CN202643544U - Glass tempering equipment - Google Patents

Abstract

The utility model discloses glass tempering equipment which comprises a loading frame, an electrical tempering furnace, a forming area, a discharging area and an air cooling area which are sequentially arrayed from left to right, wherein the forming area is provided with a ceramic roller, the ceramic roller is separated into a front ceramic roller and a rear ceramic roller along the axial direction, the front ceramic roller and the rear ceramic roller are not propped against with each other to form a vacant position, a lower pressing die is arranged in the vacant position, the right side of the lower pressing die is provided with a location column, and a tempering die is installed right above the lower pressing die; the discharging area is a three-station rotary platform with a forming station, an air cooling station and a conveying belt station and comprises a rotary seat, wherein three shelves are uniformly arranged on the circumferential side of a rotary disc on the rotary seat; and a stand is arranged on the forming station position, an asbestos rope roller is installed on the stand, and strip-type grooves for allowing the asbestos rope roller to pass through are formed on the surface of the shelves. The glass tempering equipment has the advantages of compactness and reasonability in structure, good working environment, high production efficiency, low energy consumption and environmental friendliness, and can realize automatic production.

Description

A kind of glass fibre reinforced plastic equipment

Technical field

The utility model relates to a kind of glass fibre reinforced plastic equipment, belongs to design and the manufacturing technology field of reinforced glass production facility.

Background technology

Glass tempering furnace in the conventional art is generally rotary kerosene annealing furnace, at first by manual glass is placed on the counterdie, all sides are placed with a plurality of counterdies in the rotary kerosene annealing furnace, glass to be formed is fed in the annealing furnace along with the rotation of counterdie and heats, the glass that reaches the tempering temperature through heating is during by the top die position, top die falls, glass is pressed moulding, glass after the moulding picks and places on the three station rotary platforms by manual, three station rotary platform rotation meetings are carried out the quenching tempering with glass ribbon to air-cooled district, glass behind the quenching tempering is via the manual packaging process that enters next step on the product conveying belt that picks and places, this rotary kerosene annealing furnace feeding area is near discharging area and all be in the annealing furnace, temperature in the stove constantly comes out, cause material loading workman and the residing operating ambient temperature of blanking workman very high, and noise is large, workman's Working environment extreme difference, simultaneously, the required number of molds of rotary kerosene annealing furnace is many, cause production cost high, it is large that it produces the identical required kerosene oil consumption of heat, material loading, pick and place behind blanking behind the glass ware forming and the glass quenching tempering and all need to dispose the workman on the product conveying belt, required recruitment number is many, cost of labor is corresponding higher, and it is efficient not met modernization, energy-conservation, automatization, cheaply production requirement.

The utility model content

In order to overcome the deficiencies in the prior art, the utility model provides that reasonable, the required workman of a kind of compact construction is few, good work environment, can realize the full-automatic glass fibre reinforced plastic equipment of producing.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of glass fibre reinforced plastic equipment, it comprises the stock shelf that from left to right is arranged in order, electric annealing furnace, shaping area, discharging area and air-cooled district, is respectively arranged with rope for delivery of glass on stock shelf and the electric annealing furnace and rolls with pottery and roll; Described shaping area comprises a support, be provided with the ceramic roller capable and contour with ceramic rolling on the support, ceramic roller axially is divided into pre-ceramic roller and rear ceramic roller along it, forward and backward ceramic roller is along its axial butt and be formed with a room not, be provided with the up and down dip mold of telescopic displacement in the described room, but the right side that is positioned at dip mold on the support is provided with locating dowel two oscilaltions, that be used for blocking glass, and the position is equipped with the tempering mould directly over the dip mold; Described discharging area is one to have three station rotary platforms of shaping station, air-cooled station and conveying belt station, it comprises a rotary seat, all sides of the rotating disk on the rotary seat evenly are provided with three racks, rack when being positioned at shaping station docks with the discharge port of shaping area, rack when air-cooled station is between the upper and lower wind dish in air-cooled district, the rack next-door neighbour product conveying belt when being positioned at the conveying belt station; Be provided with stand in the shaping station position, the 6th cylinder is installed in the stand, the output terminal of the 6th cylinder is connected with upper frame, and the upper surface of upper frame is equipped with the asbestos twine parallel with ceramic roller and rolls, and the surface of rack is provided with when upper frame rises for the bar groove that rolls by asbestos twine.

As improvement of the technical scheme, be provided with all sides of being arranged in dip mold on the described support, can upwards glass be held up to the lifting column of tempering mould position, lifting column is four, per two lifting columns are fixed on the batten, batten is connected to the output terminal of cylinder, and cylinder is fixed on the program control adjusting platform in the left and right sides.

As further improvement in the technical proposal, described discharging area comprises that also one is arranged at second cylinder at conveying belt station place, rack is by U-shaped and be hinged on U-shaped the tray upper, that a side its contiguous rotating disk under the promotion of the second cylinder can make progress the lifting upset, away from the center line of tray, U-shaped bottom side is along being provided be used to presenting a theatrical performance as the last item on a programme of shelving tray, prevent from overturning under the side direction of the contiguous rotating disk of tray along rotating disk direction dorsad for the articulated position of tray.

Further, on the described stock shelf orienting lug is installed, orienting lug is positioned at the upper surface that rope rolls.

Preferably, described orienting lug by leg be fixed on being positioned at the rope roll down on the movable slider of location, movable slider is slidingly connected on the fixed slider that is fixed on the stock shelf, the slideway on the fixed slider along the rope roller bearing to direction.

Further, described tempering mould is fixedly connected on the output terminal of the 3rd cylinder.

Further, described forward and backward ceramic roller is axial adjustable ceramic roller.

Preferably, the left side that is positioned at ceramic roller on the described support is provided with second ceramic roller concordant with ceramic roller, the second ceramic roller along it axially through whole support.

Further, described stand is provided with column, is socketed with orienting sleeve on the column, and orienting sleeve is fixed on the upper frame.

Further, described air-cooled district comprises mounting bracket, is connected with opposed upper and lower wind dish on the mounting bracket, and the blast inlet of upper and lower wind dish connects with blower fan, is provided with on the mounting bracket to drive the driving mechanism that upper and lower wind dish rotates.

The beneficial effects of the utility model are: it is the tempering mould that the utility model is arranged on the top position by the cover half that glass ware forming is used, it is dip mold that the dynamic model that moulding is used is arranged on lower position, cooperate ceramic roller, locating dowel, so that the glass of the electric annealing furnace heating of process is through shaping area the time, at first locating dowel rises glass and blocks positioning action, then dip mold rises and cooperates tempering mold pressing glass processed to make glass ware forming, locating dowel descends simultaneously, dip mold falls behind the glass ware forming, the glass of moulding falls back on the ceramic roller, by ceramic roller formed glass is transported to discharging area, the glass conveying that asbestos twine on the discharging area rolls moulding sets aside on the three station rotary platforms, three station rotary platforms are delivered to air-cooled district's quenching tempering with the glass of moulding, glass behind the tempering is delivered to the conveying belt station by three station rotary platforms, realized arriving behind the material loading automatic production of blanking, electric annealing furnace and shaping area can be isolated in the particular room simultaneously, so that the pickup workman isolates with the high-temperature zone behind material loading workman and the quenching tempering, improved greatly workman's Working environment; Simultaneously, but if overturn in conjunction with the rack 45° angle, then the whole process implementation of glass ware forming tempering automatization, only need a material loading workman to get final product, reduced greatly cost of labor, effectively raise production efficiency, and electric annealing furnace has the more advantage of save energy, environmental protection than traditional kerosene annealing furnace; In addition, the utility model is with respect to traditional rotary kerosene annealing furnace, and its die needed quantity is few, only needs a dip mold and tempering mould, has reduced greatly production cost.The utility model compact construction rationally, good work environment, high, low, the environmental protection of energy consumption of production efficiency, can realize automatic production.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples.

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of stock shelf in the utility model;

Fig. 3 is another angle synoptic diagram of Fig. 2;

Fig. 4 is the structural representation of electric annealing furnace (hiding upper furnace body) in the utility model;

Fig. 5 is the partial enlarged drawing of A among Fig. 4;

Fig. 6 is the structural representation of shaping area in the utility model;

Fig. 7 is the structural representation after Fig. 6 hides clamshell;

This Fig. 7 of Fig. 8 hides another angle synoptic diagram behind the tempering mould;

Fig. 9 is dip mold, the locating dowel of shaping area in the utility model, the mounting structure synoptic diagram of lifting column;

Figure 10 is the structural representation of orienting lug in the utility model;

Figure 11 is the mounting structure synoptic diagram of stand and upper related components thereof in the utility model;

Figure 12 is the structural representation of discharging area in the utility model;

Figure 13 is another angle synoptic diagram of Figure 12;

Figure 14 is the structural representation of the utility model apoplexy cold-zone.

Embodiment

With reference to Fig. 1 ~ Figure 14, a kind of glass fibre reinforced plastic equipment of the present utility model, it comprises stock shelf 1, electric annealing furnace 2, shaping area 3, discharging area 4 and the air-cooled district 5 that from left to right is arranged in order, the direction that obtains with Fig. 1 view of from left to right referring to described herein, hereinafter described the left, right, front and rear direction all is as the criterion with this visual angle.Be respectively arranged with on described stock shelf 1 and the electric annealing furnace 2 rope for delivery of glass roll 11 and pottery roll 21, rope rolls 11 and can roll or rubber rolls for asbestos twine, it is sprocket wheel that rope rolls 11 end, the below of stock shelf 1 arranges a drive-motor 16, sprocket wheel is installed on the output shaft of drive-motor 16 equally, connects by chain and realize that 16 pairs of ropes of drive-motor roll 11 driving; Electricity annealing furnace 2 is used for glass is heated, and is prior art, no longer launches to give unnecessary details herein.

Described shaping area 3 comprises a support 31, be provided with on the support 31 with pottery and roll 21 parallel and contour ceramic rollers, ceramic roller axially is divided into pre-ceramic roller 321 and rear ceramic roller 322 along it, before, rear ceramic roller 321, an end of 322 is equipped with sprocket wheel, the drive shaft (not shown) is installed on the support 31, be provided with 3 sprocket wheels on the drive shaft, wherein the sprocket wheel at drive shaft two ends by chain respectively with front, rear ceramic roller 321, sprocket wheel on 322 connects, the 3rd sprocket wheel then is connected with the output terminal of motor by chain, before motor passes motion to by drive shaft, rear ceramic roller 321,322, before can guaranteeing, rear ceramic roller 321,322 rotating speed is consistent.Described forward and backward ceramic roller 321,322 is along its axial butt and be formed with a room not, be provided with the up and down dip mold 7 of telescopic displacement in the described room, but the right side that is positioned at dip mold 7 on the support 31 is provided with locating dowel 34 two oscilaltions, that be used for blocking glass, locating dowel 34 is by its oscilaltion of pneumatic control, certainly, locating dowel 34 also can have 3 or more.

The position is equipped with tempering mould 8 directly over the described dip mold 7, and tempering mould 8 is equivalent to a cover half, and dip mold 7 is equivalent to a dynamic model, can realize compression moulding to glass by tempering mould 8 and dip mold 7.For so that tempering mould 8 can adapt to the glass of different thickness, so that glass from tempering mould 8 belows by the time can not interfere with tempering mould 8, tempering mould 8 can be fixedly connected on the output terminal of the 3rd cylinder 81, the 3rd cylinder 81 is fixed on the end face of clamshell 82, clamshell 82 covers on the support 31, like this when not entering molding procedure, can be with the 8 upwards liftings of tempering mould, avoid itself and glass and ceramic roller to interfere, simultaneously, for the glass of different thickness, adjustable steel mould 8 is apart from the height of ceramic roller, to adapt to the glass of different thickness different model; In addition, clamshell 82 stashes the component such as ceramic roller, dip mold 7, to reach beauty function.

Described discharging area 4 is one to have shaping station, three station rotary platforms of air-cooled station and conveying belt station, it comprises a rotary seat 41, all sides of the rotating disk 45 on the rotary seat 41 evenly are provided with three racks 42, rack 42 when being positioned at shaping station docks with the discharge port of shaping area 3, rack 42 when being positioned at air-cooled station is in the upper of air-cooled district 5, leeward dish 52, between 53, rack 42 next-door neighbour's product conveying belts when being positioned at the conveying belt station, preferably when a rack 42 is in shaping station, all the other two racks 42 just are positioned at respectively air-cooled station and conveying belt station, to improve the operational efficiency of whole equipment; Be provided with stand 6 in the shaping station position, the 6th cylinder 61 is installed in the stand 6, the output terminal of the 6th cylinder 61 is connected with upper frame 62, the upper surface of upper frame 62 is equipped with the asbestos twine parallel with ceramic roller and rolls 63, and the surface of rack 42 is provided with when upper frame 62 rises and is used for rolling 63 bar groove 43 by asbestos twine.Asbestos twine roll 63 setting be consider from shaping area 3 glass temperature out still very high, if allow glass after the moulding front, rear ceramic roller 321, directly enter on the rack 42 under 322 the promotion, then will inevitably produce sliding friction between glass and the rack 42, because of glass temperature very eminence in soft state, this sliding friction will inevitably be so that the surperficial scratch of glass, distortion, and asbestos twine rolls 63 setting, so that when behind glass ware forming, needing from shaping area 3 discharging, the 6th cylinder 61 drives asbestos twine and rolls 63 risings, asbestos twine rolls 63 and passes bar groove 43 and rise to the position that flushes with ceramic roller, simultaneously, asbestos twine rolls 63 and self rotates under the drive of motor, so that the glass of moulding can be stably by asbestos twine roll 63 receive, after glass falls within asbestos twine fully and rolls on 63, the 6th cylinder 61 drives asbestos twine and rolls 63 whereabouts, roll 63 when passing bar groove 43 at asbestos twine, glass drops on the rack 42, the scratch of effectively having avoided glass to be subject to when shaping area 3 drops on the rack 42, deformation effect.For so that asbestos twine to roll 63 lifts more steady, can be provided with column 64 in described stand 6, be socketed with orienting sleeve 65 on the column 64, orienting sleeve 65 is fixed on the upper frame 62.

Glass for different model, the size of its desired dip mold 7 has difference, so described forward and backward ceramic roller 321,322 can be set to axial adjustable ceramic roller, it is forward and backward ceramic roller 321,322 axially movable along it, to regulate the size in formed room between the forward and backward ceramic roller 321,322, to adapt to different model glass to the different demands of dip mold 7.

Described air-cooled district 5 comprises mounting bracket 51, is connected with opposed upper and lower wind dish 52,53 on the mounting bracket 51, and upper and lower wind dish 52,53 blast inlet connect with blower fan 54, is provided with on the mounting bracket 51 to drive upper and lower wind dish 52,53 driving mechanisms that rotate.This driving mechanism comprises a motor 55, and the output terminal belt of motor 55 is connected with drive shaft 56, and the two ends of drive shaft 56 are respectively arranged with upper and lower driving wheel 57,58, upper and lower driving wheel 57,58 by transmission belt respectively the same, leeward dish 52,53 connect.

Glass fibre reinforced plastic equipment described in the utility model is like this work: at first, the rope that glass to be processed is placed on feeding platform 1 by hand rolls on 11, for so that the location comparison when placing is accurate, in order to follow-uply can enter into accurately the shaping position that is consisted of by dip mold 7 and tempering mould 8 when entering shaping area 3, preferably at described stock shelf 1 orienting lug 12 is installed, orienting lug 12 is positioned at rope and rolls 11 upper surface, glass can be leaned against like this side of orienting lug 12, to realize the guide effect of 12 pairs of glass of orienting lug.Glass for different model, it has dividing of size, for adapting to this demand, can with described orienting lug 12 by leg 13 be fixed on being positioned at the rope roll on the movable slider 14 of 11 lower positions, movable slider 14 is slidingly connected on the fixed slider 15 that is fixed on the stock shelf 1, slideway on the fixed slider 15 rolls 11 axial direction dues along rope, and namely orienting lug 12 can roll 11 along rope and moves axially.Certainly, if only for the production of a kind of glass of model, only need that rope is rolled 11 length and be arranged to big or small suitable with glass, so that stock shelf 1 rolls 11 dual-side for installing rope glass is formed guide effect, and need not to install orienting lug 12.

Glass rolls 11 by rope and is transported to pottery and rolls 21, glass enters electric annealing furnace 2 and carries out preheating and heating, reaching the tempering temperature through heating enters on the ceramic roller of shaping area 3 from the discharge port of electric annealing furnace 2, consider by the glass after electric annealing furnace 2 heating and be in soft state, before the cause, rear ceramic roller 321, be formed with a room between 322, be heated to the glass of soft state by before directly entering in the electric annealing furnace 2, rear ceramic roller 321, may cause transition steady not on 322, therefore can be provided with in the left side that described support 31 is positioned at ceramic roller second ceramic roller 39, the second ceramic rollers 39 concordant with ceramic roller along it axially through whole support 31.Before the left side of ceramic roller refers to that the second ceramic roller 39 is positioned at, rear ceramic roller 321,322 rear positions along the glass direct of travel, refer to that namely glass at first enters on the second ceramic roller 39 after out from electric annealing furnace 2, before by the second ceramic roller 39 glass being transported to stably, rear ceramic roller 321, on 322, before the second ceramic roller 39 axially runs through whole support 31 and refers to not exist on the second ceramic roller 39 along it, rear ceramic roller 321,322 rooms that form, than the heating after glass from electric annealing furnace 2, directly enter into before, rear ceramic roller 321, on 322, before the glass after the heating enters into behind the second ceramic roller 39 again, rear ceramic roller 321, transition is more steady on 322.

Until glass fully after on the ceramic roller, control center can control locating dowel 34 and rise (certainly, locating dowel 34 can also can rise after previous glass leaves shaping area 3), locating dowel 34 can be by pneumatic control, the glass that is driven by ceramic roller can with locating dowel 34 butts, the location that locating dowel 34 realizes glass, behind the location, glass just in time be positioned at dip mold 7 directly over the position, at this moment, dip mold 7 can rise and butt glass under the promotion of four-cylinder 38, glass is pushed in the tempering mould 8, and is pressed moulding under the acting in conjunction of dip mold 7 and tempering mould 8, is rising when glass up pushed up for fear of dip mold 7, glass breaks away because the gravity deflection causes it, be provided with all sides that are arranged in dip mold 7 on the described support 31, can upwards glass be held up to the lifting column 33 of tempering mould 8 positions, lifting column 33 is four, and per two lifting columns 33 are fixed on the batten 35, batten 35 is connected to the output terminal of cylinder 36, and cylinder 36 is fixed on the program control adjusting platform 37 in the left and right sides.After 34 pairs of glass of locating dowel block the location, glass just in time be positioned at lifting column 33 directly over the position, lifting column 33 upwards rises glass is held up to tempering mould 8 positions under the effect of cylinder 36, then dip mold 7 rises glass is implemented compression moulding.Certainly, lifting column 33 also can be set to three and be uniformly distributed in dip mold 7 all sides, lifting column 33 can be with reliable upwards the holding up and the phenomenon of can not breakking away of glass, effectively avoided directly by dip mold 7 hold up that glass occur to break away may.Consider the difference of glass model, cylinder 36 can be fixed on the program control adjusting platform 37 in the left and right sides, the program control adjusting platform 37 lifting controllable posts 33 in the left and right sides move axially along pre-ceramic roller 321, so that for the glass of different model, lifting column 33 can be with safe upwards the holding up of glass.

When glass is pressed moulding, lifting column 33 and locating dowel 34 fall to the upper level that is lower than ceramic roller so that it does not disturb the conveying of glass on forward and backward ceramic roller 321,322, behind the glass ware forming, dip mold 7 descends, glass after the moulding follows dip mold 7 to fall, when dip mold 7 fell to the lower position of ceramic roller, the glass of moulding had been shelved on the forward and backward ceramic roller 321,322, and entered discharging area 4.

Glass after the moulding is before shaping area 3 outputs, asbestos twine in the stand 6 rolls 63 and passes bar groove 43 rise to the position that flushes with ceramic roller under the driving of the 6th cylinder 61, simultaneously, asbestos twine rolls 63 and self rotates under the drive of motor, so that the glass of moulding can be stably by asbestos twine roll 63 receive, after glass falls within asbestos twine fully and rolls on 63, the 6th cylinder 61 drives asbestos twine and rolls 63 whereabouts, roll 63 when passing bar groove 43 at asbestos twine, glass drops on the rack 42, after glass drops on the rack 42, rotating disk 45 begins to rotate the rack 42 that will be shelved with formed glass and brings to air-cooled station and stop certain hour, so that formed glass is upper, leeward dish 52, quenching tempering under the effect of 53 blowings, behind the glass tempering, rotating disk 45 continues rotation, and the rack 42 that is loaded with toughened glass is brought to the conveying belt station, and toughened glass can be by manually being taken on the product conveying belt to enter next step packaging process.

In order further to realize automatization, described discharging area 4 comprises that also one is arranged at second cylinder 44 at conveying belt station place, rack 42 is by U-shaped 421 and be hinged on U-shaped 421, a side of its contiguous rotating disk 45 tray 422 of lifting upset that can make progress under the promotion of the second cylinder 44, the articulated position of tray 422 along rotating disk 45 directions dorsad away from the center line of tray 422, U-shaped 421 bottom side along be provided be used to shelve tray 422, prevent from overturning under the side direction of tray 422 contiguous rotating disks 45 present a theatrical performance as the last item on a programme 4211.The second cylinder 44 can be welded on the sidewall of rotary seat 41, when the rack 42 that is loaded with toughened glass rotates to the conveying belt station, rotating disk 45 stops the rotation, simultaneously the second cylinder 44 actions are with jack-up on the tray 422 close side direction of rotary sleeve 41, tray 422 is done the 45° angle upset, and the toughened glass landing on the tray 422 has replaced artificial manual pickup on product conveying belt, convenient and swift, efficient is high.

The above be preferred embodiments of the present utility model, but the utility model is not limited to above-described embodiment, as long as it reaches technique effect of the present utility model with any same or similar means, all should fall within the protection domain of the present utility model.

Claims (10)

1. glass fibre reinforced plastic equipment, it is characterized in that: comprise the stock shelf (1) that from left to right is arranged in order, electric annealing furnace (2), shaping area (3), discharging area (4) and air-cooled district (5), be respectively arranged with on stock shelf (1) and the electric annealing furnace (2) that rope for delivery of glass rolls (11) and pottery rolls (21); Described shaping area (3) comprises a support (31), be provided with on the support (31) and roll (21) parallel and contour ceramic roller with pottery, ceramic roller axially is divided into pre-ceramic roller (321) and rear ceramic roller (322) along it, before, rear ceramic roller (321,322) along its axial butt and be formed with a room not, be provided with the up and down dip mold (7) of telescopic displacement in the described room, be positioned at dip mold (7) on the support (31) but the right side be provided with two oscilaltions, be used for blocking the locating dowel (34) of glass, the position is equipped with tempering mould (8) directly over the dip mold (7); Described discharging area (4) is one to have three station rotary platforms of shaping station, air-cooled station and conveying belt station, it comprises a rotary seat (41), all sides of the rotating disk (45) on the rotary seat (41) evenly are provided with three racks (42), rack when being positioned at shaping station (42) docks with the discharge port of shaping area (3), rack when being positioned at air-cooled station (42) is between the upper and lower wind dish in air-cooled district (5), the rack when being positioned at the conveying belt station (42) next-door neighbour product conveying belt; Be provided with stand (6) in the shaping station position, the 6th cylinder (61) is installed in the stand (6), the output terminal of the 6th cylinder (61) is connected with upper frame (62), the upper surface of upper frame (62) is equipped with the asbestos twine parallel with ceramic roller and rolls (63), and the surface of rack (42) is provided with and is used for rolling the bar groove (43) of (63) by asbestos twine when upper frame (62) rises.

2. a kind of glass fibre reinforced plastic equipment according to claim 1, it is characterized in that: be provided with all sides of being arranged in dip mold (7) on the described support (31), can upwards glass be held up to the lifting column (33) of tempering mould (8) position, lifting column (33) is four, per two lifting columns (33) are fixed on the batten (35), batten (35) is connected to the output terminal of cylinder (36), and cylinder (36) is fixed on the program control adjusting platform in the left and right sides (37).

3. a kind of glass fibre reinforced plastic equipment according to claim 1 and 2, it is characterized in that: described discharging area (4) comprises that also one is arranged at second cylinder (44) at conveying belt station place, rack (42) is by U-shaped (421) and be hinged on U-shaped (421), side of its contiguous rotating disk (45) tray (422) of lifting upset that can make progress under the promotion of the second cylinder (44), the articulated position of tray (422) is along rotating disk (45) direction is away from the center line of tray (422) dorsad, and the bottom side of U-shaped (421) is along being provided be used to shelving tray (422), prevent that tray (422) is close to present a theatrical performance as the last item on a programme (4211) of overturning under the side direction of rotating disk (45).

4. a kind of glass fibre reinforced plastic equipment according to claim 1 is characterized in that: orienting lug (12) is installed on the described stock shelf (1), and orienting lug (12) is positioned at rope and rolls the upper surface of (11).

5. a kind of glass fibre reinforced plastic equipment according to claim 4, it is characterized in that: described orienting lug (12) by leg (13) be fixed on being positioned at the rope roll on the movable slider (14) of (11) lower position, movable slider (14) is slidingly connected on the fixed slider (15) that is fixed on the stock shelf (1), and the slideway on the fixed slider (15) rolls (11) axial direction due along rope.

6. a kind of glass fibre reinforced plastic equipment according to claim 1, it is characterized in that: described tempering mould (8) is fixedly connected on the output terminal of the 3rd cylinder (81).

7. a kind of glass fibre reinforced plastic equipment according to claim 1, it is characterized in that: described forward and backward ceramic roller (321,322) is axial adjustable ceramic roller.

8. according to claim 1 or 7 described a kind of glass fibre reinforced plastic equipments, it is characterized in that: the left side that is positioned at ceramic roller on the described support (31) is provided with second ceramic roller (39) concordant with ceramic roller, the second ceramic roller (39) along it axially through whole support (31).

9. a kind of glass fibre reinforced plastic equipment according to claim 1, it is characterized in that: described stand (6) is provided with column (64), is socketed with orienting sleeve (65) on the column (64), and orienting sleeve (65) is fixed on the upper frame (62).

10. according to claim 1 ~ 2, each described a kind of glass fibre reinforced plastic equipment in 4 ~ 7 or 9, it is characterized in that: described air-cooled district (5) comprises mounting bracket (51), be connected with opposed upper and lower wind dish (52,53) on the mounting bracket (51), the same blower fan of blast inlet (54) of upper and lower wind dish (52,53) connects, and is provided with on the mounting bracket (51) to drive the driving mechanism that upper and lower wind dish (52,53) rotates.

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