CN203613112U - Discharging machine for foam glass foaming kiln - Google Patents

Abstract

The utility model discloses a discharging machine for a foam glass foaming kiln. The machine comprises a mold splitting mechanism, a steering conveying mechanism, a single mold conveying mechanism, a positioning mechanism and a control mechanism, wherein the mold splitting mechanism comprises a plurality of mold splitting roller tables and a variable frequency motor; the steering conveying mechanism comprises a transverse sliding rail, a lifting mechanism, a guiding rail and a transmission mechanism; the single mold conveying mechanism comprises a transverse conveying roller table and a driving motor; the positioning mechanism comprises mold splitting positioning probes, lifting positioning probes and a falling positioning probe; and the control mechanism receives feedback signals of the positioning mechanism and controls the working state of the variable frequency motor and rising or falling of the lifting mechanism respectively. According to the discharging machine, multiple rows of mold boxes discharged out of the foaming kiln can be quickly changed into a single row of mold boxes to be conveyed to the mold splitting roller tables for successive mold splitting, phenomena that mold splitting is difficult to realize and foam glass produces the stress difficult to relieve or cracks directly are prevented, and production automation is realized.

Description

A kind of kiln discharge machine for foamed glass foaming kiln

Technical field

The utility model relates to a kind of kiln discharge machine that is applicable to the large output multicellular glass of modernization production line foaming kiln.

Background technology

Multicellular glass is a kind of take waste plate glass and container glass as raw material, through the porous, inorganic non-metallic material of high temperature foaming, having fire prevention, waterproof, nontoxic, corrosion-resistant, mothproof, not aging, "dead", insulation, anti-magnetic wave, anti-electrostatic, characteristic that physical strength is high, good with all kinds of mud cohesiveness, is a kind of external wall of stable performance and roof insulation, sound insulation, water-proof material.

Multicellular glass can also apply to the heat insulating work of flue, kiln and freezer; heat insulation, the waterproof of various gas, liquid, oily transport pipe, FPE; the various places that need sound insulation, heat insulation device such as subway, Library, office building, theatre, movie theatre; the isolation of infrastructure construction, insulation works; the multiple fields such as leakproof, mothproof engineering of rivers and canals, guardrail, dykes and dams; even also there is the function for household cleaning, health care; adopt multicellular glass protection heating conveying tube road compared with traditional protection material, can reduce thermal losses approximately 25%.The use range of multicellular glass is wide, and energy-conservation obvious with economical effectiveness, extremely common people pay close attention to, and multicellular glass industry is flourish as emerged rapidly in large numbersBamboo shoots after a spring rain.

Multicellular glass industry competition fierceness, its production unit has started to develop to maximizing, and pushed bat kiln and single roller kiln are progressively eliminated, and use more and more foaming kiln.Foaming kiln adopts initiatively roller transmission multicellular glass diaphragm capsule, normally several piece diaphragm capsule moves side by side, running is fast, section is wide, output is large, multicellular glass is wanted the rapid demoulding transfer in annealing furnace and anneal from foaming kiln out, the contraction of overlong time diaphragm capsule can cause demoulding difficulty, and multicellular glass rapid cooling produces stress to be difficult to eliminate, or directly ftracture, thereby can not several piece diaphragm capsule kiln discharge simultaneously, the successively demoulding when demoulding, when diaphragm capsule kiln discharge, number row diaphragm capsule must be transformed into single diaphragm capsule and be transported to demoulding roller platform, therefore, in order to adapt to this large output automatic production, be necessary to study and a kind ofly can be rapidly will be transformed into single diaphragm capsule from foaming kiln number row diaphragm capsules out and be transported to the device of demoulding roller platform.

Utility model content

The purpose of this utility model is the problem of mentioning in above-mentioned background technology in order to solve, a kind of kiln discharge machine for foamed glass foaming kiln is provided, this kiln discharge machine can be rapidly transported to demoulding roller platform and carries out the successively demoulding be transformed into single diaphragm capsule from foaming kiln number row diaphragm capsules out, prevent that demoulding difficulty and multicellular glass from producing stress and being difficult to the situation of eliminating or directly ftractureing, realize the production automation.

To achieve these goals, the technical solution of the utility model is as follows:

A kind of kiln discharge machine for foamed glass foaming kiln, comprise parting mechanism, steering conveyor structure, single mode transfer mechanism, locating mechanism, and controlling organization, described parting mechanism comprises several the parting roller platforms that are longitudinally arranged side by side, and be installed on the variable-frequency motor of described parting roller platform below, described steering conveyor structure comprises the horizontal slide rail of being located at described parting mechanism end, be located at respectively described horizontal slide rail both sides the hoisting appliance between described horizontal slide rail and described parting mechanism, be located at the guided way of described horizontal slide rail below, and be located at the transmission rig at described horizontal slide rail two, described hoisting appliance below is provided with controls the positive and negative motor that described hoisting appliance rises or declines, described single mode transfer mechanism comprises the defeated roller platform of horizontal stroke that is horizontally set at described parting mechanism one side, and be installed on the drive-motor of the defeated roller platform of described horizontal stroke below, described locating mechanism comprises parting positioning probe, promote positioning probe, and decline positioning probe, described parting mechanism end is vertical with described single mode transfer mechanism, described controlling organization receives the feedback signal of described parting positioning probe and described lifting positioning probe and controls the working order of described variable-frequency motor, described controlling organization receives the feedback signal of described lifting positioning probe and described decline positioning probe and controls the working order of the positive and negative motor of described horizontal slide rail both sides simultaneously.

Further; the throughput direction of described parting mechanism is perpendicular to the throughput direction of described steering conveyor structure; the throughput direction of described steering conveyor structure is identical with the throughput direction of described single mode transfer mechanism; on the defeated roller platform of described parting roller platform and described horizontal stroke, be provided with the roller-way being formed by some conveying rollers, described conveying roller parallel arrangement and interval arrange.

Further, the length of the conveying roller of described parting roller platform is more than or equal to the diaphragm capsule that will the carry length along described parting roller platform width, and the length of the conveying roller of the defeated roller platform of described horizontal stroke is more than or equal to the diaphragm capsule that will the carry length along the defeated roller platform of described horizontal stroke width.

Further, described parting positioning probe is located at described parting roller platform front end and is positioned at described parting roller platform plane below, described lifting positioning probe is located between described horizontal slide rail and described parting roller platform rear end and is positioned at described parting roller platform plane below, and described decline positioning probe is located at described horizontal stroke defeated roller platform front end and is positioned at the defeated roller platform of described horizontal stroke plane below.

Further, described parting positioning probe, lifting positioning probe and the equal correspondence of decline positioning probe are arranged on the position between described conveying roller.

Further, described horizontal slide rail is arranged on the position between described conveying roller.

Further, the defeated chain of horizontal stroke that described horizontal slide rail comprises two parallel arrangements, described guided way comprises the tail rod of two parallel arrangements, the defeated chain of described horizontal stroke is parallel with described tail rod, described transmission rig comprises transmission shaft vertical with described two tail rods and that be flexibly connected and is located at respectively described transmission shaft two ends the driving chain wheel that drives the defeated chain operation of described horizontal stroke, the driving motor that is provided with transmitting gear and is in transmission connection with described transmitting gear in the middle of the described transmission shaft near horizontal defeated roller platform.

Further, described hoisting appliance comprises the bracing frame of being located at respectively the holder bar of the defeated chain of described two horizontal strokes below, be fixedly connected with described two holder bars and the elevating screw being fixedly connected with support frame as described above middle part, and described elevating screw is connected with described positive and negative motor-driven.

Further, support frame as described above is the setting of " U " word shape.

Compared with prior art, the beneficial effects of the utility model are as follows: the kiln discharge machine for foamed glass foaming kiln that the utility model provides can be rapidly transported to demoulding roller platform and carries out the successively demoulding be transformed into single diaphragm capsule from foaming kiln number row diaphragm capsules out, prevent that the stress that demoulding difficulty and multicellular glass produce is difficult to the situation such as elimination or direct cracking, realizes the production automation.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

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

Fig. 2 is the working state figure of horizontal defeated chain in the utility model.

Fig. 3 is the holding state figure of horizontal defeated chain in the utility model.

Reference numeral: 1-parting roller platform, 2-diaphragm capsule, 3-conveying roller, 4-parting positioning probe, the horizontal defeated chain of 5-, 6-tail rod, 7-transmission shaft, 8-driving chain wheel, 9-promotes positioning probe, 10-transmitting gear, 11-decline positioning probe, the horizontal defeated roller platform of 12-, 13-variable-frequency motor, 14-holds in the palm bar, 15-bracing frame, 16-elevating screw, the positive and negative motor of 17-, 18-controlling organization.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

With reference to Fig. 1, Fig. 2, Fig. 3 is known, and a kind of kiln discharge machine for foamed glass foaming kiln, comprises parting mechanism, steering conveyor structure, single mode transfer mechanism, locating mechanism, and controlling organization, parting mechanism comprises several the parting roller platforms 1 that are longitudinally arranged side by side, and being installed on the variable-frequency motor 13 of parting roller platform 1 below, steering conveyor structure comprises the horizontal slide rail of being located at parting mechanism end, be located at respectively horizontal slide rail both sides the hoisting appliance between horizontal slide rail and parting mechanism, be located at the guided way of horizontal slide rail below, and be located at the transmission rig at horizontal slide rail two, and hoisting appliance below is provided with controls the positive and negative motor 17 that hoisting appliance rises or declines, and single mode transfer mechanism comprises the defeated roller platform 12 of horizontal stroke that is horizontally set at parting mechanism one side, and being installed on the drive-motor of horizontal defeated roller platform 12 belows, locating mechanism comprises parting positioning probe 4, promote positioning probe 9, and decline positioning probe 11, parting mechanism end is vertical with single mode transfer mechanism, controlling organization receives the feedback signal of parting positioning probe 4 and lifting positioning probe 9 and controls the working order of variable-frequency motor 13, and controlling organization receives the feedback signal that promotes positioning probe 9 and decline positioning probe 11 working order of simultaneously controlling the positive and negative motor 17 of horizontal slide rail both sides.

In the present embodiment; the throughput direction of parting mechanism is perpendicular to the throughput direction of steering conveyor structure; the throughput direction of steering conveyor structure is identical with the throughput direction of single mode transfer mechanism; on parting roller platform 1 and horizontal defeated roller platform 12, be provided with the roller-way being formed by some conveying rollers 3, conveying roller 3 parallel arrangements and interval arrange.

In the present embodiment, the length of the conveying roller 3 of parting roller platform 1 is more than or equal to the diaphragm capsule 2 that will the carry length along parting roller platform 1 width, the length of the conveying roller 3 of horizontal defeated roller platform 12 is more than or equal to the diaphragm capsule 2 that will the carry length along horizontal defeated roller platform 12 widths, when conveying mould box 2, diaphragm capsule 2 enters horizontal defeated roller platform 12 after parting roller platform 1.

In the present embodiment, parting positioning probe 4 is located at parting roller platform 1 front end and is positioned at parting roller platform 1 plane below, promoting positioning probe 9 is located between horizontal slide rail and parting roller platform 1 rear end and is positioned at parting roller platform 1 plane below, decline positioning probe 11 is located at horizontal defeated roller platform 12 front ends and is positioned at horizontal defeated roller platform 12 plane belows, and parting positioning probe 4, lifting positioning probe 9 and the equal correspondence of decline positioning probe 11 are arranged on the position between conveying roller 3.

In the present embodiment, laterally slide rail is arranged on the position between conveying roller 3, laterally the throughput direction of slide rail is identical with the throughput direction of single mode transfer mechanism, laterally slide rail comprises the defeated chain 5 of horizontal stroke of two parallel arrangements, guided way comprises the tail rod 6 of two parallel arrangements, horizontal defeated chain 5 is parallel with tail rod 6, transmission rig comprises transmission shaft 7 vertical with two tail rods 6 and that be flexibly connected and is located at respectively the driving chain wheel 8 that transmission shaft 7 two ends drive horizontal defeated chains 5 to turn round, the driving motor that is provided with transmitting gear 10 and is in transmission connection with transmitting gear 10 in the middle of transmission shaft 7 near horizontal defeated roller platform 12.

In the present embodiment, hoisting appliance comprises the bracing frame 15 of being located at respectively the holder bar 14 of two the defeated chain of horizontal stroke 5 belows, be fixedly connected with two holder bars 14 and the elevating screw 16 being fixedly connected with bracing frame 15 middle parts, elevating screw 16 is in transmission connection with positive and negative motor 17, and bracing frame 15 is the setting of " U " word shape.

Specific works principle is as follows:

In kiln, there are a few row's diaphragm capsules 2 just to have several parting roller platforms 1, be illustrated in figure 1 the situation that has three row's diaphragm capsules 2 in kiln, every parting roller platform 1 is driven by independent variable-frequency motor 13, under holding state, variable-frequency motor 13 is in low frequency operation state, the transfer rate of parting roller platform 1 is with the transfer rate of roller-way in kiln, can realize in kiln and carrying and the outer steady handing-over of carrying of kiln, wear prevention diaphragm capsule 2 and conveying roller 3, in the time that parting positioning probe 4 position is arrived in diaphragm capsule 2 walkings, signal is sent to controlling organization 18 by parting positioning probe 4, variable-frequency motor 13 is switched to high-frequency work state by controlling organization 18, drive parting roller platform 1 to run up, promptly diaphragm capsule 2 is transported to horizontal slide rail top, the rotating speed of variable-frequency motor 13 can be by regulating frequency transformer to regulate to adapt to different kiln discharge speed.

Laterally slide rail comprises the defeated chain 5 of horizontal stroke of two parallel arrangements, horizontal defeated chain 5 is made by heat-resistant steel chain, Wear-resistant, high-temperature resistant, guided way comprises the tail rod 6 of two parallel arrangements, horizontal defeated chain 5 is parallel with tail rod 6, transmission rig comprises transmission shaft 7 vertical with two tail rods 6 and that be flexibly connected and is located at respectively the driving chain wheel 8 that transmission shaft 7 two ends drive horizontal defeated chains 5 to turn round, the driving motor that is provided with transmitting gear 10 and is in transmission connection with transmitting gear 10 in the middle of transmission shaft 7 near horizontal defeated roller platform 12, article two, the defeated chain 5 of horizontal stroke adopts the transmission rig guiding transmission at guided way and two the defeated chain of horizontal stroke 5 two, driving motor band nutating gear 10 turns round, transmitting gear 10 drives transmission shaft 7 to rotate, thereby drive the driving chain wheel 8 being serially connected with near on the transmission shaft 7 of horizontal defeated roller platform 12 to rotate, drive again the driving chain wheel 8 on opposite side transmission shaft 7 to rotate, and then drive two defeated chains 5 of horizontal stroke to rotate, power is provided to two defeated chains 5 of horizontal stroke.

Laterally slide rail both sides are respectively provided with a hoisting appliance, hoisting appliance comprises the holder bar 14 of being located at respectively two the defeated chain of horizontal stroke 5 belows, the bracing frame 15 being fixedly connected with two holder bars 14, and the elevating screw 16 being fixedly connected with bracing frame 15 middle parts, elevating screw 16 is in transmission connection with positive and negative motor 17, two holder bars 14 form entirety by bracing frame 15 and are movable, positive and negative motor 17 is controlled elevating screw 16 and is risen or decline, two positive and negative motors 17 are accepted same signal and are done same action simultaneously, under holding state, positive and negative motor 17 is in opposite state, article two, the defeated chain 5 of horizontal stroke is hidden in parting roller platform 1 plane below, in the time that diaphragm capsule 2 arrives two the defeated chain of horizontal stroke 5 tops, signal is sent to controlling organization 18 by the lifting positioning probe 9 of parting roller platform 1 below, variable-frequency motor 13 is switched to low frequency operation state by controlling organization 18, parting roller platform 1 returns to holding state, positive and negative motor 17 is adjusted to positive status simultaneously, hoisting appliance rises, article two, the defeated chain 5 of horizontal stroke projects into parting roller platform 1 plane top, diaphragm capsule 2 is lifted and is transported on horizontal defeated roller platform 12, as shown in Figure 2.

In the time that diaphragm capsule 2 arrives on horizontal defeated roller platform 12, by decline positioning probe 11 perception of horizontal defeated roller platform 12 belows and send a signal to controlling organization 18, negative state adjusted to by positive and negative motor 17 by controlling organization 18, hoisting appliance declines, article two, the defeated chain 5 of horizontal stroke falls back to parting roller platform 1 plane below, enter holding state, as shown in Figure 3, the horizontal defeated roller platform 12 of 2 quilts of diaphragm capsule is transported to rapidly demoulding roller platform.

Pass through the utility model, when diaphragm capsule 2 kiln discharge, can be transported on two defeated chains 5 of horizontal stroke by independent parting roller platform 1, the speed of parting roller platform 1 in the time of holding state is carried in kiln, can realize in kiln and carrying and the outer steady handing-over of carrying of kiln, wear prevention diaphragm capsule 2 and conveying roller 3, in the time that parting probe positions 4 is arrived in diaphragm capsule 2 walkings, parting roller platform 1 is switched to fast state, promptly diaphragm capsule 2 is transported on two defeated chains 5 of horizontal stroke, be transformed into single diaphragm capsule 2 from number row diaphragm capsules 2 out in kiln and be transported to horizontal defeated roller platform 12, and then be transported to successively demoulding roller platform and carry out the successively demoulding, now, hoisting appliance declines, article two, the defeated chain 5 of horizontal stroke falls back to parting roller platform 1 plane below, wait for that next row diaphragm capsule 2 arrives.

Horizontal defeated chain 5 is hidden in below parting roller platform 1 plane in the time of holding state, promote positioning probe 11 and be located at horizontal defeated chain 5 sides, in the time that diaphragm capsule 2 arrives horizontal defeated chain 5 position, horizontal defeated chain 5 can be lifted to parting roller platform 1 plane top, thereby by the defeated chain 5 of horizontal stroke, diaphragm capsule 2 is transported to horizontal defeated roller platform 12, diaphragm capsule 2 is transported to demoulding roller platform by horizontal defeated roller platform 12, for preventing mechanical fault, horizontal defeated chain 5 and horizontal defeated roller platform 12 turn round in fixed speed always, and horizontal defeated chain 5 is identical with the transfer rate of horizontal defeated roller platform 12, thereby wear prevention diaphragm capsule 2, can reduce cost and effectively prevent mechanical fault, and the speed of horizontal defeated chain 5 and horizontal defeated roller platform 12 is all much larger than the speed of carrying in kiln, in actual production, for preventing diaphragm capsule 2 sideslips, can increase liner.

The utility model can be rapidly transformed into single diaphragm capsule 2 by number row diaphragm capsules 2 out from foaming kiln and be transported to demoulding roller platform and carries out the successively demoulding, prevent that the stress that demoulding difficulty and multicellular glass produce is difficult to the situation such as elimination or direct cracking, realize the successively kiln discharge of diaphragm capsule 2, and carry and go the demoulding timely, manpower and materials are saved, improve production efficiency, safe and reliable, realize the production automation.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any modification of doing, be equal to replacement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. the kiln discharge machine for foamed glass foaming kiln, it is characterized in that, comprise parting mechanism, steering conveyor structure, single mode transfer mechanism, locating mechanism, and controlling organization, described parting mechanism comprises several the parting roller platforms that are longitudinally arranged side by side, and be installed on the variable-frequency motor of described parting roller platform below, described steering conveyor structure comprises the horizontal slide rail of being located at described parting mechanism end, be located at respectively described horizontal slide rail both sides the hoisting appliance between described horizontal slide rail and described parting mechanism, be located at the guided way of described horizontal slide rail below, and be located at the transmission rig at described horizontal slide rail two, described hoisting appliance below is provided with controls the positive and negative motor that described hoisting appliance rises or declines, described single mode transfer mechanism comprises the defeated roller platform of horizontal stroke that is horizontally set at described parting mechanism one side, and be installed on the drive-motor of the defeated roller platform of described horizontal stroke below, described locating mechanism comprises parting positioning probe, promote positioning probe, and decline positioning probe, described parting mechanism end is vertical with described single mode transfer mechanism, described controlling organization receives the feedback signal of described parting positioning probe and described lifting positioning probe and controls the working order of described variable-frequency motor, described controlling organization receives the feedback signal of described lifting positioning probe and described decline positioning probe and controls the working order of the positive and negative motor of described horizontal slide rail both sides simultaneously.

2. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 1; it is characterized in that; the throughput direction of described parting mechanism is perpendicular to the throughput direction of described steering conveyor structure; the throughput direction of described steering conveyor structure is identical with the throughput direction of described single mode transfer mechanism; on the defeated roller platform of described parting roller platform and described horizontal stroke, be provided with the roller-way being formed by some conveying rollers, described conveying roller parallel arrangement and interval arrange.

3. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 2, it is characterized in that, the length of the conveying roller of described parting roller platform is more than or equal to the diaphragm capsule that will the carry length along described parting roller platform width, and the length of the conveying roller of the defeated roller platform of described horizontal stroke is more than or equal to the diaphragm capsule that will the carry length along the defeated roller platform of described horizontal stroke width.

4. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 3, it is characterized in that, described parting positioning probe is located at described parting roller platform front end and is positioned at described parting roller platform plane below, described lifting positioning probe is located between described horizontal slide rail and described parting roller platform rear end and is positioned at described parting roller platform plane below, and described decline positioning probe is located at described horizontal stroke defeated roller platform front end and is positioned at the defeated roller platform of described horizontal stroke plane below.

5. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 4, is characterized in that, described parting positioning probe, lifting positioning probe and the equal correspondence of decline positioning probe are arranged on the position between described conveying roller.

6. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 5, is characterized in that, described horizontal slide rail is arranged on the position between described conveying roller.

7. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 1, it is characterized in that, the defeated chain of horizontal stroke that described horizontal slide rail comprises two parallel arrangements, described guided way comprises the tail rod of two parallel arrangements, the defeated chain of described horizontal stroke is parallel with described tail rod, described transmission rig comprises transmission shaft vertical with described two tail rods and that be flexibly connected and is located at respectively described transmission shaft two ends the driving chain wheel that drives the defeated chain operation of described horizontal stroke, the driving motor that is provided with transmitting gear and is in transmission connection with described transmitting gear in the middle of the described transmission shaft near horizontal defeated roller platform.

8. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 7, it is characterized in that, described hoisting appliance comprises the bracing frame of being located at respectively the holder bar of the defeated chain of described two horizontal strokes below, be fixedly connected with described two holder bars and the elevating screw being fixedly connected with support frame as described above middle part, and described elevating screw is connected with described positive and negative motor-driven.

9. a kind of kiln discharge machine for foamed glass foaming kiln as claimed in claim 8, is characterized in that, support frame as described above is the setting of " U " word shape.

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