CN203527617U - Magnesium oxide board forming production line - Google Patents

Abstract

A magnesium oxide board forming production line comprises a conveying belt, wherein an upper template device is arranged at the head end of the conveying belt; a fabric forming device is arranged in the middle of the conveying belt; a calendar roll is arranged behind the fabric forming device; an on-line cutting device is arranged behind the calendar roll; and a plate discharge device is arranged at the tail end of the conveying belt. According to the magnesium oxide board forming production line provided by the utility model, magnesium oxide board forming production can be continuously and automatically realized in the production line, further, the structure is more compact, the buffer station is not required to be arranged in the production line, and auxiliary equipment is reduced; in a scheme which is further optimized, on-line cutting can be realized, and the production efficiency is improved; and auxiliary push plate equipment can be reduced, energy consumption is reduced, and template abrasion is reduced.

Description

Glass magnesium sheet metal forming production line

Technical field

The utility model relates to a kind of glass magnesium plate production field, particularly a kind of glass magnesium sheet metal forming production line.

Background technology

Glass magnesium plate is a kind of novel multifunction building material, because of its lightweight and performance flexible and reprocessing both with wooden class organic plates, has again inorganic plate fire protecting performance and resistance to water, and has higher intensity.Therefore, glass magnesium plate is widely used at body of wall, and ceiling, in the liner plate of floor.

In prior art, have no the data of complete moulding production line technical scheme, and the many structures of existing production line scheme are comparatively complicated, need more auxiliary equipment.For example, Chinese patent 2011102597584X, has recorded the Work sheet conveying device in a kind of glass magnesium board assembly line, needs the extra push pedal cylinder arranging, in order to promote half-finished glass magnesium plate.Structure is comparatively complicated.

Chinese patent 2011102977046, recorded a kind of cutter sweep that is applied to glass magnesium board assembly line, employing is cut glass magnesium plate perpendicular to the electric saw of glass magnesium plate traffic direction, its cutting only arrives the surface of template, therefore in real work, easily there is fully and completely not cutting the defect of cloth net materials, therefore adopted the auxiliary cloth net materials that cuts bottom with cutting blade, but in real work, effect is also not ideal enough, be mainly, with cutting blade, be easy to wear and tear, thereby be difficult to produce a desired effect.

Chinese patent 2011203744725, has recorded the board discharging device in a kind of glass magnesium board assembly line, has adopted push plate device that glass magnesium plate is pushed to and is carried in cage, and the problem of existence is need extra auxiliary push pedal cylinder, and the wearing and tearing of template bottom surface to be larger.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of glass magnesium sheet metal forming production line, mode moulding glass magnesium plate that can streamline, and structure comparatively simplifies, and auxiliary equipment is few, and structure is more compact.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of glass magnesium sheet metal forming production line, comprise conveyer belt, the head end of conveyer belt is provided with template installing device, the middle part of conveyer belt is provided with distributing shaping device, after distributing shaping device, be provided with felt wrapped roll, after felt wrapped roll, be provided with cutting on line device, the tail end of conveyer belt is provided with unloading equipment.

The head end of conveyer belt is also provided with the template sensor that whether has template for detection of conveyer belt.

In described distributing shaping device, send template pressure roller, bottom cloth rewinder roll, bottom glass fiber net roller, feeding funnel, forming press-roller, upper strata glass fiber net roller and upper strata cloth rewinder roll to arrange successively, in the both sides of feeding funnel and forming press-roller position, be also provided with side form.

Described felt wrapped roll is provided with scraper plate.

In described cutting on line device, sawing support is fixedly mounted on conveyer belt top, and saw cutting device is arranged on the sawing dolly of laterally walking along sawing support, and sawing dolly is arranged on the sawing cart of longitudinally walking along sawing support;

Sawing cart is also provided with extension rod along sawing support longitudinal direction, is installed with plate stopping means on extension rod, is also provided with along sawing support guide rail longitudinally on sawing support, and plate stopping means and guide rail are slidably matched;

The position of the conveyer belt below saw cutting device is provided with plate detecting sensor, and plate stopping means is provided with upset baffle plate;

Upset baffle plate equals the length of template to the distance of saw blade in saw cutting device.

In described unloading equipment, in geosyncline, be movably installed with slidably and two jacking apparatus that align with conveyer belt, jacking apparatus is provided with a plurality of plate deflector rolls that unload of fixing not lifting, unloading plate framework is positioned on jacking apparatus actively, unload plate framework and have for unloading the space that plate deflector roll passes, unload the upper end of plate deflector roll and the upper end of conveyer belt is concordant.

Affixed between two jacking apparatus, jacking apparatus is slidably mounted on the switching slide rail that is positioned at ground trench bottom, and on ground, trench bottom is provided with switching driving device;

Described switching driving device is hydraulic cylinder, or the pinion and rack of described switching driving device for being driven by variable-frequency motor.

Along conveyer belt, be also provided with at least one cleaning roller, cleaning roller is installed in rotation in cell body, is provided with cleaning solution in cell body, and the upper surface of cleaning roller contacts with the bottom surface of template.

After felt wrapped roll, be also provided with sheet material scraper plate, the lower end of sheet material scraper plate contacts with the upper surface of glass magnesium plate.

In described conveyer belt, be also provided with the conveyer belt section of holding out against and conveyer belt and unload plate section;

The conveyer belt section of holding out against is positioned to be sent below template pressure roller, and conveyer belt unloads plate section and is positioned at cutting on line device below, and the conveyer belt section of holding out against and conveyer belt unload the transporting velocity of plate section higher than the transporting velocity of other sections of conveyer belt.

A kind of glass magnesium sheet metal forming production line that the utility model provides, can in production line, realize glass magnesium sheet metal forming continuous and automatic and produce, and structure is more compact, in production line, without buffer station is set, reduces auxiliary equipment.In the scheme of further optimizing, the utility model can be realized cutting on line, enhances productivity.Can reduce auxiliary push pedal equipment, reduce energy consumption, reduce the wearing and tearing of template.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail:

Fig. 1 is overall structure schematic diagram of the present utility model.

Fig. 2 is the plan structure schematic diagram of cutting on line device in the utility model.

Fig. 3 is at the plan structure schematic diagram of unloading equipment in the utility model.

In figure: cutting on line device 1, plate detecting sensor 101, plate stopping means 102, retractor device 103, upset baffle plate 104, saw cutting device 105, sawing support 106, guide rail 107, extension rod 108, sawing cart 109, sawing dolly 110, unloading equipment 2, jacking apparatus 21, unload plate framework 22, geosyncline 23, switch slide rail 24, unload plate deflector roll 25, switch tooth bar 26, change gear 27, switch motor 28, template installing device 3, conveyer belt 4, the conveyer belt section of holding out against 41, conveyer belt unloads plate section 42, template sensor 5, template 6, send template pressure roller 7, bottom cloth rewinder roll 8, bottom glass fiber net roller 9, feeding funnel 10, side form 11, forming press-roller 12, upper strata glass fiber net roller 13, upper strata cloth rewinder roll 14, felt wrapped roll 15, scraper plate 16, sheet material scraper plate 17, cleaning roller 18, glass magnesium plate 19.

The specific embodiment

In Fig. 1 ~ 3, a kind of glass magnesium sheet metal forming production line, comprises conveyer belt 4, and the head end of conveyer belt 4 is provided with template installing device 3, and the head end of conveyer belt 4 is also provided with the template sensor 5 that whether has template 6 for detection of conveyer belt.Template installing device 3 is equipment conventional in prior art, by vacuum cup, will after template 6 absorption, be transported on conveyer belt 4, the template sensor 5 of setting detects on conveyer belt whether have template 6, after template 6 conveyings are left, template installing device 3 is about to template 6, falls on conveyer belt 4.

The middle part of conveyer belt 4 is provided with distributing shaping device, in Fig. 1, in described distributing shaping device, send template pressure roller 7, bottom cloth rewinder roll 8, bottom glass fiber net roller 9, feeding funnel 10, forming press-roller 12, upper strata glass fiber net roller 13 and upper strata cloth rewinder roll 14 to arrange successively, in the both sides of feeding funnel 10 and forming press-roller 12 positions, be also provided with side form 11.By distributing shaping device, nonwoven, glass fiber net are laid in template 6 successively, then by feeding funnel 10, send into the raw materials such as the magnesia that mixes, magnesium sulfate, magnesium chloride, wood chip, after forming press-roller 12 is compressing, re-lays glass fiber net and nonwoven, thereby make semi-finished product.Send the effect of template pressure roller 7 be by after template 6 with before template hold out against.

After distributing shaping device, be provided with felt wrapped roll 15, the effect of felt wrapped roll, is to make upper strata glass fiber net and nonwoven laminating better, makes the outward appearance of glass magnesium boards half-finished product more attractive in appearance simultaneously.In preferred scheme, described felt wrapped roll 15 is provided with scraper plate 16.The scraper plate 16 arranging, for scraping off the slurry on felt wrapped roll 15, avoids dropping liquid to affect quality.

After felt wrapped roll 15, be provided with cutting on line device 1, as shown in Fig. 1,2, cutting on line device 1 is for being cut into rectangular block by glass magnesium boards half-finished product.The tail end of conveyer belt 4 is provided with unloading equipment 2, and unloading equipment 2, as shown in Fig. 1,3, for glass magnesium boards half-finished product piling up from level to level unloaded in plate framework 22, is then sent to curing conservation operation.

Preferred as in Fig. 1,2, in described cutting on line device 1, sawing support 106 is fixedly mounted on conveyer belt 4 tops, saw cutting device 105 is arranged on the sawing dolly 110 of laterally walking along sawing support 106, and sawing dolly 110 is arranged on the sawing cart 109 of longitudinally walking along sawing support 106;

Sawing cart 109 is also provided with extension rod 108 along sawing support 106 longitudinal directions, is installed with plate stopping means 102 on extension rod 108, is also provided with along sawing support 106 guide rail 107 longitudinally on sawing support 106, and plate stopping means 102 is slidably matched with guide rail 107;

The position of the conveyer belt 4 below saw cutting device 105 is provided with plate detecting sensor 101, and plate stopping means 102 is provided with upset baffle plate 104;

Upset baffle plate 104 equals the length of template 6 to the distance of saw blade in saw cutting device 105.

By above-mentioned structure, when a template 6 is pushed down after plate detecting sensor 101, control system is controlled retractor device 103 baffle plate 104 that makes to overturn and is put down, to withstand the termination of template, retractor device 103 in this example adopts cylinder, hydraulic cylinder or half gear mechanism, template continues operation forward on conveyer belt, under the effect of upset baffle plate 104, drives sawing cart 109 longitudinally to walk along sawing support 106.Now sawing dolly 110 starts, along sawing support 106, laterally walk, drive saw cutting device 105 cutting glass magnesium plates, because upset baffle plate 104 equals the length of template 6 to the distance of saw blade in saw cutting device 105, in cutting process, saw cutting device 105 is followed template operation, therefore the saw kerf of saw cutting device 105 gap location between two templates just in time, therefore, can not produce the technical problem that prior art can't cut as the bottom glass fiber net of recording in Chinese patent 2011102977046 and nonwoven.The horizontal walking mechanism of sawing dolly 110 is identical with prior art with the structure of saw cutting device 105.Cut rear sawing cart 109 by conventional drive unit in prior art, reset to initial position, etc. next glass magnesium plate to be cut, sawing dolly 110 is realized cutting by reciprocating motion, be the side that glass magnesium plate of every cutting arrives sawing support 106, cut next and arrive opposite side.

Preferred as in Fig. 1 ~ 3, in described unloading equipment 2, in geosyncline 23, be movably installed with two jacking apparatus 21 that slidably also can align with conveyer belt 4 respectively, jacking apparatus 21 is provided with a plurality of plate deflector rolls 25 that unload of fixing not lifting, unloading plate framework 22 is positioned on jacking apparatus 21 actively, in the bottom of unloading plate framework 22, be provided with wheel, can shift onto on the track at jacking apparatus 21 tops, unloading plate framework 22 has for unloading the space that plate deflector roll 25 passes, unloading plate framework 22 shifts onto behind jacking apparatus 21 tops, along with jacking apparatus 21 declines, from unloading the last layer of plate framework 22, start to unload plate.The upper end of unloading plate deflector roll 25 is concordant with the upper end of conveyer belt 4.The utility model a plurality ofly unloads plate deflector roll 25 through what unload plate framework 22 spaces by what arrange, unload plate deflector roll 25 for driven voller, self is drive not, simple in structure, reduced the frictional force while unloading plate, thereby need not additionally arrange two and be with dynamic push plate device, simplify the overall structure of system, and reduce the wearing and tearing of template bottom.

Affixed between two jacking apparatus 21, jacking apparatus 21 is slidably mounted on the switching slide rail 24 that is positioned at geosyncline 23 bottoms, in geosyncline 23 bottoms, is provided with switching driving device;

In optional scheme, described switching driving device is hydraulic cylinder, and the oil pump of hydraulic cylinder is driven by variable-frequency motor.Or the pinion and rack of described switching driving device for being driven by variable-frequency motor.In this example, adopt variable-frequency motor when switching, to form speed change, pre-decelerating before the position stopping at needs, thus reduce collision, make system operation more steady.

By conveyer belt 4 by template and on glass magnesium plate be transported to and unload in plate framework 22, one of every conveying is jacking apparatus 21 jacking one lattice, the framework outline of this layer is lower than the upper end of unloading plate deflector roll 25, thereby template bottom with unload plate framework 22 frictions, one unload plate framework 22 and fill after, start switching driving device, be switched to another jacking apparatus 21, this unload plate framework 22 be removed change another sky unload plate framework 22, along track, promote, be about to unload plate framework 22 and unload.

Preferably, as in Fig. 1,2, along conveyer belt 4, be also provided with at least one cleaning roller 18, cleaning roller 18 is installed in rotation in cell body, is provided with cleaning solution in cell body, and the upper surface of cleaning roller 18 contacts with the bottom surface of template 6.Structure, for cleaning template bottom surface, avoids dropping liquid to affect glass magnesium plate appearance thus.

Preferably, as in Fig. 1, be also provided with sheet material scraper plate 17 after felt wrapped roll 15, the lower end of sheet material scraper plate 17 contacts with the upper surface of glass magnesium plate 19.Structure thus, can strike off the upper surface of glass magnesium plate 19, scrapes off surperficial dropping liquid, avoids forming in the curing conservation phase appearance that impression affects glass magnesium plate 19.

Preferred as in Fig. 1, in described conveyer belt 4, be also provided with the conveyer belt section of holding out against 41 and conveyer belt unloads plate section 42; The conveyer belt section of holding out against 41 is positioned at send template pressure roller 7 belows, and conveyer belt unloads plate section 42 and is located at wire-electrode cutting device 1 below, and the conveyer belt section of holding out against 41 and conveyer belt unload the transporting velocity of plate section 42 higher than the transporting velocity of conveyer belt 4 other sections.The conveyer belt section of holding out against 41 is for holding out against between each piece template, thereby avoids leakage.Conveyer belt unloads plate section 42 for the distance between each piece template is pulled open, thereby is convenient to the cutting of next piece glass magnesium plate.

The above embodiments are only for the optimal technical scheme of the invention; and should not be considered as for restriction of the present utility model; the technical scheme that protection scope of the present invention should be recorded with claim, comprises that the alternative that is equal to of technical characterictic in the technical scheme that claim records is protection domain.Being equal within the scope of this, replaces and improves, also within protection scope of the present invention.

Claims (10)

1. a glass magnesium sheet metal forming production line, comprise conveyer belt (4), it is characterized in that: the head end of conveyer belt (4) is provided with template installing device (3), the middle part of conveyer belt (4) is provided with distributing shaping device, after distributing shaping device, be provided with felt wrapped roll (15), felt wrapped roll (15) is provided with cutting on line device (1) afterwards, and the tail end of conveyer belt (4) is provided with unloading equipment (2).

2. a kind of glass magnesium sheet metal forming production line according to claim 1, is characterized in that: the head end of conveyer belt (4) is also provided with the template sensor (5) that whether has template (6) for detection of conveyer belt.

3. a kind of glass magnesium sheet metal forming production line according to claim 1, it is characterized in that: in described distributing shaping device, send template pressure roller (7), bottom cloth rewinder roll (8), bottom glass fiber net roller (9), feeding funnel (10), forming press-roller (12), upper strata glass fiber net roller (13) and upper strata cloth rewinder roll (14) to arrange successively, in the both sides of feeding funnel (10) and forming press-roller (12) position, be also provided with side form (11).

4. a kind of glass magnesium sheet metal forming production line according to claim 1, is characterized in that: described felt wrapped roll (15) is provided with scraper plate (16).

5. a kind of glass magnesium sheet metal forming production line according to claim 1, it is characterized in that: in described cutting on line device (1), sawing support (106) is fixedly mounted on conveyer belt (4) top, it is upper that saw cutting device (105) is arranged on the sawing dolly (110) of laterally walking along sawing support (106), and sawing dolly (110) is arranged on the sawing cart (109) of longitudinally walking along sawing support (106);

Sawing cart (109) is also provided with extension rod (108) along sawing support (106) longitudinal direction, on extension rod (108), be installed with plate stopping means (102), on sawing support (106), be also provided with along sawing support (106) guide rail (107) longitudinally, plate stopping means (102) is slidably matched with guide rail (107);

The position of the conveyer belt (4) below saw cutting device (105) is provided with plate detecting sensor (101), and plate stopping means (102) is provided with upset baffle plate (104);

Upset baffle plate (104) equals the length of template (6) to the distance of the middle saw blade of saw cutting device (105).

6. a kind of glass magnesium sheet metal forming production line according to claim 1, it is characterized in that: in described unloading equipment (2), two jacking apparatus (21) that are movably installed with slidably in geosyncline (23) and align with conveyer belt (4), jacking apparatus (21) is provided with a plurality of plate deflector rolls (25) that unload of fixing not lifting, unloading plate framework (22) is positioned on jacking apparatus (21) actively, unload plate framework (22) and have for unloading the space that plate deflector roll (25) passes, the upper end of unloading plate deflector roll (25) is concordant with the upper end of conveyer belt (4).

7. a kind of glass magnesium sheet metal forming production line according to claim 6, it is characterized in that: affixed between two jacking apparatus (21), jacking apparatus (21) is slidably mounted on the switching slide rail (24) that is positioned at geosyncline (23) bottom, in geosyncline (23) bottom, is provided with switching driving device;

Described switching driving device is hydraulic cylinder, or the pinion and rack of described switching driving device for being driven by variable-frequency motor.

8. a kind of glass magnesium sheet metal forming production line according to claim 1, it is characterized in that: along conveyer belt (4), be also provided with at least one cleaning roller (18), cleaning roller (18) is installed in rotation in cell body, in cell body, be provided with cleaning solution, the upper surface of cleaning roller (18) contacts with the bottom surface of template (6).

9. a kind of glass magnesium sheet metal forming production line according to claim 1, is characterized in that: at felt wrapped roll (15), be also provided with afterwards sheet material scraper plate (17), the lower end of sheet material scraper plate (17) contacts with the upper surface of glass magnesium plate (19).

10. a kind of glass magnesium sheet metal forming production line according to claim 1, is characterized in that: in described conveyer belt (4), be also provided with the conveyer belt section of holding out against (41) and conveyer belt and unload plate section (42);

The conveyer belt section of holding out against (41) is positioned at send template pressure roller (7) below, conveyer belt unloads plate section (42) and is located at wire-electrode cutting device (1) below, and the conveyer belt section of holding out against (41) and conveyer belt unload the transporting velocity of plate section (42) higher than the transporting velocity of other sections of conveyer belt (4).

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