阅读说明：本技术 一种管状玻璃制品折弯输送装置 (Tubular glass product bending and conveying device ) 是由 王夕增 崔强 王夕亮 于 2021-10-28 设计创作，主要内容包括：一种管状玻璃制品折弯输送装置,包括：送料支架、驱动轴、驱动电机、烧制火架；管状玻璃制品放置在相邻两个支撑盘上,利用驱动电机带动铰链运动,铰链带动驱动轴转动,使得支撑盘转动,支撑盘上支撑的管状玻璃制品也会跟随转动,进而保证了烧制火架对折弯点的烧制均匀性,利用抬料轴转动,带动拨料杆偏转,拨料杆转动过程中推动其上部的两个支撑盘之间的管状玻璃制品移动至相邻拨料杆上部的两个支撑盘上,以此实现管状玻璃制品的移位输送,输送过程中,即可完成对管状玻璃制品折弯点的烧制,大大提高了生产效率。(A tubular glassware bending conveyor, comprising: the device comprises a feeding bracket, a driving shaft, a driving motor and a firing frame; tubular glass product places on two adjacent supporting disks, utilize driving motor to drive the hinge motion, the hinge drives the drive shaft and rotates, make the supporting disk rotate, tubular glass product that supports on the supporting disk also can follow the rotation, and then guaranteed to fire the firing homogeneity of fire frame to the bending point, utilize and lift the material axle and rotate, drive and dial the material pole and deflect, dial the material pole and rotate the tubular glass product that between two supporting disks on its upper portion and remove to two supporting disks on adjacent material pole upper portion, with this shift transport that realizes tubular glass product, in the transportation process, can accomplish the firing to tubular glass product bending point, and the production efficiency is greatly improved.)

1. A tubular glassware bending conveyor, characterized by comprising:

the device comprises a feeding bracket, a driving shaft, a driving motor and a firing frame;

the material lifting device is characterized in that the driving shafts are provided with a plurality of driving shafts, the driving shafts are installed on a feeding support in an equidistant rotating mode, supporting disks are installed at two ends of each driving shaft respectively, the supporting disks on two adjacent driving shafts are partially overlapped, a driven fluted disc is installed on each driving shaft, a driving motor is fixed on the feeding support, a driving fluted disc is installed at the output end of the driving motor, the driving fluted disc is connected with the driven fluted disc through a chain, a firing fire frame is installed on the feeding support between the two adjacent driving shafts, limiting frames are arranged on two sides of the feeding support respectively, a material lifting shaft is installed on each limiting frame, the material lifting shaft is located between the two adjacent driving shafts, a material shifting rod is installed on each material lifting shaft, and when the material shifting rod rotates around the material lifting shaft, the upper end of the material shifting rod can be located on the upper portion of the supporting disks.

2. The tubular glassware bending conveyor of claim 1, wherein a connecting shaft is mounted on the feeding frame, an auxiliary gear is fixed to one end of the connecting shaft and engaged with the chain, a transmission gear is fixed to the other end of the connecting shaft, an intermediate shaft is mounted on the limiting frame, an intermediate gear is mounted on the intermediate shaft and engaged with the transmission gear, a friction disc is fixedly mounted on the lifting shaft, a friction wheel is slidably mounted on the intermediate shaft and contacts with an end surface of the friction disc, a linkage disc is fixed to the friction wheel, a cooperative groove is formed in an outer ring of the linkage disc, an adjusting screw is rotatably mounted on the limiting frame, a synchronizing disc is mounted on the adjusting screw, and the synchronizing disc is located in the cooperative groove.

3. The tubular glass product bending conveyor as claimed in claim 2, wherein the intermediate shaft is provided with a guide groove along an axial direction, the friction wheel is provided with a through hole at a middle portion thereof, a guide projection is provided inside the through hole, the intermediate shaft slides through the through hole, and the guide projection is located in the guide groove.

4. The tubular glassware bending conveyor according to claim 1, wherein the limiting plate is installed to the spacing of pay-off support one side, the pay-off support lateral part is fixed with the location fluted disc, rotate on the stirring rod and install the guiding axle, guiding axle one end is fixed with correction gear, correct gear meshing location fluted disc, rotate on the stirring rod and install the correction rubber roll, the parallel guiding axle setting of hugging closely of correction rubber roll.

5. The tubular glassware bending conveyor of claim 4, wherein the limiting frame is provided with an alignment screw via a threaded connection, the limiting plate is fixedly mounted at one end of the alignment screw, and the other end of the alignment screw is provided with a rotating handle.

Technical Field

The invention relates to the field of glass product production equipment, in particular to a tubular glass product bending and conveying device.

Background

Glass is a transparent solid substance, forms a continuous network structure when melted, gradually increases in viscosity and hardens without crystallization during cooling, and glass products are a general name of living goods and industrial goods processed by using glass as a main raw material.

The operation that tubular glass product need bend can be met in the glassware production process, need heat to tubular glass product's bending point and fire before bending to guarantee that the glass pipe can normally be crooked, current tubular glass product equipment conveyor that bends is with the glass pipe and directly send to bender department and fire, and this kind of mode is inefficient, is unfavorable for production.

Disclosure of Invention

The invention aims to solve the problems that the conventional conveying device for tubular glass product bending equipment directly conveys a glass tube to a bending machine for firing, the mode is low in efficiency and is not beneficial to production, and the purpose is to provide the conveying device for tubular glass product bending.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a tubular glassware bending conveyor, comprising:

the device comprises a feeding bracket, a driving shaft, a driving motor and a firing frame;

the material lifting device is characterized in that the driving shafts are provided with a plurality of driving shafts, the driving shafts are installed on a feeding support in an equidistant rotating mode, supporting disks are installed at two ends of each driving shaft respectively, the supporting disks on two adjacent driving shafts are partially overlapped, a driven fluted disc is installed on each driving shaft, a driving motor is fixed on the feeding support, a driving fluted disc is installed at the output end of the driving motor, the driving fluted disc is connected with the driven fluted disc through a chain, a firing fire frame is installed on the feeding support between the two adjacent driving shafts, limiting frames are arranged on two sides of the feeding support respectively, a material lifting shaft is installed on each limiting frame, the material lifting shaft is located between the two adjacent driving shafts, a material shifting rod is installed on each material lifting shaft, and when the material shifting rod rotates around the material lifting shaft, the upper end of the material shifting rod can be located on the upper portion of the supporting disks.

Furthermore, a connecting shaft is installed on the feeding support, an auxiliary gear is fixed to one end of the connecting shaft, the auxiliary gear is meshed with the chain, a transmission gear is fixed to the other end of the connecting shaft, an intermediate shaft is installed on the limiting frame, an intermediate gear is installed on the intermediate shaft, the intermediate gear is meshed with the transmission gear, a friction disc is fixedly installed on the material lifting shaft, a friction wheel is installed on the intermediate shaft in a sliding mode, the friction wheel contacts with the end face of the friction disc, a linkage disc is fixed on the friction wheel, a cooperation groove is formed in the outer ring of the linkage disc, an adjusting screw is installed on the limiting frame in a rotating mode, a synchronous disc is installed on the adjusting screw, and the synchronous disc is located in the cooperation groove.

Furthermore, a guide groove is formed in the middle shaft in the axis direction, a through hole is formed in the middle of the friction wheel, a guide convex block is arranged on the inner side of the through hole, the middle shaft penetrates through the through hole in a sliding mode, and the guide convex block is located in the guide groove.

Further, the limiting plate is installed to the spacing of pay-off support one side, pay-off support lateral part is fixed with the location fluted disc, it installs the guiding axle to rotate on the stirring pole, guiding axle one end is fixed with correction gear, correct gear engagement location fluted disc, it installs the correction rubber roll to rotate on the stirring pole, the parallel guiding axle setting of hugging closely of correction rubber roll.

Further, install the alignment screw rod through threaded connection on the spacing, limiting plate fixed mounting has in alignment screw rod one end, the alignment screw rod other end is installed and is changeed the handle.

The invention has the beneficial effects that:

the tubular glass product placing device is simple in structure, the tubular glass product is placed on the two adjacent supporting disks, the driving motor is used for driving the hinge to move, the hinge drives the driving shaft to rotate, the supporting disks rotate, the tubular glass product supported on the supporting disks can rotate along with the driving shaft, the firing uniformity of a firing fire rack on a bending point is further ensured, the material lifting shaft rotates to drive the material shifting rod to deflect, the tubular glass product between the two supporting disks on the upper portion of the material shifting rod is pushed to move to the two supporting disks on the upper portion of the adjacent material shifting rod in the rotating process of the material shifting rod, the tubular glass product is shifted and conveyed, the firing on the bending point of the tubular glass product can be completed in the conveying process, and the production efficiency is greatly improved.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a cut-away view of the present invention;

FIG. 3 is a schematic view of the mounting of the support plate of the present invention;

FIG. 4 is a schematic view of the friction wheel mounting of the present invention;

in the figure: 1. a feeding bracket; 2. a drive shaft; 3. a drive motor; 4. firing a fire rack; 12. a support disc; 13. a driven fluted disc; 14. a driving fluted disc; 15. a limiting frame; 16. a material lifting shaft; 17. a material poking rod; 18. a chain; 21. a connecting shaft; 22. an auxiliary gear; 23. a transmission gear; 24. an intermediate shaft; 25. an intermediate gear; 26. a friction disk; 27. a friction wheel; 28. a linkage disk; 29. a cooperation groove; 30. adjusting the screw rod; 31. a synchronization disc; 32. a guide groove; 33. perforating; 34. a guide projection; 41. a limiting plate; 42. positioning a fluted disc; 43. a guide shaft; 44. a correction gear; 46. correcting the rubber roller; 47. aligning the screw; 48. and (4) turning the handle.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

As shown in fig. 1-2, a tubular glassware bending conveyor includes:

the device comprises a feeding support 1, a driving shaft 2, a driving motor 3 and a firing frame 4;

the drive shafts 2 are provided with a plurality of drive shafts, the drive shafts are rotatably arranged on the feeding support 1 at equal intervals, the two ends of each drive shaft 2 are respectively provided with a support plate 12, the support plates 12 on the two adjacent drive shafts 2 are partially overlapped, each drive shaft 2 is provided with a driven fluted disc 13, the feeding support 1 is fixedly provided with a drive motor 3, the output end of the drive motor 3 is provided with a drive fluted disc 14, the drive fluted disc 14 is connected with the driven fluted disc 13 through a chain 18, the feeding support 1 between the two adjacent drive shafts 2 is provided with a firing fire frame 4, the two sides of the feeding support 1 are respectively provided with a limiting frame 15, the limiting frame 15 is provided with a material lifting shaft 16, the material lifting shaft 16 is positioned between the two adjacent drive shafts 2, the material lifting shaft 16 is provided with a material shifting rod 17, and when the material shifting rod 17 rotates around the material lifting shaft 16, the upper end of the material shifting rod 17 can be positioned at the upper part of the support plates 12.

The utility model provides a tubulose glassware conveyor that bends, theory of operation:

tubular glass product places on two adjacent supporting disk 12, utilize driving motor 3 to drive the hinge motion, the hinge drives drive shaft 2 and rotates, make supporting disk 12 rotate, the tubular glass product that supports also can follow the rotation on the supporting disk 12, and then guaranteed to fire the firing homogeneity of fire frame 4 to the bending point, utilize and lift material axle 16 and rotate, it deflects to drive kickoff bar 17, kickoff bar 17 rotates the in-process and promotes tubular glass product between two supporting disk 12 on its upper portion and remove to two supporting disk 12 on adjacent kickoff bar 17 upper portion, with this shift transport that realizes tubular glass product, in the transportation process, can accomplish the firing to tubular glass product bending point, production efficiency is greatly improved.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 4, a connecting shaft 21 is installed on a feeding support 1, an auxiliary gear 22 is fixed at one end of the connecting shaft 21, the auxiliary gear 22 is engaged with a chain 18, a transmission gear 23 is fixed at the other end of the connecting shaft 21, an intermediate shaft 24 is installed on a limiting frame 15, an intermediate gear 25 is installed on the intermediate shaft 24, the intermediate gear 25 is engaged with the transmission gear 23, a friction disc 26 is fixedly installed on a material lifting shaft 16, a friction wheel 27 is slidably installed on the intermediate shaft 24, the friction wheel 27 contacts with an end face of the friction disc 26, a linkage disc 28 is fixed on the friction wheel 27, a cooperation groove 29 is formed in an outer ring of the linkage disc 28, an adjusting screw 30 is rotatably installed on the limiting frame 15, a synchronizing disc 31 is installed on the adjusting screw 30, and the synchronizing disc 31 is located in the cooperation groove 29.

The intermediate shaft 24 is provided with a guide groove 32 along the axial direction, the middle part of the friction wheel 27 is provided with a through hole 33, the inner side of the through hole 33 is provided with a guide lug 34, the intermediate shaft 24 slides through the through hole 33, and the guide lug 34 is positioned in the guide groove 32.

The chain 18 drives the connecting shaft 21 to rotate through the auxiliary gear 22, so that the connecting shaft 21 drives the intermediate shaft 24 to rotate through the transmission gear 23 and the intermediate gear 25, the friction wheel 27 on the intermediate shaft 24 drives the friction disc 26 to rotate through friction, and then the material lifting shaft 16 can be driven to rotate, and therefore automatic material stirring of the material stirring rod 17 is achieved.

The rotation speed of the friction disc 26 is adjusted by rotating the adjusting screw 30 to move the synchronizing disc 31, which pushes the linkage disc 28 and the friction wheel 27 to move along the intermediate shaft 24, thereby changing the contact position of the friction wheel 27 and the friction disc 26.

Example 3

On the basis of the embodiment 1, as shown in fig. 1 to 4, a limiting plate 41 is installed on the limiting frame 15 on one side of the feeding support 1, a positioning fluted disc 42 is fixed on the side portion of the feeding support 1, a guide shaft 43 is rotatably installed on the material stirring rod 17, a correcting gear 44 is fixed at one end of the guide shaft 43, the correcting gear 44 is meshed with the positioning fluted disc 42, a correcting rubber roller 46 is rotatably installed on the material stirring rod 17, and the correcting rubber roller 46 is arranged to be closely attached to the guide shaft 43 in parallel.

An alignment screw 47 is installed on the limiting frame 15 through threaded connection, the limiting plate 41 is fixedly installed at one end of the alignment screw 47, and a rotating handle 48 is installed at the other end of the alignment screw 47.

When the kick-out lever 17 rotates, the correction gear 44 at the end of the guide shaft 43 on the kick-out lever rotates under the limitation of the positioning gear, so that the guide shaft 43 rotates, the guide shaft 43 rotates to drive the correction rubber roller 46 to rotate, when the kick-out lever 17 contacts the tubular glass product, the correction rubber roller 46 generates thrust on the tubular glass product, the tubular glass product is aligned with the limiting plate 41, and the consistent firing position of a bending point on each tubular glass product is ensured.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.