CN110723913B - Full-automatic vacuum glass manufacturing equipment - Google Patents

Abstract

The invention discloses full-automatic vacuum glass manufacturing equipment which comprises a base, wherein a transmission mechanism is arranged in the base, suckers are fixedly connected to the outer walls of the transmission mechanism, original glass sheets are sucked to the outer walls of the two suckers, a power mechanism is sleeved at the right end of the transmission mechanism, a shell is fixedly connected to the upper surface of the base, an adjusting mechanism is fixedly connected to the right end of the upper surface of the shell, and a clamping mechanism is sleeved in the adjusting mechanism. This full-automatic vacuum glass manufacture equipment uses through the cooperation that aluminum product frame, aspirating hole and glass glued etc. increases the aesthetic property of vacuum glass when using, uses through the cooperation of splint, first motor and double threaded rod etc. reduces the time that the piece process was used that closes, and then improves the practicality of whole mechanism, uses through the cooperation of spring, ejector pin and cardboard etc. improves the user demand that people made to vacuum glass greatly.

Description

Full-automatic vacuum glass manufacturing equipment

Technical Field

The invention relates to the technical field of glass manufacturing, in particular to full-automatic vacuum glass manufacturing equipment.

Background

Vacuum glass is a novel glass deep-processing product, form based on the thermos bottle principle research and development, vacuum glass's structure is similar with cavity glass, its difference lies in that the gas in the vacuum glass cavity is very thin, almost be close to the vacuum, vacuum glass is airtight all around with two sheet glass, take out into vacuum and sealed exhaust hole with its clearance, but current vacuum glass manufacture equipment, need beat the metal hole on glass and bleed when making vacuum glass, aesthetic property when influencing vacuum glass and using, need the manual work to close the piece when closing the piece, the waste time, influence work efficiency, and then reduce the practicality of whole mechanism, hardly satisfy the user demand that people made to vacuum glass.

Disclosure of Invention

The invention aims to provide full-automatic vacuum glass manufacturing equipment, which aims to solve the problems that the existing vacuum glass manufacturing equipment in the background art needs to drill metal holes on glass for vacuum air extraction when the vacuum glass is manufactured, the attractiveness of the vacuum glass in use is influenced, manual sheet combination is needed when the vacuum glass is combined, the time is wasted, the working efficiency is influenced, the practicability of the whole mechanism is further reduced, and the use requirement of people on the vacuum glass manufacturing is difficult to meet.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic vacuum glass manufacturing device comprises a base, wherein a transmission mechanism is arranged in the base, the transmission mechanism is movably connected with the base, the outer wall of the transmission mechanism is fixedly connected with the suckers, the outer walls of the two suckers attract and adhere to glass original sheets, the right end of the transmission mechanism is sleeved with a power mechanism, the power mechanism is in interference fit with the transmission mechanism, the bottom end of the power mechanism is fixedly connected with the base, the upper surface of the base is fixedly connected with the shell, the right end of the upper surface of the shell is fixedly connected with the adjusting mechanism, the inside of the adjusting mechanism is sleeved with a clamping mechanism which is in clearance fit with the adjusting mechanism, the outer wall of the clamping mechanism is tightly attached with an aluminum frame, the bottom end of the aluminum frame is provided with an air exhaust hole, the outer wall of the extraction hole is coated with glass cement, and the inside of the aluminum frame is filled with a molecular sieve.

Preferably, drive mechanism includes double threaded rod, first bearing, splint and slider, first bearing has all been cup jointed at both ends about double threaded rod, first bearing and double threaded rod interference fit, double threaded rod passes through first bearing and base activity and links to each other, double threaded rod's right-hand member cup joints with power unit mutually, double threaded rod's outer wall threaded connection has splint, two the outer wall processing of splint has the slider, the outer wall and the base clearance fit of slider, the outer wall rigid coupling of splint has the sucking disc.

Preferably, the clamping plate is symmetrical left and right with respect to the base.

Preferably, power unit includes first motor, first belt pulley, second belt pulley and belt, the bottom and the base looks rigid coupling of first motor, first belt pulley has been cup jointed to first motor output shaft outer wall, first belt pulley and first motor interference fit, the bottom of first belt pulley is equipped with the second belt pulley, the inside and the double threaded rod interference fit of second belt pulley, the outer wall of second belt pulley has cup jointed the belt, the second belt pulley passes through the belt and links to each other with first belt pulley activity.

Preferably, the first belt pulley and the output shaft of the first motor are located on the same horizontal line.

Preferably, adjustment mechanism includes second motor, disc, electric putter, connector, short round pin and connecting clamp, the bottom and the casing looks rigid coupling of second motor, the left end rigid coupling of second motor output shaft has the disc, the bottom rigid coupling of disc has electric putter, electric putter's left end rigid coupling has the connector, the inside rigid coupling of connector has the short round pin, the outer wall of short round pin has cup jointed the connecting clamp, connecting clamp and short round pin clearance fit, the connecting clamp links to each other with the connector activity through the short round pin, clamping mechanism has been cup jointed to the outer wall of connecting clamp.

Preferably, two clamping mechanism includes ejector pin, cardboard and spring, the outer wall and the connecting clamp clearance fit of ejector pin, the one end rigid coupling that the connecting clamp was kept away from to the ejector pin has the cardboard, the outer wall and the aluminium product frame of cardboard closely laminate, the outer wall of ejector pin has cup jointed the spring, spring and ejector pin clearance fit, the one end and the cardboard of spring laminate mutually, the other end and the connecting clamp of spring laminate mutually.

Preferably, the ejector rod and the connecting clamp form a sliding mechanism.

Compared with the prior art, the invention has the beneficial effects that: this full-automatic vacuum glass manufacture equipment, through the aluminum product frame, cooperation that aspirating hole and glass glue etc. are used, the mode that need make the metal hole at the glass outer wall when original manufacturing vacuum glass has been changed, increase vacuum glass's aesthetic property when using, through splint, the cooperation of first motor and double threaded rod etc. is used, can directly veneer two glass on the aluminum product frame simultaneously, reduce the time that closes piece process used, and then improve whole mechanism's practicality, through the spring, the cooperation of ejector pin and cardboard etc. is used, the installation and the dismantlement of the aluminum product frame of being convenient for, improve people's user demand to vacuum glass's manufacturing greatly.

Drawings

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

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a schematic view of the clamping mechanism of FIG. 1;

FIG. 4 is a schematic view of the adjustment mechanism of FIG. 1;

FIG. 5 is a schematic view of a connection structure between the transmission structure and the power mechanism in FIG. 1;

fig. 6 is a schematic view of the aluminum frame and the molecular sieve in fig. 1.

In the figure: 1. the base, 2, drive mechanism, 201, double-end threaded rod, 202, first bearing, 203, splint, 204, slider, 3, sucking disc, 4, former piece of glass, 5, power unit, 501, first motor, 502, first belt pulley, 503, second belt pulley, 504, belt, 6, adjustment mechanism, 601, second motor, 602, disc, 603, electric putter, 604, connector, 605, short pin, 606, connecting clamp, 7, clamping mechanism, 701, ejector pin, 702, cardboard, 703, spring, 8, casing, 9, aluminum frame, 10, aspirating hole, 11, glass glues, 12, molecular sieve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a full-automatic vacuum glass manufacturing device comprises a base 1, a transmission mechanism 2 is installed inside the base 1, the transmission mechanism 2 is movably connected with the base 1, a double-head threaded rod 201 is movably connected with the base 1, suction cups 3 are fixedly connected to the outer wall of the transmission mechanism 2, the types of the suction cups 3 are SH-QF04-03, glass original sheets 4 are respectively sucked to the outer walls of the two suction cups 3, a power mechanism 5 is sleeved on the right end of the transmission mechanism 2, the power mechanism 5 is in interference fit with the transmission mechanism 2, the double-head threaded rod 201 is in interference fit with a second belt pulley 503, the bottom end of the power mechanism 5 is fixedly connected with the base 1, a shell 8 is fixedly connected to the upper surface of the base 1, an adjusting mechanism 6 is fixedly connected to the right end of the upper surface of the shell 8, a clamping mechanism 7 is sleeved inside the adjusting mechanism 6, a push rod 701 is in clearance fit with a connecting clamp 606, the clamping mechanism 7 is in clearance fit with the adjusting mechanism 6, the outer wall of clamping mechanism 7 closely laminates aluminum product frame 9, and aspirating hole 10 has been seted up to the bottom of aluminum product frame 9, takes out the air in the cavity that two former pieces of glass 4 and aluminum product frame 9 formed through aspirating hole 10, and the outer wall of aspirating hole 10 is paintd glass and is glued 11, and glass glues 11 and can be with former piece 4 of aluminum product frame 9 and glass to the bonding, and the inside packing of aluminum product frame 9 has molecular sieve 12, and molecular sieve 12 can dry the air between the former piece 4 of glass.

The transmission mechanism 2 comprises a double-end threaded rod 201 and a first bearing 202, splint 203 and slider 204, first bearing 202 has all been cup jointed at both ends about double threaded rod 201, first bearing 202 and double threaded rod 201 interference fit, double threaded rod 201 rotates in base 1 through first bearing 202, double threaded rod 201 links to each other with base 1 activity through first bearing 202, double threaded rod 201's right-hand member cup joints with power unit 5 mutually, second belt pulley 503 can drive double threaded rod 201 and rotate, double threaded rod 201's outer wall threaded connection has splint 203, the outer wall processing of two splint 203 has slider 204, the outer wall and the base 1 clearance fit of slider 204, double threaded rod 201 rotates and to drive two splint 203 and pass through slider 204 and remove in base 1, the outer wall rigid coupling of splint 203 has sucking disc 3, splint 203 is about base 1 bilateral symmetry, there are two splint 203 at base 1's internally mounted.

The power mechanism 5 comprises a first motor 501, a first belt pulley 502, a second belt pulley 503 and a belt 504, the bottom end of the first motor 501 is fixedly connected with the base 1, the model of the first motor 501 is 6D300GN-24, the outer wall of an output shaft of the first motor 501 is sleeved with the first belt pulley 502, the first belt pulley 502 is in interference fit with the first motor 501, the bottom end of the first belt pulley 502 is provided with the second belt pulley 503, the inside of the second belt pulley 503 is in interference fit with the double-headed threaded rod 201, the outer wall of the second belt pulley 503 is sleeved with the belt 504, the first belt pulley 502 can drive the second belt pulley 503 to rotate through the belt 504, the second belt pulley 503 is movably connected with the first belt pulley 502 through the belt 504, the first belt pulley 502 and the output shaft of the first motor 501 are located on the same horizontal line, and the first motor 501 can drive the first belt pulley 502 to rotate.

The adjusting mechanism 6 comprises a second motor 601, a disc 602, an electric push rod 603, a connector 604, a short pin 605 and a connecting clamp 606, the bottom end of the second motor 601 is fixedly connected with the housing 8, the second motor 601 is a servo motor, the rotating speed can be adjusted, the external power supply is 220V, the specific type can be determined according to actual conditions, the disc 602 is fixedly connected with the left end of the output shaft of the second motor 601, the disc 602 can be driven by the second motor 601 to rotate, the electric push rod 603 is fixedly connected with the bottom end of the disc 602, the type of the electric push rod 603 is LX100, the connector 604 is fixedly connected with the left end of the electric push rod 603, a bearing is installed at the right end of the connector 604, the connector 604 can rotate at the left end of the electric push rod 603, the short pin 605 is fixedly connected inside the connector 604, the connecting clamp 606 is sleeved on the outer wall of the short pin 605, the connecting clamp 606 is in clearance fit with the short pin 605, the connecting clamp 606 is connected with the connector 604 through the short pin 605, the connecting clip 606 is movably connected with the connecting head 604 through a short pin 605, and the clamping mechanism 7 is sleeved on the outer wall of the connecting clip 606.

Two clamping mechanism 7 include ejector pin 701, cardboard 702 and spring 703, the outer wall and the connecting clamp 606 clearance fit of ejector pin 701, the one end rigid coupling that the connecting clamp 606 was kept away from to ejector pin 701 has cardboard 702, the outer wall processing of cardboard 702 has the stripe can increase and aluminum product frame 9 between the frictional force, the outer wall and the aluminum product frame 9 of cardboard 702 closely laminate, spring 703 has been cup jointed to the outer wall of ejector pin 701, spring 703 and ejector pin 701 clearance fit, the one end and the cardboard 702 of spring 703 laminate mutually, the other end and the connecting clamp 606 of spring 703 laminate mutually, utilize the elasticity of spring 703 can press from both sides cardboard 702 and aluminum product frame 9 tightly, ejector pin 701 constitutes slide mechanism with the connecting clamp 606, ejector pin 701 can remove in the connecting clamp 606.

In this example, first, an external power supply of a first motor 501 is connected, the first motor 501 starts to work, an output shaft of the first motor 501 drives a first belt pulley 502 to rotate, the first belt pulley 502 drives a second belt pulley 503 to rotate through a belt 504, the second belt pulley 503 drives a double-threaded rod 201 to rotate in a base 1 through a first bearing 202, the double-threaded rod 201 drives two clamping plates 203 to move in the base 1 through a sliding block 204, when two glass original sheets 4 are transmitted into a shell 8, the external power supply of the first motor 501 is disconnected, a suction cup 3 is started to absorb the two glass original sheets 4, then the left end and the right end of an aluminum frame 9 filled with a molecular sieve 12 are clamped between the two clamping plates 702, the clamping plates 702 drive a push rod 701 to compress a spring 703 by using the elasticity of the spring 703 to clamp the aluminum frame 9, then an electric push rod 603 is started to drive a connecting clamp 606 and the aluminum frame 9 to move towards the direction of the second motor 601 through a connecting head 604, when the aluminum frame 9 is located right above the groove on the upper surface of the shell 8, an external power supply of the second motor 601 is connected, an output shaft of the second motor 601 drives the disc 602 to rotate, under the action of gravity of the aluminum frame 9 and the connecting clamp 606, the disc 602 drives the electric push rod 603 to vertically place the aluminum frame 9 into the shell 8, then the first motor 501 is started to continuously drive the two clamping plates 203 to move, the clamping plates 203 and the suckers 3 adhere the glass original sheets 4 to two sides of the aluminum frame 9 through the glass cement 11, the suckers 3 are closed, the suckers 3 are separated from the glass original sheets 4, and the second motor 601 is started to drive the aluminum frame 9 and the two glass original sheets 4 to move out of the shell 8.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a full-automatic vacuum glass manufacture equipment which characterized in that: comprises a base (1), a transmission mechanism (2) is arranged in the base (1), the transmission mechanism (2) is movably connected with the base (1), a sucker (3) is fixedly connected with the outer wall of the transmission mechanism (2), two suckers (3) are fixedly connected with the outer wall of the base (4), a power mechanism (5) is sleeved at the right end of the transmission mechanism (2), the power mechanism (5) is in interference fit with the transmission mechanism (2), the bottom end of the power mechanism (5) is fixedly connected with the base (1), a shell (8) is fixedly connected with the upper surface of the base (1), an adjusting mechanism (6) is fixedly connected with the right end of the upper surface of the shell (8), a clamping mechanism (7) is sleeved in the adjusting mechanism (6), the clamping mechanism (7) is in clearance fit with the adjusting mechanism (6), and an aluminum frame (9) is tightly attached to the outer wall of the clamping mechanism (7), the bottom end of the aluminum frame (9) is provided with an air exhaust hole (10), the outer wall of the air exhaust hole (10) is coated with glass cement (11), and the inside of the aluminum frame (9) is filled with a molecular sieve (12); the transmission mechanism (2) comprises a double-threaded rod (201), a first bearing (202), a clamping plate (203) and a sliding block (204), the first bearing (202) is sleeved at the left end and the right end of the double-threaded rod (201), the first bearing (202) is in interference fit with the double-threaded rod (201), the double-threaded rod (201) is movably connected with the base (1) through the first bearing (202), the right end of the double-threaded rod (201) is sleeved with the power mechanism (5), the outer wall of the double-threaded rod (201) is in threaded connection with the clamping plate (203), the sliding block (204) is machined on the outer wall of the two clamping plates (203), the outer wall of the sliding block (204) is in clearance fit with the base (1), and the outer wall of the clamping plate (203) is fixedly connected with a sucker (3); the power mechanism (5) comprises a first motor (501), a first belt pulley (502), a second belt pulley (503) and a belt (504), the bottom end of the first motor (501) is fixedly connected with the base (1), the outer wall of an output shaft of the first motor (501) is sleeved with the first belt pulley (502), the first belt pulley (502) is in interference fit with the first motor (501), the bottom end of the first belt pulley (502) is provided with the second belt pulley (503), the inner part of the second belt pulley (503) is in interference fit with the double-end threaded rod (201), the outer wall of the second belt pulley (503) is sleeved with the belt (504), and the second belt pulley (503) is movably connected with the first belt pulley (502) through the belt (504); the adjusting mechanism (6) comprises a second motor (601), a disc (602), an electric push rod (603), a connector (604), a short pin (605) and a connecting clamp (606), the bottom end of the second motor (601) is fixedly connected with the shell (8), the left end of an output shaft of the second motor (601) is fixedly connected with the disc (602), the bottom end of the disc (602) is fixedly connected with the electric push rod (603), the left end of the electric push rod (603) is fixedly connected with the connector (604), the inside of the connector (604) is fixedly connected with the short pin (605), the outer wall of the short pin (605) is sleeved with the connecting clamp (606), the connecting clamp (606) is in clearance fit with the short pin (605), the connecting clamp (606) is movably connected with the connector (604) through the short pin (605), and the outer wall of the connecting clamp (606) is sleeved with the clamping mechanism (7); two clamping mechanism (7) include ejector pin (701), cardboard (702) and spring (703), the outer wall and the connecting clamp (606) clearance fit of ejector pin (701), the one end rigid coupling that connecting clamp (606) were kept away from in ejector pin (701) has cardboard (702), the outer wall and the aluminium product frame (9) of cardboard (702) closely laminate, spring (703) have been cup jointed to the outer wall of ejector pin (701), spring (703) and ejector pin (701) clearance fit, the one end and cardboard (702) of spring (703) laminate mutually, the other end and the connecting clamp (606) of spring (703) laminate mutually.

2. The fully automated vacuum glass manufacturing apparatus of claim 1, wherein: the clamping plates (203) are symmetrical left and right relative to the base (1).

3. The fully automated vacuum glass manufacturing apparatus of claim 1, wherein: the first belt pulley (502) and the output shaft of the first motor (501) are positioned on the same horizontal line.

4. The fully automated vacuum glass manufacturing apparatus of claim 1, wherein: the ejector rod (701) and the connecting clamp (606) form a sliding mechanism.

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