table 4. If the corners of the two collide with each other, a large impact is applied to each of the slide tables 3 and 4, and the slide tables 3 and 4 may not be able to move any more. On the other hand, when the chamfered portions 22a are provided at the corners of the slide tables 3 and 4 as described above, even if the above collision occurs, the impact is effectively reduced. Since the orbits of the slide tables 3 and 4 are corrected by the tapered surface of the chamfered portion 22a, there is an advantage that it is possible to effectively prevent a situation in which the back and forth movement is prevented when the slide tables 3 and 4 collide.

  In the first embodiment, when the pair of left and right slide tables 3 and 4 interfere with each other (collision or sliding) when they pass each other, the above-described smooth back and forth movement is prevented from being hindered. The chamfered portions 22a and the rollers 23 are provided on the slide tables 3 and 4, but in this embodiment, the slide tables 3 and 4 are provided by two kinds of members, that is, the guide rails 14 and 15 and the auxiliary guide member 52. Since the movement is guided, the trajectory at the time of movement of each of the tables 3 and 4 is more accurately defined, so there is no concern that the above-described interference between the tables 3 and 4 will occur. In this case, the chamfered portion 22a and the roller 23 may be omitted.

  In the first embodiment, the guide rails 14 and 15 and the auxiliary guide members 52 and 52 that slidably support the pair of left and right slide tables 3 and 4 are provided for each slide table 3 and 4, respectively. However, the number of the guide rails 14 and 15 can be appropriately changed. For example, two guide rails may be provided for each slide table 3 and 4.

  Further, in the first embodiment, a single row of stators 5 is provided in common for the pair of movable elements 6 provided corresponding to the pair of left and right slide tables 3 and 4, as shown in FIG. Two rows of stators 60 corresponding to the respective movable elements 6 may be provided. That is, in the example of FIG. 4, flat fixed yokes 67 extending in the front-rear direction are installed at two left and right positions below the pair of movers 6 on the upper surface of the bottom wall portion 11 of the frame 2. The plurality of magnets 66 are arranged on the upper surface of the fixed yoke 67 in the front-rear direction, whereby the two rows of stators 60 are configured. A partition member 70 that separates the slide tables 3 and 4 is provided between the two rows of stators 60.

  As described above, according to the above configuration, the partition wall member 70 can be installed between the two rows of stators 60 provided corresponding to the pair of movers 6, and thus, as in the first embodiment. There is an advantage that it is not necessary to install the partition member 7 in a state where the installation portion of the stator 5 is avoided, and the partition member 70 can be easily installed inside the frame 2 with a simple configuration.

  By the way, in the said 1st Embodiment, the part (part to which the needle | mover 6 is attached) of the base parts 19 of the slide tables 3 and 4 formed so that it might protrude on the partition member 7 side rather than the rail slider 18 of the downward | lower direction. ) Is formed so as to protrude further toward the partition member 7 side, the protruding portion of the base portion 19 and the partition member 7 may come into contact with each other when the slide tables 3 and 4 are moved. is there. Therefore, in such a case, as shown in FIG. 5, the table main body 21 is provided at the tip of the protruding portion of the base portion 19 which is a portion facing the vertical wall portion 31 of the partition wall member 7. A roller 45 similar to the roller 23 may be provided. In this way, even when the base portion 19 slides (contacts) with the partition member 7 when the slide tables 3 and 4 are moved, the sliding resistance is reduced and the slide tables 3 and 4 are moved. There is an advantage that it can be moved smoothly.

(Embodiment 2)
In the first embodiment, the slide tables 3 and 4 that are movable along the longitudinal direction of the frame 2 are arranged one on each of the left and right sides of the frame 2. The slide tables 3 and 4 may be arranged in the front-rear direction (longitudinal direction of the frame 2). FIG. 6 shows a specific example of such a configuration as the second embodiment of the robot of the present invention.

  In the robot 100 shown in FIG. 6, one slide table 131 is provided on one side in the width direction of the frame 2 (+ Y side in the drawing), while on the other side in the width direction of the frame 2 (−Y in the drawing). 2), two slide tables 132 and 133 arranged in the front-rear direction (X-axis direction) are arranged. Among these, the slide table 131 provided on the + Y side is the same as the slide tables 3 and 4 of the first embodiment, on one side of the pair of left and right guide rails 14 and 15 provided inside the frame 2 ( (+ Y side) is supported so as to be movable back and forth along the rail 14. On the other hand, the two slide tables 132 and 133 provided on the −Y side are both supported so as to be movable back and forth along the guide rail 15 on the −Y side opposite to the above. Further, an auxiliary guide member 52 is provided on the wall surface of the partition member 7 inside the frame 2, and the back and forth movement of each of the slide tables 131 to 133 is also guided by the auxiliary guide member 52.

  The mechanism for moving the slide tables 131 to 133 along the guide rails 14 and 15 and the auxiliary guide member 52 is the same as that in the first embodiment. In other words, the same movable elements (not shown) as those in the first embodiment are provided on the lower surface side of each of the slide tables 131 to 133, and these movable elements are arranged in a line in the front-rear direction. The slide tables 131 to 133 are configured to move in the front-rear direction along the guide rails 14, 15, etc. by obtaining a thrust force through interaction with the stator 5 including a plurality of magnets 16. .

  Each of the slide tables 131 to 133 is provided with a chamfered portion 41 as in the first embodiment. Although not shown in FIG. 6, the first side surface (−Y side) of the slide table 131 and the side surfaces of the slide tables 132 and 133 on the opposite side are provided on the first side. Similarly to the embodiment, it is preferable to provide a roller (corresponding to reference numeral 23 in FIG. 1 and the like) as a rolling element.

  On the upper surface of the frame 2, shutter members 37 having the same configuration as in the first embodiment are respectively provided on a slide table 131 provided on the + Y side and slide tables 132 and 133 provided on the -Y side. Correspondingly, a pair of left and right is provided. Among these, the shutter member 37 provided on the −Y side is arranged so that two places in the front-rear direction pass through the inside of each of the slide tables 132 and 133.

  According to the second embodiment of the present invention having the above-described configuration, the number of slide tables 131 to 133 can be increased without greatly increasing the width dimension of the frame 2. There is an advantage that the robot 100 capable of moving many work devices can be realized. In addition, the presence of the shutter member 37 provided on the upper surface of the frame 2 can effectively prevent the scattering of foreign matters from the inside of the frame 2 regardless of the movement of the slide tables 131 to 133. .

  Furthermore, according to the configuration of the second embodiment, there is an advantage that the uses of the robot 100 can be further diversified. In other words, for example, a work device for which a long movable range is desired is attached to a single slide table 131 provided on the + Y side (that is, a slide table 131 that can move over a wide range regardless of the movement of other slide tables). At the same time, if work devices that do not have any problem even if the movable range is limited to some extent are attached to the two slide tables 132 and 133 provided on the −Y side, more work devices can be appropriately used according to the application. A desired work can be efficiently performed by these working devices while being moved within the movable range. Further, for example, in a state where one of the two slide tables 132 and 133 provided on the −Y side is fixed to one end portion in the longitudinal direction of the frame 2, the remaining slide table (any one of 132 and 133), If work devices are respectively attached to the slide table 131 provided on the + Y side, these two work devices can be freely moved within a sufficient movable range, as in the first embodiment. it can.

(Embodiment 3)
In the first embodiment, the two slide tables 3 and 4 are arranged in the left-right direction with respect to the frame 2 extending in the front-rear direction, but three or more slide tables 3, 4 are arranged in parallel in the left-right direction. Of course it is also possible. FIG. 7 shows a specific example of such a configuration as the third embodiment of the robot of the present invention.

  In the robot 200 shown in FIG. 7, four slide tables 231 to 234 are arranged in the left-right direction (the width direction of the frame 2) with respect to the frame 220 extending in the front-rear direction (X-axis direction in the drawing). ing. A movable element (not shown) similar to that of the first embodiment is provided on the lower surface side of these four slide tables 231 to 234, and the bottom of the frame 220 corresponding to these four movable elements. The wall portion is provided with a total of four rows of stators 250 made up of a plurality of magnets 260 and the like arranged in the front-rear direction. The sliders 231 to 234 move in the front-rear direction together with the movable elements when the movable elements provided on the respective slide tables 231 to 234 obtain a thrust by the interaction with the respective stators 250. It is configured as follows. In addition, it replaces with the structure which provides the stator 250 of a total of 4 rows as mentioned above, and naturally it is also possible to provide a common row of stators for the slide tables 231 to 234 as in the first embodiment. Is possible.

  Each of the slide tables 231 to 234 is arranged on the wall surface of the partition member 207 that separates the total of four rows of guide rails 214 to 217 provided on the bottom wall portion of the frame 220 and the slide tables 231 to 234. The auxiliary guide member 252 is provided so as to be individually movable.

  Among the slide tables 231 to 234, chamfered portions 41 similar to those of the first embodiment are provided at the front and rear end portions on the left and right side surfaces or one side surface portions facing each other. Although not shown in FIG. 7, rollers (corresponding to reference numeral 23 in FIG. 1 and the like) similar to those in the first embodiment may be provided on the side surfaces of the slide tables 231 to 234. preferable.

  A total of four rows of shutter members 237 are provided on the upper surface of the frame 220 to cover the openings for the slide tables 231 to 234, respectively.

  According to the third embodiment of the present invention having such a configuration, by attaching work devices to the four slide tables 231 to 234, more work devices can be individually moved back and forth by one robot 200. There is an advantage that you can. In addition, the presence of the four shutter members 237 provided on the upper surface of the frame 220 effectively prevents the scattering of foreign matters from the inside of the frame 220 regardless of the movement of the slide tables 231 to 234. Can do.

  In the third embodiment, the four slide tables 231 to 234 are movably provided on the frame 220. However, by further increasing the number of slide tables, a larger number of work devices can be driven. Of course it is also possible to do. On the other hand, a pair of left and right slide tables 3 and 4 are arranged side by side in the width direction of the frame 2 as in the robot 1 of the first embodiment shown in FIGS. When the slide tables 3 and 4 are supported along the pair of left and right guide rails 14 and 15 so as to be movable in the front-rear direction, the usability of the robot 1 is improved with a simpler and more rational configuration. There is an advantage that can be.

  Moreover, in the 1st-3rd embodiment demonstrated above, the linear motor provided with the stator 5, the needle | mover 6, etc. as a drive device which moves a slide table (3,4, 131-133, 231-234). However, as another type of driving device, a ball screw shaft rotatably held on a frame, a ball nut integrally provided on the slide table and screwed with the ball screw shaft, and the above You may use the drive device provided with the servomotor which moves the said slide table integrally with the said ball nut by rotationally driving a ball screw axis | shaft. Alternatively, a ball screw shaft fixed to the frame, a ball nut rotatably held on the slide table and screwed with the ball screw shaft, and rotating the ball nut to slide the slide along the ball screw shaft. You may use the drive device provided with the hollow type servomotor which moves a table.

It is a partially cutaway top view of the robot concerning a 1st embodiment of the present invention. It is sectional drawing along the II-II line of FIG. It is sectional drawing along the III-III line of FIG. It is a figure for demonstrating the modification of the said robot. It is a figure for demonstrating another modification of the said robot. It is a figure which shows 2nd Embodiment of the robot of this invention. It is a figure which shows 3rd Embodiment of the robot of this invention.

Explanation of symbols

1,100,200 Robot 2,220 Frame 3,4,131-133,231-234 Slide table 5,250 Stator 6 Movable element 7,207 Bulkhead member 14,15 Guide rail 16,260 Magnet 35 Opening 37, 237 Shutter member 52, 252 Auxiliary guide member

Claims (5)

A frame extending in a uniaxial direction, a guide rail installed so as to extend along the frame, a slide table supported so as to be movable along the guide rail, and a drive device for moving the slide table relative to the frame A robot equipped with
The guide rail is provided on each of the left and right sides of the frame,
Above the slide table, a pair of right and left slide table movable individually along the respective guide rails according to the driving force of the driving device, are arranged side by side in the width direction of the frame,
By providing the frame with a partition member separating the pair of left and right slide tables, the pair of openings defined by the partition member on one surface of the frame correspond to the movable area of each slide table. Provided,
A robot characterized in that each of the openings is covered with a pair of shutter members. The robot according to claim 1, wherein
The drive device includes a stator having a plurality of magnets arranged along the longitudinal direction of the frame, and a mover integrally provided on each slide table and movable relative to the stator. A robot characterized by a linear motor. The robot according to claim 2, wherein
A robot characterized in that a pair of movers corresponding to each of the slide tables is provided as the mover, and one row of the stators is provided in common for the pair of movers. The robot according to claim 2, wherein
As the movable element, a pair of movable members corresponding to each of the slide table is provided, as the stator, the stator of the two rows respectively corresponding to the pair of movers are provided,
A robot characterized in that the partition member is provided between the two rows of stators. The robot according to any one of claims 1 to 4 ,
The robot, wherein the pair of slide tables are supported so as to be movable along an auxiliary guide member provided on the partition member.

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