CN207749043U - A kind of heat-bending glass processing charging deaerating plant - Google Patents

Abstract

The utility model is related to glass processing device fields, and charging deaerating plant is processed more particularly, to a kind of heat-bending glass.Including material guide mechanism, deoxygenation cabin, feeding warehouse, the first pusher and the second pusher；Material guide mechanism is set to feed bin side, deoxygenation cabin is set to above material guide mechanism and deoxygenation cabin is slided up and down along feed bin side, first pusher is set in deoxygenation cabin, second pusher is set in feed bin and the second pusher is arranged in a mutually vertical manner with the first pusher, and feed bin side is equipped with the first hatch door with the intercommunication of deoxygenation cabin.Deoxyprocess can be carried out to glass during charging, and feed deoxygenation high degree of automation, production efficiency can be improved and improve product quality.

Description

A kind of heat-bending glass processing charging deaerating plant

Technical field

The utility model is related to glass processing device fields, and charging deoxygenation is processed more particularly, to a kind of heat-bending glass Device.

Background technology

The great demand that human society transmits information pushes the communication technology constantly to advance.It is current universal in the industry Common recognition be to the year two thousand twenty or so 5G communication eras at hand, had been started up the research and development cloth about 5G communication systems both at home and abroad Office.It supports IMT-2020 (5G) the propulsion group set up jointly by Ministry of Industry and Information, State Development and Reform Commission, the Department of Science and Technology, creates 5G and promote work The platform of work, and each side of positive tissue country strength, international cooperation is actively developed, greatly advance the hair of 5G international standards Exhibition.The year two thousand twenty or so is expected, mobile communication data will show the growth of the order of magnitude.Mobile phone is also required to toward compatible 5G networks Trend development, but existing handset sheathing material generally use metal, such shell influence whether the transmission of 5G networks, Therefore it needs using glass material as sheathing material.

Existing glass bending processing and forming is so that Glass Transition is deformed by heating by formed, and common processing is set It is standby that its processing technology is generally realized by molding die and heating furnace R. concomitans, but existing glass processing generally will not be to it Deoxygenation processing is carried out, and feeds and blowing operation is generally carried out using human hand one by one, causes the finished product processed bubble occur, leads Cause product surface flatness inadequate, light transmittance is poor, and low production efficiency in the prior art, the degree of automation are low.

Utility model content

The utility model is at least one defect overcome described in the above-mentioned prior art, provide a kind of heat-bending glass process into Expect deaerating plant, deoxyprocess can be carried out to glass during charging, and feed deoxygenation high degree of automation, Neng Gouti High efficiency and raising product quality.

In order to solve the above technical problems, the technical solution adopted in the utility model is：A kind of processing charging of heat-bending glass removes Oxygen device, including material guide mechanism, deoxygenation cabin, feeding warehouse, the first pusher and the second pusher；

The material guide mechanism is set to feed bin side, and the deoxygenation cabin is set to above material guide mechanism and deoxygenation cabin is along material Storehouse side slides up and down, first pusher be set to deoxygenation cabin in, second pusher be set to feed bin in and Second pusher is arranged in a mutually vertical manner with the first pusher, and the feed bin side is equipped with the first cabin with the intercommunication of deoxygenation cabin Door.

Glass material to be processed is loaded in mold, and material guide mechanism transports mold to below deoxygenation cabin, deoxygenation cabin to Lower slider covers on mold in deoxygenation cabin, at this point, the first hatch door is in off state, to being passed through nitrogen in deoxygenation cabin, deoxygenation at this time Oxygen in cabin is discharged by the gap between deoxygenation cabin and material guide mechanism, is continually fed into nitrogen, opens the first hatch door, first pushes away Mold in deoxygenation cabin is forced through the first hatch door to feed bin by material mechanism, and the first pusher resets, and the first hatch door is closed, and is removed Oxygen cabin, which resets, to be risen, and lower task is prepared.After mold enters feed bin, mold is pushed by the second pusher, keeps mold real It now turns to transport to processing stations.

Further, first pusher includes the first pusher cylinder, the first guide rod and the first push plate, described First pusher cylinder is set to deoxygenation cabin side with the first guide rod, and first push plate is set in deoxygenation cabin and the first pusher cylinder The first push plate campaign, the first guide rod end is pushed to be connect with the first push plate.Power of first pusher cylinder as promotion, Power is transferred to the first push plate and pushes mold, and the first push plate can be by the first hatch door, therefore regulates the first pusher gas Mold just can be pushed on the suitable position in feed bin by the thrust and stroke of cylinder.The first guide rod being arranged on first pusher There are two, the first guide rod is symmetrical, steady when can keep pushing the first push plate in this way, prevents the first push plate angular displacements, leads Cause mold that cannot pass through the first hatch door.

Further, the deoxygenation cabin is controlled by lifting cylinder and is lifted, and the lifting cylinder is set on deoxygenation cabin Side, can drive deoxygenation cabin to move up and down by lifting cylinder.

Further, second pusher includes the second pusher cylinder, the second guide rod and the second push plate, described Second push plate is set in feed bin, and second pusher cylinder and the second guide rod end are connect with the second push plate.

Further, the material guide mechanism includes track base, lead material cylinder, third guide rod, driver plate and guide push plate, The track base is equipped with two symmetrical long waist shaped holes, and the lead material cylinder is set under track base, the driver plate top Across long waist shaped hole, driver plate lower part is connect with the end of lead material cylinder and third guide rod, the driver plate top and guide Push plate connects, and the lead material cylinder pushes driver plate to be slided along long waist shaped hole.Wherein, long waist shaped bore ends just reach deoxygenation On the side in cabin, mold is placed on track base, drives driver plate, driver plate to drive guide push plate along long waist shaped hole by cylinder Movement, guide push plate push mold, mold can just be pushed into deoxygenation cabin when being pushed to the end in long waist shaped hole, in this way In deoxygenation cabin during nitrogen charging deoxygenation, long waist shaped hole would not influence the opposing seal in deoxygenation cabin, deoxygenation cabin energy Enough and track base upper surface, feed bin side form the space of opposing seal, and air is just merely able to by deoxygenation cabin and track base It is discharged in surface and the contact gap of feed bin side, avoiding air from entering causes deoxygenation incomplete.

Further, the guide push plate is equipped with guide wheel, by guide wheel can reduce guide push plate and track base it Between friction, sliding friction is converted into rolling friction, can avoid be used for a long time lead to guide push plate serious wear, Neng Gouzeng The service life of growth device.

Further, further include the first door cylinder, first door cylinder controls the folding of the first hatch door.

Further, further include the second door cylinder, the discharge port position of the feed bin is equipped with the second hatch door, and described the Two hatch doors are controlled by the second door cylinder and are opened and closed.

Further, the feed bin side wall is equipped with hagioscope.It can be observed in outside by hagioscope staff Situation in feed bin debugs cylinder pressure when can facilitate early period, and can also be carried out in actual moving process in real time observe into Material process can stop operation in time when occurring unexpected.

Further, further include guide post and guide card, the guide card above deoxygenation cabin, with guide card slide by the guide post Dynamic connection can play the role of stable deoxygenation cabin by guide post and lift, and deoxygenation cabin can be kept to balance.

Compared with prior art, advantageous effect is：

1, the present apparatus, which solves, does not have the defect of deoxyprocess in existing processing technology, can improve the product of processing finished product Matter；

2, the present apparatus without human intervention, improves working efficiency, saves human cost；

3, the present apparatus can ensure that air will not be entered in subsequent transportational process after deoxygenation, can ensure well Workpieces processing carries out following process under anaerobic state；

4, the present apparatus can in real time observe charging situation, facilitate debugging and follow-up risk monitoring and control management.

Description of the drawings

Fig. 1 is the stereoscopic schematic diagram that the utility model wins side cover plate；

Fig. 2 is the front view that the utility model wins side cover plate；

Fig. 3 is the utility model entirety stereoscopic schematic diagram.

Specific implementation mode

The attached figures are only used for illustrative purposes and cannot be understood as limitating the patent；It is attached in order to more preferably illustrate the present embodiment Scheme certain components to have omission, zoom in or out, does not represent the size of actual product；To those skilled in the art, The omitting of some known structures and their instructions in the attached drawings are understandable.Being given for example only property of position relationship described in attached drawing Illustrate, should not be understood as the limitation to this patent.

Embodiment one：

Fig. 1 is please referred to, the side of feed bin 5 is equipped with track base 31, in track base 31 far from being arranged on 5 one end of feed bin The top in two long waist shaped holes 32, driver plate 35 passes through long waist shaped hole 32 and driver plate 35 can be slided along long waist shaped hole 32, and The top of driver plate 35 is equipped with guide push plate 36, the end of the lower part and lead material cylinder 33 and third guide rod 34 in long waist shaped hole 32 Connection, lead material cylinder 33 are mounted below track base 31, drive driver plate 35 to move by lead material cylinder 33,35 band of driver plate Dynamic guide push plate 36 moves.

Deoxygenation cabin 41 is mounted on track base 31 close to the side of feed bin 5 above, the bottom surface in deoxygenation cabin 41 and close feed bin 5 It is opening on one side, deoxygenation cabin 41 is tightly attached to 5 side of feed bin close to feed bin 5, the lifting air on deoxygenation cabin 41 is arranged on one side Cylinder 43 drives deoxygenation cabin 41 to move up and down close to 5 side wall of feed bin, is equipped with to evagination on four angles of 41 upper surface of deoxygenation cabin The guide card gone out, four guide posts 42 pass through guide card to keep steady in 41 lifting process of deoxygenation cabin.Wherein, 32 end of long waist shaped hole is rigid On the side for reaching deoxygenation cabin 41 well.

The first hatch door 53 is equipped on deoxygenation cabin 41 and 5 contact surface of feed bin, the first hatch door 53 is controlled by the first door cylinder 51 Its folding is made, 31 phase of following and track base of the first hatch door 53 maintains an equal level, and the height of the height and deoxygenation cabin 41 of the first hatch door 53 With it is of same size.The first push plate 13 is equipped in deoxygenation cabin 41, deoxygenation cabin 41 is equipped with the first pusher on the side far from feed bin 5 The end of cylinder 11 and the first guide rod 12, the end of the first pusher cylinder 11 and the first guide rod 12 is connect with the first push plate 13, is led to It crosses the first pusher cylinder 11 and drives the first push plate 13 movement, and keep the first push plate 13 in pushing course by the first guide rod 12 It is steady.

It is equipped with the second pusher cylinder 21 on feed bin 5, the pushing direction of the second pusher cylinder 21 and the first pusher cylinder Pushing direction is vertical, and the second pusher cylinder is mounted on the side wall of feed bin 5, and second connect with 21 end of the second pusher cylinder pushes away Plate 23 is additionally provided with steady when the second guide rod 22 keeps it to move in feed bin 5 in second push plate 23.It is released in the second push plate 23 The second hatch door 54 is provided on 5 wall of feed bin of position, the second hatch door 54 controls its folding, the second push plate 23 by the second door cylinder 52 It is driven by the second pusher cylinder 21.

The present apparatus mainly realizes charging and the deoxygenation process of glass processing, and glass to be processed is placed in a mold, mould Tool is positioned on track base 31, and mold is pushed to the lower section in deoxygenation cabin 41 by guide push plate 36, declines deoxygenation cabin 41 by mould Tool covers in deoxygenation cabin 41, and the first hatch door 53 is in off state at this time, and state is opposing seal in deoxygenation cabin 41, to deoxygenation cabin 41 It is inside passed through nitrogen, the oxygen in cabin passes through gap between 41 bottom of deoxygenation cabin and track base 31 and 41 side of deoxygenation cabin and material The gap in storehouse 5 is discharged, and remains the state that nitrogen is filled with, and controlling the first hatch door 53 by the first door cylinder 51 opens, by the One pusher cylinder 11 drives the first push plate 13, and the mold of deoxygenation in deoxygenation cabin 41 is pushed into feed bin 5 by the first hatch door 53 Interior, the position pushed is arranged according to the pressure of the first pusher cylinder 11, and mold is just pushed to the promotion of the second push plate 23 On position.When mold is pushed to suitable position, the first push plate 13 resets, and the first hatch door 53 is closed, and deoxygenation cabin 41, which rises, to be resetted, Wait for next workpiece.The second hatch door 54 is opened at this time, and the mold in feed bin 5 is released by the second hatch door by the second pusher cylinder 21 54 reset to processing stations, the second push plate 23, close the second hatch door 54, complete charging deoxygenation process.

Embodiment two：

The present embodiment is similar to embodiment one, the difference is that, guide wheel 37 is additionally arranged in guide push plate 36, by leading It takes turns 37 supports and plays guide push plate 36, so that the friction between guide push plate 36 and track base 31 is converted into rolling by sliding friction and rub It wipes, the frictional force between guide push plate 36 and track base 31 can be reduced in this way, reduce the abrasion of guide push plate 36, extension is led Expect the service life of push plate 36.

Embodiment three：

The present embodiment is similar to embodiment one, the difference is that, it is provided with and leads in 31 upper edge long waist shaped hole 32 of track base Plate, can exist when mold is pushed to deoxygenation cabin 41 by guide push plate 36 guide push plate 36 push it is not steady enough, cause pushing Die shift cannot enter in deoxygenation cabin 41 in the process, and stuck situation is caused to occur, therefore add guide plate and can ensure mould Tool will not shift in pushing course, can enter in deoxygenation cabin 41 and will not be stuck.

Obviously, above-described embodiment of the utility model is only intended to clearly illustrate the utility model example, and It is not the restriction to the embodiment of the utility model.For those of ordinary skill in the art, in above description On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments It is exhaustive.All any modification, equivalent and improvement made within the spirit and principle of the present invention etc., should be included in Within the protection domain of the utility model claims.

Claims (10)

1. a kind of heat-bending glass processing charging deaerating plant, which is characterized in that including material guide mechanism, deoxygenation cabin (41), feeding warehouse (5), the first pusher and the second pusher；

The material guide mechanism is set to feed bin (5) side, and the deoxygenation cabin (41) is set to above material guide mechanism and deoxygenation cabin (41) it is slided up and down along feed bin (5) side, first pusher is set in deoxygenation cabin (41), second pusher Mechanism is set in feed bin (5) and the second pusher is arranged in a mutually vertical manner with the first pusher, and the feed bin (5) side is set There is the first hatch door (53) with deoxygenation cabin (41) intercommunication.

2. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that described first pushes away Expect that mechanism includes the first pusher cylinder (11), the first guide rod (12) and the first push plate (13), first pusher cylinder (11) It is set to deoxygenation cabin (41) side with the first guide rod (12), first push plate (13) is set in deoxygenation cabin (41) and the first pusher Cylinder (11) pushes the first push plate (13) to move, and the first guide rod (12) end is connect with the first push plate (13).

3. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that the deoxygenation cabin (41) it is controlled and is lifted by lifting cylinder (43), the lifting cylinder (43) is set to above deoxygenation cabin (41).

4. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that described second pushes away Expect that mechanism includes the second pusher cylinder (21), the second guide rod (22) and the second push plate (23), second push plate (23) is set to In feed bin (5), second pusher cylinder (21) and the second guide rod (22) end is connect with the second push plate (23).

5. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that the material guiding machine Structure includes track base (31), lead material cylinder (33), third guide rod (34), driver plate (35) and guide push plate (36), and described leads Rail chair (31) is equipped with two symmetrical long waist shaped holes (32), and the lead material cylinder (33) is set under track base (31), the biography Movable plate (35) top passes through long waist shaped hole (32), the end of driver plate (35) lower part and lead material cylinder (33) and third guide rod (34) Connection, the driver plate (35) top are connect with guide push plate (36), and the lead material cylinder (33) pushes driver plate (35) It is slided along long waist shaped hole (32).

6. a kind of heat-bending glass processing charging deaerating plant according to claim 5, which is characterized in that the guide pushes away Plate (36) is equipped with guide wheel (37).

7. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that further include first Cylinder (51), first door cylinder (51) control the first hatch door (53) and open and close.

8. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that further include second The discharge port position of cylinder (52), the feed bin (5) is equipped with the second hatch door (54), and second hatch door (54) passes through second Door cylinder (52) control folding.

9. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that the feed bin (5) side wall is equipped with hagioscope (55).

10. a kind of heat-bending glass processing charging deaerating plant according to claim 1, which is characterized in that further include guide post (42) and guide card, the guide card are set to deoxygenation cabin (41) above, and the guide post (42) is slidably connected with guide card.