CN216863995U - Cutting device for vacuum glass preparation - Google Patents

Abstract

The utility model discloses a cutting device for vacuum glass preparation. Exhaust cylinder, exhaust cylinder, discharge port, baffle, filter screen, cutting knife, turbofan, protective cover, controller, limit part, the left and right parts of the main body are respectively fixed with horizontal dovetail guide rails, and the middle part rotates A horizontal transmission shaft is connected, and the left and right parts of the transmission shaft are axially fixed with transmission gears. The utility model can appropriately adjust the power of the vacuum pump by removing the cover plate at the covering position of the glass in a targeted manner, thereby avoiding unnecessary waste of energy, and the plurality of adsorption holes can The vacuum glass has a good adsorption limit, and the dual-axis motor can continuously suck the powder produced by cutting into the collection box during the continuous rotation process.

Description

Cutting device for vacuum glass preparation

Technical Field

The utility model relates to the field of glass production, in particular to a cutting device for preparing vacuum glass.

Background

Compared with the traditional common glass, the vacuum glass is a higher-grade decorative material, has good decorative effect and good heat-insulating property, while the vacuum glass is often required to be cut in the production process, the Chinese patent CN213890173U provides a cutting device for preparing the vacuum glass, the device utilizes the spray head to spray water in the water tank, thereby realizing dust removal in the cutting process, but the dust removal mode is easy to cause the mixture of dust and water to be adhered on the surface of the vacuum glass during dust removal, thereby increasing the trouble of later cleaning, causing the waste of water resources and the inconvenience of wastewater treatment, not being environment-friendly, and the device utilizes the sucking disc fixed in position to adsorb the position of vacuum glass and restrict, easily because the size of vacuum glass changes and causes the unstable situation of spacing, has highlighted its shortcoming.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cutting device for preparing vacuum glass, which aims to solve the technical problem.

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

a cutting device for preparing vacuum glass comprises a main body, dovetail guide rails, a transmission shaft, a transmission gear, a speed reducing motor, a sliding frame, a transmission rack, a push rod motor, a mounting plate, a double-shaft motor, a collecting box, an exhaust funnel, a discharge hole, a baffle, a filter screen, a cutting knife, a turbofan, a protective cover, a controller and a limiting part, wherein the left part and the right part of the main body are respectively fixed with a horizontal dovetail guide rail, the middle part of the main body is connected with the horizontal transmission shaft in a rotating way, the left part and the right part of the transmission shaft are respectively fixed with the transmission gear in an axial direction, the right end of the main body is fixed with the horizontal speed reducing motor in a coaxial way, the main body is connected with a vertical sliding frame through the two dovetail guide rails in a sliding way, the left part and the right part of the sliding frame are respectively fixed with the horizontal transmission rack, and the top end of the middle part of the sliding frame is fixed with the vertical push rod motor, the utility model discloses a novel exhaust hood, including mounting panel, horizontal double-shaft motor and collecting box, the horizontal discharge tube of collection box left end, pivot right part axial installation cutting knife, and pivot left end axial is fixed with the turbofan, the turbofan is pegged graft with the exhaust tube with the low speed by the short-term test, the protection casing is installed to the mounting panel right-hand member, the controller is installed in the carriage right part, the main part is still installed the spacing part.

On the basis of the technical scheme, the limiting part comprises adsorption holes, anti-cutting grooves, a placing frame, a cover plate, an upper connecting cylinder, a supporting frame, a suction box, a vacuum pump and a lower connecting cylinder, the exhaust cylinder and the exhaust cylinder are respectively communicated with the inner cavity of the collecting box, the protective cover is in alternate gap insertion connection with the cutting knife, a plurality of vertical adsorption holes respectively penetrate through the left part and the right part of the main body, the top end of the main body is provided with a horizontal anti-cutting groove, the inner wall of each adsorption hole is respectively fixed with a horizontal placing frame, the cover plate is respectively in gap insertion connection, the top end of each cover plate is lower than the top end of the main body, the bottom end of each cover plate is contacted with the top end of the placing frame, the bottom end of the main body is fixed with a plurality of vertical upper connecting cylinders, each upper connecting cylinder is respectively coaxial with each adsorption hole, the bottom end of the main body is fixed with a vertical supporting frame, the top end of the middle part of the supporting frame is fixed with the suction box, the vacuum pump is fixed on the front portion of the suction box, a plurality of lower connecting cylinders are fixed on the outer wall of the suction box, the inner cavity of the suction box is communicated with the lower connecting cylinders, the inner cavity of the suction box is communicated with the air suction port of the vacuum pump, and the air exhaust port of the vacuum pump is located outside the suction box.

On the basis of the technical scheme, the transmission gear is meshed with the transmission rack, the gear motor can drive the sliding frame to slide back and forth along the dovetail guide rail through the transmission shaft, the transmission gear and the transmission rack when in power-on rotation, the opening at the right part of the exhaust cylinder is close to the left end of the cutting knife, the double-shaft motor can drive the cutting knife and the turbofan to rotate simultaneously when in power-on rotation, the turbofan can continuously suck air at the right part of the exhaust cylinder into the collection box through the exhaust cylinder and discharge the air through the filter screen and the exhaust cylinder under the action of negative pressure when in rotation, the baffle can completely shield the discharge hole, the controller external power supply is used for controlling the gear motor, the push rod motor, the double-shaft motor and the vacuum pump, the adsorption holes, the upper connecting cylinder and the lower connecting cylinder are the same in quantity, the anti-cutting groove is positioned under the upper connecting cylinder and the lower connecting cylinder are communicated through an external pipeline, when the vacuum pump is electrified to work, air at the upper end of the adsorption hole can be pumped into the suction box and is exhausted through the vacuum pump.

Compared with the prior art, the utility model has the following advantages: according to the utility model, the cover plate at the covering position of the glass is pertinently dismounted, meanwhile, the power of the vacuum pump can be properly adjusted, so that unnecessary energy waste is avoided, the plurality of adsorption holes can well adsorb and limit vacuum glass with different sizes, the double-shaft motor can continuously suck powder generated by cutting into the collection box and is blocked by the filter screen in the continuous rotating process, and after the cutting is finished, the double-shaft motor is controlled to stop rotating, namely the sliding baffle can discharge dust from the discharge port, so that the dust removal effect is realized, and secondary pollution caused by liquid dust removal is avoided.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a bottom structure view of the main body of the present invention.

Fig. 3 is a schematic structural view of the support frame of the present invention.

FIG. 4 is a schematic view of the exhaust funnel and the turbofan according to the present invention.

In the figure: 1. the main part, 2, forked tail guide rail, 3, the transmission shaft, 4, drive gear, 5, gear motor, 6, the carriage, 7, the driving rack, 8, push rod motor, 9, the mounting panel, 10, biax motor, 11, the collecting box, 12, the exhaust stack, 13, the exhaust column, 14, the bin outlet, 15, the baffle, 16, the filter screen, 17, the cutting knife, 18, the turbofan, 19, the protection casing, 20, the controller, 21, spacing part, 22, the absorption hole, 23, prevent cutting groove, 24, the rack, 25, the apron, 26, go up the connecting cylinder, 27, the support frame, 28, the suction case, 29, the vacuum pump, 30, lower connecting cylinder.

Detailed Description

The utility model is explained in further detail below with reference to the figures and the specific embodiments.

As shown in fig. 1-4, a cutting device for preparing vacuum glass comprises a main body 1, dovetail guide rails 2, a transmission shaft 3, a transmission gear 4, a speed reducing motor 5, a sliding frame 6, a transmission rack 7, a push rod motor 8, a mounting plate 9, a double-shaft motor 10, a collecting box 11, an exhaust funnel 12, an exhaust funnel 13, a discharge opening 14, a baffle 15, a filter screen 16, a cutting knife 17, a turbofan 18, a protective cover 19, a controller 20 and a limiting part 21, wherein the left part and the right part of the main body 1 are respectively fixed with a horizontal dovetail guide rail 2, the middle part is rotatably connected with a horizontal transmission shaft 3, the left part and the right part of the transmission shaft 3 are respectively and axially fixed with the transmission gear 4, the right end of the main body 1 is fixed with the horizontal speed reducing motor 5, the rotating shaft of the speed reducing motor 5 is fixed with the same shaft of the transmission shaft 3, the main body 1 is slidably connected with a vertical sliding frame 6 through the two dovetail guide rails 2, the utility model discloses a dust collector, including carriage 6, mounting panel, collecting box 11, horizontal driving rack 7, horizontal push rod motor 8, push rod motor 8's push rod runs through in carriage 6, and its push rod bottom mounting has horizontally mounting panel 9, mounting panel 9 bottom mounting has horizontally biax motor 10 and collecting box 11, collecting box 11 is used for collecting and temporarily storing the powder that the cutting produced, horizontal aiutage 12 is fixed to the collecting box 11 left end, and the right-hand member is fixed with two horizontally suction tube 13, vertical bin outlet 14 runs through to the collecting box 11 bottom, and bottom sliding connection has horizontal baffle 15, horizontal filter screen 16 is installed to aiutage 12 inner wall right part, biax motor 10's pivot right part axial is installed with 17, and pivot left end axial is fixed with turbofan 18, turbofan 18 is pegged graft with exhaust tube 12 fast by subtracting, a protective cover 19 is installed at the right end of the installation plate 9, the protective cover 19 is used for preventing accidental injury caused by the breakage of the cutting knife 17, a controller 20 is installed at the right part of the sliding frame 6, and a limiting part 21 is further installed on the main body 1.

The limiting part 21 comprises an adsorption hole 22, a cutting-proof groove 23, a placing frame 24, a cover plate 25, an upper connecting cylinder 26, a supporting frame 27, a suction box 28, a vacuum pump 29 and a lower connecting cylinder 30, the exhaust cylinder 12 and the exhaust cylinder 13 are respectively communicated with the inner cavity of the collecting box 11, the protective cover 19 is in alternate gap insertion connection with the cutting knife 17, a plurality of vertical adsorption holes 22 respectively penetrate through the left part and the right part of the main body 1, the horizontal cutting-proof groove 23 is arranged at the top end of the main body, the cutting-proof groove 23 is used for reserving allowance for cutting of the cutting knife 17 so as to prevent the cutting knife 17 from mistakenly cutting the main body, the horizontal placing frame 24 is respectively fixed on the inner wall of each adsorption hole 22, the cover plate 25 is respectively in gap insertion connection with the cover plate 25, the cover plate 25 is used for shielding the adsorption holes 22 so as to prevent unnecessary adsorption holes 22 from forming larger negative pressure to cause power waste, simultaneously avoid insufficient negative pressure of the necessary adsorption holes 22, and the top end position of each cover plate 25 is lower than the top end of the main body 1, and the bottom contacts with rack 24 top, 1 bottom mounting in main part has a plurality of vertical last connecting cylinders 26, each go up connecting cylinder 26 coaxial with each absorption hole 22 respectively, 1 bottom mounting in main part has vertical support frame 27, support frame 27 middle part top is fixed with suction box 28, suction box 28 front portion is fixed with vacuum pump 29, and the outer wall is fixed with a plurality of connecting cylinders 30 down, suction box 28 inner chamber is linked together with each connecting cylinder 30 down, and the inner chamber is linked together with vacuum pump 29's extraction opening, vacuum pump 29's gas vent is located outside suction box 28.

The utility model discloses a fan, including gear motor 5, actuating shaft, turbo fan 18, baffle 15, drive gear 4, transmission rack 7, exhaust tube 13, exhaust tube 10, transmission gear 4, transmission rack 7, drive gear motor 5 circular telegram and rotate, can drive carriage 6 and slide around dovetail guide rail 2 through transmission shaft 3, drive gear 4 and transmission rack 7 during the circular telegram rotates, the left end of the opening next-door neighbour cutting knife 17 of exhaust tube 13 right part, can drive cutting knife 17 and turbofan 18 simultaneously and rotate when the electric rotation of dual spindle motor 10, can continuously pass through exhaust tube 13 with the air in the exhaust tube 13 suction collecting box 11 and discharge via filter screen 16 and exhaust stack 12 under the effect of negative pressure during the turbofan 18 rotates, baffle 15 can shelter from discharge opening 14 completely, controller 20 external power supply is used for controlling gear motor 5, push rod motor 8, dual spindle motor 10 and vacuum pump 29, adsorb the hole 22, go up connecting cylinder 26 and the quantity of connecting cylinder 30 is the same down, the cutting-proof groove 23 is positioned under the cutting knife 17, the upper connecting cylinder 26 is communicated with the lower connecting cylinder 30 through an external pipeline, and when the vacuum pump 29 is electrified to work, air at the upper end of the adsorption hole 22 can be sucked into the suction box 28 and discharged through the vacuum pump 29.

The working principle of the utility model is as follows: the vacuum glass is placed at the top end of the main body 1, so that the part to be cut is positioned above the cutting-preventing groove 23, the cover plate 25 which can be covered by the vacuum glass is taken down, the uncovered cover plate 25 is kept, then the vacuum pump 29 and the double-shaft motor 10 are controlled to rotate, then the push rod motor 8 is controlled to move to the part to be cut, and then the double-shaft motor 10 is controlled to rotate, namely, the front and back movement of the cutting knife 17 can be realized by utilizing the sliding frame 6 which slides back and forth, thereby realizing the linear cutting of the vacuum glass, in the whole process, the vacuum pump 29 can form negative pressure in the adsorption hole 22, thereby firmly adsorbing and limiting the vacuum glass covered above the vacuum glass, avoiding the displacement during the cutting, and properly adjusting the power of the pump machine while the cover plate 25 at the covering position of the vacuum glass is pertinently dismounted, thereby avoiding the unnecessary energy waste, and biax motor 10 is in lasting pivoted in-process, can be with in the powder that the cutting produced lasts the suction advances collecting box 11 to by filter screen 16 separation, treat to cut the completion back, control biax motor 10 stall, can slide baffle 15 discharge the dust from bin outlet 14, thereby realized dust removal effect, avoided the secondary pollution that liquid dust removal caused simultaneously again.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that variations, modifications, substitutions and alterations can be made in the embodiment without departing from the principles and spirit of the utility model.

Claims (3)

1. A cutting device for vacuum glass preparation, comprising a main body (1), a dovetail guide rail (2), a transmission shaft (3), a transmission gear (4), a reduction motor (5), a sliding frame (6), a transmission rack (7), push rod motor (8), mounting plate (9), biaxial motor (10), collection box (11), exhaust cylinder (12), suction cylinder (13), discharge port (14), A baffle (15), a filter screen (16), a cutting knife (17), a turbofan (18), a protective cover (19), a controller (20), and a limiting portion (21), characterized in that: the main body (1) A horizontal dovetail guide rail (2) is fixed on the left and right parts, and a horizontal transmission shaft (3) is rotatably connected to the middle part. The left and right parts of the transmission shaft (3) are axially fixed with a transmission gear (4). , the right end of the main body (1) is fixed with a horizontal reduction motor (5), the rotating shaft of the reduction motor (5) is fixed on the same axis as the transmission shaft (3), and the main body (1) passes through two dovetail guide rails (2) A vertical sliding frame (6) is slidably connected, the left and right parts of the sliding frame (6) are respectively fixed with a horizontal transmission rack (7), and a vertical push rod motor is fixed at the top of the middle part of the sliding frame (6). (8), the push rod of the push rod motor (8) runs through the sliding frame (6), and the bottom end of the push rod is fixed with a horizontal mounting plate (9), and the bottom end of the mounting plate (9) is fixed with a horizontal mounting plate (9). A horizontal biaxial motor (10) and a collection box (11), the left end of the collection box (11) is fixed with a horizontal exhaust cylinder (12), and the right end is fixed with two horizontal air suction cylinders (13). A vertical discharge port (14) runs through the bottom end of the box (11), and a horizontal baffle (15) is slidably connected to the bottom, and a horizontal filter screen (16) is installed on the right part of the inner wall of the exhaust cylinder (12). ), a cutting knife (17) is axially installed on the right part of the rotating shaft of the dual-shaft motor (10), and a turbo fan (18) is axially fixed on the left end of the rotating shaft. ) phase deceleration plug connection, a protective cover (19) is installed on the right end of the mounting plate (9), a controller (20) is installed on the right part of the sliding frame (6), and a limiting part is also installed on the main body (1) (twenty one). 2 . The cutting device for vacuum glass preparation according to claim 1 , wherein the limiting portion ( 21 ) comprises an adsorption hole ( 22 ), an anti-cutting groove ( 23 ), a placing rack ( 24 ), Cover plate (25), upper connecting cylinder (26), support frame (27), suction box (28), vacuum pump (29), lower connecting cylinder (30), the exhaust cylinder (12) and the suction cylinder ( 13) are respectively communicated with the inner cavity of the collection box (11), the protective cover (19) and the cutting knife (17) are inserted in a gap, and the left and right parts of the main body (1) are respectively penetrated with a plurality of vertical adsorption A hole (22) is provided with a horizontal anti-cutting groove (23) at the top, a horizontal placement rack (24) is fixed on the inner wall of each adsorption hole (22), and a cover plate (25) is inserted into the gap respectively, The top end of each cover plate (25) is lower than the top end of the main body (1), and the bottom end is in contact with the top end of the placing rack (24). The bottom end of the main body (1) is fixed with a plurality of vertical upper A connecting cylinder (26), each of the upper connecting cylinders (26) is coaxial with each adsorption hole (22), a vertical support frame (27) is fixed at the bottom end of the main body (1), and the support frame ( 27) A suction box (28) is fixed at the top of the middle part, a vacuum pump (29) is fixed at the front of the suction box (28), and a plurality of lower connecting cylinders (30) are fixed on the outer wall. ) The inner cavity is communicated with each lower connecting cylinder (30), and the inner cavity is communicated with the suction port of the vacuum pump (29), and the exhaust port of the vacuum pump (29) is located outside the suction box (28). 3. A cutting device for vacuum glass preparation according to claim 2, characterized in that: the transmission gear (4) is meshed with the transmission rack (7), and the reduction motor (5) passes through the The transmission shaft (3), the transmission gear (4) and the transmission rack (7) can drive the sliding frame (6) to slide back and forth along the dovetail guide rail (2). At the left end of 17), the biaxial motor (10) can drive the cutting knife (17) and the turbofan (18) to rotate at the same time when it is energized and rotated, and the turbofan (18) can continue to rotate under the action of negative pressure. The air on the right side of the suction cylinder (13) is sucked into the collection box (11) through the suction cylinder (13) and discharged through the filter screen (16) and the exhaust cylinder (12). The port (14) is completely shielded, and the external power supply of the controller (20) is used to control the deceleration motor (5), the push rod motor (8), the biaxial motor (10) and the vacuum pump (29). The number of holes (22), the upper connecting cylinder (26) and the lower connecting cylinder (30) are the same, the anti-cutting groove (23) is located directly below the cutting knife (17), and the upper connecting cylinder (26) is connected to the lower The cylinder (30) is connected through an external pipeline, and the vacuum pump (29) can draw the air at the upper end of the adsorption hole (22) into the suction box (28) and discharge it through the vacuum pump (29) when it is energized and working.

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