CN216945248U - Adjustable glass adsorption and conveying structure for plate glass production line - Google Patents

Abstract

The utility model relates to the field of glass conveying equipment for a plate glass production line, in particular to an adjustable glass adsorption conveying structure for the plate glass production line, which comprises a supporting frame, a supporting platform, an up-down adjusting assembly, a fixed supporting part, a moving driving assembly and an adsorption moving conveying assembly, the supporting platform is arranged on the supporting frame and connected with the supporting frame, the up-and-down adjusting component can realize the up-and-down adjusting function of the adsorption moving conveying component under the adjusting action of the manual adjusting component, meanwhile, the adsorption moving conveying component can realize the adjustment of the width among the sucker bodies under the matching action of the bidirectional adjusting screw rod, the first moving part and the second moving part, and then satisfy the absorption transport operation to different width sheet glass, very big improvement conveying equipment's commonality.

Description

Adjustable glass adsorption and conveying structure for plate glass production line

Technical Field

The utility model relates to the field of glass conveying equipment for a plate glass production line, in particular to an adjustable glass adsorption conveying structure for the plate glass production line.

Background

Glass is simply classified into plate glass and deep-processed glass, and generally, plate glass is mainly classified into three types; that is, a float glass, a flat glass by a drawing method, and a float glass, are becoming mainstream in a glass production method because the float glass has a uniform thickness, flat and parallel upper and lower surfaces, and is affected by factors such as high labor productivity and easy management. The plane glass can also be called as plate glass, has good perspective function, good light transmission performance, higher transmittance to near red heat rays in the sun, sound insulation and certain heat preservation performance, and is very suitable for being installed and used in constructional engineering. During the production process of plate glass on the production line, a plurality of production stations are required to produce, process and treat the plate glass, the structure of the existing glass conveying equipment is fixed, the plate glass conveying equipment only can be suitable for conveying operation of glass with fixed type and size, the plate glass conveying equipment cannot convey glass with different types and sizes, and the plate glass conveying equipment does not have universality, so that the equipment investment of enterprises is large, and the production and use requirements of the enterprises cannot be met.

Disclosure of Invention

The utility model aims to provide an adjustable glass adsorption conveying structure for a plate glass production line, which can adsorb and convey glass with different sizes and types in a specific operation and use process, greatly improves the use universality of conveying equipment and reduces the equipment investment cost of enterprises.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a sheet glass production line is with adjustable glass adsorbs transport structure, includes, braced frame, supporting platform, upper and lower adjustment subassembly, fixed support component, removes drive assembly, adsorbs and removes transport assembly, braced platform install on braced frame and link to each other together with braced frame, install on braced platform and be used for carrying out the upper and lower adjustment subassembly of adjusting from top to bottom to fixed support component, fixed support component installs on upper and lower adjustment subassembly, is provided with the removal drive assembly in the upper portion installation of fixed support component, the bottom of removal drive assembly link to each other with fixed support component stationary phase, adsorb and remove transport assembly install on removing drive assembly and link to each other with the removal drive assembly.

The vertical adjusting assembly comprises an installation shell, a rotary sleeve body, a rotary sleeve installation bearing, a worm wheel, a worm and a lifting screw rod, wherein the installation shell is installed on the supporting platform and fixedly connected with the supporting platform, the rotary sleeve installation bearing is installed in the installation shell, the rotary sleeve body is installed on the rotary sleeve installation bearing and connected with the rotary sleeve installation bearing, a threaded through hole is processed in the axial position of the rotary sleeve body, the lifting screw rod penetrates through the threaded through hole and is in threaded fit with the threaded through hole, the worm wheel is fixedly installed on the outer portion of the rotary sleeve body, and the worm wheel are in gear engagement.

The fixed support component comprises a fixed support base plate, a first support frame, a second support frame and a support guide rail, wherein the bottom of the fixed support base plate is arranged on the lifting screw rod and is connected with the upper end of the lifting screw rod, the first support frame and the second support frame are respectively arranged on the upper part of the fixed support base plate, and the support guide rail is respectively arranged on the first support frame and the second support frame.

The movable driving assembly comprises a driving motor, a first bearing part, a second bearing part, a driving lead screw and a movable seat, wherein the first bearing part and the second bearing part are mounted on a fixed supporting bottom plate and fastened together with the fixed supporting bottom plate through fastening bolts, two ends of the driving lead screw are respectively mounted on the bearing part and the second bearing part, the driving motor is mounted on the outer side of the first bearing part, the power output end of the driving motor is connected with one side end part of the driving lead screw, and the movable seat is mounted on the driving lead screw and is connected with the driving lead screw in a threaded fit manner.

The bearing comprises a bearing mounting seat, a bearing body, a bearing cover and connecting bolts, wherein the bearing mounting seat is mounted on a fixed supporting base plate through the fastening bolts, the bearing body is mounted in the bearing mounting seat, and the bearing cover is mounted on two sides of the bearing mounting seat and connected with the bearing mounting seat through the connecting bolts.

Adsorption removal conveying component include, remove the mounting bracket, support the slider, two-way adjusting screw, first removal portion, second removal portion, the removal mounting bracket install on support the slider and with support the slider fixed linking to each other, processing has the mounting groove on the upper portion of removal mounting bracket, support bearing is installed to the both sides at the mounting groove, two-way adjusting screw's both sides are installed at support bearing's bearing inner circle position and with support bearing inner circle interference fit, it has screw thread opposite direction's screw thread through-hole to process on first removal portion and second removal portion, first removal portion and second removal portion pass through the screw thread through-hole and install on two-way adjusting screw and link to each other with two-way adjusting screw thread fit, at first removal portion, install respectively on the second removal portion the two and be used for carrying out absorbent sucking disc body to glass.

Furthermore, install the manual adjustment part that is used for driving the adjustment to the worm on supporting platform's upper portion, the manual adjustment part include, first installation bearing frame, second installation bearing frame and adjustment drive pole, the bottom of first installation bearing frame, second installation bearing frame install on supporting platform and with fixed linking to each other at supporting platform, install the installation bearing on first installation bearing frame and second installation bearing frame, adjustment drive pole install on the bearing inner race position of installation bearing, the worm is installed on adjustment drive pole and is fixed linking to each other with adjustment drive pole.

And adjusting hand wheels are respectively arranged at the end parts of the adjusting driving rod and the bidirectional adjusting screw rod.

Further, install the direction subassembly that is used for supporting the direction to the fixed stay part at supporting platform, the direction subassembly comprises guide bar, uide bushing, and wherein, the top fixed mounting of guide bar has the glossy installation through-hole of inner wall in the bottom of fixed stay bottom plate, the processing on the uide bushing, and the guide bar is the glossy cylinder structure of outer wall, and the downside of guide bar runs through to be installed in the installation through-hole and with the smooth contact of installation through-hole inner wall.

The utility model has the beneficial effects that: the adjustable glass adsorption conveying structure for the plate glass production line can be used for carrying out adaptive height and width adjustment according to glass with different thicknesses and width specifications during specific operation and use, so that adsorption conveying operation on different types of glass is met, the universality of conveying equipment is improved, and the equipment investment of enterprises is reduced.

Drawings

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

FIG. 2 is a schematic view of the vertical adjustment assembly of the present invention;

FIG. 3 is a schematic view of the construction of the stationary support member of the present invention;

FIG. 4 is a schematic view of the mounting structure of the movement drive assembly of the present invention;

FIG. 5 is a schematic structural view of the first bearing portion and the second bearing portion of the present invention;

FIG. 6 is a schematic view of the structure of the adsorption moving conveyor assembly in the present invention;

FIG. 7 is a schematic view of the structure of a manual adjustment assembly of the present invention;

the reference numbers in the figures are: 1-supporting frame, 2-supporting platform, 3-up-down adjusting component, 4-fixed supporting component, 5-moving driving component, 6-adsorption moving conveying component, 7-manual adjusting component, 8-adjusting hand wheel, 301-mounting shell, 302-rotating sleeve body, 303-rotating sleeve mounting bearing, 304-worm wheel, 305-worm, 306-lifting screw, 401-fixed supporting bottom plate, 402-first supporting frame, 403-second supporting frame, 404-supporting guide rail, 501-driving motor, 502-first bearing part, 503-second bearing part, 504-driving screw rod, 505-moving seat, 5021-bearing mounting seat, 5022-bearing body, 5023-bearing cover, 5024-connecting bolt, 601-a movable mounting frame, 602-a supporting sliding block, 603-a bidirectional adjusting screw rod, 604-a first moving part, 605-a second moving part, 701-a first mounting bearing seat, 702-a second mounting bearing seat and 703-an adjusting driving 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 herein to denote orientation are used with reference to a particular structure shown in the drawings and are not to be construed as limiting the structure. Aiming at the problems that the existing glass conveying device can only be suitable for conveying operation of glass with fixed type and size, can not convey glass with different types and sizes and does not have universality, the utility model designs and provides an adjustable glass adsorption conveying structure for a plate glass production line, which can adsorb and convey glass with different sizes and types in the specific operation and use process and improves the use universality of conveying equipment, as shown in the specification attached figure 1 in the utility model, the adjustable glass adsorption conveying structure for the plate glass production line mainly comprises a supporting frame 1, a supporting platform, an up-and-down adjusting assembly 3, a fixed supporting part 4, a movable driving assembly 5 and an adsorption movable conveying assembly 6, wherein the bottom of the supporting frame 1 is arranged on the horizontal ground, and the supporting platform for installing and supporting operation of the up-and-down adjusting assembly 3 is arranged on the supporting frame 1 and is used for installing and supporting operation of the up-and-down adjusting assembly 3 The glass adsorption device is fixedly connected with a supporting frame 1, an upper and lower adjusting component 3 used for adjusting a fixed supporting component 4 up and down is installed on a supporting platform, a fixed supporting component 4 used for installing and supporting a movable driving component 5 is installed on the upper and lower adjusting component 3, a movable driving component 5 used for driving an adsorption movable conveying component 6 is installed on the upper portion of the fixed supporting component 4, wherein the bottom of the movable driving component 5 is fixedly connected with the fixed supporting component 4, and the adsorption movable conveying component 6 used for directly performing adsorption operation on glass is installed on the movable driving component 5 and is in threaded fit with the movable driving component 5.

Referring to fig. 2 of the specification of the present invention, the vertical adjustment assembly 3 for performing height adjustment on the fixed support member 4 comprises an installation housing 301, a rotary sleeve body 302, a rotary sleeve installation bearing 303, a worm wheel 304, a worm 305 and a lifting screw 306, wherein the installation housing 301 for installing and supporting the rotary sleeve installation bearing 303 is installed on and fixedly connected with a support platform, the rotary sleeve installation bearing 303 for installing and supporting the rotary sleeve body 302 is installed in the installation housing 301, the rotary sleeve body 302 for screw-fitting the lifting screw 306 is installed at the inner ring part of the bearing of the rotary sleeve installation bearing 303, a screw through hole for installing the lifting screw 306 is processed at the axial part of the rotary sleeve body 302, the lifting screw 306 penetrates through the screw through hole and is screw-fitted and connected with the screw through hole, the worm wheel 304 fitted with the worm 305 is fixedly installed at the outer part of the rotary sleeve body 302, in which the worm 305 is geared with the worm wheel 304.

Referring to the description of the utility model and fig. 3, the fixed support part 4 for performing mounting and supporting operations on the mobile driving assembly 5 includes a fixed support base plate 401, a first support frame 402, a second support frame 403 and a support rail 404, wherein the bottom of the fixed support base plate 401 is mounted on the lifting screw 306 and connected with the upper end of the lifting screw 306, the upper part of the fixed support base plate 401 is respectively provided with the first support frame 402 and the second support frame 403 for performing mounting and supporting operations on the support rail 404, and the first support frame 402 and the second support frame 403 are respectively provided with the support rail 404 for engaging with the support slider 602.

Referring to the description of the utility model and fig. 4, the mobile driving assembly 5 for driving the mobile mounting rack 601 to move includes a driving motor 405, a first bearing portion 502, a second bearing portion 503, a driving screw rod 504 and a mobile seat 505, wherein the first bearing portion 502 and the second bearing portion 503 are used for mounting and supporting two ends of the driving screw rod 504, wherein the bottoms of the first bearing portion 502 and the second bearing portion 503 are mounted on the fixed supporting base plate 401 and fastened with the fixed supporting base plate 401 through fastening bolts, two ends of the driving screw rod 504 for mounting and supporting the mobile seat 505 are respectively mounted on the bearing portion and the second bearing portion 503, the driving motor 405 is mounted on the outer side of the first bearing portion 502, the power output end of the driving motor 405 is connected with one side end of the driving screw rod 504, a threaded through hole is processed on the mobile seat 505, the movable base 505 is mounted on the driving screw rod 504 through a threaded through hole thereon and is connected with the driving screw rod 504 in a threaded fit manner.

Referring to the description of the utility model shown in fig. 5, the first bearing portion 502 and the second bearing portion 503 for mounting and supporting two ends of the driving screw 504 are formed by the same structure, and the two portions include a bearing mounting base 5021, a bearing body 5022, a bearing cap 5023 and a connecting bolt 5024, wherein the bearing mounting base 5021 is mounted on the fixed support base plate 401 through a fastening bolt, the bearing body 5022 for directly mounting and supporting two ends of the driving screw 504 is mounted in the bearing mounting base 5021, and the bearing caps 5023 for performing the spacing and sealing operation on the bearing body 5022 are mounted on two sides of the bearing mounting base 5021 and connected with the bearing mounting base 5021 through the connecting bolt 5024.

Referring to fig. 6 of the specification of the present invention, an adsorption moving conveyor assembly 6 for directly performing adsorption operation on glass includes a moving mounting frame 601, a supporting slider 602, a bidirectional adjusting screw 603, a first moving part 604, and a second moving part 605, wherein the bottom of the moving mounting frame 601 for mounting the bidirectional adjusting screw 603 is fixedly mounted on the supporting slider 602, a mounting groove for mounting a supporting bearing is formed at the upper part of the moving mounting frame 601 (the outer side surfaces of the first moving part 604 and the second moving part 605 are in non-fixed contact with the inner wall of the mounting groove), supporting bearings for mounting and supporting both ends of the bidirectional adjusting screw 603 are mounted at both sides of the mounting groove, wherein both sides of the bidirectional adjusting screw 603 are mounted at the inner ring part of the supporting bearing and are in interference fit with the inner ring of the supporting bearing, threaded through holes with opposite thread directions are formed at the first moving part 604 and the second moving part 605, the first moving part 604 and the second moving part 605 are mounted on the bidirectional adjusting screw 603 through threaded through holes and are in threaded fit with the bidirectional adjusting screw 603, when the glass cleaner is used, the rotation of the bidirectional adjusting screw 603 can drive the first moving part 604 and the second moving part 605 to move relatively or oppositely, and the first moving part 604 and the second moving part 605 are respectively provided with a sucker body for sucking glass.

The using process of the utility model during specific operation and use is as follows: firstly, an operator can control the sucker body in the adsorption moving conveying assembly 6 to perform adsorption operation on the plate glass, when the plate glass needs to be conveyed, the operator can control the driving motor 405 in the moving driving assembly 5 to work, at the moment, the driving motor 405 drives the driving screw rod 504 to rotate, at the moment, under the action of a thread pushing force, the moving seat 505 arranged on the driving screw rod 504 drives the adsorption moving conveying assembly 6 arranged at the upper part of the adsorption moving conveying assembly to move on the supporting guide rail 404 through the supporting slide block 602, at the moment, the sucker body on the adsorption moving conveying assembly 6 can adsorb the plate glass to perform moving conveying operation, when the height of the adsorption moving conveying assembly 6 needs to be adjusted, the operator can adjust the lifting screw 306 in the up-and-down adjusting assembly 3, the specific operation process is that the operator can rotate the worm 305 to drive the worm wheel 304 to rotate forward and backward, the worm wheel 304 can drive the rotary sleeve body 302 to rotate forward and backward, at this time, under the action of the thread thrust, the lifting screw 306 installed in the rotary sleeve body 302 can realize the up-and-down displacement adjustment, the lifting screw 306 can drive the adsorption moving conveying assembly 6 to realize the up-and-down displacement adjustment through the fixed supporting component 4 while adjusting up and down, and further realize the height adjustment of the plate glass, when the adaptability adjustment is needed according to the width of the plate glass, an operator can realize the adjustment by adjusting the bidirectional adjusting screw 603 in the adsorption moving conveying assembly 6, the specific principle is that threaded through holes with opposite thread directions are processed on the first moving part 604 and the second moving part 605, the first moving part 604 and the second moving part 605 are installed on the bidirectional adjusting screw 603 through the threaded through holes and are connected with the bidirectional adjusting screw 603 in a thread matching way, when in use, the rotation of the bidirectional adjusting screw 603 can simultaneously drive the first moving part 604, The second moving part 605 moves relatively or reversely, and at this time, the suction cup bodies mounted on the first moving part 604 and the second moving part 605 can adjust the relative width distance, so as to realize adaptive suction of the plate glass.

Specific example 2: in order to make the present invention have more flexible and convenient adjustment operation effect during specific operation and use, on the basis of the above embodiment 1, a manual adjustment component 7 for driving and adjusting the worm 305 is installed on the upper portion of the supporting platform, wherein the manual adjustment component 7 includes a first mounting bearing seat 701, a second mounting bearing seat 702 and an adjustment driving rod 703, the bottom of the first mounting bearing seat 701 and the second mounting bearing seat 702 for mounting and supporting the adjustment driving rod 703 are installed on the supporting platform and fixedly connected with the supporting platform, mounting bearings for directly mounting and supporting the adjustment driving rod 703 are installed on the first mounting bearing seat 701 and the second mounting bearing seat 702, the adjustment driving rod 703 is installed on the bearing part of the mounting bearings, the worm 305 is installed on the adjustment driving rod 703 and fixedly connected with the adjustment driving rod 703, an adjusting hand wheel 8 is mounted at the end of the adjusting driving rod 703, when in use, an operator can rotate the adjusting hand wheel 8 to drive the worm 305 to rotate forwards and backwards, so that the worm 305 can be flexibly and conveniently adjusted, and meanwhile, in order to flexibly adjust the bidirectional adjusting screw 603, the adjusting hand wheel 8 for driving the bidirectional adjusting screw 603 to rotate is mounted at the end of the bidirectional adjusting screw 603.

Claims (8)

1. An adjustable glass adsorption conveying structure for a plate glass production line is characterized by comprising a supporting frame (1), a supporting platform, an up-and-down adjusting assembly (3), a fixed supporting component (4), a movable driving assembly (5) and an adsorption movable conveying assembly (6), wherein the supporting platform is arranged on the supporting frame (1) and is connected with the supporting frame (1), an up-down adjusting component (3) for adjusting the fixed supporting component (4) up and down is arranged on the supporting platform, the fixed supporting component (4) is arranged on the up-down adjusting component (3), the upper part of the fixed supporting part (4) is provided with a movable driving component (5), the bottom of the movable driving component (5) is fixedly connected with the fixed supporting part (4), and the adsorption movable conveying component (6) is arranged on the movable driving component (5) and is connected with the movable driving component (5).

2. The adjustable glass adsorption conveying structure for the plate glass production line according to claim 1, wherein the up-down adjusting assembly (3) comprises an installation shell (301), a rotating sleeve body (302), a rotating sleeve installation bearing (303), a worm wheel (304), a worm (305) and a lifting screw (306), the installation shell (301) is installed on the supporting platform and fixedly connected with the supporting platform, the rotating sleeve installation bearing (303) is installed in the installation shell (301), the rotating sleeve body (302) is installed on the rotating sleeve installation bearing (303) and connected with the rotating sleeve installation bearing (303), a threaded through hole is processed at the axial position of the rotating sleeve body (302), the lifting screw (306) penetrates through the threaded through hole and is in threaded fit with the threaded through hole, the worm wheel (304) is fixedly installed outside the rotating sleeve body (302), the worm (305) is in gear engagement with the worm wheel (304).

3. The adjustable glass adsorption conveying structure for the flat glass production line according to claim 2, wherein the fixed supporting component (4) comprises a fixed supporting base plate (401), a first supporting frame (402), a second supporting frame (403) and a supporting guide rail (404), the bottom of the fixed supporting base plate (401) is installed on the lifting screw (306) and connected with the upper end of the lifting screw (306), the first supporting frame (402) and the second supporting frame (403) are respectively installed on the upper part of the fixed supporting base plate (401), and the supporting guide rail (404) is respectively installed on the first supporting frame (402) and the second supporting frame (403).

4. The adjustable glass adsorption conveying structure for a plate glass production line as claimed in claim 3, it is characterized in that the mobile driving component (5) comprises a driving motor (405), a first bearing part (502), a second bearing part (503), a driving screw rod (504) and a mobile seat (505), the first bearing part (502) and the second bearing part (503) are both arranged on the fixed supporting bottom plate (401) and are fastened with the fixed supporting bottom plate (401) through fastening bolts, two ends of the driving lead screw (504) are respectively arranged on a bearing part and a second bearing part (503), a driving motor (405) is arranged on the outer side of the first bearing part (502), the power output end of the driving motor (405) is connected with one side end part of a driving screw rod (504), the movable base (505) is arranged on the driving lead screw (504) and is connected with the driving lead screw (504) in a threaded fit manner.

5. The adjustable glass adsorption conveying structure for the flat glass production line according to claim 4, wherein the first bearing part (502) and the second bearing part (503) are the same in structure, and the first bearing part and the second bearing part comprise a bearing mounting seat (5021), a bearing body (5022), a bearing cap (5023) and a connecting bolt (5024), the bearing mounting seat (5021) is mounted on the fixed supporting base plate (401) through a fastening bolt, the bearing body (5022) is mounted in the bearing mounting seat (5021), and the bearing cap (5023) is mounted on two sides of the bearing mounting seat (5021) and connected with the bearing mounting seat (5021) through the connecting bolt (5024).

6. The adjustable glass adsorption conveying structure for the flat glass production line according to claim 2, wherein the adsorption moving conveying assembly (6) comprises a moving mounting frame (601), a supporting slide block (602), a bidirectional adjusting screw (603), a first moving part (604) and a second moving part (605), the moving mounting frame (601) is mounted on the supporting slide block (602) and fixedly connected with the supporting slide block (602), a mounting groove is processed on the upper part of the moving mounting frame (601), supporting bearings are mounted on two sides of the mounting groove, two sides of the bidirectional adjusting screw (603) are mounted on the bearing inner ring part of the supporting bearing and are in interference fit with the bearing inner ring of the supporting bearing, threaded through holes with opposite thread directions are processed on the first moving part (604) and the second moving part (605), and the first moving part (604) and the second moving part (605) are mounted on the bidirectional adjusting screw (603) through the threaded through holes and are in interference fit with the bidirectional adjusting screw (603) 603) The first moving part (604) and the second moving part (605) are respectively provided with a sucker body for sucking the glass.

7. The adjustable glass adsorption conveying structure for a plate glass production line as claimed in claim 6, it is characterized in that a manual adjusting component (7) for driving and adjusting the worm (305) is arranged at the upper part of the supporting platform, the manual adjusting component (7) comprises a first mounting bearing seat (701), a second mounting bearing seat (702) and an adjusting driving rod (703), the bottoms of the first mounting bearing seat (701) and the second mounting bearing seat (702) are mounted on the supporting platform and fixedly connected with the supporting platform, the first mounting bearing seat (701) and the second mounting bearing seat (702) are provided with mounting bearings, the adjusting driving rod (703) is arranged on the inner ring part of the bearing for installing the bearing, and the worm (305) is arranged on the adjusting driving rod (703) and is fixedly connected with the adjusting driving rod (703).

8. The adjustable glass adsorption conveying structure for a flat glass production line as claimed in claim 7, wherein the adjusting driving rod (703) and the end of the bidirectional adjusting screw (603) are respectively provided with an adjusting hand wheel (8).

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