CN217677292U - Glass rod heating forming tool - Google Patents

Abstract

The utility model discloses a glass rod heating forming tool, which belongs to the technical field of glass rod processing; the utility model comprises a frame and a conveying mechanism, wherein the frame is provided with a feeding mechanism and a discharging mechanism, and the conveying mechanism is arranged between the feeding mechanism and the discharging mechanism; the glass rod heating mechanism and the glass rod cooling mechanism are both arranged at the upper end of the conveying mechanism, the glass rod heating mechanism is provided with a heating part and a roller round part, and a raw material overturning mechanism is further arranged between the feeding mechanism and the glass rod heating mechanism. The utility model discloses degree of mechanization is high, through heating, roller circle, cooling forming process, and raw materials machining precision is high, is suitable for industrialization batch production, and machining efficiency is high.

Description

Glass rod heating forming tool

Technical Field

The application belongs to the technical field of glass stick processing, and more specifically relates to a glass stick thermoforming frock.

Background

The processing procedure of glass bar generally needs earlier to carry out the rounding processing with unqualified raw and other materials, then obtains the glass bar, but does not have the glass bar machine-shaping equipment of industrialization among the prior art, can't satisfy the industrialization demand of enterprise, and current processing equipment mechanization degree is low moreover, and the processing of glass bar needs to carry out the segmentation under artificial cooperation and removes the processing, complex operation, workman work load is big, the work efficiency is low, and current processing equipment can't satisfy the product machining precision requirement moreover.

SUMMERY OF THE UTILITY MODEL

The utility model provides a glass rod heating and forming tool aiming at the technical problem in the prior art.

In order to solve the technical problem, the utility model comprises a frame and a conveying mechanism, wherein the frame is provided with a feeding mechanism and a discharging mechanism, and the conveying mechanism is arranged between the feeding mechanism and the discharging mechanism; the glass rod heating mechanism and the glass rod cooling mechanism are both arranged at the upper end of the conveying mechanism, the glass rod heating mechanism is provided with a heating part and a roller round part, and a raw material overturning mechanism is further arranged between the feeding mechanism and the glass rod heating mechanism.

Preferably, the glass rod heating mechanism is provided with at least one, and the glass rod heating mechanism is provided with a driving part, a transmission part and a press roller connected with the transmission part and used for rolling.

Preferably, the glass rod cooling mechanism is arranged at a rear end station of the glass rod heating mechanism, at least one glass rod cooling mechanism is arranged, and the glass rod cooling mechanism is provided with a driving part, a transmission part and a cooling press roller connected with the transmission part.

Preferably, the driving part and the transmission part are both arranged at the end part of the press roll, and the upper end of the press roll is provided with a gas pipeline and a heating part.

Preferably, the raw material turnover mechanism is provided with a driving motor, a rotary transmission gear and a turnover supporting part, the turnover supporting part is connected with the feeding mechanism, and one side of the turnover supporting part is provided with a glass rod raw material pushing device.

Preferably, a blanking device is further arranged between the feeding mechanism and the glass rod heating mechanism, the blanking device is provided with a lifting device and a blanking plate arranged at the bottom end of the lifting device, and the blanking plate is arranged at the upper end of the conveying mechanism.

Preferably, glass stick cooling body passes through the support frame board setting in the frame, and the bottom of support frame board is connected with the horizontal migration subassembly, and unloading mechanism sets up the rear end station at glass stick cooling body.

Preferably, the feeding mechanism, the glass rod heating mechanism, the glass rod cooling mechanism and the blanking mechanism are arranged in a step-shaped descending distribution manner, and the conveying mechanism is arranged between the feeding mechanism and the blanking mechanism in an inclined manner.

Preferably, the conveying mechanism is provided with a slide way, and the slide way is obliquely arranged at the upper end of the rack in sections through the supporting device.

Preferably, the number of the glass rod heating mechanisms arranged on the rack is two, and the number of the glass rod cooling mechanisms is two.

Compared with the prior art, the utility model discloses possess following beneficial effect:

the utility model discloses degree of mechanization is high, through heating, roller circle, cooling forming process to through setting up feed mechanism, unloading mechanism, glass stick heating mechanism and glass stick cooling body, each mechanism mutually supports and carries out roller circle and cooling treatment to the glass stick, not only can alleviate workman intensity of labour, and raw materials machining precision is high, is suitable for industrialization batch production moreover, and machining efficiency is high.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic perspective view of the first embodiment of the present invention;

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of a portion of the enlarged structure of FIG. 1;

fig. 4 is a schematic view of a partial enlarged structure at B in fig. 2 according to the present invention;

fig. 5 is a schematic front view of the present invention;

FIG. 6 is a schematic structural view of the sliding part of the compression roller of the present invention;

fig. 7 is a schematic structural diagram of the feeding mechanism and the glass rod heating mechanism of the present invention.

The symbols in the figures indicate:

1. a frame; 101. a support base plate; 102. a support frame; 103. a support plate; 104. a second support plate;

2. a conveying mechanism; 21. a slideway;

3. a feeding mechanism; 301. pushing the raw material of the glass rod into a cylinder; 302. a feeding support plate; 303. pushing the raw material into a rod; 304. a magazine; 305. a reinforcing rib supporting plate;

4. a blanking mechanism; 41. a finished product material box;

5. a glass rod heating mechanism; 51. a first glass rod heating mechanism; 510. a compression roller; 511. a roller motor; 512. a driving wheel; 513. a driven wheel; 514. a transmission belt; 52. a second glass rod rolling mechanism; 53. a press roller sliding part; 531. a slider; 532. a slide rail moving section; 533. a sliding cylinder; 534. a push plate; 54. a gas pipeline; 55. a heating port;

6. a glass rod cooling mechanism; 61. a first glass rod cooling mechanism; 611. cooling the motor; 612. a multi-stage transmission mechanism; 613. cooling the press roll; 62. a second glass rod cooling mechanism; 63 cooling the press roller sliding part;

7. a raw material turnover mechanism; 71. a drive motor; 72. rotating the transmission gear; 73. rotating the rack; 74. turning over the supporting rod;

8. a blanking device; 81. a lifting device; 82. a blanking plate; 83. a blanking bin;

9. a blocking plate; 10. a support frame plate; 11. moving the slide block; 12. and moving the slide rail.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, the utility model provides a glass rod heating and forming tool, which comprises a frame 1 and a conveying mechanism 2, wherein the frame 1 is provided with a feeding mechanism 3 and a discharging mechanism 4, and the conveying mechanism 2 is arranged between the feeding mechanism 3 and the discharging mechanism 4; still include glass stick heating mechanism 5 and glass stick cooling body 6, glass stick heating mechanism 5 and glass stick cooling body 6 all set up in conveying mechanism 2's upper end, and glass stick heating mechanism 5 is equipped with heating portion and roller circle portion, still is provided with raw materials tilting mechanism 7 between feed mechanism 3 and the glass stick heating mechanism 5.

In this embodiment, the feeding mechanism 3, the glass rod heating mechanism 5, the glass rod cooling mechanism 6, and the blanking mechanism 4 are arranged in a descending step-like manner, and the conveying mechanism 2 is arranged in an inclined manner between the feeding mechanism 3 and the blanking mechanism 4.

Specifically, as shown in fig. 1 and 2, the rack 1 is composed of a supporting bottom plate 101, a plurality of supporting frames 102 disposed on the supporting bottom plate 101, and a plurality of supporting plates 103 disposed on the supporting frames 102, the supporting plates 103 are supported and connected by the supporting frames 102, and the feeding mechanism 3, the glass rod heating mechanism 5, and the glass rod cooling mechanism 6 are all disposed on the supporting plates 103 and are all supported by the supporting plates 103.

The feeding mechanism 3 is provided with a glass rod raw material pushing cylinder 301 and a feeding support plate 302, a raw material pushing rod 303 is arranged at the end part of the glass rod raw material pushing cylinder 301, the raw material pushing rod 303 is arranged at one side of the feeding support plate 302, a material box 304 is arranged on the feeding support plate 302, the glass rod raw material is stored on the material box 304, and a reinforcing rib support plate 305 is connected to one side of the feeding support plate 302, which is far away from the raw material pushing rod 303; the empty feed box 304 after the feeding is pushed to the adjacent reinforcing rib supporting plate 305 from the feeding supporting plate 302 by the glass rod raw material pushing cylinder 301 and the raw material pushing rod 303, and then the empty feed box 304 pushed to the reinforcing rib supporting plate 305 from the raw material pushing rod 303 is taken away by the clamping jaw on the heating furnace for reloading, and the loaded feed box 304 is reloaded to the feeding supporting plate 302 by external equipment for reloading the glass rods.

Furthermore, the irregular square glass rod raw materials fed by the feeding device are fed to the next station through the material box 304, and after the glass rod raw materials are pushed in place by the feeding mechanism 3, the glass rod raw materials are turned over by the raw material turning mechanism 7, and then the glass rod raw materials are pushed to the glass rod heating mechanism 5.

Specifically, as shown in fig. 2 and 4, the raw material turnover mechanism 7 is provided with a driving motor 71 and a rotation transmission gear 72, the end of the driving motor 71 is fixedly connected with a rotation rack 73, the rotation rack 73 is horizontally arranged, the rotation rack 73 is meshed with the rotation transmission gear 72 arranged at the upper end of the rotation rack 73, and a turnover support rod 74 is fixedly connected to the rotation transmission gear 72; the upper end of upset bracing piece 74 is connected with material loading backup pad 302, can drive material loading backup pad 302 rotation through upset bracing piece 74 and carry out the glass stick material loading, and upset bracing piece 74 passes through strutting arrangement and sets up on backup pad 103, and material loading backup pad 302 and magazine 304 all establish and set up on upset bracing piece 74.

Furthermore, as shown in fig. 5, a blanking device 8 is further disposed between the feeding mechanism 3 and the glass rod heating mechanism 5, the blanking device 8 is supported by a second supporting plate 104, and the second supporting plate 104 is fixedly disposed at the upper end of the supporting plate 103; the blanking device 8 is provided with a lifting device 81 and a blanking plate 82, the lifting device 81 is arranged at the upper end of the second supporting plate 104, the blanking plate 82 is arranged at the lower end of the second supporting plate 104, and the blanking plate 82 is connected with the lifting device 81 arranged at the upper end of the blanking plate through a connecting device.

The blanking plate 82 is arranged on the blanking bin 83, the blanking bin 83 is obliquely arranged and is fixedly arranged on the supporting plate 103 through a supporting device and is used for connecting the raw material turnover mechanism 7 with the glass rod heating mechanism 5; the blanking plate 82 is of a vertically arranged plate-shaped structure, and the blanking plate 82 is used for temporarily blocking the raw materials fed by the feeding mechanism 3 so that a temporary storage space is reserved before the raw materials enter the glass rod heating mechanism 5.

Furthermore, as the preferred embodiment of the present invention, the lifting device 81 can be a lifting cylinder or other lifting devices, and the lower end of the lifting cylinder is fixedly connected to the blanking plate 82 through a lifting rod.

As shown in fig. 1 and 3, in the present embodiment, two glass rod heating mechanisms 5 are provided, namely a first glass rod heating mechanism 51 and a second glass rod rounding mechanism 52, the first glass rod heating mechanism 51 is provided at the front end station for rolling and rounding the glass rod raw material, and the second glass rod rounding mechanism 52 is provided at the rear end station for rounding and further finishing the glass rod raw material processed by the first glass rod heating mechanism 51.

Specifically, the first glass rod heating mechanism 51 includes a roller circle portion composed of a driving portion, a transmission portion, and a pressing roller 510, and a heating portion composed of a gas pipe 54 and a heating port 55; the driving part is provided with a roller motor 511, the transmission part is a multi-stage transmission mechanism consisting of a driving wheel 512, a driven wheel 513 and a transmission belt 514 connected with the transmission wheel, the compression roller 510 is arranged above the supporting plate 103 through a supporting device, one end of the compression roller 510 is connected with the transmission wheel, and the other end of the compression roller 510 is movably connected with a supporting part arranged on the supporting plate 103 through a connecting bearing. The roller rounding motor 511 drives the driving wheel 512 to rotate, and then the driving wheel is transmitted to each driven wheel 513 under the transmission action of the transmission belt 514, so as to drive the compression roller 510 to rotate, and carry out the roller rounding treatment on the glass rods on the compression roller 510.

In this embodiment, there are three press rollers 510, two press rollers 510 are disposed adjacently and in parallel at the lower end, and one press roller 510 is disposed at the upper end, and the whole is arranged in a triangle; one of the pressure rollers 510 at the lower end is connected to the pressure roller sliding portion 53 through a transmission belt 514 and a driven pulley 513, as shown in fig. 6 and 7, the pressure roller sliding portion 53 is provided with a slider 531 arranged on the support plate 103 and a rail moving portion 532 slidably connected to the slider 531, the upper end of the rail moving portion 532 is connected to the pressure roller 510, and the rail moving portion 532 is movably connected to the driven pulley 513; the bottom fixedly connected with slip cylinder 533 of backup pad 103, slip cylinder 533 is connected with slide rail removal portion 532 through pushing plate 534 to slip cylinder 533 can drive slide rail removal portion 532 and remove along slider 531, thereby drives compression roller 510 and removes, falls into the below station with the glass stick of its top.

Furthermore, two ends of the upper pressing roller 510 of the first glass rod heating mechanism 51 are connected with the slider assembly through a supporting device, the slider assembly is arranged on the supporting plate 103, and the upper pressing roller 510 can be driven to move up and down through the slider assembly.

Further, both ends of the pressing roller 510 are provided with the pressing roller sliding portions 53, so that the pressing roller 510 at the lower end can be driven to move in the radial direction, and the glass rod at the upper end thereof falls to the processing station below.

Further, a heating port 55 is provided at an end of the gas pipe 54, and the heating port 55 is provided directly above the first glass rod heating mechanism 51 to heat the glass rods, the heating port 55 being provided transversely along the length direction of the support plate 103; transport the gas through gas pipeline 54, then spray the gas through heating port 55, gas combustion flaming heating becomes soft after heating glass rod raw and other materials, then carries out roll-in, roller circle with the glass rod through three compression rollers 510 of roller circle portion, then carries out the finish machining of glass rod through the second glass rod roller circle mechanism 52 that conveying mechanism 2 landing below with the glass rod on the first glass rod heating mechanism 51 through compression roller sliding part 53.

Furthermore, in this embodiment, two heating portions are provided, which are respectively disposed on the upper portion and the side of the pressing roller 510, so that the glass rod can be uniformly and comprehensively heated.

Furthermore, the second glass rod rolling mechanism 52 is similar to the first glass rod heating mechanism 51 in structure and is provided with a rolling portion composed of a driving portion, a transmission portion and a pressing roller, the driving portion is provided with a rolling motor 511, the transmission portion is a multi-stage transmission mechanism composed of a driving wheel 512, a driven wheel 513 and a transmission belt 514 connected with the driving wheel, one end of the pressing roller 510 is connected with the transmission wheel, and the other end of the pressing roller 510 is movably connected with a supporting portion arranged on the supporting plate 103 through a connecting bearing. The roller circle motor 511 drives the driving wheel 512 to rotate, and then the driving wheel is transmitted to the driven wheel 513 under the transmission action of the transmission belt 514, so that the pressing roller 510 is driven to rotate, and the glass rod on the pressing roller 510 is subjected to roller circle finishing treatment.

Specifically, different from the first glass rod heating mechanism 51, the second glass rod rounding mechanism 52 is provided with two press rolls 510, and the two press rolls 510 are arranged in parallel and adjacent to each other to jointly form a second glass rod rounding station; meanwhile, two ends of one of the pressure rollers 510 are also connected with a pressure roller sliding part 53, the pressure roller sliding part 53 at one end provided with a roller round motor 511 is connected with a transmission mechanism, the pressure roller sliding part 53 is provided with a slide block 531 arranged on the supporting plate 103 and a slide rail moving part 532 in sliding connection with the slide block 531, the upper end of the slide rail moving part 532 is connected with the pressure roller 510, and the slide rail moving part 532 is movably connected with the driven wheel 513.

And the bottom page or leaf fixedly connected with slip cylinder 533 of backup pad 103, slip cylinder 533 is connected with slide rail removal portion 532 through pushing plate 534, thereby slip cylinder 533 can drive slide rail removal portion 532 and remove along slider 531, thereby drive compression roller 510 and remove, the glass stick that accomplishes its top processing falls into the below station through the middle part space of two compression rollers 510, accomplish the round finish machining of roller of glass stick, and the glass stick after the finish machining accomplishes rolls automatically-cooled to glass stick cooling body 6 through conveying mechanism 2 landing.

Specifically, as shown in fig. 4, in the present embodiment, the glass rod cooling mechanism 6 is disposed at the rear end station of the glass rod heating mechanism 5, two glass rod cooling mechanisms 6 are provided, which are a first glass rod cooling mechanism 61 and a second glass rod cooling mechanism 62, respectively, and the first glass rod cooling mechanism 61 and the second glass rod cooling mechanism 62 are disposed at the upper end of the support plate 103 through a support device.

The first glass rod cooling mechanism 61 and the second glass rod cooling mechanism 62 have the same structure, and are respectively provided with a cooling motor 611, a multi-stage transmission mechanism 612 and a cooling press roller 613, the cooling motor 611 drives the cooling press roller 613 to rotate through the multi-stage transmission mechanism 612, the multi-stage transmission mechanism 612 is composed of a driving wheel, a driven wheel and a transmission belt for connecting the driving wheels, and the structure of the multi-stage transmission mechanism is the same as that of the glass rod heating mechanism 5; the number of the cooling pressure rollers 613 is two, one end of the cooling pressure roller 613 is connected to the driving wheel, and the other end of the cooling pressure roller 613 is movably connected to a support part provided on the support plate 103 through a connecting bearing. Cooling motor 611 drives the action wheel rotatory, and then transmits for from the driving wheel under the transmission of drive belt to drive cooling compression roller 613 and rotate, carry out the natural cooling to the glass stick on cooling compression roller 613 and handle, through the rotation of cooling compression roller 613, make glass stick cooling effect more even, guarantee the processingquality of glass stick.

And the end of the cooling press roll 613 arranged in the first glass rod cooling mechanism 61 and the second glass rod cooling mechanism 62 is connected with a cooling press roll sliding part 63 composed of a slide block, a slide rail and a support connection plate, the cooling press roll sliding part 63 is connected with the multi-stage transmission mechanism through the support connection plate, the structure of the cooling press roll sliding part 63 is the same as that of the press roll sliding part 53 of the glass rod heating mechanism 5, so that the cooling motor 611 drives the multi-stage transmission mechanism to move and simultaneously drives the cooling press roll 613 to rotate, and the bottom of the support plate 103 is fixedly connected with a sliding cylinder 533 which is connected with the cooling press roll sliding part 63 through a push plate 534, so that the sliding cylinder 533 can drive the slide rail moving part to move along the slide block, thereby driving the cooling press roll 613 to move, and the glass rod above the cooling press roll 613 slides to the lower station through the middle parts of the two cooling press rolls 613.

Furthermore, the glass rod sequentially passes through the first glass rod cooling mechanism 61 and the second glass rod cooling mechanism 62 for natural cooling, that is, the glass rod slides down from the first glass rod cooling mechanism 61 to the second glass rod cooling mechanism 62 through the conveying mechanism 2, and then slides down to the finished product material box 41 of the blanking mechanism 4 through the conveying mechanism 2 after being cooled by the second glass rod cooling mechanism 62.

Further, as the preferred embodiment of the present invention, the upper end of the pressing roller sliding part disposed on the second glass rod rolling part 52, the first glass rod cooling mechanism 61 and the second glass rod cooling mechanism 62 is provided with the blocking plate 9, and the blocking plate 9 is disposed on the upper end of the pressing roller 510 and the cooling pressing roller 613, and disposed along the length direction of the pressing roller, so as to block the glass rod loaded, prevent the glass rod from sliding down to the lower station from the front station loading, and block the glass rod from being processed on the pressing roller.

Furthermore, as a preferred embodiment of the present invention, the bottoms of the first glass rod cooling mechanism 61 and the second glass rod cooling mechanism 62 are arranged on the supporting bottom plate 101 through the supporting frame plate 10, the supporting frame plate 10 is vertically arranged, and two supporting frame plates 10 are arranged at two ends of the glass rod cooling mechanism 6 respectively; the bottom of two support frame boards 10 all is connected with the horizontal migration subassembly, and the horizontal migration subassembly is equipped with and removes slider 11 and moving slide rail 12, removes the fixed bottom that sets up at support frame board 10 of slider 11, and moving slide rail 12 is fixed to be set up on supporting baseplate 101, removes slider 11 and moving slide rail 12 fixed connection. Through setting up the horizontal migration subassembly in the bottom of glass stick cooling body 6, conveniently adjust the distance between glass stick cooling body 6 and glass stick heating mechanism 5 and the unloading mechanism 4, conveniently adjust the horizontal position of glass stick cooling body 6, the unloading is more convenient.

Furthermore, the conveying mechanism 4 is provided with four slideways 21, the slideways 21 are obliquely arranged on the upper end of the supporting plate 103 in sections through supporting devices, and are respectively obliquely arranged between the first glass rod heating mechanism 51 and the second glass rod rolling mechanism 52, between the second glass rod rolling mechanism 52 and the first glass rod cooling mechanism 61, between the first glass rod cooling mechanism 61 and the second glass rod cooling mechanism 62, and between the second glass rod cooling mechanism 62 and the finished product material box 41, so as to convey glass rods between different mechanisms.

The utility model discloses degree of mechanization is high, through heating, roller circle, cooling forming process to through setting up feed mechanism, unloading mechanism, glass stick heating mechanism and glass stick cooling body, each mechanism mutually supports and carries out roller circle and cooling treatment to the glass stick, not only can alleviate workman intensity of labour, and raw materials machining precision is high, is suitable for industrialization batch production moreover, and machining efficiency is high.

In the description of the present invention, it is to be understood that the positional or positional relationships, such as the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, are based on the positional or positional relationships illustrated in the drawings and are for convenience in describing the present application and to simplify the description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered as limiting of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A glass rod heating forming tool comprises a rack and a conveying mechanism, wherein a feeding mechanism and a discharging mechanism are arranged on the rack; the glass rod heating mechanism and the glass rod cooling mechanism are arranged at the upper end of the conveying mechanism, the glass rod heating mechanism is provided with a heating part and a roller round part, and a raw material turnover mechanism is further arranged between the feeding mechanism and the glass rod heating mechanism.

2. The glass rod heating forming tool according to claim 1, wherein at least one glass rod heating mechanism is provided, and the glass rod heating mechanism is provided with a driving part, a transmission part and a pressing roller connected with the transmission part and used for rolling.

3. The glass rod heating and forming tool according to claim 1, wherein the glass rod cooling mechanism is arranged at a rear end station of the glass rod heating mechanism, at least one glass rod cooling mechanism is arranged, and the glass rod cooling mechanism is provided with a driving portion, a transmission portion and a cooling press roller connected with the transmission portion.

4. The glass rod heating forming tool according to claim 2, wherein the driving portion and the transmission portion are both arranged at an end portion of the pressing roller, and a gas pipeline and a heating portion are arranged at an upper end of the pressing roller.

5. The glass rod heating forming tool according to claim 1, wherein the raw material turning mechanism is provided with a driving motor, a rotating transmission gear and a turning supporting portion, the turning supporting portion is connected with the feeding mechanism, and a glass rod raw material pushing device is arranged on one side of the turning supporting portion.

6. The glass rod heating and forming tool according to claim 1, wherein a blanking device is further arranged between the feeding mechanism and the glass rod heating mechanism, the blanking device is provided with a lifting device and a blanking plate arranged at the bottom end of the lifting device, and the blanking plate is arranged at the upper end of the conveying mechanism.

7. The glass rod heating and forming tool according to claim 1, wherein the glass rod cooling mechanism is arranged on the rack through a support frame plate, a horizontal moving assembly is connected to the bottom end of the support frame plate, and the blanking mechanism is arranged at a rear end station of the glass rod cooling mechanism.

8. The glass rod heating and forming tool according to any one of claims 1 to 7, wherein the feeding mechanism, the glass rod heating mechanism, the glass rod cooling mechanism and the blanking mechanism are arranged in a stepped descending distribution manner, and the conveying mechanism is obliquely arranged between the feeding mechanism and the blanking mechanism.

9. The glass rod heating forming tool according to claim 8, wherein the conveying mechanism is provided with a slide way, and the slide way is obliquely arranged at the upper end of the rack in a segmented mode through a supporting device.

10. The glass rod heating and forming tool according to claim 8, wherein the number of the glass rod heating mechanisms arranged on the rack is two, and the number of the glass rod cooling mechanisms is two.

Images