CN212009076U - XY axial adjusting device, core adjusting jig thereof and core adjusting machine - Google Patents

Abstract

The utility model discloses an XY axial adjusting device, which comprises a frame; the bearing platform comprises a base and a movable bottom plate, the movable bottom plate is movably arranged on the base, and the movable bottom plate is provided with an installation position; the X-axis moving mechanism drives the base to move along the X axis; the Y-axis moving mechanism is connected with the base and drives the movable bottom plate to move along the Y axis; the XY axial adjusting device synchronously acts on the bearing platform by utilizing the X-axis moving mechanism and the Y-axis moving mechanism, so that the bearing platform can move along two directions; further disclosed is a core adjustment jig comprising the use of the XY axial adjustment device as described above; a left chuck and a right chuck; and the driving device is arranged on the mounting position and drives the left chuck and the right chuck. The core adjusting jig controls the left chuck and the right chuck to clamp the lens through the driving device, and adjusts the position of the chip on the XY axis by utilizing the XY axial adjusting device, so that accurate control is ensured, the size of the device is reduced, and the manufacturing cost is saved.

Description

XY axial adjusting device, core adjusting jig thereof and core adjusting machine

Technical Field

The utility model relates to an optical device's production facility, in particular to XY axial adjusting device and accent core tool and accent core machine thereof.

Background

In the core adjustment jig in the prior art, if the adjustment in the XY direction is to be realized, the adjustment is realized independently by combining two sets of linear guide rails and an air cylinder, wherein one set of linear guide rails independently controls the movement in the X direction, and the other set of linear guide rails independently controls the movement in the Y direction. The general defects of the adjusting device are that the size is larger, the structural design is complex, the manufacturing and processing cost is high, and the assembly precision is difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve one of the technical problem that exists among the prior art at least, provide an XY axial adjusting device and accent core tool and accent core machine thereof, can realize the XY both-way motion of lens with simple operation structure.

According to an embodiment of the first aspect of the present invention, there is provided an XY axial adjustment device, including a frame; the bearing platform is arranged on the rack and comprises a base and a movable bottom plate, the movable bottom plate is movably arranged on the base, and the movable bottom plate is provided with an installation position; the X-axis moving mechanism is arranged on the rack and drives the base to move along the X axis; and the Y-axis moving mechanism is arranged on the rack, is connected with the base and drives the movable bottom plate to move along the Y axis.

Has the advantages that: according to the XY axial adjusting device, the mounting position mounting clamp is reserved on the bearing platform, the clamp is used for clamping an object, the X-axis moving mechanism and the Y-axis moving mechanism synchronously act on the bearing platform, the bearing platform can move along two directions, the object clamped by the clamp is accurately adjusted, accurate control is ensured, the size of the device is reduced, and the manufacturing cost is saved.

According to the utility model discloses XY axial adjusting device of first aspect embodiment, X axle moving mechanism are lead screw advancing mechanism, and it is higher to utilize lead screw advancing mechanism transmission efficiency, and whole volume is littleer.

According to the utility model discloses XY axial adjusting device of first aspect embodiment, Y axle moving mechanism include screw rod and cam piece, and the cam piece articulates in the base, and the one end and the screw rod of cam piece are connected, and the other end and the movable bottom plate contact of cam piece, screw rod drive cam piece are around articulated swing, and cam piece drive movable bottom plate reciprocates, utilizes the cam piece to realize horizontal motion as the oscillating piece and changes vertical motion, and transmission structure is reasonable and simplified overall structure.

According to a second aspect of the present invention, there is provided a core adjustment jig, comprising an XY axial adjustment device as in the first aspect of the present invention; the clamping device comprises a left chuck and a right chuck, and the left chuck and the right chuck are arranged oppositely; and the driving device is arranged on the mounting position, is respectively connected with the left chuck and the right chuck and drives the left chuck and the right chuck to be close to or far away from each other.

Has the advantages that: the core adjusting jig utilizes the driving device to control the left chuck and the right chuck to clamp the lens, and utilizes the XY axial adjusting device to control the left chuck and the right chuck to move in two directions along the XY directions, so that the accurate control is ensured, the size of the device is reduced, and the manufacturing cost is saved.

According to the utility model discloses a accent core tool of second aspect embodiment, drive arrangement are synchronous telescopic cylinder, and synchronous telescopic cylinder is equipped with left output position and right output position on the surface, and left chuck is installed in left output position, and right chuck is installed in right output position, and the cylinder more is applicable to the environment of this kind of scram emergency play, makes left chuck and right chuck can the centering more chips.

According to the utility model discloses a accent core tool of second aspect embodiment, left chuck and right chuck are shaft-like, and the exposed core of left chuck and right chuck all is equipped with the arcwall face, and left chuck and right chuck are in on the same water flat line, further perfect the clamping capacity of left chuck and right chuck.

According to the utility model discloses a accent core tool of second aspect embodiment is equipped with the time delay cylinder between left chuck and the left output position or between right chuck and the right output position, utilizes the time delay cylinder to reduce the damage of clamping-force to the chip.

According to the utility model discloses a accent core tool of second aspect embodiment still is equipped with pressurized cylinder between left chuck and the left output position or between right chuck and the right output position, utilizes pressurized cylinder to stabilize the clamping state of left chuck and right chuck.

According to the utility model discloses a third aspect embodiment provides a core adjusting machine, including using if the utility model discloses the core adjusting tool of second aspect embodiment.

According to the utility model discloses a third aspect embodiment provides a core adjusting machine, including using like the utility model discloses XY axial adjusting device of first aspect embodiment.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

Fig. 1 is a front view of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 2, an XY axial adjustment device includes a frame 10; the bearing platform 16 is arranged on the frame 10, the bearing platform 16 comprises a base 161 and a movable bottom plate 162, the movable bottom plate 162 is movably arranged on the base 161, and the movable bottom plate 162 is provided with an installation position; the X-axis moving mechanism 13 is arranged on the rack 10, and the X-axis moving mechanism 13 drives the base 161 to move along the X axis; the Y-axis moving mechanism 14 is arranged on the machine frame 10, and the Y-axis moving mechanism 14 is connected with the base 161 and drives the movable bottom plate 162 to move along the Y axis; the XY axial adjusting device is characterized in that a mounting position mounting clamp is reserved on the bearing platform 16, the clamp is used for clamping an object, the X-axis moving mechanism 13 and the Y-axis moving mechanism 14 synchronously act on the bearing platform 16, so that the bearing platform 16 can move along two directions, the object clamped by the clamp is accurately adjusted, accurate control is ensured, the size of the device is reduced, and the manufacturing cost is saved.

In a preferred embodiment, the X-axis moving mechanism 13 is a screw rod propelling mechanism, and the transmission efficiency is higher and the overall volume is smaller by using the screw rod propelling mechanism.

In other embodiments, the X-axis moving mechanism 13 may also be a cylinder advancing mechanism, a cam advancing mechanism, or the like.

In a preferred embodiment, the Y-axis moving mechanism 14 includes a screw 141 and a cam block 142, the cam block 142 is hinged in the base 161, one end of the cam block 142 is connected with the screw 141, the other end of the cam block 142 is in contact with the movable bottom plate 162, the screw 141 drives the cam block 142 to swing around the hinge, the cam block 142 drives the movable bottom plate 162 to move up and down, the cam block 142 is used as a swinging piece to realize the conversion from horizontal motion to vertical motion, the transmission structure is reasonable, and the overall structure is simplified.

In other embodiments, the Y-axis moving mechanism 14 may be a screw lifting mechanism, a hydraulic lifting mechanism, or the like. The screw 141 can be replaced with a screw pushing mechanism, a cylinder pushing mechanism, etc.

Referring to fig. 1 to 2, the XY-axis adjusting device includes a frame 10, and a bearing platform 16, an X-axis moving mechanism 13, and a Y-axis moving mechanism 14 mounted on the frame 10, wherein the bearing platform 16 includes a base 161 and a movable bottom plate 162, the movable bottom plate 162 is disposed on the upper portion of the base 161, and the movable bottom plate 162 can move up and down; the X-axis moving mechanism 13 comprises an X-axis adjusting handle and a lead screw propelling mechanism, and a connecting shaft is arranged between the adjusting handle and the lead screw propelling mechanism, so that the reasonability of the whole structure and the size is ensured. The Y-axis moving mechanism 14 includes a Y-axis adjustment handle, a screw 141, and a cam block 142. X axle adjustment handle and Y axle adjustment handle install on a mount jointly, convenient accurate regulation. The output end of the screw rod propelling mechanism is fixed on the side wall of the base 161, the screw rod 141 passes through the base 161 and is connected with one end of the cam block 142, and the other end of the cam is connected with the movable bottom plate 162. During specific adjustment, firstly, an X-axis adjusting handle is rotated, the X-axis adjusting handle drives a screw rod propelling mechanism, and the screw rod propelling mechanism adjusts the position of the base 161 on the X axis until the position is adjusted to a proper position; because the cam block 142 is hinged in the base 161 and swings around the hinge, and the screw 141 passes through the base 161 and then is connected with the cam block 142, after the base 161 is adjusted by the X-axis moving mechanism 13, the screw 141 needs to be driven to advance to a certain extent by using the Y-axis adjusting handle until a certain resistance is applied, which means that the screw 141 is again contacted with the cam block 142, the cam block 142 is again contacted with the movable bottom plate 162, at this time, the scale of the Y-axis moving mechanism 14 is zeroed, and the position of the base 161 on the Y axis is adjusted according to the actual situation until the position is adjusted to a proper position to complete the adjustment. That is, in the present embodiment, the effective stroke of the screw rod 141 needs to be larger than the effective stroke of the screw rod advancing mechanism, so that the screw rod 141 can always contact with the cam block 142.

A core adjustment jig comprises an XY axial adjusting device using the scheme; the clamping device comprises a left chuck 11 and a right chuck 12, and the left chuck 11 and the right chuck 12 are arranged oppositely; and a driving device 15 disposed at the mounting position, the driving device 15 being connected to the left chuck 11 and the right chuck 12, respectively, to drive the left chuck 11 and the right chuck 12 to approach or move away from each other. The core adjusting jig utilizes the driving device 15 to control the left chuck 11 and the right chuck 12 to clamp the lens, and utilizes the XY axial adjusting device to control the left chuck 11 and the right chuck 12 to move in two directions along the XY direction, thereby ensuring accurate control, simultaneously reducing the volume of the device and saving the manufacturing cost.

In this embodiment, the left chuck 11 and the right chuck 12 are both rod-shaped, the clamping ends of the left chuck 11 and the right chuck 12 are both provided with arc-shaped surfaces, and the left chuck 11 and the right chuck 12 are on the same horizontal line, so as to further improve the clamping capability of the left chuck 11 and the right chuck 12.

In this embodiment, the driving device 15 is a synchronous telescopic cylinder, a left output position and a right output position are arranged on the surface of the synchronous telescopic cylinder, the left chuck 11 is installed on the left output position, the right chuck 12 is installed on the right output position, a delay cylinder 17 is arranged between the right chuck 12 and the right output position, and a boost cylinder is further arranged between the right chuck 12 and the right output position, the cylinder is more suitable for the environment of sudden stop and sudden start, so that the left chuck 11 and the right chuck 12 can quickly center more chips, the delay cylinder 17 reduces the damage of clamping force to the chips, it is ensured that after the chips are clamped by the left chuck 11 first, the right chuck 12 is clamped again, and after clamping, the clamping state of the left chuck 11 and the right chuck 12 is stabilized by the boost cylinder.

In other embodiments, a delay cylinder 17 may be provided between the left cartridge 11 and the left output position, and a boost cylinder may be further provided between the left cartridge 11 and the left output position.

The core adjusting jig utilizes the XY axial adjusting device of the above scheme to carry the synchronous telescopic cylinder, wherein the synchronous telescopic cylinder is installed at the installation position, so that the synchronous telescopic cylinder and the movable bottom plate 162 synchronously move up and down. And a left output position and a right output position are arranged on the synchronous telescopic cylinder, the left output position is used for installing the left chuck 11, the right output position is used for installing the right chuck 12, and in order to further optimize the clamping action, an auxiliary cylinder 18 and a delay cylinder 17 are arranged on a loop between the right chuck 12 and the right output position. During the specific use, put the chip that waits to adjust to between left chuck 11 and the right chuck 12 earlier, start synchronous telescopic cylinder, synchronous telescopic cylinder drive left chuck 11 draws close toward the chip, receive the effect of time delay cylinder 17, treat that left chuck 11 draws close toward the chip after, right chuck 12 draws close toward the chip again, right chuck 12 delay time is 1 second in this embodiment, treat that left chuck 11 and right chuck 12 centre gripping chip completely after, supplementary cylinder 18 lasts work, guarantee that right chuck 12 has stable clamping-force to continuously act on the chip, utilize as above at last the XY axle adjusting device of scheme goes to adjust the position of chip in XY axle direction, until accomplishing the accent core.

A core adjusting machine uses the core adjusting jig of the scheme or the core adjusting machine uses the XY axial adjusting device of the scheme, the whole structure can be optimized, and the chip can be accurately centered.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. An XY axial adjustment device, comprising:

a frame (10);

the bearing platform (16) is arranged on the rack (10), the bearing platform (16) comprises a base (161) and a movable bottom plate (162), the movable bottom plate (162) is movably arranged on the base (161), and an installation position is arranged on the movable bottom plate (162);

the X-axis moving mechanism (13) is arranged on the rack (10), and the X-axis moving mechanism (13) drives the base (161) to move along the X axis; and

and the Y-axis moving mechanism (14) is arranged on the rack (10), and the Y-axis moving mechanism (14) is connected with the base (161) and drives the movable bottom plate (162) to move along the Y axis.

2. The XY axial adjustment device of claim 1, wherein: the X-axis moving mechanism (13) is a screw rod propelling mechanism.

3. The XY axial adjustment device of claim 1, wherein: the Y-axis moving mechanism (14) comprises a screw rod (141) and a cam block (142), the cam block (142) is hinged in the base (161), one end of the cam block (142) is connected with the screw rod (141), the other end of the cam block (142) is in contact with the movable bottom plate (162), the screw rod (141) drives the cam block to swing around the hinged position, and the cam block drives the movable bottom plate to move up and down.

4. The utility model provides a core adjustment tool which characterized in that includes:

using the XY axial adjustment device of any one of claims 1 to 3;

the clamping device comprises a left chuck (11) and a right chuck (12), wherein the left chuck (11) and the right chuck (12) are arranged oppositely; and

the driving device (15) is arranged on the mounting position, the driving device (15) is connected with the left chuck (11) and the right chuck (12) respectively, and drives the left chuck (11) and the right chuck (12) to be close to or far away from each other.

5. The alignment jig of claim 4, wherein: the driving device (15) is a synchronous telescopic cylinder, a left output position and a right output position are arranged on the surface of the synchronous telescopic cylinder, the left chuck (11) is installed on the left output position, and the right chuck (12) is installed on the right output position.

6. The alignment jig of claim 5, wherein: the left chuck (11) and the right chuck (12) are rod-shaped, arc-shaped surfaces are arranged at the clamping ends of the left chuck (11) and the right chuck (12), and the left chuck (11) and the right chuck (12) are located on the same horizontal line.

7. The alignment jig of claim 6, wherein: and a delay cylinder (17) is arranged between the left chuck (11) and the left output position or between the right chuck (12) and the right output position.

8. The alignment jig of claim 7, wherein: and a pressurizing cylinder (18) is also arranged between the left chuck (11) and the left output position or between the right chuck (12) and the right output position.

9. A core setter, comprising: use of the alignment jig of any one of claims 4 to 8.

10. A core setter, comprising: use of an XY axial adjustment device as claimed in any of claims 1 to 3.

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