CN209428401U - A kind of automatic gauge glass tempering furnace - Google Patents

Abstract

The utility model discloses a kind of automatic gauge glass tempering furnaces, it is related to glass tempering furnace technical field, the utility model includes heating furnace, cooling furnace and conveyer, conveyer successively passes across heating furnace and cooling furnace, cooling furnace inner top and interior bottom are provided with bidirectional reciprocating mechanism, Liang Ge bidirectional reciprocating mechanism is arranged symmetrically, conveyer is located between Liang Ge bidirectional reciprocating mechanism, bidirectional reciprocating mechanism includes the telescoping cylinder being fixed in cooling furnace, telescoping cylinder is connected with trapezoid block, trapezoid block two sides are provided with the guide pad being fixed on cooling furnace inner wall, equal activity is provided through horizontally disposed push rod on guide pad, push rod is respectively connected with the angled-lift splits with trapezoid block cooperation close to trapezoid block one end, the compressed spring being arranged on push rod between guide pad and angled-lift splits, the push rod other end is respectively connected with cooling blower, the utility model Have the advantages that simple structure, good cooling results, use cost are low.

Description

A kind of automatic gauge glass tempering furnace

Technical field

The utility model relates to glass tempering furnace technical fields, more particularly to a kind of automatic gauge glass tempering Furnace.

Background technique

Glass tempering furnace is to form compressive stress layer, internal formation tensile stress in glass surface using either physically or chemically Layer, when glass is by external force, compressive stress layer can offset part tensile stress, glass breaking be avoided, to reach raising The purpose of strength of glass, moreover, the micro-crack of glass surface become subtleer under this compression, also in certain journey The intensity of glass is improved on degree.The physical toughened method generallyd use at present is that glass is heated near softening point to (650 DEG C of left sides It is right), at this moment glass is still able to maintain original shape, but particle has certain transfer ability in glass, structural adjustment is carried out, with It eliminates stress existing for inside quickly, quenching, after equalized temperature, glass then is blowed in glass tempering furnace tempered glass Glass surface produces compression, and internal layer produces tensile stress, i.e. glass produces a kind of internal stress of uniform and regular distribution, Tensile strength of the glass as fragile material is improved, to make that glass is counter-bending and impact strength is improved.Meanwhile by In the presence of the inside glass homogeneous state of stress, when glass part is ruptured by the impact that can be born more than its intensity, Under the action of internal stress self-destruction be little particle, improve its safety, therefore, tempered glass be also referred to as prestressed glass or Safety glass.

Existing glass tempering furnace is generally made of heating furnace and cooling furnace, and glass is first heated by heating furnace, then again Quenching is blowed by cooling furnace, and the blower in cooling furnace is set and is fixed, a blower can only blow to one Region, the blowing region area that glass passes through is smaller, and glass cooling is caused to be not thorough, if by be arranged more multiple blowers come Increase blowing region to reach cooling effect, and will cause the problem that noise is big, equipment use cost is high.

Therefore above-mentioned technical problem how is solved, there is very much realistic meaning to those skilled in the art.

Utility model content

The purpose of this utility model is that: it is fixed to solve the blower in existing glass tempering furnace in cooling furnace all , a blower can only blow to a region, and the blowing region area that glass passes through is smaller, and cause glass cooling to be not thorough, If increase blowing region by the way that more multiple blowers are arranged to reach cooling effect, but will cause noise is big, equipment use at This high technical problem, the utility model provide a kind of automatic gauge glass tempering furnace.

The utility model specifically uses following technical scheme to achieve the goals above:

A kind of automatic gauge glass tempering furnace, including heating furnace, cooling furnace and conveyer, conveyer successively pass across heating Furnace and cooling furnace, cooling furnace inner top and the bottom Qi Nei are provided with bidirectional reciprocating mechanism, the symmetrical cloth of Liang Ge bidirectional reciprocating mechanism It sets, conveyer is located between Liang Ge bidirectional reciprocating mechanism, and bidirectional reciprocating mechanism includes the telescoping cylinder being fixed in cooling furnace, stretches Cylinder is connected with trapezoid block, and trapezoid block two sides are provided with the guide pad being fixed on cooling furnace inner wall, and activity runs through on guide pad It is provided with horizontally disposed push rod, push rod is respectively connected with the angled-lift splits with trapezoid block cooperation close to trapezoid block one end, on push rod The compressed spring being arranged between guide pad and angled-lift splits, the push rod other end are respectively connected with cooling blower.

Further, there are two the wind deflectors for being located at conveyer upper and lower sides, wind deflector to be respectively positioned on for setting in cooling furnace Between Liang Ge bidirectional reciprocating mechanism, several uniformly distributed rectangular air outlets are offered on wind deflector.

Further, heating furnace includes upper furnace body and lower furnace body, and conveyer is between upper furnace body and lower furnace body, upper furnace body Internal two side ends are provided with driving box A, and the screw rod A arranged vertically and slide guide bar A, screw rod A are respectively arranged in two driving box A On be arranged with thread bush A, ball bearing guide bushing A, thread bush A and ball bearing guide bushing A are arranged on slide guide bar A and is respectively connected with across driving box The side the connecting rod A of A, driving box A offers the vertical through slot A with connecting rod A cooperation, is connected between two connecting rod A and is located at conveying Heating element A above machine, lower furnace body inside two side ends are provided with driving box B, are respectively arranged with vertical cloth in two driving box B It is arranged with thread bush B on the screw rod B and slide guide bar B, screw rod B set, ball bearing guide bushing B, thread bush B and rolling are arranged on slide guide bar B Pearl guide sleeve B is respectively connected with the connecting rod B across driving box B, and the side driving box B offers the vertical through slot B with connecting rod B cooperation, The heating element B being connected between two connecting rod B below conveyer.

Further, the stepper motor A at the top of upper furnace body, the bottom screw rod A are connected with by shaft coupling at the top of screw rod A It is movably connected in bottom in driving box A by ball bearing, driven wheel of differential, driven wheel of differential engagement are connected at the top of screw rod B It is connected with drive bevel gear, drive bevel gear is connected with the stepper motor B on the outside of lower furnace body, furnace body outside by rotation axis Wall is provided with the support frame for being used to support stepper motor B, and the bottom screw rod B is movably connected in bottom in driving box B by ball bearing Portion.

Further, upper furnace body and lower furnace body front are provided with the vertical sight with slide guide bar A and slide guide bar B face respectively Examine window, vertical observation window is transparent high temperature resistant material, and several uniformly distributed graduation marks from top to bottom are provided on vertical observation window.

Further, upper furnace body, lower furnace body and cooling furnace outer wall are provided with Electro-metering device, Electro-metering device electricity It is connected with console, is provided with display on console.

The beneficial effects of the utility model are as follows:

1, when glass is entered in cooling furnace by conveyer from heating furnace, Liang Ge bidirectional reciprocating mechanism drives corresponding cold But blower does horizontal reciprocating movement, and when specific works, telescoping cylinder elongation pushes trapezoid block, under the ramp effect at trapezoid block both ends Push two angled-lift splits mobile backwards simultaneously, so that push rod be made to push corresponding cooling blower backwards to movement, guide pad has push rod Steady guiding role, similarly, telescoping cylinder drive trapezoidal block reset when shrinking, and drive two angled-lift splits phases under compressed spring effect To movement, keep two cooling blowers adjacent to each other, to realize that two cooling blowers move back and forth, increases blowing region, mention High cooling effect, while only needing to can reach good cooling effect using four cooling blowers altogether, reduce use at This.

2, the wind of cooling blower blowout is converted to the wind of the uniform rule of multiply under the rectangular air outlet effect of wind deflector, makes It is more sufficiently and uniform when glass is cooling.

3, it before glass enters heating furnace, needs to adjust glass top and bottom heating temperature according to glass types, passes through rotation Screw rod A moves up and down thread bush A, moves up and down so that heating element A be driven to synchronize under the guiding role of slide guide bar, until Similarly thread bush B is moved up and down by rotary screw rod B in suitable distance between heating element A and glass top surface, Heating element B is driven to synchronize and moves up and down, until being in suitable distance between heating element B and lower glass surface, and should be away from From the distance between heating element A and glass top surface should be less than, by adjust respectively heating element A and heating element B with The distance between glass, so that the heating temperature of glass top and bottom reaches unanimity, to improve glass finished-product quality.

4, vertical observation window is convenient for the position of ball bearing guide bushing A and ball bearing guide bushing B inside directly observation, thus convenient accurate The position of corresponding heating element A and heating element B are adjusted, the setting of the graduation mark on vertical observation window improves degree of regulation.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of automatic gauge glass tempering furnace of the utility model；

Fig. 2 is a kind of surface structure schematic diagram of automatic gauge glass tempering furnace of the utility model；

Fig. 3 is the structural schematic diagram of wind deflector.

Appended drawing reference: 1- upper furnace body, 2- lower furnace body, 3- conveyer, 3.1- rack, 3.2- ceramics roller, 4- driving box A, The vertical through slot A of 4.1-, 5- screw rod A, 6- slide guide bar A, 7- thread bush A, 8- ball bearing guide bushing A, 9- connecting rod A, 10- heating element A, The vertical through slot B of 11- driving box B, 11.1-, 12- screw rod B, 13- slide guide bar B, 14- thread bush B, 15- ball bearing guide bushing B, 16- connecting rod B, 17- heating element B, 18- stepper motor A, 19- driven wheel of differential, 20- drive bevel gear, 21- stepper motor B, 22- support Frame, the vertical observation window of 23-, 24- graduation mark, 25- Electro-metering device, 26- console, 27- display, 28- cooling furnace, 29- Bidirectional reciprocating mechanism, 29.1- telescoping cylinder, 29.2- trapezoid block, 29.3- guide pad, 29.4- push rod, 29.5- angled-lift splits, 29.6- Compressed spring, 30- cooling blower, 31- wind deflector, 31.1- rectangular air outlet.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only to explain this Utility model is not used to limit the utility model, i.e., the described embodiments are only a part of the embodiments of the utility model, Instead of all the embodiments.The component of the utility model embodiment being usually described and illustrated herein in the accompanying drawings can be with each Different configurations is planted to arrange and design.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Reality based on the utility model Apply example, those skilled in the art's every other embodiment obtained without making creative work belongs to The range of the utility model protection.

It should be noted that the relational terms of term " first " and " second " or the like be used merely to an entity or Operation is distinguished with another entity or operation, and without necessarily requiring or implying between these entities or operation, there are any This actual relationship or sequence.Moreover, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that include a series of elements process, method, article or equipment not only include those elements, but also Further include other elements that are not explicitly listed, or further include for this process, method, article or equipment it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including described There is also other identical elements in the process, method, article or equipment of element.

The feature of the utility model and performance are described in further detail with reference to embodiments.

Embodiment 1

As shown in Fig. 1 to 2, the present embodiment provides a kind of automatic gauge glass tempering furnaces, including heating furnace, 28 and of cooling furnace Conveyer 3, conveyer 3 successively pass across heating furnace and cooling furnace 28, and 28 inner top of cooling furnace and the bottom Qi Nei are provided with double To reciprocator 29, Liang Ge bidirectional reciprocating mechanism 29 is arranged symmetrically, and conveyer 3 is located between Liang Ge bidirectional reciprocating mechanism 29, double It include the telescoping cylinder 29.1 being fixed in cooling furnace 28 to reciprocator 29, telescoping cylinder 29.1 is connected with trapezoid block 29.2, trapezoidal 29.2 two sides of block are provided with the guide pad 29.3 being fixed on 28 inner wall of cooling furnace, and activity is provided through on guide pad 29.3 Horizontally disposed push rod 29.4, push rod 29.4 are respectively connected with the angled-lift splits cooperated with trapezoid block 29.2 close to 29.2 one end of trapezoid block 29.5, the compressed spring 29.6 being arranged on push rod 29.4 between guide pad 29.3 and angled-lift splits 29.5, push rod 29.4 The other end is respectively connected with cooling blower 30.

In the present embodiment, when glass is entered in cooling furnace by conveyer from heating furnace, Liang Ge bidirectional reciprocating mechanism band It moves corresponding cooling blower and does horizontal reciprocating movement, when specific works, telescoping cylinder elongation pushes trapezoid block, at trapezoid block both ends Push two angled-lift splits mobile backwards simultaneously under ramp effect, so that push rod be made to push corresponding cooling blower backwards to movement, guiding Block has steady guiding role to push rod, and similarly, telescoping cylinder drives trapezoidal block reset when shrinking, and drives two under compressed spring effect A angled-lift splits move towards, and keep two cooling blowers adjacent to each other, to realize that two cooling blowers move back and forth, increase and blow Wind region improves cooling effect, while only needing to can reach good cooling effect using four cooling blowers altogether, dropped Low use cost.

Embodiment 2

As shown in figs. 1 and 3, the present embodiment is to be further optimized on the basis of embodiment 1, specifically, cooling furnace There are two the wind deflectors 31 for being located at 3 upper and lower sides of conveyer, wind deflector 31 to be respectively positioned on Liang Ge bidirectional reciprocating mechanism for setting in 28 Between 29, several uniformly distributed rectangular air outlets 31.1 are offered on wind deflector 31.

In the present embodiment, the wind of cooling blower blowout is converted to multiply under the rectangular air outlet effect of wind deflector and uniformly advises Wind then, it is more sufficiently and uniform when keeping glass cooling.

Embodiment 3

As shown in Fig. 1 to 2, the present embodiment is to be further optimized on the basis of embodiment 1, specifically, heating furnace Including upper furnace body 1 and lower furnace body 2, between upper furnace body 1 and lower furnace body 2,1 inside two side ends of upper furnace body are respectively provided with conveyer 3 There is driving box A4, the screw rod A5 arranged vertically is respectively arranged in two driving box A4 and is arranged with spiral shell on slide guide bar A6, screw rod A5 Line covers A7, is arranged with ball bearing guide bushing A8, thread bush A7 and ball bearing guide bushing A8 on slide guide bar A6 and is respectively connected with across driving box A4's The side connecting rod A9, driving box A4 offers the vertical through slot A4.1 with connecting rod A9 cooperation, is connected with and is located between two connecting rod A9 The heating element A10 of 3 top of conveyer, 2 inside two side ends of lower furnace body are provided with driving box B11, difference in two driving box B11 It is provided with the screw rod B12 arranged vertically and is arranged with thread bush B14 on slide guide bar B13, screw rod B12, be arranged on slide guide bar B13 Ball bearing guide bushing B15, thread bush B14 and ball bearing guide bushing B15 are respectively connected with the connecting rod B16 across driving box B11, the side driving box B11 End offers the vertical through slot B11.1 with connecting rod B16 cooperation, and adding positioned at 3 lower section of conveyer is connected between two connecting rod B16 The stepper motor A18 positioned at 1 top of upper furnace body is connected with by shaft coupling at the top of thermal part B17, screw rod A5, the bottom screw rod A5 is logical It crosses ball bearing and is movably connected in bottom in driving box A4, be connected with driven wheel of differential 19, driven wheel of differential 19 at the top of screw rod B12 Engagement is connected with drive bevel gear 20, and drive bevel gear 20 is connected with the stepper motor positioned at 2 outside of lower furnace body by rotation axis B21, furnace body lateral wall are provided with the support frame 22 for being used to support stepper motor B21, and the bottom screw rod B12 passes through ball bearing activity It is connected to bottom in driving box B11.

In the present embodiment, before glass enters heating furnace, need to adjust glass top and bottom heating temperature according to glass types, Screw rod A rotation is driven by stepper motor A, so that thread bush A be made to move up and down, drives heating element A in the guiding of slide guide bar It synchronizes and moves up and down under effect, similarly pass through stepping until being in suitable distance between heating element A and glass top surface Motor B drives screw rod B rotation, so that thread bush B be made to move up and down, drives heating element B to synchronize and moves up and down, until heating part Suitable distance is between part B and lower glass surface, and the distance should be less than between heating element A and glass top surface Distance, by adjusting heating element A and the distance between heating element B and glass respectively, so that the heated temperature of glass top and bottom Degree reaches unanimity, to improve glass finished-product quality.

Embodiment 4

As shown in Fig. 1 to 2, the present embodiment is further optimized on the basis of embodiment 3, specifically, upper furnace body 1 The vertical observation window 23 with slide guide bar A6 and slide guide bar B13 face respectively, vertical observation window 23 are provided with 2 front of lower furnace body For transparent high temperature resistant material, several uniformly distributed graduation marks 24 from top to bottom are provided on vertical observation window 23.

In the present embodiment, vertical observation window is convenient for the position of ball bearing guide bushing A and ball bearing guide bushing B inside directly observation, from And convenient accurate adjusting corresponds to the position of heating element A and heating element B, the setting of the graduation mark on vertical observation window improves Degree of regulation.

Embodiment 5

As shown in Fig. 1 to 2, the present embodiment is further optimized on the basis of embodiment 3, specifically, upper furnace body 1, lower furnace body 2 and 28 outer wall of cooling furnace are provided with Electro-metering device 25, and Electro-metering device 25 is electrically connected with console 26, Display 27 is provided on console 26.

In the present embodiment, console can receive the signal that all Electro-metering devices issue, and be shown by display Carry out electricity consumption, convenient for directly observing.

The above, the only preferred embodiment of the utility model, are not intended to limit the utility model, the utility model Scope of patent protection be subject to claims, it is equivalent made by all specifications and accompanying drawing content with the utility model Structure change similarly should be included in the protection scope of the utility model.

Claims (6)

1. a kind of automatic gauge glass tempering furnace, including heating furnace, cooling furnace (28) and conveyer (3), conveyer (3) is successively horizontal Across heating furnace and cooling furnace (28), which is characterized in that cooling furnace (28) inner top and the bottom Qi Nei are provided with bidirectional reciprocating Mechanism (29), Liang Ge bidirectional reciprocating mechanism (29) are arranged symmetrically, and conveyer (3) is located between Liang Ge bidirectional reciprocating mechanism (29), Bidirectional reciprocating mechanism (29) includes the telescoping cylinder (29.1) being fixed on cooling furnace (28), and telescoping cylinder (29.1) is connected with trapezoid block (29.2), trapezoid block (29.2) two sides are provided with the guide pad (29.3) being fixed on cooling furnace (28) inner wall, guide pad (29.3) equal activity is provided through horizontally disposed push rod (29.4) on, and push rod (29.4) is equal close to trapezoid block (29.2) one end Be connected with the angled-lift splits (29.5) with trapezoid block (29.2) cooperation, be arranged on push rod (29.4) positioned at guide pad (29.3) and Compressed spring (29.6) between angled-lift splits (29.5), push rod (29.4) other end are respectively connected with cooling blower (30).

2. a kind of automatic gauge glass tempering furnace according to claim 1, which is characterized in that be provided in cooling furnace (28) Two are located at the wind deflector (31) of conveyer (3) upper and lower sides, and wind deflector (31) is respectively positioned on Liang Ge bidirectional reciprocating mechanism (29) Between, several uniformly distributed rectangular air outlets (31.1) are offered on wind deflector (31).

3. a kind of automatic gauge glass tempering furnace according to claim 1, which is characterized in that heating furnace includes upper furnace body (1) it is located between upper furnace body (1) and lower furnace body (2) with lower furnace body (2), conveyer (3), the internal two side ends of upper furnace body (1) are all provided with It is equipped with driving box A (4), is respectively arranged with the screw rod A (5) and slide guide bar A (6), screw rod A arranged vertically in two driving box A (4) (5) it is arranged with thread bush A (7), is arranged on slide guide bar A (6) ball bearing guide bushing A (8) on, thread bush A (7) and ball bearing guide bushing A (8) It is respectively connected with the connecting rod A (9) across driving box A (4), driving box A (4) side offers vertical logical with connecting rod A (9) cooperation The heating element A (10) being connected between slot A (4.1), two connecting rod A (9) above conveyer (3), lower furnace body (2) internal two Side is provided with driving box B (11), is respectively arranged with the screw rod B (12) and slide guide bar B arranged vertically in two driving box B (11) (13), it is arranged with thread bush B (14) on screw rod B (12), ball bearing guide bushing B (15), thread bush B is arranged on slide guide bar B (13) (14) and ball bearing guide bushing B (15) is respectively connected with the connecting rod B (16) across driving box B (11), and driving box B (11) side offers With the vertical through slot B (11.1) of connecting rod B (16) cooperation, the heating being connected between two connecting rod B (16) below conveyer (3) Part B (17).

4. a kind of automatic gauge glass tempering furnace according to claim 3, which is characterized in that pass through connection at the top of screw rod A (5) Axis device is connected with the stepper motor A (18) at the top of upper furnace body (1), and screw rod A (5) bottom is movably connected in by ball bearing Driving box A (4) interior bottom, the top screw rod B (12) are connected with driven wheel of differential (19), and driven wheel of differential (19) engagement is connected with master Dynamic bevel gear (20), drive bevel gear (20) are connected with the stepper motor B (21) on the outside of lower furnace body (2) by rotation axis, Furnace body lateral wall is provided with the support frame (22) for being used to support (21) stepper motor B, and (12) bottom screw rod B is living by ball bearing It is dynamic to be connected to driving box B (11) interior bottom.

5. a kind of automatic gauge glass tempering furnace according to claim 3, which is characterized in that upper furnace body (1) and lower furnace body (2) front is provided with the vertical observation window (23) with slide guide bar A (6) and slide guide bar B (13) face respectively, vertical observation window (23) it is transparent high temperature resistant material, several uniformly distributed graduation marks (24) from top to bottom is provided on vertical observation window (23).

6. a kind of automatic gauge glass tempering furnace according to claim 5, which is characterized in that upper furnace body (1), lower furnace body (2) it is provided with Electro-metering device (25) with cooling furnace (28) outer wall, Electro-metering device (25) is electrically connected with console (26), display (27) are provided on console (26).