CN216939886U - Adjustable glass edge grinding device capable of realizing bilateral synchronous edge grinding - Google Patents

Abstract

The utility model relates to the field of auxiliary edging equipment for glass production, in particular to an adjustable glass edging device capable of realizing bilateral synchronous edging, which comprises a bearing frame, a left edging working part, a right edging working part, a moving driving mechanism, a moving bearing part, a lifting mounting mechanism and a sucker component, wherein the bottom of the bearing frame is arranged on a horizontal ground, the left side part of the bearing frame is provided with a left side edging working part, the width adjusting components in the left side edging working part and the right side edging working part of the utility model can adjust the distance of the edging working components, and then the interval between the edging operation component in the edging work portion of messenger's left side edging work portion, the right side edging work portion can adapt to in specific sheet glass's width size, has improved the adaptation scope of edging operation component, has satisfied the user demand that glass manufacturing enterprise carries out the edging operation to sheet glass.

Description

Can realize adjustable glass edging device of two synchronous edging of side

Technical Field

The utility model relates to the field of auxiliary edge grinding equipment for glass production, in particular to an adjustable glass edge grinding device capable of realizing bilateral synchronous edge grinding.

Background

Generally, glass can be classified by thickness into thin glass, thick glass, extra thick glass; the flat glass can be divided into common flat glass, embossed glass, polished glass, float glass and the like according to the surface state, the flat glass can be made into products with different colors and various special properties through processes of coloring, surface treatment, compounding and the like, and the flat glass also can be called as flat glass, has good perspective function, good light transmission performance, sound insulation and certain heat preservation performance, and has wide application range in daily use. During the production of the plate glass, the edge of the plate glass needs to be chamfered and edged, the existing glass two-side edging mechanisms are fixedly mounted on the operation frame and only suitable for edging the glass with fixed width, and the adaptability in the production and use process is too low to meet the production and use requirements of enterprises.

Disclosure of Invention

The utility model aims to provide an adjustable glass edging device capable of realizing bilateral synchronous edging, which can perform adaptive width adjustment on the spacing of edging mechanisms according to the width of glass to be edged in the using process, so that chamfering and edging operations of glass with more types and widths can be met; in order to achieve the purpose, the utility model adopts the following technical scheme: an adjustable glass edging device capable of realizing bilateral synchronous edging, which comprises a bearing frame, a left edging working part, a right edging working part, a moving driving mechanism, a moving bearing part, a lifting mounting mechanism and a sucker component, wherein the bottom of the bearing frame is arranged on the horizontal ground, a left side edging working part is arranged at the left side part of the bearing frame, a right side edging working part is arranged at the right side part of the bearing frame, the bottoms of the left side edging working part and the right side edging working part are fixedly connected with the bearing frame, a moving driving mechanism is arranged on the bearing frame, a moving bearing part is arranged at the upper part of the moving driving mechanism, the lower side of the lifting installation mechanism is arranged on the movable bearing part and connected with the movable bearing part, the sucker component is arranged on the lifting installation mechanism and is connected with the lifting installation mechanism.

The two same structure of left side edging work portion, right side edging work portion constitute, its two includes, bottom mounting bracket, joint support pole, width adjustment component, edging operation component and gyro wheel direction component, the bottom mounting bracket install bear the frame and with bear the frame fixed linking to each other, be provided with joint support pole at the upper portion fixed mounting of bottom mounting bracket, width adjustment component fixed mounting at joint support pole's top position, edging operation component install on the width adjustment component and link to each other with the width adjustment component, gyro wheel direction component fixed mounting on the side position of width adjustment component.

The width adjustment component comprises a transverse support frame, a first bearing support, a second bearing support and an adjustment screw rod, wherein the bottom of the transverse support frame is fixedly installed on a connecting support rod, the first bearing support and the second bearing support are installed on the left side and the right side of the upper portion of the transverse support frame, supporting bearings are installed on the first bearing support and the second bearing support, the two sides of the adjustment screw rod are installed on supporting bearing positions on the first bearing support and the second bearing support, and external threads are formed in the excircle of the adjustment screw rod.

Edging operation component include, vertical mounting bracket, reverse motor and edging rotator, set up threaded through-hole in the lower part of vertical mounting bracket, vertical mounting bracket install on adjusting screw and link to each other with adjusting screw thread fit through the threaded through-hole on it, install reverse motor on the medial surface of vertical mounting bracket for the edging rotator that directly carries out the edging operation is installed at the power take off end of reverse motor and is linked together with the power take off end fixed phase of reverse motor.

The gyro wheel guide member include, leading wheel mounting bracket, leading wheel body, leading wheel installation axle, the leading wheel mounting bracket install the side position at horizontal support frame, install the installation bearing on the leading wheel mounting bracket, the bearing inner race position at the installation support is installed at the both ends of leading wheel installation axle, the leading wheel body install at the leading wheel installation epaxially and with the fixed linking to each other of leading wheel installation axle.

The movable bearing part comprises a movable bearing plate, a first sliding block, a second sliding block, a first supporting sliding rail and a second supporting sliding rail, wherein the first supporting sliding rail and the second supporting sliding rail are arranged on a bearing rack and fixedly connected with the bearing rack, the first sliding block is clamped on the first supporting sliding rail and in sliding contact with the first supporting sliding rail, the second sliding block is clamped on the second supporting sliding rail and in sliding contact with the second supporting sliding rail, and the movable bearing plate is arranged on the first sliding block and the second sliding block and fixedly connected with the first sliding block and the second sliding block.

The lifting installation mechanism comprises a first lifting cylinder, a second lifting cylinder and a synchronous lifting plate, wherein the bottoms of the first lifting cylinder and the second lifting cylinder are installed on the movable bearing plate and fixedly connected with the movable bearing plate, lifting cylinder rods are installed on the first lifting cylinder and the second lifting cylinder, and the synchronous lifting plate is installed at the top of each lifting cylinder rod and fixedly connected with the lifting cylinder rod.

The sucking disc part include, sucking disc mounting bracket, sucking disc body, sucking disc installation pole and lock nut, the bottom of sucking disc mounting bracket install on synchronous lifter plate and with synchronous lifter plate fixed linking to each other, install sucking disc installation pole on the sucking disc mounting bracket, sucking disc installation pole pass through lock nut and lock on the sucking disc mounting bracket, the sucking disc body install on the upper portion of sucking disc installation pole and link firmly together with sucking disc installation pole.

The utility model has the beneficial effects that: the integral structure design of the utility model is very practical, in a specific technical scheme, the utility model realizes the distance adjustment of the edge grinding mechanism and further realizes the adaptive edge grinding operation of the plate glass mainly through the cooperative operation of the components such as the left edge grinding working part, the right edge grinding working part, the moving driving mechanism, the moving bearing part, the lifting mounting mechanism, the sucker component and the like, in particular, the width adjusting components in the left edge grinding working part and the right edge grinding working part can adjust the distance of the edge grinding operation components, so that the distance between the edge grinding operation components in the left edge grinding working part and the right edge grinding working part can be adapted to the width of the plate glass, the adaptation range of the edge grinding operation components is improved, and the use requirements of glass production enterprises on the edge grinding operation of the plate glass are met.

Drawings

FIG. 1 is a schematic view of the overall mounting structure of the present invention;

FIG. 2 is a schematic structural view of a left side edge grinding working part and a right side edge grinding working part in the present invention;

FIG. 3 is a schematic view of the structure of the width adjustment member in the present invention;

fig. 4 is a schematic structural view of an edging operation member according to the present invention;

FIG. 5 is a schematic view of the structure of the roller guide member in the present invention;

FIG. 6 is a schematic structural view of a movable carrying part in the present invention;

FIG. 7 is a schematic structural view of the lift mounting mechanism of the present invention;

FIG. 8 is a schematic view of the construction of the suction cup assembly of the present invention;

the reference numbers in the figures are: 1-bearing rack, 2-left side edging working part, 3-right side edging working part, 4-moving driving mechanism, 5-moving bearing part, 6-lifting installation mechanism, 7-sucker component, 21-bottom installation rack, 22-connecting support rod, 23-width adjustment component, 24-edging working component, 25-roller guide component, 231-transverse support frame, 232-first bearing support, 233-second bearing support, 234-adjusting screw rod, 241-vertical installation rack, 242-reverse motor, 243-edging rotating body, 251-guide wheel installation rack, 252-guide wheel body, 253-guide wheel installation shaft, 51-moving bearing plate, 52-first slide block, 53-second slide block, 53-right side edging working part, 51-moving bearing plate, 54-a first supporting slide rail, 55-a second supporting slide rail, 61-a first lifting cylinder, 62-a second lifting cylinder, 63-a synchronous lifting plate, 71-a sucker mounting rack, 72-a sucker body and 73-a sucker mounting rod.

Detailed Description

Specific example 1: in the following detailed description of the present invention, when an element is referred to as being "fixed" or "disposed" to another element, it can be directly or indirectly connected to the other element, as illustrated in the accompanying drawings and the detailed description. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "left" and "right" used in this specification to denote orientation are used with reference to a particular structure shown in the drawings, and do not constitute a limitation on the structure. The utility model aims to solve the problem that the existing edge grinding mechanism on two sides of glass is fixedly arranged on an operation frame, is only suitable for edge grinding operation of glass with fixed width, and has low adaptability in the production and use processes, in particular to an adjustable glass edge grinding device capable of realizing synchronous edge grinding on two sides, which is disclosed by the utility model and shown in the attached figure 1 of the specification, and mainly comprises a bearing frame 1, a left edge grinding working part 2, a right edge grinding working part 3, a moving driving mechanism 4 (the moving driving mechanism 4 adopts a conventional ball screw and nut transmission mode or an electric cylinder telescopic transmission mechanism or a hydraulic cylinder telescopic transmission mechanism), a moving bearing part 5, a lifting installation mechanism 6 and a sucker component 7, wherein the bearing frame 1 is used for installing and bearing the left edge grinding working part 2 and the right edge grinding working part 3, the bottom of bearing frame 1 is arranged on the horizontal ground, there is left edging working part 2 at the left side position fixed mounting who bears frame 1, there is right edging working part 3 at the right side position fixed mounting who bears frame 1, left side edging working part 2, the two of right side edging working part 3 are used for carrying out the edging operation to sheet glass's both sides, install removal drive mechanism 4 on bearing frame 1, wherein, the upper portion installation that removes drive mechanism 4 is provided with removal bearing part 5, the downside of lift installation mechanism 6 for carrying out the lift operation from top to bottom to suction disc part 7 is installed on removing bearing part 5 and is linked to each other with removal bearing part 5, suction disc part 7 for directly carrying out the suction operation to sheet glass installs on lift installation mechanism 6 and links to each other together with lift installation mechanism 6.

Referring to the description of the utility model shown in fig. 2, the left edging operation part 2 and the right edging operation part 3 for edging both sides of a plate glass are the same in structure, and include a bottom mounting frame 21, a connecting support rod 22, a width adjusting member 23, an edging operation member 24 and a roller guide member 25, wherein the bottom mounting frame 21 for mounting and supporting the connecting support rod 22 is fixedly mounted on the bearing frame 1, the connecting support rod 22 for mounting and supporting the width adjusting member 23 is fixedly mounted on the upper portion of the bottom mounting frame 21, the width adjusting member 23 for supporting the edging operation member 24 and adjusting the distance is fixedly mounted on the top portion of the connecting support rod 22, the edging operation member 24 is mounted on the width adjusting member 23 and is in threaded fit with the width adjusting member 23, a roller guide member 25 for carrying and guiding the sheet glass is fixedly mounted on a side portion of the width adjusting member 23.

Referring to fig. 3 of the specification of the present invention, the width adjustment member 23 for supporting and adjusting the distance between the edge grinding operation members 24 includes a lateral support frame 231, a first bearing support 232, a second bearing support 233 and an adjustment screw 234, wherein, the transverse supporting frame 231 is used for supporting the first bearing support 232 and the second bearing support 233, the bottom of the transverse supporting frame 231 is fixedly arranged on the connecting supporting rod 22, a first bearing support 232 and a second bearing support 233 are installed at the left and right sides of the upper part of the transverse support frame 231, support bearings for supporting and mounting both ends of the adjustment screw 234 are mounted on the first and second bearing supports 232 and 233, wherein, two sides of the adjusting screw 234 are arranged on the supporting bearing parts of the first bearing support 232 and the second bearing support 233, the outer circle of the adjusting screw 234 is further provided with an external thread matched with the threaded through hole formed at the lower part of the vertical mounting rack 241.

Referring to fig. 4 of the specification of the present invention, the edging operation means 24 for performing both-side edging operation of a sheet glass includes a vertical mounting frame 241, a counter motor 242, and an edging rotating body 243, wherein, the lower part of the vertical mounting rack 241 is provided with a thread through hole, when in installation, the vertical mounting rack 241 is installed on the adjusting screw 234 through the thread through hole on the vertical mounting rack and is in thread fit connection with the adjusting screw 234 (so that the adjusting screw 234 drives the vertical mounting rack 241 to move left and right for adjustment through thread fit when rotating), a reverse motor 242 for driving the edging rotary body 243 to rotate is installed on the inner side surface of the vertical mounting rack 241, an edging rotator 243 for performing an edging operation directly is installed at a power output end of the reversing motor 242 and is fixedly coupled to a power output end of the reversing motor 242 so as to receive a rotation torque of the reversing motor 242.

Referring to fig. 5 in the present specification, the roller guide member 25 for supporting and guiding the rolling of the plate glass includes a guide wheel mounting bracket 251, a guide wheel body 252, and a guide wheel mounting shaft 253, wherein the guide wheel mounting bracket 251 for mounting the guide wheel mounting shaft 253 is fixedly mounted at a side portion of the lateral support frame 231, a mounting bearing for mounting and supporting the guide wheel mounting shaft 253 is mounted on the guide wheel mounting bracket 251, both ends of the guide wheel mounting shaft 253 are mounted at inner race portions of the mounting support during mounting, and the guide wheel body 252 directly contacting the plate glass is fixedly mounted on the guide wheel mounting shaft 253 and has the same shaft mounting layout as the guide wheel mounting shaft 253.

Referring to the description of the utility model shown in fig. 6, the movable carrying part 5 for carrying and driving the lifting and lowering mounting mechanism 6 includes a movable carrying plate 51, a first slider 52, a second slider 53, a first supporting slide rail 54 and a second supporting slide rail 55, wherein the bottoms of the first supporting slide rail 54 and the second supporting slide rail 55 for clamping and carrying the first slider 52 and the second slider 53 are fixedly mounted on the carrying frame 1, the first slider 52 is clamped on the first supporting slide rail 54 and is in sliding contact with the first supporting slide rail 54, the second slider 53 is clamped on the second supporting slide rail 55 and is in sliding contact with the second supporting slide rail 55, and the movable carrying plate 51 for directly carrying and mounting the lifting and lowering mounting mechanism 6 is mounted on the first slider 52 and the second slider 53 and is fixedly connected with the first slider 52 and the second slider 53.

Referring to the description of the utility model and fig. 7, the lifting and lowering mechanism 6 for mounting and supporting the sucker member 7 includes a first lifting cylinder 61, a second lifting cylinder 62 and a synchronous lifting plate 63, wherein the bottoms of the first lifting cylinder 61 and the second lifting cylinder 62 for mounting and driving the synchronous lifting plate 63 to move up and down are fixedly mounted on the movable bearing plate 51, the lifting cylinder rods for lifting and moving down are mounted on the first lifting cylinder 61 and the second lifting cylinder 62, and the synchronous lifting plate 63 for mounting the sucker member 7 is mounted on the tops of the lifting cylinder rods and is fixedly connected with the lifting cylinder rods.

Referring to the specification of the present invention, as shown in fig. 8, the suction cup component 7 for performing suction operation on a plate glass includes a suction cup mounting frame 71, a suction cup body 72, a suction cup mounting rod 73 and a locking nut, wherein the suction cup mounting frame 71 is used for stably supporting the suction cup mounting rod 73, the bottom of the suction cup mounting frame 71 is fixedly mounted on the synchronous lifting plate 63, the suction cup mounting rod 73 for mounting and supporting the suction cup body 72 is mounted on the suction cup mounting frame 71, the suction cup mounting rod 73 is locked on the suction cup mounting frame 71 through the locking nut, and the suction cup body 72 for directly sucking the plate glass is mounted on the upper portion of the suction cup mounting rod 73 and is fixedly connected with the suction cup mounting rod 73.

The working process of the utility model during specific operation and use is as follows: when the utility model is used, firstly, the plate glass to be edged is hung on the sucking disc part 7 of the utility model through the external hoisting equipment, in the process, the plate glass to be edged is required to be straightened, two sides of the plate glass to be edged are vertical to the edging rotators 243 on the left edging working part 2 and the right edging working part 3, after the operation is finished, an operator can stably adsorb the bottom of the plate glass to be edged through the sucking disc body 72 in the sucking disc part 7, at the moment, the spacing distances of the edging rotators 243 on the left edging working part 2 and the right edging working part 3 can be adjusted according to the width of the plate glass, taking the left edging working part 2 as an example, the operator can rotate the rotating hand wheel on the width adjusting member 23 to drive the adjusting screw 234 to realize positive and negative rotation on the first bearing support 232 and the second bearing support 233, at this time, under the action of the screw pushing force, the vertical mounting rack 241 in the edging operation component 24 can be adjusted to move left and right on the adjusting screw 234, and the various types of edging rotators 243 driven by the reverse motor 242 to be adjusted to move left and right by the vertical mounting rack 241 to move left and right (the distance between the edging rotators 243 on the left edging working part 2 and the right edging working part 3 is adjusted to be slightly smaller than the width of the two sides of the plate glass to be edged so as to realize the contact edging operation of the edging rotators 243 and the two sides of the plate glass to be edged), remove bearing part 5 and drive sucking disc part 7 through lift installation mechanism 6 and adsorb the removal that resets of treating edging sheet glass looks left side edging work portion 2 and right side edging work portion 3, when edging rotator 243 in left side edging work portion 2, the right side edging work portion 3 and the both sides contact of treating edging sheet glass, edging rotator 243 can realize treating edging sheet glass's both sides and realize synchronous edging operation.

Claims (8)

1. The adjustable glass edging device capable of realizing bilateral synchronous edging is characterized by comprising a bearing rack (1), a left edging working part (2), a right edging working part (3), a movable driving mechanism (4), a movable bearing part (5), a lifting installation mechanism (6) and a sucker component (7), wherein the bottom of the bearing rack (1) is arranged on the horizontal ground, the left edging working part (2) is arranged at the left part of the bearing rack (1), the right edging working part (3) is arranged at the right part of the bearing rack (1), the bottoms of the left edging working part (2) and the right edging working part (3) are fixedly connected with the bearing rack (1), the movable driving mechanism (4) is arranged on the bearing rack (1), the movable bearing part (5) is arranged at the upper part of the movable driving mechanism (4), the lower side of the lifting installation mechanism (6) is arranged on the movable bearing part (5) and is connected with the movable bearing part (5), and the sucker component (7) is arranged on the lifting installation mechanism (6) and is connected with the lifting installation mechanism (6).

2. The adjustable glass edging device capable of realizing double-side synchronous edging as claimed in claim 1, it is characterized in that the left side edging working part (2) and the right side edging working part (3) are formed by the same structure, the two components comprise a bottom mounting rack (21), a connecting support rod (22), a width adjusting component (23), an edging operation component (24) and a roller guide component (25), wherein the bottom mounting rack (21) is arranged on the bearing rack (1) and is fixedly connected with the bearing rack (1), a connecting support rod (22) is fixedly arranged on the upper portion of the bottom mounting frame (21), a width adjusting component (23) is fixedly arranged on the top portion of the connecting support rod (22), an edging operation component (24) is arranged on the width adjusting component (23) and connected with the width adjusting component (23), and a roller guide component (25) is fixedly arranged on the side portion of the width adjusting component (23).

3. The adjustable glass edging device capable of realizing bilateral synchronous edging according to claim 2, wherein the width adjusting member (23) comprises a transverse support frame (231), a first bearing support (232), a second bearing support (233) and an adjusting screw (234), the bottom of the transverse support frame (231) is fixedly installed on the connecting support rod (22), the first bearing support (232) and the second bearing support (233) are installed on the left side and the right side of the upper portion of the transverse support frame (231), support bearings are installed on the first bearing support (232) and the second bearing support (233), support bearing positions on the first bearing support (232) and the second bearing support (233) are installed on the two sides of the adjusting screw (234), and an external thread is formed on the outer circle of the adjusting screw (234).

4. The adjustable glass edging device capable of realizing bilateral synchronous edging according to claim 3, wherein the edging operation member (24) comprises a vertical mounting frame (241), a reverse motor (242) and an edging rotator (243), a threaded through hole is formed in the lower portion of the vertical mounting frame (241), the vertical mounting frame (241) is mounted on the adjusting screw (234) through the threaded through hole thereon and is in threaded fit connection with the adjusting screw (234), the reverse motor (242) is mounted on the inner side surface of the vertical mounting frame (241), and the edging rotator (243) for directly performing edging operation is mounted at the power output end of the reverse motor (242) and is fixedly connected with the power output end of the reverse motor (242).

5. The adjustable glass edge grinding device capable of realizing double-side synchronous edge grinding according to claim 2, wherein the roller guide member (25) comprises a guide wheel mounting frame (251), a guide wheel body (252) and a guide wheel mounting shaft (253), the guide wheel mounting frame (251) is mounted at a side portion of the transverse support frame (231), a mounting bearing is mounted on the guide wheel mounting frame (251), two ends of the guide wheel mounting shaft (253) are mounted at an inner bearing ring portion of the mounting support, and the guide wheel body (252) is mounted on the guide wheel mounting shaft (253) and is fixedly connected with the guide wheel mounting shaft (253).

6. The adjustable glass edging device capable of realizing double-side synchronous edging as claimed in claim 1, the movable bearing part (5) is characterized by comprising a movable bearing plate (51), a first sliding block (52), a second sliding block (53), a first supporting sliding rail (54) and a second supporting sliding rail (55), wherein the first supporting sliding rail (54) and the second supporting sliding rail (55) are arranged on the bearing rack (1) and fixedly connected with the bearing rack (1), the first sliding block (52) is clamped on the first supporting sliding rail (54) and in sliding contact with the first supporting sliding rail (54), the second sliding block (53) is clamped on the second supporting sliding rail (55) and in sliding contact with the second supporting sliding rail (55), and the movable bearing plate (51) is arranged on the first sliding block (52) and the second sliding block (53) and is fixedly connected with the first sliding block (52) and the second sliding block (53).

7. The adjustable glass edging device capable of realizing double-side synchronous edging according to claim 6, wherein the lifting and mounting mechanism (6) comprises a first lifting cylinder (61), a second lifting cylinder (62) and a synchronous lifting plate (63), the bottoms of the first lifting cylinder (61) and the second lifting cylinder (62) are mounted on the movable bearing plate (51) and fixedly connected with the movable bearing plate (51), lifting cylinder rods are mounted on the first lifting cylinder (61) and the second lifting cylinder (62), and the synchronous lifting plate (63) is mounted on the top of the lifting cylinder rods and fixedly connected with the lifting cylinder rods.

8. The adjustable glass edging device capable of realizing bilateral synchronous edging of the glass according to claim 7, wherein the sucking disc part (7) comprises a sucking disc mounting frame (71), a sucking disc body (72), a sucking disc mounting rod (73) and a locking nut, the bottom of the sucking disc mounting frame (71) is mounted on the synchronous lifting plate (63) and fixedly connected with the synchronous lifting plate (63), the sucking disc mounting rod (73) is mounted on the sucking disc mounting frame (71), the sucking disc mounting rod (73) is locked on the sucking disc mounting frame (71) through the locking nut, and the sucking disc body (72) is mounted on the upper portion of the sucking disc mounting rod (73) and fixedly connected with the sucking disc mounting rod (73).

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