CN202576210U - Processing equipment for abnormal-profile single-bended toughened glass - Google Patents

Abstract

The utility model discloses processing equipment for abnormal-profile single-bended toughened glass. The processing equipment comprises a slice loading platform, a multistation furnace body, a shaping section, a slice unloading platform with a cooling device, a fan, a wind path system connected with the fan and a control system. The shaping section comprises a chassis, the chassis is provided with a lower arc-changing mechanism, a lower wind grating component arranged on the lower arc-changing mechanism, an upper arc-changing mechanism arranged above the lower arc-changing and capable of upward and downward sliding along the chassis, an upper wind-grating component arranged on the upper arc-changing mechanism, and an arc adjustment mechanism and a lifting mechanism which are arranged below the lower arc-changing mechanism and connected with the lower arc-changing mechanism in a transmission manner. The upper wind-grating component and the lower wind-grating component are respectively connected with the wind path system, and the lifting mechanism is respectively connected with the upper arc-changing mechanism and the lower arc-changing mechanism in the transmission manner. The processing equipment has the advantages that the use is convenient and rapid, the efficiency of glass production is high, the energy is saved, the environment is protected, the radian of finished toughened glass is guaranteed to be precise, any two pieces of glass can be totally matched, and the quality of the product is improved.

Description

Special-shaped single crooked tempering glass processing equipment

Technical field

The utility model belongs to the glass processing production technical field, relates in particular to a kind of special-shaped single crooked tempering glass processing equipment.

Background technology

At present, there is following technical problem in process of production in domestic various special-shaped single crooked tempering glass processing equipment: locate inaccurately, cause radian inaccurate; The radian of any two blocks of glass is misfitted, and makes glass difficulty in installation process, and makes the toughened glass internal stress inhomogeneous easily; Self-destruction easily causes yield rate to reduce, adjustment difficulty when changing type of glass; Parameter is low, and energy consumption is high.

The utility model content

The utility model is in order to solve weak point of the prior art, provide a kind of accurate positioning, radian accurately, be easy to install, special-shaped single crooked tempering glass processing equipment of superior product quality.

For solving the problems of the technologies described above; The utility model adopts following technical scheme: special-shaped single crooked tempering glass processing equipment; Comprise a platform 1, multi-work-station body of heater 2, profiled section 3, have the following platform 5, blower fan 67 of refrigerating unit 4, air path system 6 and the system that is connected with blower fan 67; Said profiled section 3 comprises frame 8; Frame 8 is provided with down and becomes arc mechanism 9, is located at down the following air grid assembly 10 that becomes in the arc mechanism 9, is positioned at the accent arc mechanism 19 and the lifting mechanism that become arc mechanism 9 tops down and can become arc mechanism 11 along going up of sliding up and down of frame 8, be located at the last air grid assembly 12 that becomes in the arc mechanism 11, be positioned at change arc mechanism 9 belows down and be in transmission connection with following change arc mechanism 9; Last air grid assembly 12 is connected with air path system 6 respectively with following air grid assembly 10, and lifting mechanism is in transmission connection with last change arc mechanism 11 and the following arc mechanism 9 that becomes respectively.

Said become down that arc mechanism 9 comprises that horizontally disposed some live rolls 13, live roll 13 two ends connect be located at change arc frame, vertical and middle vertical axis 16 that base plate 15 is rotationally connected and the by-level axle 18 that is in transmission connection through first bevel gear set 17 with middle vertical axis 16 upper ends that a base plate 15 of two T-type plank 14 bottoms constitutes by vertical parallel two T-type planks 14 and level; Transition sprocket wheel 71 chain drive at two live roll 13 two ends that by-level axle 18 is adjacent with its left and right sides, top are connected; Wherein there are a pair of symmetrical middle vertical axis 16 lower ends to be in transmission connection with transferring arc mechanism 19 respectively; The corresponding vertical skidway hole 20 that offers on two T-type planks 14; Be not that splined shaft is provided with spline housing 21 with the middle vertical axis 16 of transferring arc mechanism 19 to be in transmission connection; Spline housing 21 outside screws are connected with regulates support 22; Regulating support 22 two ends is respectively equipped with roll sleeve 23 and slides up and down with skidway hole 20 and cooperate; Two T-type plank 14 bottoms are respectively equipped with a bearing pin 24; Regulate support 22 and be in transmission connection through the bearing pin 24 on a lower link 25 adjacent two T-type planks 14 with its left and right sides respectively, the lower link 25 that is positioned at the rear and front end is connected with down respectively and promotes web member 35.

Said live roll 13 both sides are respectively equipped with a following hypotenuse frictionwheel 26, and lower driving roller 13 1 end chain drive are connected with live roll reducing motor 27.

Said accent arc mechanism 19 comprises and transfers arc reducing motor 29; Transfer the PTO of arc reducing motor 29 to be connected with one first level accent arc axle 30; First level transfers arc axle 30 to transfer arc axle 32 through shaft coupling 31 second level that is connected with; First level transfers arc axle 30 to be in transmission connection through second bevel gear set 33 and middle vertical axis 16 lower ends, and second level transfers arc axle 32 to be in transmission connection through third hand tap gear unit 34 and the middle vertical axis of another root 16 lower ends.

The said arc mechanism 11 that go up to become comprises with frame 8 and slides up and down the lift frame 36 and horizontally disposed some pressure rollers 38 that is connected; Lift frame is connected with symmetrical two for 36 times and goes up arc intermediate plate 37; Go up arc intermediate plate 37 both sides for two and be respectively equipped with several rise arc framves 41; Be provided with between adjacent two rise arc framves 41 and raise arc plate 42; All connect between rise arc frame 41 lower ends that last arc intermediate plate 37 lower ends are adjacent and adjacent rise arc frame 41 and rise arc plate 42 lower ends through bearing pin 69; Raise arc frame 41 and all vertically be provided with slotted hole 70 with rise arc plate 42 bottoms, pressure roller 38 is located in the slotted hole 70, raises arc frame 41 tops and is provided with chute 43; Be provided with the slide block 44 that can slide up and down along chute 43 in the chute 43; Chute 43 upper ends are provided with and are used for adjusting slider 44 and in chute 43, slide up and down the adjusting bolt 45 apart from length, and slide block 44 is gone up the connecting rod 46 rise arc plates 42 adjacent with both sides through one respectively and is in transmission connection, and pressure roller 38 two ends are provided with the last hypotenuse frictionwheel 39 that can be in transmission connection with following hypotenuse frictionwheel 26; Top, pressure roller 38 both sides is connected with and raises the following air cylinder 40 that arc frame 41 is fixedly connected, and the last connecting rod 46 that is positioned at the rear and front end is connected with respectively and promotes web member 47.

Said lifting mechanism comprises one first lifting subassembly 49 being in transmission connection through first chain 48 and lift frame 36, through second chain 50 and two the 3rd lifting subassemblies 53 that promote two second lifting subassemblies 51 that web member 35 is in transmission connection down, are in transmission connection through the 3rd chain 52 and last lifting web member 47.

System comprises the housing 7 with upper computer; Be positioned at the glass that becomes arc mechanism 9 opening for feed places down and get into detection and localization switch 54; Be located at the roller-way: 1 transcoder 55 on the live roll reducing motor 27; Be located at and become arc mechanism limit limit switch 56, bottom right change arc mechanism limit limit switch 57 under two second left sides on the lifting subassembly 51 and become arc mechanism coding device 58 down; Be positioned at going up of lift frame 36 upper and lowers and become arc lifting upper limit position switch 59 and last change arc lifting lower position switch 60; Be located at upper left change arc on two the 3rd lifting subassemblies 53 and flatten and roll limit limit switch 61 and flatten with upper right change arc and roll limit limit switch 62, be located at down and become before and after arc mechanism 9 belows left side of both sides and become arc down and flatten and roll limit limit switch 63 and bottom right and become arc and flatten and roll limit limit switch 64, be located at the accent arc mechanism limit limit switch 65 of transferring arc mechanism 19 tops and be located at the accent arc scrambler 68 on the accent arc reducing motor 29.

Said frame 8 is provided with and is positioned at the positioning component 66 that becomes arc mechanism 9 discharge port places down.

Vertical axis 16 is that the splined shaft bottom is provided with manual fine-tuning sleeve 28 in the middle of said.

Adopt technique scheme, the utlity model has following characteristics:

1, for the radian that overcomes toughened glass is inaccurate, profiled section adopts mechanical positioning and program to locate dual location, makes the location of glass more accurate; Consider the size of glass and the ambiguity of radian; Mechanical positioning adopts to go up and becomes arc mechanism and become the cooperation between the arc mechanism down, can accomplish that the glass of any specification size can be adjusted, and the parameter on the upper computer is at first revised according to the length of glass in the program location; Upper computer writes down glass length automatically; Utilize glass to get into the forward position that the detection and localization switch detects glass, make glass can arrive appointed positions accurately, dual location guarantees the position consistency that glass gets into profiled section at every turn; Guarantee the accuracy of radian, can make the radian of every block of glass that apparatus processing goes out consistent.

2, in order to overcome the self-destruction phenomenon of toughened glass; The profiled section employing is gone up the air grid assembly and is evenly dried in the upper and lower surface of glass respectively with following air grid assembly; Last air grid assembly and following air grid assembly can independent control, in air path system, comprise upper and lower air quantity adjustment valve, guarantee that blowing is even.

3, in order to overcome adjustment difficulty when changing type of glass, profiled section adopts manually and automatic dual accent arc, transfers arc to be applicable under the big situation of glass radian gap automatically; Because of the both sides radian of the single curved tempered glass of abnormal shape inconsistent; At first will break off intermediary connection chain when transferring arc automatically so adopt, make one side with transferring arc mechanism to link to each other, the employing program issues the accent isolated value; Accomplish monolateral accent arc, with the radian of quadrat method adjustment the other side.Manually transfer arc to be primarily aimed at hour employing of radian gap, arc is transferred in the distance completion of using the rotation of manual fine-tuning sleeve to change between spline housing 21 and the manual fine-tuning sleeve 28.

4, parameter is low, energy consumption is high in order to overcome; This equipment is the highest can to adopt four station work; Can adjust according to client's throughput requirements fully, four stations when work, can accomplish into stove, come out of the stove and carry out simultaneously; Saved fully because of the time of coming out of the stove with advance the empty stove time that the stove time causes, make body of heater under any state, all be in full stove state.Glass is well defined at inner four stations of body of heater; The move mode of four stations adopts displacement method simultaneously; Make each piece glass in full accord in the heat-up time and the amplitude of oscillation speed of identical station, guarantee under the unregulated situation of parameter, the temperature on surface can both be consistent when every block of glass was come out of the stove.

5, become arc mechanism and go up to become arc mechanism and adopt the mode of the transmission of hypotenuse frictionwheel, chain drive and connecting rod transmission to reach the purpose that becomes arc respectively down.The various limit switches of system play the activity thresholds that limits each mechanism, avoid causing the damage of fault or equipment.

The utility model is convenient to use, produces glass efficient height, and energy-conserving and environment-protective guarantee that the radian of finished product toughened glass is accurate, and any two blocks of glass can fit like a glove, and have improved quality product and quality.

Description of drawings

Fig. 1 is the plot plan of the utility model;

Fig. 2 is the structural representation of profiled section in the middle of the utility model;

Fig. 3 is the left view of Fig. 2;

Fig. 4 is the structural representation that becomes arc mechanism in the middle of Fig. 2 down;

Fig. 5 is the vertical view of Fig. 4;

Fig. 6 is an A-A sectional view in the middle of Fig. 4;

Fig. 7 is a B-B sectional view in the middle of Fig. 4;

Fig. 8 goes up the structural representation that becomes arc mechanism in the middle of Fig. 2;

Fig. 9 is a C-C sectional view in the middle of Fig. 8;

Figure 10 is a structural representation of transferring arc mechanism in the middle of Fig. 2.

Embodiment

Like Fig. 1～shown in Figure 10; Special-shaped single crooked tempering glass processing equipment of the utility model; Special-shaped single crooked tempering glass processing equipment; Comprise a platform 1, multi-work-station body of heater 2, profiled section 3, have the following platform 5, blower fan 67 of refrigerating unit 4, air path system 6 and the system that is connected with blower fan 67; Profiled section 3 comprises frame 8; Frame 8 is provided with down and becomes arc mechanism 9, is located at down the following air grid assembly 10 that becomes in the arc mechanism 9, is positioned at the accent arc mechanism 19 and the lifting mechanism that become arc mechanism 9 tops down and can become arc mechanism 11 along going up of sliding up and down of frame 8, be located at the last air grid assembly 12 that becomes in the arc mechanism 11, be positioned at change arc mechanism 9 belows down and be in transmission connection with following change arc mechanism 9; Last air grid assembly 12 is connected with air path system 6 respectively with following air grid assembly 10, and lifting mechanism is in transmission connection with last change arc mechanism 11 and the following arc mechanism 9 that becomes respectively.

What become down that arc mechanism 9 comprises that horizontally disposed some live rolls 13, live roll 13 two ends connect is located at change arc frame, vertical and middle vertical axis 16 that base plate 15 is rotationally connected and the by-level axle 18 that is in transmission connection through first bevel gear set 17 with middle vertical axis 16 upper ends that a base plate 15 of two T-type plank 14 bottoms constitutes by vertical parallel two T-type planks 14 and level; Transition sprocket wheel 71 chain drive at two live roll 13 two ends that by-level axle 18 is adjacent with its left and right sides, top are connected; Wherein there are a pair of symmetrical middle vertical axis 16 lower ends to be in transmission connection with transferring arc mechanism 19 respectively; The corresponding vertical skidway hole 20 that offers on two T-type planks 14; Be not that splined shaft is provided with spline housing 21 with the middle vertical axis 16 of transferring arc mechanism 19 to be in transmission connection; Spline housing 21 outside screws are connected with regulates support 22; Regulating support 22 two ends is respectively equipped with roll sleeve 23 and slides up and down with skidway hole 20 and cooperate; Two T-type plank 14 bottoms are respectively equipped with a bearing pin 24; Regulate support 22 and be in transmission connection through the bearing pin 24 on a lower link 25 adjacent two T-type planks 14 with its left and right sides respectively, the lower link 25 that is positioned at the rear and front end is connected with down respectively and promotes web member 35, and by-level axle 18 outer ends are provided with manual fine-tuning sleeve 28.

Live roll 13 both sides are respectively equipped with a following hypotenuse frictionwheel 26, and lower driving roller 13 1 end chain drive are connected with live roll reducing motor 27.

Transfer arc mechanism 19 to comprise and transfer arc reducing motor 29; Transfer the PTO of arc reducing motor 29 to be connected with one first level accent arc axle 30; First level transfers arc axle 30 to transfer arc axle 32 through shaft coupling 31 second level that is connected with; First level transfers arc axle 30 to be in transmission connection through second bevel gear set 33 and middle vertical axis 16 lower ends, and second level transfers arc axle 32 to be in transmission connection through third hand tap gear unit 34 and the middle vertical axis of another root 16 lower ends.

Last change arc mechanism 11 comprises with frame 8 and slides up and down the lift frame 36 and horizontally disposed some pressure rollers 38 that is connected; Lift frame is connected with symmetrical two for 36 times and goes up arc intermediate plate 37; Go up arc intermediate plate 37 both sides for two and be respectively equipped with several rise arc framves 41; Be provided with between adjacent two rise arc framves 41 and raise arc plate 42; All connect between rise arc frame 41 lower ends that last arc intermediate plate 37 lower ends are adjacent and adjacent rise arc frame 41 and rise arc plate 42 lower ends through bearing pin 69; Raise arc frame 41 and all vertically be provided with slotted hole 70 with rise arc plate 42 bottoms, pressure roller 38 is located in the slotted hole 70, raises arc frame 41 tops and is provided with chute 43; Be provided with the slide block 44 that can slide up and down along chute 43 in the chute 43; Chute 43 upper ends are provided with and are used for adjusting slider 44 and in chute 43, slide up and down the adjusting bolt 45 apart from length, and slide block 44 is gone up the connecting rod 46 rise arc plates 42 adjacent with both sides through one respectively and is in transmission connection, and pressure roller 38 two ends are provided with the last hypotenuse frictionwheel 39 that can be in transmission connection with following hypotenuse frictionwheel 26; Top, pressure roller 38 both sides is connected with and raises the following air cylinder 40 that arc frame 41 is fixedly connected, and the last connecting rod 46 that is positioned at the rear and front end is connected with respectively and promotes web member 47.

Lifting mechanism comprises one first lifting subassembly 49 being in transmission connection through first chain 48 and lift frame 36, through second chain 50 and two the 3rd lifting subassemblies 53 that promote two second lifting subassemblies 51 that web member 35 is in transmission connection down, are in transmission connection through the 3rd chain 52 and last lifting web member 47.

System comprises the housing 7 with upper computer; Be positioned at the glass that becomes arc mechanism 9 opening for feed places down and get into detection and localization switch 54; Be located at the roller-way: 1 transcoder 55 on the live roll reducing motor 27; Be located at and become arc mechanism limit limit switch 56, bottom right change arc mechanism limit limit switch 57 under two second left sides on the lifting subassembly 51 and become arc mechanism coding device 58 down; Be positioned at going up of lift frame 36 upper and lowers and become arc lifting upper limit position switch 59 and last change arc lifting lower position switch 60; Be located at upper left change arc on two the 3rd lifting subassemblies 53 and flatten and roll limit limit switch 61 and flatten with upper right change arc and roll limit limit switch 62, be located at down and become before and after arc mechanism 9 belows left side of both sides and become arc down and flatten and roll limit limit switch 63 and bottom right and become arc and flatten and roll limit limit switch 64, be located at the accent arc mechanism limit limit switch 65 of transferring arc mechanism 19 tops and be located at the accent arc scrambler 68 on the accent arc reducing motor 29.

Frame 8 is provided with and is positioned at the positioning component 66 that becomes arc mechanism 9 discharge port places down.

The overall operation process of the utility model is: glass is placed on the platform 1; Being transported to multi-work-station body of heater 2 inside through transport roller way heats; After reaching certain temperature in glass; Continuation is transferred in the profiled section 3 (curved section) through transport roller way carries out moulding, and evenly dries with following air grid assemblies 10 to the last air grid assemblies 12 in the profiled section 3 through air path system 6 (carrying out air feed by blower fan 67) conveying high-pressure blast, makes glass reach the tempering standard; Be transferred to following platform 5 then and cool off, reach behind the normal temperature through 5 times sheets of sheet platform down with refrigerating unit 4.Above-mentioned whole process all is to accomplish automatically through the system of housing 7.

The concrete work flow of profiled section 3 by: at first according to the shape of production glass produce the arc plate (waiting to produce the model of glass) of check; Become arc mechanism 9 shapes (protecting) according to the arc plate down through transferring 19 adjustment of arc mechanism then through transferring arc mechanism limit limit switch 65 to the arc plate; Adopt simultaneously two second lifting subassemblies 51 adjustment become down 9 landings of arc mechanism position (being radian position accurately) (through a left side become down arc flatten roll limit limit switch 63 and bottom right become arc flatten roll limit limit switch 64 and protect); And determine the following change arc mechanism coding device 58 on second lifting subassembly 51 parameter (through under become arc mechanism coding device 58 and count); Be input in the upper computer; First lifting subassembly 49 drives lift frame 36 and descends; Lift frame 36 drive go up become arc mechanism 11 under become (promoting lower position switch 60 through last change arc stops) in the arc mechanism 9; The shape that adopts the reducing motor adjustment of the 3rd lifting subassembly 53 to go up then to become arc mechanism 11 (the adjusting bolt 45 that becomes in the arc mechanism 11 is gone up in adjustment simultaneously) (upper left change arc flatten roll limit limit switch 61 and upper right change arc flatten roll limit limit switch 62 and protect), the adjustment of change arc mechanism 11 in completions.Promptly accomplish the adjustment of institute's production glass shape.

Then the rotation will the change down of the reducing motor through two second lifting subassemblies 51 arc mechanism 9 flatten (through become down through a left side arc flatten roll limit limit switch 63 and bottom right become arc flatten roll limit limit switch 64 and stop); First lifting subassembly 49 drives lift frame 36 and descends; Lift frame 36 drive go up become arc mechanism 11 under become (promoting lower position switch 60 through last change arc stops) in the arc mechanism 9, wait for the entering of glass.

After former sheet glass heats through multi-work-station body of heater 2 inside; Former sheet glass is heated to soft state; The glass of soft state gets into from the left side of profiled section 3, according to the distance that glass gets into detection and localization switch 54 records, enters into fully in the profiled section 3 (carrying out measuring distance through roller-way: 1 transcoder 55); Positioning component 66 starts when glass begins to get into profiled section 3, and positioning component 66 plays and prevents that glass from going out the effect of profiled section 3.Arrive the position of setting Deng glass run after; Reducing motor rotary lifting through two second lifting subassemblies 51 become down the position (being the state that radian puts in place) that arc mechanism 9 to upper computer sets (through a left side become down arc flatten roll limit limit switch 63 and bottom right become arc flatten roll limit limit switch 64 and protect); Go up the following air cylinder 40 that becomes in the arc mechanism 11 simultaneously and drive pressure roller 38 declines; Live roll 13 is through live roll reducing motor 27 driven rotary (controlling hunting range through roller-way: 1 transcoder 55); Glass moves reciprocatingly in live roll 13 and (descends hypotenuse frictionwheel 26 and last hypotenuse frictionwheel 39 engaged transmission simultaneously; Drive pressure roller 38 rotations, the effect of pressure roller 38 is in order to make the shape of glass more accurate).After accomplishing such action, the moulding of remollescent glass, following air cylinder 40 drives pressure roller 38 and rises, and live roll 13 moves reciprocatingly what do not stop, accomplishes moulding.Last air grid assembly 12 is blown into high-pressure blast in the air grid with the air path system 6 of following air grid assembly 10 through the outside; And high-pressure blast is blown to glass surface up and down uniformly through last air grid assembly 12 and following air grid assembly 10 interior blowing mouths; The hot glass of remollescent is cooled off fast, thereby make the upper and lower surfaces of glass form stress, simultaneously the inner tension stress that forms of glass; Thereby make glass reach the effect of tempering; After reaching the tempering effect, last air grid assembly 12 continues blowing with following air grid assembly 10, makes the state that glass cools extremely can lift to move.The reducing motor of second lifting subassembly 51 rotation will the change down arc mechanism 9 flatten (through become down through a left side arc flatten roll limit limit switch 63 and bottom right become arc flatten roll limit limit switch 64 and stop); Reducing motor through first lifting subassembly 49 drives lift frame 36 risings; Lift frame 36 drives to go up and becomes arc mechanism 11 risings (promoting upper limit position switch 59 through last change arc stops), reaches the distance that curved glass can shift out profiled section 3.Live roll reducing motor 27 drives live rolls 13 rotations and finished glass is shifted out (through roller-way: 1 transcoder 55 control miles of relative movement) from the right of profiled section 3, moves into after following platform 5 with refrigerating unit 4 cool off, and unloads sheet.

To the accent arc process that becomes arc mechanism 9 down into: transfer 29 rotations of arc reducing motor to drive first level and transfer the arc axle 30 and second level to transfer arc axle 32 to rotate; First level accent arc axle 30 drives middle vertical axis 16 a lower ends rotation that becomes arc mechanism 9 down through second bevel gear set 33; Second level transfers arc axle 32 to drive the 16 lower ends rotation of the middle vertical axis of another root through third hand tap gear unit 34; Middle vertical axis 16 drives 18 rotations of by-level axle through first bevel gear set 17; The transition sprocket wheel 71 that by-level axle 18 drives on two adjacent live rolls 13 rotates; Transition sprocket wheel 71 on two live rolls 13 drives both sides by-level axle 18 through chain again and rotates; It is that splined shaft rotates that the by-level axle 18 on both sides drives other middle vertical axis 16 through first bevel gear set 17 again, and vertical axis 16 are that splined shaft passes to spline housing 21 with rotary power in the middle of other, and spline housing 21 is with regulating support 22 for being threaded; But it is irremovable when adjusting support 22 passes through lower link 25 mutual supports in transferring the arc process; So natural spline housing 21 will be done because of rotating and move up and down, change the size (size of promptly single curved glass radius) of the radian of transferring through the amount of moving up and down of spline housing 21, transfer to install on the arc reducing motor 29 and transfer arc scrambler 68 through the pulse of upper computer input coding device; Realize transferring arc reducing motor 29 rotating cycles, and then realize becoming automatically arc.If carry out the radian trim process, can be the manual fine-tuning sleeve 28 that the splined shaft bottom is provided with through middle vertical axis 16, use manual fine-tuning sleeve 28 rotates the distance that changes between spline housings 21 and the manual fine-tuning sleeve 28 and accomplishes the accent arc.

To the accent arc process of last change arc mechanism 11 into: on become arc mechanism 11 and belong to passive change arc; Through controlling the position height of regulating bolt 45; Change the stroke of slide block 44 in chute 43, change last connecting rod 46 activities hinged with slide block 44, and then the size of change radian.The last arc mechanism 11 that becomes follows lift frame 36 to link to each other through four joint bolt holes of last arc intermediate plate 37, just realizes becoming up and down the folding of arc mechanism 11 through the up-down of lift frame 36.

First lifting subassembly 49, second lifting subassembly 51, the 3rd lifting subassembly 53, go up air grid assembly (12) and be existing mature technology, specifically construct and repeat no more with following air grid assembly (10).

The multi-work-station body of heater 2 of the utility model can design according to user's parameter demand again; The highlyest can realize four station productions; Multi-work-station body of heater 2 come out of the stove at work the follow-up stove carry out simultaneously; Saving is come out of the stove the empty stove time that stove into forms, and makes body of heater under any circumstance all belong to full station work, utilization in full force and effect the space of multi-work-station body of heater 2.

The all production processes of the utility model are passed through the PLC time variable control of system fully, and host computer procedure links to each other with the PLC program, through adjusting the parameter in the host computer procedure and issuing PLC, can realize full-automatic production.

Claims (9)

1. special-shaped single crooked tempering glass processing equipment; Comprise a platform (1), multi-work-station body of heater (2), profiled section (3), following platform (5), blower fan (67), the air path system (6) and the system that are connected with blower fan (67) with refrigerating unit (4); It is characterized in that: said profiled section (3) comprises frame (8); Frame (8) is provided with down and becomes arc mechanism (9), is located at down the following air grid assembly (10) that becomes in the arc mechanism (9), is positioned at and becomes arc mechanism (9) top down and can become arc mechanism (11) along frame (8) going up of sliding up and down, be located at the last air grid assembly (12) that becomes in the arc mechanism (11), be positioned at the accent arc mechanism (19) and the lifting mechanism that become down below the arc mechanism (9) and be in transmission connection with following change arc mechanism (9); Last air grid assembly (12) is connected with air path system (6) respectively with following air grid assembly (10), and lifting mechanism is in transmission connection with last change arc mechanism (11) and the following arc mechanism (9) that becomes respectively.

2. special-shaped single crooked tempering glass processing equipment according to claim 1; It is characterized in that: said become down that arc mechanism (9) comprises that horizontally disposed some live rolls (13), live roll (13) two ends connect by vertical parallel two T-type planks (14) and level be located at change arc frame that the base plate (15) of two T-type planks (14) bottom constitutes, vertical and middle vertical axis (16) that base plate (15) is rotationally connected and with middle vertical axis (16) on the by-level axle (18) that is in transmission connection through first bevel gear set (17); Transition sprocket wheel (71) chain drive at two live rolls (13) two ends that by-level axle (18) is adjacent with its left and right sides, top is connected; Wherein there is a pair of symmetrical middle vertical axis (16) lower end to be in transmission connection with transferring arc mechanism (19) respectively; Two T-type planks (14) are gone up correspondence and are offered vertical skidway hole (20); Be not that splined shaft is provided with spline housing (21) with the middle vertical axis (16) of transferring arc mechanism (19) to be in transmission connection; Spline housing (21) outside screw is connected with regulates support (22); Regulating support (22) two ends is respectively equipped with roll sleeve (23) and slides up and down with skidway hole (20) and cooperate; Two T-type planks (14) bottom is respectively equipped with a bearing pin (24); Regulate support (22) and be in transmission connection through the bearing pin (24) on adjacent two T-type planks with its left and right sides of a lower link (25) (14) respectively, the lower link (25) that is positioned at the rear and front end is connected with down respectively and promotes web member (35).

3. special-shaped single crooked tempering glass processing equipment according to claim 2; It is characterized in that: said live roll (13) both sides are respectively equipped with a following hypotenuse frictionwheel (26), and lower driving roller (13) one end chain drive are connected with live roll reducing motor (27).

4. special-shaped single crooked tempering glass processing equipment according to claim 3; It is characterized in that: said accent arc mechanism (19) comprises accent arc reducing motor (29); Transfer the PTO of arc reducing motor (29) to be connected with one first level accent arc axle (30); First level transfers arc axle (30) to transfer arc axle (32) through shaft coupling (31) second level that is connected with; First level transfers arc axle (30) to be in transmission connection through second bevel gear set (33) and middle vertical axis (a 16) lower end, and second level transfers arc axle (32) to be in transmission connection through vertical axis (16) lower end in the middle of third hand tap gear unit (34) and another root.

5. special-shaped single crooked tempering glass processing equipment according to claim 4; It is characterized in that: the said arc mechanism (11) that go up to become comprises with frame (8) and slides up and down lift frame (36) and the horizontally disposed some pressure rollers (38) that are connected; Be connected with symmetrical two under the lift frame (36) and go up arc intermediate plate (37); Go up arc intermediate plate (37) both sides for two and be respectively equipped with several rise arc framves (41); Be provided with between adjacent two rise arc framves (41) and raise arc plate (42); All connect between rise arc frame (41) lower end that last arc intermediate plate (37) lower end is adjacent and adjacent rise arc frame (41) and rise arc plate (42) lower end through bearing pin (69); Raise arc frame (41) and raise arc plate (42) bottom and all vertically be provided with slotted hole (70); Pressure roller (38) is located in the slotted hole (70); Raise arc frame (41) top and be provided with chute (43), be provided with the slide block (44) that can slide up and down along chute (43) in the chute (43), chute (43) upper end is provided with and is used for adjusting slider (44) and in chute (43), slides up and down the adjusting bolt (45) apart from length; Slide block (44) is gone up connecting rod (46) the rise arc plate (42) adjacent with both sides through one respectively and is in transmission connection; Pressure roller (38) two ends are provided with the last hypotenuse frictionwheel (39) that can be in transmission connection with following hypotenuse frictionwheel (26), and top, pressure roller (38) both sides is connected with and raises the following air cylinder (40) that arc frame (41) is fixedly connected, and the last connecting rod (46) that is positioned at the rear and front end is connected with lifting web member (47) respectively.

6. special-shaped single crooked tempering glass processing equipment according to claim 5 is characterized in that: said lifting mechanism comprises one first lifting subassembly (49) that is in transmission connection through first chain (48) and lift frame (36), through second chain (50) and two the 3rd lifting subassemblies (53) that promote two second lifting subassemblies (51) that web member (35) is in transmission connection down, are in transmission connection through the 3rd chain (52) and last lifting web member (47).

7. special-shaped single crooked tempering glass processing equipment according to claim 6; It is characterized in that: said system comprises the housing (7) with upper computer; Be positioned at the glass that becomes arc mechanism (9) opening for feed place down and get into detection and localization switch (54); Be located at the roller-way: 1 transcoder (55) on the live roll reducing motor (27); A left side that is located on two second lifting subassemblies (51) becomes arc mechanism's limit limit switch (56), bottom right change arc mechanism's limit limit switch (57) down and becomes arc mechanism coding device (58) down; Be positioned at going up of lift frame (36) upper and lower and become arc lifting upper limit position switch (59) and last change arc lifting lower position switch (60); Be located at upper left change arc on two the 3rd lifting subassemblies (53) and flatten and roll limit limit switch (61) and flatten with upper right change arc and roll limit limit switch (62), be located at down and become the left side of both sides before and after arc mechanism (9) below and become arc down and flatten and roll limit limit switch (63) and bottom right and become arc and flatten and roll limit limit switch (64), be located at the accent arc mechanism limit limit switch (65) above the accent arc mechanism (19) and be located at the accent arc scrambler (68) on the accent arc reducing motor (29).

8. special-shaped single crooked tempering glass processing equipment according to claim 7 is characterized in that: said frame (8) is provided with and is positioned at the positioning component (66) that becomes arc mechanism (9) discharge port place down.

9. special-shaped single crooked tempering glass processing equipment according to claim 8, it is characterized in that: vertical axis (16) is that the splined shaft bottom is provided with manual fine-tuning sleeve (28) in the middle of said.

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