CN213260413U - Glass positioning device for hollow glass production line - Google Patents

Abstract

The utility model discloses a cavity glass is glass positioner for production line relates to glass processing technology field. The utility model discloses a support, lead screw adjustment mechanism, first location clamp plate, second location clamp plate, third location clamp plate and fourth location clamp plate, the support is provided with two, is provided with the axis of rotation between two supports. The utility model discloses a set up the axis of rotation, servo drive motor, lead screw adjustment mechanism and four positioning clamp plate, the axis of rotation can be driven by servo drive motor indirectly and realize rotating, and drive lead screw adjustment mechanism and cavity glass simultaneously and rotate and adjust, can make things convenient for glass processing personnel to adjust the position of convenient processing with cavity glass and process, lead screw adjustment mechanism can drive four positioning clamp plate and press from both sides tightly cavity glass from four different directions, make the glass location more firm, it is poor to have solved current technical location effect, and adjustable range is little, can't satisfy the problem that multiple processing needs.

Description

Glass positioning device for hollow glass production line

Technical Field

The utility model belongs to the technical field of the glass processing, especially, relate to a cavity glass is glass positioner for production line.

Background

With the industrialization and scale of glass production, glass with various purposes and various properties comes out one after another, glass becomes an important material in the fields of daily life, production and science and technology, hollow glass is one kind of glass, the hollow glass separates two pieces of glass through effective sealing material sealing and spacing material, and a drying agent for absorbing moisture is arranged between the two pieces of glass, so that a dry air layer is ensured inside the hollow glass for a long time, moisture and dust do not exist, the hollow glass has good sound insulation and heat insulation effects, and is popular in the market, the hollow glass needs to be positioned in the production process so as to be convenient for drilling, polishing and other surface treatment, but most of the existing glass positioning devices are positioned from two sides of the glass, the positioning effect is poor, and the glass can be positioned and clamped only in a horizontal position, there is a need to improve the existing technology to solve the above existing problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a glass positioner for cavity glass production line, through setting up the axis of rotation, servo drive motor, lead screw adjustment mechanism and four positioning clamp plate, the axis of rotation can be realized rotating by servo drive motor indirect drive, and drive lead screw adjustment mechanism and cavity glass simultaneously and rotate and adjust, can make things convenient for glass processing personnel to adjust the position of convenient processing with cavity glass and process, lead screw adjustment mechanism can drive four positioning clamp plate and press from both sides cavity glass from four different directions and press from both sides tightly, make the glass location more firm, it is poor to have solved current technical location effect, and adjustable range is little, can't satisfy the problem that multiple processing needs.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a glass positioning device for a hollow glass production line, which comprises two supports, a screw rod adjusting mechanism, a first positioning clamping plate, a second positioning clamping plate, a third positioning clamping plate and a fourth positioning clamping plate, wherein a rotating shaft is arranged between the two supports, two ends of the rotating shaft are rotatably connected with bearings embedded on the upper parts of the two supports, a large transmission gear is arranged on one end head of the rotating shaft, a small transmission gear is arranged right below the large transmission gear and meshed with the large transmission gear, the small transmission gear is fixedly connected with a servo drive motor rotating shaft fixedly arranged on the inner side of the supports, the screw rod adjusting mechanism is arranged on the rotating shaft, the first positioning clamping plate, the second positioning clamping plate, the third positioning clamping plate and the fourth positioning clamping plate are arranged on the screw rod adjusting mechanism, the screw rod adjusting mechanism comprises a fixed frame, a support frame, a transverse ball screw rod, a central plate, a transverse screw rod bearing, a transverse screw rod nut, a longitudinal ball screw rod, a longitudinal screw rod bearing and a longitudinal screw rod nut, the support frame is arranged on a rotating shaft, the upper end of the rotating shaft is provided with a fixed frame, the middle position of the fixed frame is provided with a central plate, transverse ball screws are arranged between two sides of the central plate and the fixed frame, one ends of the transverse ball screws are rotatably connected with transverse screw shaft bearings arranged on two side surfaces of the central plate, a transverse screw nut is arranged on the transverse ball screw, a longitudinal ball screw is arranged between the front end and the rear end of the central plate and the fixed frame, one end of the longitudinal ball screw is rotatably connected with longitudinal screw bearings arranged at the front end and the rear end of the central plate, and a longitudinal screw nut is arranged on the longitudinal ball screw.

Furthermore, the whole transverse screw nuts are arranged in the third positioning clamping plate and the fourth positioning clamping plate in an embedded mode, the longitudinal screw nuts on the longitudinal ball screws are respectively arranged in the first positioning clamping plate and the second positioning clamping plate in an embedded mode, the two transverse screw nuts can drive the third positioning clamping plate and the fourth positioning clamping plate to move on the transverse ball screws through the arrangement, clamping and positioning of hollow glass with different lengths are achieved, the two longitudinal screw nuts can drive the first positioning clamping plate and the second positioning clamping plate to move on the longitudinal ball screws, and clamping and positioning of the hollow glass with different widths are achieved.

Further, the support includes landing leg, bottom plate and diagonal brace, the bottom plate is installed to the bottom of landing leg, the diagonal brace is installed to the both sides of bottom plate and landing leg, sets up the landing leg and can realize the whole support to the device, and the setting of diagonal brace can improve the fastness of support and the stability of support.

Further, horizontal slide bars are installed on two sides of the horizontal ball screw, the horizontal slide bars are connected with the third positioning clamping plate and the fourth positioning clamping plate in a sliding mode, longitudinal slide bars are installed on two sides of the longitudinal ball screw, the longitudinal slide bars are connected with the first positioning clamping plate and the second positioning clamping plate in a sliding mode, the horizontal slide bars and the longitudinal slide bars are arranged to support two sides of the four positioning clamping plates, and the four positioning clamping plates are kept horizontal and stable in the moving process.

Further, the other end of the transverse ball screw is connected with a transverse screw rocking handle arranged on the outer side of the fixed frame, the other end of the longitudinal ball screw is fixedly connected with a longitudinal screw rocking handle arranged at the front end and the rear end of the fixed frame, and personnel can flexibly adjust the transverse ball screw and the longitudinal ball screw by arranging the transverse screw rocking handle and the longitudinal screw rocking handle, so that the use convenience is improved.

Furthermore, the first positioning and clamping plate and the second positioning and clamping plate are oppositely arranged front and back, and the third positioning and clamping plate and the fourth positioning and clamping plate are oppositely arranged left and right, so that the four positioning and clamping plates can be conveniently clamped and positioned on the hollow glass from four different directions.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up lead screw adjustment mechanism and install four positioning clamping plate on lead screw adjustment mechanism, during the use, can adjust four positioning clamping plate's position respectively through lead screw adjustment mechanism, can press from both sides tightly simultaneously to hollow glass from four directions, can realize the accurate location to hollow glass through the position of adjusting four positioning clamping plate simultaneously, solved the poor problem of current technical location effect.

2. The utility model discloses a set up axis of rotation and servo drive motor, the axis of rotation can be driven by servo drive motor is indirect and realize rotating to drive lead screw adjustment mechanism and cavity glass simultaneously and rotate and adjust, can make things convenient for glass processing personnel to adjust the position of convenient processing with cavity glass and process, satisfy multiple processing needs, solved current technique and can only fix a position the regulation to cavity glass in the horizontal range, adjustable range is little, awkward problem.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the screw adjusting mechanism of FIG. 1 according to the present invention;

fig. 3 is an enlarged view of a structure at a in fig. 1 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a support; 101. a support leg; 102. a base plate; 103. a diagonal brace; 2. a rotating shaft; 3. a bearing; 4. a screw rod adjusting mechanism; 401. a fixed frame; 402. a support frame; 403. a transverse ball screw; 404. a center plate; 405. a transverse screw bearing; 406. the transverse screw rod shakes the handle; 407. a transverse screw nut; 408. a transverse sliding bar; 409. a longitudinal ball screw; 410. a longitudinal screw bearing; 411. the handle is shaken by the longitudinal screw rod; 412. a longitudinal feed screw nut; 413. a longitudinal slide bar; 5. a first positioning and clamping plate; 6. a second positioning and clamping plate; 7. a third positioning and clamping plate; 8. a fourth positioning and clamping plate; 9. a large transmission gear; 10. a small drive gear; 11. and a servo drive motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 and 3, the present invention relates to a glass positioning device for a hollow glass production line, which comprises a support 1, a screw rod adjusting mechanism 4, a first positioning clamping plate 5, a second positioning clamping plate 6, a third positioning clamping plate 7 and a fourth positioning clamping plate 8, wherein the support 1 comprises two supports 1, each support 1 comprises a support leg 101, a bottom plate 102 and an inclined strut 103, the bottom plate 102 is mounted at the bottom end of the support leg 101, the inclined strut 103 is mounted at two sides of the bottom plate 102 and the support leg 101, a rotation shaft 2 is arranged between the two supports 1, two ends of the rotation shaft 2 are rotatably connected with a bearing 3 embedded at the upper part of the two supports 1, a large transmission gear 9 is mounted at one end of the rotation shaft 2, a small transmission gear 10 is arranged right below the large transmission gear 9, the small transmission gear 10 is meshed with the large transmission gear 9, and the small transmission gear 10 is fixedly connected with a rotating shaft of a servo driving motor 11, when the hollow glass positioning and adjusting device is used, firstly, the hollow glass is placed on the screw rod adjusting mechanism 4, then, the transverse adjustment of the hollow glass is realized by rotating the two transverse screw rod shaking handles 406, the longitudinal adjustment of the hollow glass is realized by rotating the two longitudinal screw rod shaking handles 411, further, the positioning and adjusting of the hollow glass are realized, when the position and the orientation of the positioned hollow glass need to be adjusted, a person can start the servo driving motor 11, and the small transmission gear 10 is driven to rotate by the servo driving motor 11, the small transmission gear 10 is meshed with the large transmission gear 9 to drive the large transmission gear 9 to rotate at a slower speed, and the large transmission gear 9 drives the whole screw rod adjusting mechanism 4 and the hollow glass to rotate through the rotating shaft 2 until the glass rotates to a position meeting the requirements of processing personnel.

Referring to fig. 1-2, the screw adjustment mechanism 4 includes a fixed frame 401, a support frame 402, a transverse ball screw 403, a central plate 404, a transverse screw bearing 405, a transverse screw nut 407, a longitudinal ball screw 409, a longitudinal screw bearing 410, and a longitudinal screw nut 412, the support frame 402 is mounted on the rotating shaft 2, the fixed frame 401 is mounted at the upper end of the rotating shaft 2, the central plate 404 is disposed at the middle position of the fixed frame 401, the transverse ball screw 403 is mounted between the two sides of the central plate 404 and the fixed frame 401, one end of the transverse ball screw 403 is rotatably connected to the transverse screw bearing 405 mounted on the two side surfaces of the central plate 404, the transverse screw nut 407 is mounted on the transverse ball screw 403, the longitudinal ball screw 409 is mounted between the front and rear ends of the central plate 404 and the fixed frame 401, one end of the longitudinal ball screw 409 is rotatably connected to the longitudinal screw bearing 410 mounted, a longitudinal screw nut 412 is arranged on a longitudinal ball screw 409, a transverse screw nut 407 is integrally embedded in a third positioning and clamping plate 7 and a fourth positioning and clamping plate 8, the longitudinal screw nuts 412 on the two longitudinal ball screws 409 are respectively embedded in a first positioning and clamping plate 5 and a second positioning and clamping plate 6, transverse sliding rods 408 are arranged on two sides of the transverse ball screw 403, the transverse sliding rods 408 are slidably connected with the third positioning and clamping plate 7 and the fourth positioning and clamping plate 8, longitudinal sliding rods 413 are arranged on two sides of the longitudinal ball screw 409, the longitudinal sliding rods 413 are slidably connected with the first positioning and clamping plate 5 and the second positioning and clamping plate 6, the other end of the transverse ball screw 403 is connected with a transverse screw shaking handle 406 arranged on the outer side of the fixed frame 401, and the other end of the longitudinal ball screw 409 is fixedly connected with a longitudinal shaking handle 411 arranged on the front end and the rear end of the fixed frame 401, after the transverse screw rod shaking handle 406 is rotated, the transverse screw rod shaking handle 406 can drive the transverse ball screw 403 to rotate, a transverse screw nut 407 on the transverse ball screw 403 can drive the third positioning clamping plate 7 and the fourth positioning clamping plate 8 to move along the transverse ball screw 403, and further the transverse positioning adjustment of the hollow glass is realized, similarly, after the longitudinal screw rod shaking handle 411 is rotated, the longitudinal screw rod shaking handle 411 can drive the longitudinal ball screw 409 to rotate, a longitudinal screw nut 412 on the longitudinal ball screw 409 can drive the first positioning clamping plate 5 and the second positioning clamping plate 6 to move along the longitudinal ball screw 409, and further the longitudinal positioning adjustment of the hollow glass is realized.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solution recorded in the foregoing embodiments is modified, and some technical features are replaced by equivalent, all belonging to the protection scope of the present invention.

Claims (6)

1. The utility model provides a cavity glass is glass positioner for production line, includes support (1), lead screw adjustment mechanism (4), first location clamp plate (5), second location clamp plate (6), third location clamp plate (7) and fourth location clamp plate (8), its characterized in that: the two-stage automatic positioning device is characterized in that two supports (1) are arranged, a rotating shaft (2) is arranged between the two supports (1), two ends of the rotating shaft (2) are rotatably connected with bearings (3) which are embedded and arranged on the upper portions of the two supports (1), a large transmission gear (9) is arranged on one end of the rotating shaft (2), a small transmission gear (10) is arranged under the large transmission gear (9), the small transmission gear (10) is meshed with the large transmission gear (9), the small transmission gear (10) is fixedly connected with a rotating shaft of a servo driving motor (11) which is fixedly arranged on the inner side of each support (1), a screw rod adjusting mechanism (4) is arranged on the rotating shaft (2), a first positioning clamping plate (5), a second positioning clamping plate (6), a third positioning clamping plate (7) and a fourth positioning clamping plate (8) are arranged on the screw rod adjusting mechanism (4), the screw rod adjusting mechanism (4) comprises a fixed frame (401), a support frame (402), a transverse ball screw (403), a central plate (404), a transverse screw rod bearing (405), a transverse screw rod nut (407), a longitudinal ball screw rod (409), a longitudinal screw rod bearing (410) and a longitudinal screw rod nut (412), wherein the support frame (402) is installed on a rotating shaft (2), the fixed frame (401) is installed at the upper end of the rotating shaft (2), the central plate (404) is arranged at the middle position of the fixed frame (401), the transverse ball screw rod (403) is installed between the two sides of the central plate (404) and the fixed frame (401), one end of the transverse ball screw rod (403) is rotatably connected with the transverse screw rod bearing (405) installed on the side faces of the two sides of the central plate (404), and the transverse screw rod nut (407) is installed on the transverse ball screw rod (403, longitudinal ball screws (409) are mounted between the front end and the rear end of the central plate (404) and the fixed frame (401), one ends of the longitudinal ball screws (409) are rotatably connected with longitudinal screw bearings (410) mounted at the front end and the rear end of the central plate (404), and longitudinal screw nuts (412) are mounted on the longitudinal ball screws (409).

2. The glass positioning device for the hollow glass production line according to claim 1, wherein the transverse screw nut (407) is integrally embedded in the third positioning and clamping plate (7) and the fourth positioning and clamping plate (8), and the longitudinal screw nuts (412) on the two longitudinal ball screws (409) are embedded in the first positioning and clamping plate (5) and the second positioning and clamping plate (6) respectively.

3. The glass positioning device for the hollow glass production line as claimed in claim 1, wherein the support (1) comprises a leg (101), a bottom plate (102) and a diagonal brace (103), the bottom end of the leg (101) is provided with the bottom plate (102), and the diagonal brace (103) is arranged on two sides of the bottom plate (102) and the leg (101).

4. The glass positioning device for the hollow glass production line according to claim 1, wherein a transverse sliding rod (408) is installed on each side of the transverse ball screw (403), the transverse sliding rod (408) is connected with the third positioning and clamping plate (7) and the fourth positioning and clamping plate (8) in a sliding mode, a longitudinal sliding rod (413) is installed on each side of the longitudinal ball screw (409), and the longitudinal sliding rod (413) is connected with the first positioning and clamping plate (5) and the second positioning and clamping plate (6) in a sliding mode.

5. The glass positioning device for an insulated glass manufacturing line according to claim 1, wherein the other end of the lateral ball screw (403) is connected to a lateral screw rocking handle (406) installed outside the fixed frame (401), and the other end of the longitudinal ball screw (409) is fixedly connected to a longitudinal screw rocking handle (411) provided at the front and rear ends of the fixed frame (401).

6. The glass positioning device for the hollow glass production line according to claim 1, wherein the first positioning and clamping plate (5) and the second positioning and clamping plate (6) are arranged in a front-back opposite manner, and the third positioning and clamping plate (7) and the fourth positioning and clamping plate (8) are arranged in a left-right opposite manner.

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