CN211770925U - Automatic glass nozzle pressing machine - Google Patents

Abstract

The utility model discloses an automatic glass mouth pressing machine, which relates to the technical field of mouth pressing and comprises a bracket, a rotary table, a cross sliding table, a driving device and a cutter, wherein the driving device drives the rotary table to rotate along a vertical central shaft; the cross sliding table comprises a first moving piece, a second moving piece, a first driving assembly and a second driving assembly, wherein the first driving assembly drives the first moving piece to move along a first direction, the second driving assembly drives the second moving piece to move along a second direction, and the first direction and the second direction are perpendicular to each other and are both positioned in the same vertical plane; the cutter is arranged on the second moving piece, and when the turntable rotates to the second position, the cutter can press the part to be processed of the glass container. According to the arrangement, manual pressing is not needed, the labor intensity is low, the efficiency is high, the heating effect is good, the pressing force degree is not deviated, the mouth shape effect is consistent, the glass container is not easy to crack, and the rejection rate is low.

Description

Automatic glass nozzle pressing machine

Technical Field

The utility model relates to a pressure mouth technical field, more specifically say, relate to an automatic pressure mouth machine.

Background

The glass container used at ordinary times is provided with a triangular or arc-shaped liquid flowing nozzle, and liquid in the glass container can be poured out through the liquid flowing nozzle.

In the prior art, a liquid flowing nozzle usually performs manual local heating on a port of a glass container, that is, a glass container is held by hand and shaken on a fixed fire head to perform local heating, so that the port of the glass container is in a molten state, and then a mold or a tool bit is manually used for pressing the edge of the glass container to form a nozzle shape. Therefore, the whole process needs manual work, the labor intensity of the manual work is high, the consumed time is long, and the manufacturing efficiency is low. The glass container is held by hand for heating, the glass container is easy to shake in the process of holding by hand, and the heating position of the glass container can deviate by the fixed fire head when the glass container shakes, so that the heating effect of the glass container is poor; similarly, when the mold or the cutter is manually used, the mold or the cutter is easily shaken, and thus, the pressing position of the mold or the cutter is easily deviated in the process of pressing the glass container, thereby producing nozzles having different nozzle shapes. Seriously, the glass container is likely to be cracked in the pressing process due to different heating effects or deviation of the pressing position, so that the glass container is scrapped, and the rejection rate is high.

Therefore, how to solve the problems of the prior art that the manual pressing liquid flowing nozzle has high labor intensity, low manufacturing efficiency, poor local heating effect, deviation of pressing force, nozzle shapes with different effects, even glass containers are easy to crack and the rejection rate is high, and the problem becomes an important technical problem to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic pressure mouth machine of glass is big, the preparation inefficiency with intensity of labour who solves among the prior art manual pressure system flow nozzle existence, and local heating effect is not good with pressing down the dynamics have the deviation, cause the mouth type of different effects to appear, glass container easily explodes the technical problem who splits even, the rejection rate is high. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

The utility model provides an automatic pressure mouth machine of glass, include:

a support;

the rotating disc is arranged on the bracket and can rotate along a vertical central shaft, and the glass container is placed on the rotating disc; the rotating position of the glass container driven by the rotating disc relative to the bracket comprises a first position and a second position, and when the rotating disc rotates to the first position, the lamp holder assembly heats a part to be processed of the glass container;

the driving device is used for driving the turntable to rotate around the central shaft;

the cross sliding table is arranged on the support and comprises a first moving piece, a second moving piece arranged on the first moving piece, a first driving assembly and a second driving assembly, wherein the first driving assembly is used for driving the first moving piece to move along a first direction, the second driving assembly is used for driving the second moving piece to move along a second direction, and the first direction and the second direction are perpendicular to each other and are both positioned in the same vertical plane;

and the cutter is arranged on the second moving piece, and when the turntable rotates to the second position, the cutter can press the liquid flowing nozzle on the part to be processed of the glass container. .

Preferably, the turntable is provided with a fixing assembly for fixing the glass container, the fixing assembly comprises a pressing rod acting on the glass container, a pressing member cross beam connected with the pressing rod, a square rail vertically arranged on the turntable, and a first sliding block arranged on the square rail, the first sliding block can move along the arrangement direction of the square rail, and the pressing member cross beam is connected with the first sliding block so that the pressing rod can move along the vertical direction.

Preferably, the support is provided with a lifting assembly for driving the pressure rod to lift, the rotating position of the turntable relative to the support further comprises a third position, and when the turntable rotates to the third position, the lifting assembly drives the pressure rod to lift.

Preferably, the portion of the glass container to be heated includes a first portion, a second portion and a third portion, which respectively correspond to a start portion, a middle portion and an end portion of the liquid flowing nozzle, and the first position includes a first heating position, a second heating position and a third heating position, and when the rotating plate rotates to the first heating position, the second heating position and the third heating position, the lamp cap assembly respectively heats the first portion, the second portion and the third portion of the glass container.

Preferably, the driving device comprises a first motor horizontally arranged on the bracket, a first chain wheel connected with an output shaft of the first motor, a divider, and a second chain wheel connected with an input shaft of the divider, the first chain wheel and the second chain wheel are in transmission connection through a chain, and an output shaft of the divider is connected with a central shaft of the turntable.

Preferably, the first driving assembly includes a second motor fixedly disposed and a first screw rod connected to an output shaft of the second motor, an extending direction of the first screw rod is consistent with the first direction, and a first nut fixedly connected to the first moving member is sleeved on the first screw rod to move the first moving member along the first direction; the second driving assembly comprises a third motor fixedly arranged on the first moving member and a second screw connected with an output shaft of the third motor, the extending direction of the second screw is consistent with the second direction, and a second nut fixedly connected with the second moving member is sleeved on the second screw so that the second moving member moves along the second direction.

Preferably, the cross sliding table further comprises a fixed plate, the second motor is fixedly arranged on the fixed plate, the fixed plate is provided with a first slide rail, the extending direction of the first slide rail is consistent with the first direction, the first moving member is provided with a second slide block, and the second slide block extends into the first slide rail; the first moving part is provided with a second sliding rail, the extending direction of the second sliding rail is consistent with the second direction, the second moving part is provided with a third sliding block, and the third sliding block extends into the second sliding rail.

Preferably, the cutter is a pressing wheel, a supporting rod is arranged on the second moving part, the pressing wheel is rotatably arranged at the upper end of the supporting rod, and a bearing is arranged on the pressing wheel.

Preferably, a graphite plate is arranged on the turntable, and the glass container is placed on the graphite plate in an inverted manner.

Preferably, the rotary plate is provided with a plurality of placing positions for placing the glass containers along the circumferential direction.

The utility model provides a technical scheme, the automatic glass nozzle pressing machine comprises a support, a rotary table, a driving device, a cross sliding table and a cutter, wherein the rotary table is arranged on the support, the driving device can drive the rotary table to rotate along a vertical central shaft, a glass container is placed on the rotary table, the rotary table drives the rotary position of the glass container relative to the support to comprise a first position and a second position, and when the rotary table rotates to the first position, a lamp holder component can heat a part to be processed of the glass container; the crossed sliding table is arranged on the support and comprises a first moving piece, a second moving piece, a first driving assembly and a second driving assembly, wherein the second moving piece is arranged on the first moving piece, so that the second moving piece can move along with the first moving piece, the first driving assembly is used for driving the first moving piece to move along a first direction, and the second driving assembly is used for driving the second moving piece to move along a second direction; and the cutter sets up on the second moving member, so the second moving member can drive the cutter and remove in vertical plane. Thus, when the turntable rotates to the second position, the glass container is located in the vertical plane, and the positions of the second moving member and the cutter can be adjusted at the moment, so that the cutter can press the liquid flowing nozzle on the part to be processed of the glass container. Due to the arrangement, the whole working process does not need manual participation, so that the labor intensity is low and the manufacturing efficiency is high; need not to hold the glass container and carry out local heating or artifical hand mould is pressed, but rotate through the carousel and drive the glass container and remove and realize the local heating, so the glass container can not rock, and the local heating is effectual, drives the mould through cross slip table and removes moreover, and the mould can not rock, presses the position and can not appear the deviation, avoids appearing the mouth type of different effects, and then has also avoided the high condition of rejection rate that the glass container explodes and splits and lead to.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of an automatic glass nozzle pressing machine according to an embodiment of the present invention;

FIG. 2 is a top view of a turntable according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of an upstream nozzle of a glass container according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a fixing assembly and a lifting assembly in an embodiment of the present invention;

fig. 5 is a left side view of the cross sliding table in the embodiment of the present invention.

In FIGS. 1-5:

1. a support; 2. a turntable; 201. station No. 1; 202. a station No. 2; 203. a station No. 3; 204. a station No. 4; 205. a No. 5 station; 206. a station No. 6; 3. a central shaft; 4. a glass container; 401. a starting point site; 402. a midpoint location; 403. a destination site; 5. a graphite plate; 6. a first motor; 7. a first sprocket; 8. a second sprocket; 9. a chain; 10. a divider; 11. a pressure lever; 12. a pressing piece cross beam; 13. a square rail; 14. a first slider; 15. a lifting member beam; 16. a cylinder; 17. a first moving member; 18. a second moving member; 19. a second motor; 20. a first screw; 21. a first nut; 22. a third motor; 23. a second screw; 24. a second nut; 25. a fixing plate; 26. a first slide rail; 27. a second slide rail; 28. a pinch roller; 29. a support bar; 30. a bearing; 31. a first lamp cap; 32. a second lamp cap; 33. a third lamp cap; 34. and a positioning projection.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

An object of this embodiment is to provide an automatic pressure mouth machine of glass, solve among the prior art artifical pressure system flow mouth exist intensity of labour big, the preparation inefficiency, local heating effect is not good with the pressing force degree have the deviation, cause the mouth type of different effects to appear, glass container easily explodes the problem that splits, the rejection rate is high even.

Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

Referring to fig. 1-2, in the present embodiment, the automatic glass nozzle pressing machine includes a support 1, a turntable 2, a driving device, a cross slide, and a cutter. As shown in fig. 1, a turntable 2 is arranged on a support 1, a central shaft 3 is arranged on the turntable 2, the turntable 2 can rotate along the vertical central shaft 3, and a driving device can drive the turntable 2 to rotate along the vertical central shaft 3; the glass container 4 is placed on the turntable 2, the turntable 2 drives the glass container 4 to comprise a first position and a second position relative to the rotating position of the support 1, and when the turntable 2 rotates to the first position, the lamp cap assembly can heat the part to be processed of the glass container 4, so that the part to be processed is in a molten state. Specifically, the base assembly herein may be a base assembly other than the automatic glass press, or may be a part of the automatic glass press itself. As shown in fig. 1, the cross slide is provided on a support 1, and includes a first moving member 17, a second moving member 18, a first driving assembly and a second driving assembly, wherein the second moving member 18 is arranged on the first moving member 17, and the first driving assembly is adapted to drive the first moving member 17 to move in a first direction, so that the second moving member 18 can move following the first moving member 17, and the second driving assembly is adapted to drive the second moving member 18 to move in a second direction, and in this way, when the first driving component drives the first moving part 17, the second moving part 18 will follow the first moving part 17 to move in the first direction, at the same time, when the second driving component drives the second moving part 18, the second moving part 18 moves to the second direction, the first direction and the second direction are perpendicular to each other and are both located in the same vertical plane, so that the second moving member 18 can move at any position in the vertical plane. The driving device of the first driving assembly and the second driving assembly can be telescopic pieces such as air cylinders. The cutter is disposed on the second moving member 18, so that the second moving member 18 drives the cutter, which may be but is not limited to the pressing wheel 28, to move in a vertical plane. Thus, when the driving device drives the turntable 2 to rotate to the second position, the glass container 4 is located in the vertical plane of the cross sliding table, and the positions of the second moving member 18 and the cutter can be adjusted by the first driving assembly and the second driving assembly, so that the cutter can press the fluid nozzle on the part to be processed of the glass container 4. In a preferred embodiment, the first direction is a vertical direction and the second direction is a horizontal direction.

By the arrangement, the whole working process is realized by adjusting the driving device, the first driving assembly and the second driving assembly without manual participation, so that the labor intensity is low and the manufacturing efficiency is high; need not to hold glass container 4 and carry out local heating or artifical hand mould and press, but rotate through carousel 2 and drive glass container 4 and remove and realize the local heating, so glass container 4 can not rock, and the local heating is effectual, drives the mould through cross slip table and removes moreover, and the mould can not rock, presses the position and can not appear the deviation, avoids appearing the mouth type of different effects, and then has also avoided the high condition of the rejection rate that glass container 4 explodes and splits and lead to.

Preferably, as shown in fig. 2, the turntable 2 is provided with a plurality of placing positions for placing the glass containers 4 along the circumferential direction, each placing position is provided with a graphite plate 5, and each graphite plate 5 is provided with an inverted glass container 4. In the preferred embodiment, the graphite plates 5 are provided with locating structures for limiting the position of the glass container relative to the graphite plates. Specifically, as shown in fig. 2, the positioning structure is two cylindrical positioning protrusions 34 arranged on the graphite plate 5, and since the positioning protrusions 34 are ablated by the lamp holder at high temperature for a long time, the positioning protrusions 34 are easily burnt, so that the positioning protrusions 34 can be detachably mounted on the graphite plate 5 as wearing parts, and the positioning protrusions 34 can be detachably replaced with new positioning protrusions 34 after the positioning protrusions 34 are burnt, for example, a protrusion is fixedly arranged on the graphite plate 5, a groove is arranged at the bottom of the positioning protrusions 34, and the protrusion extends into the groove, so that the positioning protrusions 34 can be mounted on the graphite plate 5. The edge that the port portion of glass container 4 is circular structure includes first border portion and second border portion, and first border portion and second border portion all are the arc, and wherein first border portion contacts with the up end of graphite cake 5, and second border portion does not contact with the up end of graphite cake 5, and second border portion is unsettled promptly, and the lamp holder subassembly is just heating in the lateral wall of second border portion. The heat of the second edge part to be heated is not transferred to the graphite plate 5, so that the heat of the second edge part is not transferred to other places, the temperature of the second edge part is higher, and the part to be processed of the glass container 4 can enter a molten state as soon as possible; and the later stage of the first edge part which is contacted with the graphite plate 5 does not need to press the liquid flowing nozzle, so that the first edge part does not need to be in a molten state, and higher temperature is not needed, but the temperature difference of all parts on the first edge part needs to be reduced, thereby avoiding the situation that the glass container 4 is cracked due to large temperature difference. Since the graphite sheet 5 has good heat transfer performance, the graphite sheet 5 can uniformly heat the first edge portion at each position, and the temperature difference can be reduced. In a preferred embodiment, as shown in fig. 2, six placing positions are arranged on the rotating disc 2 along the circumferential direction, and the six placing positions are respectively a No. 1 station 201, a No. 2 station 202, a No. 3 station 203, a No. 4 station 204, a No. 5 station 205 and a No. 6 station 206 along the clockwise direction when the rotating disc 2 is viewed from above.

With the arrangement, in the rotating process of the turntable 2, the plurality of glass containers 4 can rotate simultaneously, so that the plurality of glass containers 4 can participate in the heating or pressing process simultaneously, and the working efficiency and the progress are greatly improved; the edge of the glass container 4 can be uniformly heated, so that the glass container 4 after the liquid flowing nozzle is formed is not easy to crack, and the part to be processed of the glass container 4 can enter a molten state as soon as possible.

As an alternative embodiment, the turntable 2 is provided with a fixing assembly for fixing the glass container 4. Specifically, as shown in fig. 1 and 4, the fixing assembly comprises a pressing rod 11, a pressing member beam 12, a square rail 13 and a first slide 14, wherein the pressing rod 11 acts on the glass container 4, since the glass container 4 is reversely buckled on the placing position, the upper end of the glass container 4 is a port part, and the lower end of the glass container 4 is a bottom part, that is, the pressing rod 11 acts on the bottom part of the glass container 4; the square rail 13 is vertically arranged on the rotary table 2, the first sliding block 14 is arranged on the square rail 13, and the first sliding block 14 can move along the arrangement direction of the square rail 13; the pressing piece cross beam 12 is horizontally arranged, one end of the pressing piece cross beam 12 is connected with the first slider 14, and the other end of the pressing piece cross beam 12 is connected with the pressing piece cross beam 12, so that the pressing rod 11 can move along the vertical arrangement direction of the square rail 13. The pressing piece beam 12, the pressing rod 11 and the first sliding block 14 can vertically ascend or descend, and the pressing piece beam, the pressing rod 11 and the first sliding block can descend through external force or manually, until the lower end of the pressing rod 11 abuts against the bottom of the glass container 4, the glass container 4 is fixed on a corresponding placing position. Preferably, the number of the fixing components is the same as the number of the placing positions on the rotating disc 2, and the fixing components are in one-to-one correspondence, and each fixing component can fix the corresponding glass container 4.

So set up, can stabilize the position of glass container 4 through fixed subassembly, avoid 2 rotation in-process at the carousel because the position deviation appears or breaks away from in centrifugal force effect messenger each glass container 4, be favorable to effectively going on of heating and pressing process.

As an alternative embodiment, the support 1 is provided with a lifting assembly for driving the pressing rod 11 to lift, preferably, as shown in fig. 4, the lifting assembly includes a lifting member beam 15 and an air cylinder 16 connected with the pressing rod 11, the air cylinder 16 can act on the lifting member beam 15, the air cylinder 16 is located right below the position of the rotating disc 2 where the glass container 4 is mounted, the rotating position of the rotating disc 2 relative to the support 1 further includes a third position, when the rotating disc 2 rotates to the third position, the lifting assembly drives the pressing rod 11 to lift, that is, as shown in fig. 2, the air cylinder 16 can act on the lifting member beam 15 of the glass container 4 only when the glass container 4 is rotated to the station 201 No. 1.

So set up, can raise depression bar 11, casting die crossbeam 12 and first slider 14 through the lifting unit to the fixed state of fixed subassembly to glass container 4 is relieved, makes glass container 4 can take off and change new glass container 4.

As an alternative embodiment, the portion of the glass container 4 to be heated includes a first portion, a second portion, and a third portion, wherein the first portion corresponds to a starting point 401 of the liquid discharge nozzle, the second portion corresponds to a midpoint 402 of the liquid discharge nozzle, and the third portion corresponds to an ending point 403 of the liquid discharge nozzle, as shown in fig. 3. The first position comprises a first heating position, a second heating position and a third heating position, when the turntable 2 rotates to the first heating position, as shown in fig. 2, the glass container 4 corresponding to the No. 1 station 201 rotates to the No. 2 station 202, and the lamp head assembly heats the first part of the glass container 4; when the turntable 2 rotates to the second heating position, the glass container 4 which is equivalent to the No. 1 station 201 rotates to the No. 3 station 203 from the No. 2 station 202, and the lamp head assembly heats the second part of the glass container 4; when the turntable 2 rotates to the third heating position, the glass container 4 corresponding to the No. 1 station 201 rotates from the No. 3 station 203 to the No. 4 station 204, and the lamp head assembly heats the third part of the glass container 4.

With this arrangement, the first, second and third portions of the glass container 4 are heated, so that the starting point 401, the middle point 402 and the ending point 403 of the spout can be pressed better at a later stage, thereby pressing a spout having an accurate spout shape.

In a preferred embodiment, the automatic glass nozzle pressing machine further comprises a lamp cap assembly, the lamp cap assembly comprises a supporting frame and a first lamp cap 31 arranged on the supporting frame, the second lamp holder 32 and the third lamp holder 33, the supporting frame can be supported on the ground, the first lamp holder 31 corresponds to the position of the station 202 No. 2 on the turntable 2, the second lamp holder 32 corresponds to the position of the station 203 No. 3 on the turntable 2, the third lamp holder 33 corresponds to the position of the station 204 No. 4 on the turntable 2, the first lamp holder 31 is used for heating the first part of the glass container 4, the starting part 401 of the liquid flowing nozzle is formed by pressing the first part at the later stage, the second lamp holder 32 is used for heating the second part of the glass container 4, the middle point part 402 of the liquid flowing nozzle is formed by pressing the second part at the later stage, the third lamp holder 33 is used for heating the third part of the glass container 4, and the ending part 403 of the liquid flowing nozzle is formed by pressing the third part. Since the glass container 4 is turned upside down in the set position, the starting point portion 401 is higher than the middle point portion 402, and the middle point portion 402 is higher than the ending point portion 403, the horizontal positions of the first base 31, the second base 32, and the third base 33 are sequentially lowered.

Preferably, the turntable 2 rotates at a constant speed, the time for the turntable 2 to drive the glass container 4 to rotate to the adjacent placement position is a time interval, and the heating time of the first lamp holder 31, the second lamp holder 32 and the third lamp holder 33 to the glass container 4 is a time interval.

As an alternative embodiment, as shown in fig. 1, the driving device includes a first motor 6, a first sprocket 7, a divider 10, a second sprocket 8 and a chain 9, wherein the first motor 6 is horizontally disposed on the bracket 1, the first sprocket 7 is connected to an output shaft of the first motor 6, the first motor 6 rotates to drive the first sprocket 7 to rotate, the second sprocket 8 is connected to an input shaft of the divider 10, the first sprocket 7 and the second sprocket 8 are in transmission connection through the chain 9, so that the rotation of the first sprocket 7 drives the second sprocket 8 to rotate and the divider 10 to work; the output shaft of the divider 10 is connected to the central shaft 3 of the turntable 2, so that the divider 10 rotates the central shaft 3. Specifically, the transmission form of the divider 10 is the same as that of a worm gear, the divider 10 can convert the rotation around the horizontal axis into the rotation around the vertical central axis 3, the structure of the divider 10 is the prior art, and detailed description is omitted. In other embodiments, the sprocket and chain 9 may also be replaced by a pulley and belt. Thus, the structure of the driving device is refined, and the rotating disc 2 is driven to rotate by the rotation of the first motor 6.

As an alternative embodiment, as shown in fig. 1 and 5, the first driving assembly includes a second motor 19 and a first screw 20, the second motor 19 is fixedly disposed, the first screw 20 is connected to an output shaft of the second motor 19, an extending direction of the first screw 20 is consistent with the first direction, and a first nut 21 fixedly connected to the first moving member 17 is sleeved on the first screw 20, so that when the second motor 19 works, the first screw 20 is driven to rotate, the first nut 21 moves along the extending direction of the first screw 20, and the first moving member 17 and the second moving member 18 move along the first direction. The structure of the second driving assembly is basically the same as that of the first driving assembly, the second driving assembly comprises a third motor 22 and a second screw 23, the third motor 22 is fixedly arranged on the first moving member 17, the second screw 23 is connected with an output shaft of the third motor 22, the extending direction of the second screw 23 is consistent with the second direction, and a second nut 24 fixedly connected with the second moving member 18 is sleeved on the second screw 23, so that when the third motor 22 works, the second screw 23 is driven to rotate, the second nut 24 moves along the extending direction of the second screw 23, and further the second moving member 18 moves along the second direction, that is, the second moving member 18 can move freely in the vertical plane.

So set up, can control first moving member 17 and second moving member 18 through second motor 19 and remove along the first direction, can control second moving member 18 through third motor 22 and remove along the second direction, realize the arbitrary removal of cutter in vertical plane.

As an optional implementation manner, as shown in fig. 1 and 5, the cross sliding table further includes a fixing plate 25, the fixing plate 25 is vertically disposed on the bracket 1, the second motor 19 is fixedly disposed on the fixing plate 25, and a first slide rail 26 is disposed on the fixing plate 25, an extending direction of the first slide rail 26 is consistent with the first direction, that is, the first slide rail 26 extends along the vertical direction, and the first moving member 17 is provided with a second slider, the second slider extends into the first slide rail 26, and when the first moving member 17 moves along the first direction, the second slider moves along the extending direction of the first slide rail 26. The first moving member 17 is provided with a second slide rail 27, the extending direction of the second slide rail 27 is consistent with the second direction, that is, the second slide rail 27 extends along the horizontal direction, and the second moving member 18 is provided with a third slide block, the third slide block extends into the second slide rail 27, and when the second moving member 18 moves along the second direction, the third slide block can move along the extending direction of the second slide rail 27.

The first moving part 17 and the second moving part 18 are driven to move only through the screw and the nut, so that the first moving part 17 and the second moving part 18 can not move stably enough, and the first sliding rail 26, the second sliding block, the second sliding rail 27 and the third sliding block are arranged to assist the movement of the first moving part 17 and the second moving part 18, so that the moving positions of the first moving part 17 and the second moving part 18 can be stabilized, and the shaking or position deviation is avoided.

In a preferred embodiment, as shown in fig. 5, the cutter is a pressing wheel 28, the part to be processed in a molten state is sent out in a desired fluid nozzle shape by the pressing wheel 28, a supporting rod 29 is provided on the second moving member 18, and the pressing wheel 28 is rotatably provided at the upper end of the supporting rod 29. Specifically, a bearing 30 is mounted on the pressing wheel 28, and the bearing 30 and the pressing wheel 28 are mounted on the supporting rod 29 through hexagon socket screws.

Without the bearings 30, there is sliding friction between the glass container 4 and the pressing wheel 28, and scratches may occur on the glass container 4. By the arrangement, the bearing 30 is arranged, so that the contact between the glass container 4 and the pressing wheel 28 is rolling friction, the friction between the glass container 4 and the pressing wheel 28 is reduced, and the smoothness of the liquid flowing nozzle is improved.

In a preferred embodiment, the automatic glass nozzle press further comprises a touch screen, the touch screen can be mounted on the bracket 1, and the operation time of the first motor 6, the second motor 19 and the third motor 22 can be controlled through the touch screen, so that the liquid nozzle with the required shape can be formed by changing corresponding parameters.

The automatic glass nozzle pressing machine is specifically described in conjunction with the above embodiments, and in this embodiment, the automatic glass nozzle pressing machine includes a support 1, a turntable 2, a driving device, a cross sliding table, and a pressing wheel 28. The turntable 2 is arranged on the bracket 1, and the driving device can drive the turntable 2 to rotate along a vertical central shaft 3; the turntable 2 is circumferentially provided with six placing positions, the six placing positions in the clockwise direction are respectively No. 1 station 201-No. 6 station 206 when viewed from the direction of overlooking the turntable 2, each placing position is provided with a graphite plate 5, and each graphite plate 5 is provided with an inverted glass container 4. Meanwhile, six fixing assemblies are arranged on the rotary table 2, the fixing assemblies correspond to the glass containers 4 one by one and respectively act on the corresponding glass containers 4, each fixing assembly comprises a pressure rod 11, a pressure piece cross beam 12 connected with the pressure rod 11, a square rail 13 vertically arranged on the rotary table 2 and a first sliding block 14 arranged on the square rail 13, the first sliding block 14 can move along the arrangement direction of the square rail 13, the pressure piece cross beam 12 is connected with the first sliding block 14 so that the pressure rod 11 can move along the vertical direction, and each pressure rod 11 is connected with a lifting piece cross beam 15; be equipped with cylinder 16 on support 1, cylinder 16 is located No. 1 station 201 under, and cylinder 16 can act on the lifting beam 15 of No. 1 station 201. The driving device comprises a first motor 6 horizontally arranged on the bracket 1, a first chain wheel 7 connected with an output shaft of the first motor 6, a divider 10 and a second chain wheel 8 connected with an input shaft of the divider 10, wherein the first chain wheel 7 and the second chain wheel 8 are in transmission connection through a chain 9, and the output shaft of the divider 10 is connected with the central shaft 3 of the turntable 2.

The cross sliding table is arranged on the support 1 and comprises a fixed plate 25, a first moving part 17, a second moving part 18, a first driving assembly and a second driving assembly, wherein the first moving part 17, the second moving part 18, the first driving assembly and the second driving assembly are arranged on the fixed plate 25, the first driving assembly comprises a second motor 19 fixedly arranged on the fixed plate 25 and a first screw rod 20 connected with an output shaft of the second motor 19, the extending direction of the first screw rod 20 is consistent with the first direction, and a first nut 21 fixedly connected with the first moving part 17 is sleeved on the first screw rod 20 so as to enable the first moving part 17 to move along the first direction; the second driving assembly comprises a third motor 22 fixedly arranged on the first moving member 17 and a second screw 23 connected with an output shaft of the third motor 22, the extending direction of the second screw 23 is consistent with the second direction, a second nut 24 fixedly connected with the second moving member 18 is sleeved on the second screw 23, so that the second moving member 18 moves along the second direction, and the first direction and the second direction are perpendicular and are both located on the same vertical plane. A first slide rail 26 is arranged on the fixed plate 25, the extending direction of the first slide rail 26 is a first direction, and a second slide block is arranged on the first moving member 17 and extends into the first slide rail 26; the first moving member 17 is provided with a second slide rail 27, the extending direction of the second slide rail 27 is a second direction, and the second moving member 18 is provided with a third slide block, and the third slide block extends into the second slide rail 27. The second moving member 18 is provided with a supporting rod 29, the pressing wheel 28 is rotatably arranged at the end of the supporting rod 29, and the bearing 30 is mounted on the pressing wheel 28.

Taking the glass container 4 of the station 201 No. 1 as an example, the working process is as follows:

in the first step, the glass container 4 is fixed on the corresponding graphite plate 5 through the pressure rod 11 and the pressing member beam 12, and when the turntable 2 drives the glass container 4 of the No. 1 station 201 to rotate to the No. 2 station 202, the first lamp cap 31 can heat the first part of the glass container 4 so as to press the starting point 401 of the liquid nozzle at the later stage.

Secondly, when the turntable 2 drives the glass container 4 to rotate to the position of the No. 3 station 203, the second lamp head 32 can heat a second part of the glass container 4 so as to press the middle point 402 of the liquid flowing nozzle at the later stage.

Thirdly, when the turntable 2 drives the glass container 4 to rotate to the position of the No. 4 station 204, the third lamp head 33 can heat the third part of the glass container 4 so as to press the terminal part 403 of the liquid nozzle at a later stage. The whole heating process is completed through the three steps.

Fourthly, when the turntable 2 drives the glass container 4 to rotate to the position of the No. 5 station 205, the glass container 4 is positioned in a vertical plane where the cross sliding table is positioned, at the moment, the moving positions of the support rod 29 and the pressing wheel 28 are adjusted through the second motor 19 and the third motor 22, so that the pressing wheel 28 moves to the part, to be processed, of the glass container 4, and presses the first part, the second part and the third part to form a liquid flowing nozzle, and the whole pressing process is realized.

Fifthly, the turntable 2 drives the glass container 4 to rotate to the position of the No. 6 station 206, so that the glass container 4 is naturally cooled.

Sixthly, the turntable 2 drives the glass container 4 to rotate to the initial position, namely the position of the No. 1 station 201, and then the piece is removed and replaced, namely the piece lifting beam 15 is lifted by the rising of the air cylinder 16, and further the pressure lever 11 is lifted, so that the glass container 4 can be taken down and replaced by other glass containers 4 for circulation.

So set up, need not artifical suppression flow nozzle, intensity of labour is little, efficient, and heating effect is good, and the pressing strength degree does not have the deviation, and the mouth type effect is unanimous, and glass container 4 is difficult for bursting apart, the rejection rate is low.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments. The utility model provides a plurality of schemes contain the basic scheme of itself, mutual independence to restrict each other, but it also can combine each other under the condition of not conflicting, reaches a plurality of effects and realizes jointly.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides an automatic pressure mouth machine of glass which characterized in that includes:

a support (1);

the rotary table (2) is arranged on the support (1) and can rotate along a vertical central shaft (3), and the glass container (4) is placed on the rotary table (2); the rotating position of the glass container (4) driven by the turntable (2) relative to the support (1) comprises a first position and a second position, and when the turntable (2) rotates to the first position, the lamp holder assembly heats a part to be processed of the glass container (4);

the driving device is used for driving the turntable (2) to rotate around the central shaft (3);

the cross sliding table is arranged on the support (1), and comprises a first moving part (17), a second moving part (18) arranged on the first moving part (17), a first driving assembly used for driving the first moving part (17) to move along a first direction, and a second driving assembly used for driving the second moving part (18) to move along a second direction, wherein the first direction is vertical to the second direction and is positioned in the same vertical plane;

and the cutter is arranged on the second moving part (18), and when the turntable (2) rotates to the second position, the cutter can press the liquid flowing nozzle on the part to be processed of the glass container (4).

2. The automatic glass mouth press according to claim 1, wherein the rotary plate (2) is provided with a fixing assembly for fixing the glass container (4), the fixing assembly comprises a pressing rod (11) acting on the glass container (4), a pressing member beam (12) connected with the pressing rod (11), a square rail (13) vertically arranged on the rotary plate (2), and a first slide block (14) arranged on the square rail (13), the first slide block (14) can move along the arrangement direction of the square rail (13), and the pressing member beam (12) is connected with the first slide block (14) so that the pressing rod (11) can move along the vertical direction.

3. The automatic glass nozzle pressing machine according to claim 2, characterized in that the support (1) is provided with a lifting assembly for driving the pressing rod (11) to lift, and the rotation position of the rotating disc (2) relative to the support (1) further comprises a third position, and when the rotating disc (2) rotates to the third position, the lifting assembly drives the pressing rod (11) to lift.

4. The automatic nozzle pressing machine for glass as claimed in claim 1, wherein the portion to be heated of the glass container (4) comprises a first portion, a second portion and a third portion corresponding to a start portion (401), a middle portion (402) and an end portion (403) of the spout, respectively, and the first position comprises a first heating position, a second heating position and a third heating position, and the burner assembly heats the first portion, the second portion and the third portion of the glass container (4) when the rotary plate (2) is rotated to the first heating position, the second heating position and the third heating position, respectively.

5. The automatic glass mouth pressing machine according to claim 1, characterized in that the driving device comprises a first motor (6) horizontally arranged on the bracket (1), a first chain wheel (7) connected with an output shaft of the first motor (6), a divider (10), and a second chain wheel (8) connected with an input shaft of the divider (10), wherein the first chain wheel (7) and the second chain wheel (8) are in transmission connection through a chain (9), and the output shaft of the divider (10) is connected with the central shaft (3) of the turntable (2).

6. The automatic glass mouth pressing machine according to claim 1, wherein the first driving assembly comprises a second motor (19) fixedly arranged and a first screw rod (20) connected with an output shaft of the second motor (19), the extending direction of the first screw rod (20) is consistent with the first direction, and a first nut (21) fixedly connected with the first moving member (17) is sleeved on the first screw rod (20) so as to enable the first moving member (17) to move along the first direction; the second driving assembly comprises a third motor (22) fixedly arranged on the first moving member (17) and a second screw rod (23) connected with an output shaft of the third motor (22), the extending direction of the second screw rod (23) is consistent with the second direction, and a second nut (24) fixedly connected with the second moving member (18) is sleeved on the second screw rod (23) so that the second moving member (18) moves along the second direction.

7. The automatic mouth pressing machine for glass according to claim 6, wherein the cross sliding table further comprises a fixed plate (25), the second motor (19) is fixedly arranged on the fixed plate (25), a first sliding rail (26) is arranged on the fixed plate (25), the extending direction of the first sliding rail (26) is consistent with the first direction, a second sliding block is arranged on the first moving member (17), and the second sliding block extends into the first sliding rail (26); the first moving part (17) is provided with a second sliding rail (27), the extending direction of the second sliding rail (27) is consistent with the second direction, the second moving part (18) is provided with a third sliding block, and the third sliding block extends into the second sliding rail (27).

8. The automatic glass mouth pressing machine according to claim 1, wherein the cutter is a pressing wheel (28), a support rod (29) is provided on the second moving member (18), the pressing wheel (28) is rotatably provided at an upper end of the support rod (29), and a bearing (30) is mounted on the pressing wheel (28).

9. The automatic glass mouth pressing machine according to claim 1, wherein the turntable (2) is provided with a graphite plate (5), and the glass container (4) is placed on the graphite plate (5) in an inverted manner.

10. The automatic glass press nozzle machine as claimed in claim 1, characterized in that the rotary table (2) is provided with a plurality of placement locations along the circumferential direction for placing the glass containers (4).

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