CN211999463U - Glass tube wire drawing machine - Google Patents
Glass tube wire drawing machine Download PDFInfo
- Publication number
- CN211999463U CN211999463U CN202020174207.1U CN202020174207U CN211999463U CN 211999463 U CN211999463 U CN 211999463U CN 202020174207 U CN202020174207 U CN 202020174207U CN 211999463 U CN211999463 U CN 211999463U
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- guide rail
- frame
- glass tube
- material pressing
- sliding block
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Abstract
The utility model relates to a glass processing equipment technical field, concretely relates to glass pipe wire drawing machine. The machine body frame transverse movement guide rail is fixedly mounted at the top of the machine body frame, a main body movement guide rail sliding block is connected to the machine body frame transverse movement guide rail in a sliding mode, the top of the main body movement guide rail sliding block is respectively connected with a feeding frame and a material pressing frame, and a discharging frame is fixed at the other end of the machine body frame. The utility model discloses can realize that autogiration, heating, compression, tensile, the transmission a plurality of important steps of glass pipe, each step need not manual operation, has saved the labour greatly, has improved work efficiency, has avoided staff's operation process error injury simultaneously, has guaranteed that staff's is healthy.
Description
Technical Field
The utility model relates to a glass processing equipment technical field, concretely relates to glass pipe wire drawing machine.
Background
The glass shell of the bulb is always formed by burning a long glass tube by gas flame to a certain section of circumference of the glass tube, clamping the melting point by using tweezers when the temperature of the glass tube reaches the glass melting point, manually drawing and stretching the melting point to enable the glass tube to be naturally drawn and stretched to form a closed state, and rotating the glass tube when the flame is burnt to divide the glass tube into a plurality of sections of closed glass shells to form the closed state. Because the mode is formed by single manual processing, the working temperature is high, the labor intensity is high, the health of workers is damaged, the production operation is complicated, the operation of the workers is easy to make mistakes, the wire drawing yield of the glass tube is low, the production efficiency is low, and the requirements of the current production cannot be met.
SUMMERY OF THE UTILITY MODEL
To the deficiency of the prior art, the utility model provides a glass tube wire drawing machine.
A glass tube drawing machine comprises a machine body frame, wherein a machine body frame transverse motion guide rail is fixedly mounted at the top of the machine body frame, a main body motion guide rail sliding block is connected onto the machine body frame transverse motion guide rail in a sliding mode, the top of the main body motion guide rail sliding block is respectively connected with a feeding frame and a material pressing frame, and a material discharging frame is fixed at the other end of the machine body frame.
The glass tube length movement device comprises a feeding frame, a feeding motor, a glass tube length movement frame guide rail slider, a glass tube rotation motor output end, a glass tube rotation gear, a glass tube rotation motor output end, a feeding transmission shaft, a plurality of glass tube rotation supporting wheels and a plurality of glass tube rotation supporting wheels, wherein the feeding frame is provided with the upper machine body glass tube length movement frame guide rail, the upper machine body glass tube length movement frame guide rail is connected with the upper machine body glass tube length movement frame guide rail.
The glass tube pressing device is characterized in that a flame jet is arranged in the middle of the material pressing frame, material pressing cylinders are respectively fixed in material pressing frames at two ends of the flame jet, moving shafts of the material pressing frames are respectively installed at the front end and the rear end of each material pressing frame, the middle of each material pressing cylinder is fixedly connected with the middle lower end of each moving shaft of the material pressing frame, a fixed plate is sleeved between the moving shafts of the material pressing frames, the top of each material pressing cylinder is fixedly connected with the top of the corresponding fixed plate, an elastic sliding block of a material pressing roller is installed in the middle of each fixed plate, a material pressing roller is fixed at the bottom of each elastic sliding block of the material pressing roller, the bottom of each material pressing roller is connected with a glass tube rotating supporting wheel in a rolling mode, and the bottom of each moving shaft of.
The unloading frame middle part is fixed with unloading motion motor, unloading motor conveyer belt is connected to unloading motion motor output, unloading motor conveyer belt other end transmission is connected with the unloading transmission shaft, both ends are connected with the connecting rod through the bearing respectively about the unloading transmission shaft, unloading transmission shaft both ends are still respectively through unloading chain and another unloading transmission shaft transmission is connected, the vertical horizontal motion end stand that is fixed with in unloading frame both ends, horizontal motion end stand top rigid coupling has the horizontal motion guide rail, horizontal motion guide rail one end is fixed with the horizontal motion cylinder, the fixed manipulator in horizontal motion cylinder top, the manipulator with horizontal motion guide rail sliding connection.
The manipulator comprises a cylinder fixing plate, a manipulator up-and-down motion cylinder and a manipulator chuck, the cylinder fixing plate is fixed at the top of the horizontal motion cylinder and is connected with the horizontal motion guide rail in a sliding mode, the manipulator up-and-down motion cylinder is fixed at the top of the cylinder fixing plate, a manipulator up-and-down motion sliding plate is fixedly connected to the bottom of the manipulator up-and-down motion cylinder, manipulator up-and-down motion guide pillars are fixedly connected to two ends of the bottom of the cylinder fixing plate respectively, sliding plates are sleeved on the manipulator up-and-down motion guide pillars, the bottom of each sliding plate is connected with a clamping motion guide rail, and one end of each.
The main body movement guide rail sliding block comprises a first main body movement guide rail sliding block, a second main body movement guide rail sliding block and a third main body movement guide rail sliding block, the top of the first main body movement guide rail sliding block is connected with the feeding frame, and the tops of the second main body movement guide rail sliding block and the third main body movement guide rail sliding block are respectively fixedly connected with the moving shaft of the material pressing frame.
The upper machine body glass tube length movement frame guide rail slide block and the feeding frame are connected with a wire drawing movement numerical control motor through a wire drawing movement rack and a wire drawing movement gear.
The bottom of the flame-throwing port is connected with a flame-throwing pipeline, and a combustion gas control valve is arranged on the flame-throwing pipeline.
The utility model has the advantages that:
the utility model discloses can realize that autogiration, heating, compression, tensile, the transmission a plurality of important steps of glass pipe, each step need not manual operation, has saved the labour greatly, has improved work efficiency, has avoided staff's operation process error injury simultaneously, has guaranteed that staff's is healthy.
Drawings
Fig. 1 is a front view of the present invention;
fig. 2 is a top view of the present invention;
fig. 3 is the cross-sectional view of the material pressing frame of the present invention.
In the figure: 1. a machine body frame, 2, a transverse motion guide rail of the machine body frame, 3, a feeding frame, 31, an upper machine body glass tube length motion frame guide rail, 32, an upper machine body glass tube length motion frame guide rail slide block, 33, a glass tube rotating motor, 34, a transmission shaft, 35, a glass tube rotating riding wheel, 36, a glass tube rotating gear, 37, a feeding transmission shaft, 4, a pressing frame, 41, a fire nozzle, 42, a pressing cylinder, 43, a pressing frame motion shaft, 44, a fixing plate, 45, a pressing roller elastic slide block, 46, a pressing roller, 5, a discharging frame, 51, a discharging motion motor, 52, a discharging motor transmission belt, 53, a discharging chain, 54, a discharging transmission shaft, 55, a bearing, 56, a connecting rod, 57, a horizontal motion end column, 58, a horizontal motion guide rail, 59, a horizontal motion cylinder, 6, a glass tube, 7, a first main body motion guide rail slide block, 8, a glass tube, The device comprises a second main body movement guide rail slide block, 9, a third main body movement guide rail slide block, 10, a combustion gas control valve, 11, a manipulator up-and-down movement cylinder, 12, a manipulator chuck, 13, a cylinder fixing plate, 14, a manipulator up-and-down movement slide block plate, 15, a manipulator up-and-down movement guide column, 16, a clamping movement guide rail, 17, a wire drawing movement rack, 18 and a wire drawing movement numerical control motor.
Detailed Description
Referring to fig. 1-3, a glass tube drawing machine comprises a machine body frame 1, a machine body frame transverse movement guide rail 2 is fixedly installed at the top of the machine body frame 1, a main body movement guide rail slide block is connected onto the machine body frame transverse movement guide rail 2 in a sliding mode, the top of the main body movement guide rail slide block is respectively connected with a feeding frame 3 and a material pressing frame 4, and a discharging frame 5 is fixed at the other end of the machine body frame 1.
An upper machine body glass tube length motion frame guide rail 31 is installed on the feeding frame 3, an upper machine body glass tube length motion frame guide rail sliding block 32 is connected to the upper machine body glass tube length motion frame guide rail 31 in a sliding mode, one end of the upper machine body glass tube length motion frame guide rail sliding block 32 is connected with a glass tube 6, a glass tube rotating motor 33 is fixed to one end of the feeding frame 3, the output end of the glass tube rotating motor 33 is connected with a transmission shaft 34, the transmission shaft 34 is in transmission connection with a feeding transmission shaft 37 through a glass tube rotating gear 36 respectively, and a plurality of glass tube rotating supporting wheels 35 are evenly connected to the feeding transmission shaft 37 in a rolling mode.
The middle part of the material pressing frame 4 is provided with a fire spraying port 41, material pressing cylinders 42 are respectively fixed in the material pressing frames 4 at the two ends of the fire spraying port 41, the front and rear ends of the material pressing frame 4 are respectively provided with a material pressing frame moving shaft 43, the middle part of each material pressing cylinder 42 is fixedly connected with the middle and lower ends of the material pressing frame moving shaft 43, a fixing plate 44 is sleeved between the material pressing frame moving shafts 43, the top part of each material pressing cylinder 42 is fixedly connected with the top part of the fixing plate 44, the middle part of each fixing plate 44 is provided with a material pressing roller elastic sliding block 45, the bottom part of each material pressing roller elastic sliding block 45 is fixedly provided with a material pressing roller 46, the bottom part of each material pressing roller 46 is connected with the glass tube 6 in a rolling manner, the bottom part of.
The middle part of the blanking frame 5 is fixed with a blanking motion motor 51, the output end of the blanking motion motor 51 is connected with a blanking motor conveyor belt 52, the other end of the blanking motor conveyor belt 52 is in transmission connection with a blanking transmission shaft 54, the left end and the right end of the blanking transmission shaft 54 are respectively connected with a connecting rod 56 through bearings 55, the two ends of the blanking transmission shaft 54 are also in transmission connection with another blanking transmission shaft 54 through blanking chains 53, horizontal motion end columns 57 are vertically fixed at the two ends of the blanking frame 5, horizontal motion guide rails 58 are fixedly connected to the tops of the horizontal motion end columns 57, one ends of the horizontal motion guide rails 58 are fixed with horizontal motion cylinders 59, manipulators are fixed to the tops of the horizontal motion cylinders 59.
The manipulator includes cylinder fixed plate 13, manipulator up-and-down motion cylinder 11 and manipulator chuck 12, horizontal motion cylinder 59 top is fixed with cylinder fixed plate 13, cylinder fixed plate 13 and horizontal motion guide rail 58 sliding connection, manipulator up-and-down motion cylinder 11 is fixed at cylinder fixed plate 13 top, manipulator up-and-down motion cylinder 11 bottom rigid coupling has manipulator up-and-down motion slider board 14, cylinder fixed plate 13 bottom both ends fixedly connected with manipulator up-and-down motion guide pillar 15 respectively, slider board 14 has been cup jointed on manipulator up-and-down motion guide pillar 15, clamping motion guide rail 16 is connected to slider board 14 bottom, clamping motion guide rail 16 one end sliding connection has manipulator chuck 12.
The main body movement guide rail slide block comprises a first main body movement guide rail slide block 7, a second main body movement guide rail slide block 8 and a third main body movement guide rail slide block 9, the top of the first main body movement guide rail slide block 7 is connected with the feeding frame 3, and the tops of the second main body movement guide rail slide block 8 and the third main body movement guide rail slide block 9 are respectively fixedly connected with the material pressing frame movement shaft 43.
The upper machine body glass tube length movement frame guide rail slide block 32 and the feeding frame 3 are connected with a wire drawing movement numerical control motor 18 through a wire drawing movement rack 17 and a wire drawing movement gear.
The bottom of the flame-throwing port 41 is connected with a flame-throwing pipeline, and a combustion gas control valve 10 is arranged on the flame-throwing pipeline.
When the glass tube wire drawing machine works, firstly, the glass tube rotating motor drives the transmission shaft to rotate at a constant speed, and drives the glass tube rotating riding wheel on the feeding transmission shaft to rotate at a constant speed, thereby enabling the glass tube to rotate at a constant speed, then the combustion gas control valve is opened to enable the fire-jet port to heat the glass tube, when the glass tube is heated to a certain degree, the heating and the rotation are stopped, the material-pressing cylinder drives the fixed plate to drive the material-pressing roller to move downwards to a proper position to press the glass tube, the wire-drawing movement numerical control motor drives the upper machine body glass tube length movement frame guide rail slide block and the feeding frame to move relatively to draw the wire, a plurality of important steps of automatic rotation, heating, pressing, drawing and transmission of the glass tube can be realized, manual operation is not needed in each step, the labor force is greatly saved, and the working efficiency is improved, meanwhile, the operation process of workers is prevented from being damaged due to errors, and the personal health of the workers is ensured.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides a glass tube wire drawing machine, includes organism frame (1), its characterized in that: the machine body frame transverse movement guide rail (2) is fixedly installed at the top of the machine body frame (1), a main body movement guide rail sliding block is connected onto the machine body frame transverse movement guide rail (2) in a sliding mode, the top of the main body movement guide rail sliding block is connected with the feeding frame (3) and the material pressing frame (4) respectively, and the other end of the machine body frame (1) is fixedly provided with the material discharging frame (5).
2. The glass tube drawing machine according to claim 1, wherein: install organism glass pipe length motion frame guide rail (31) on pay-off frame (3), sliding connection has organism glass pipe length motion frame guide rail slider (32) on last organism glass pipe length motion frame guide rail (31), it is connected with glass pipe (6) to go up organism glass pipe length motion frame guide rail slider (32) one end, pay-off frame (3) one end is fixed with glass pipe and rotates motor (33), glass pipe rotates motor (33) output and connects transmission shaft (34), transmission shaft (34) are connected with material loading transmission shaft (37) transmission respectively through glass pipe rotating gear (36), evenly roll-connected has a plurality of glass pipes to rotate riding wheel (35) on material loading transmission shaft (37).
3. The glass tube drawing machine according to claim 2, wherein: the glass tube pressing device is characterized in that a flame jet (41) is arranged in the middle of the material pressing frame (4), material pressing cylinders (42) are respectively fixed in the material pressing frame (4) at two ends of the flame jet (41), material pressing frame moving shafts (43) are respectively installed at the front end and the rear end of the material pressing frame (4), the middle of each material pressing cylinder (42) is fixedly connected with the middle lower end of each material pressing frame moving shaft (43), a fixing plate (44) is sleeved between the material pressing frame moving shafts (43), the top of each material pressing cylinder (42) is fixedly connected with the top of the corresponding fixing plate (44), a material pressing roller elastic sliding block (45) is installed in the middle of each fixing plate (44), a material pressing roller (46) is fixed at the bottom of each material pressing roller elastic sliding block (45), the bottom of each material pressing roller (46) is connected with the corresponding glass tube (6) in a rolling manner, and the bottom of the corresponding glass tube (, the bottom of the material pressing frame moving shaft (43) is fixed on the main body moving guide rail slide block.
4. The glass tube drawing machine according to claim 1, wherein: a blanking motion motor (51) is fixed in the middle of the blanking frame (5), the output end of the blanking motion motor (51) is connected with a blanking motor conveyor belt (52), the other end of the blanking motor conveyor belt (52) is connected with a blanking transmission shaft (54) in a transmission way, the left end and the right end of the blanking transmission shaft (54) are respectively connected with a connecting rod (56) through a bearing (55), the two ends of the blanking transmission shaft (54) are respectively connected with the other blanking transmission shaft (54) in a transmission way through a blanking chain (53), two ends of the blanking frame (5) are vertically fixed with horizontal moving end upright posts (57), the top of the horizontal movement end column (57) is fixedly connected with a horizontal movement guide rail (58), one end of the horizontal moving guide rail (58) is fixed with a horizontal moving cylinder (59), and a manipulator is fixed on the top of the horizontal movement cylinder (59), and the manipulator is in sliding connection with the horizontal movement guide rail (58).
5. The glass tube drawing machine according to claim 4, wherein: the manipulator comprises a cylinder fixing plate (13), a manipulator up-and-down movement cylinder (11) and a manipulator chuck (12), the top of the horizontal movement cylinder (59) is fixed with a cylinder fixing plate (13), the cylinder fixing plate (13) is connected with the horizontal movement guide rail (58) in a sliding way, a manipulator up-and-down movement cylinder (11) is fixed at the top of the cylinder fixing plate (13), a manipulator up-and-down motion sliding block plate (14) is fixedly connected at the bottom of the manipulator up-and-down motion cylinder (11), two ends of the bottom of the cylinder fixing plate (13) are respectively and fixedly connected with a manipulator up-and-down moving guide post (15), a slide block plate (14) is sleeved on the up-and-down moving guide post (15) of the manipulator, the bottom of the slider plate (14) is connected with a clamping motion guide rail (16), and one end of the clamping motion guide rail (16) is connected with a manipulator chuck (12) in a sliding manner.
6. A glass tube drawing machine according to claim 3, characterized in that: the main body movement guide rail sliding block comprises a first main body movement guide rail sliding block (7), a second main body movement guide rail sliding block (8) and a third main body movement guide rail sliding block (9), the top of the first main body movement guide rail sliding block (7) is connected with the feeding frame (3), and the tops of the second main body movement guide rail sliding block (8) and the third main body movement guide rail sliding block (9) are respectively fixedly connected with a material pressing frame movement shaft (43).
7. The glass tube drawing machine according to claim 2, wherein: the upper machine body glass tube length movement frame guide rail sliding block (32) and the feeding frame (3) are connected with a wire drawing movement numerical control motor (18) through a wire drawing movement rack (17) and a wire drawing movement gear.
8. A glass tube drawing machine according to claim 3, characterized in that: the bottom of the flame-throwing port (41) is connected with a flame-throwing pipeline, and a combustion gas control valve (10) is arranged on the flame-throwing pipeline.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020174207.1U CN211999463U (en) | 2020-02-14 | 2020-02-14 | Glass tube wire drawing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020174207.1U CN211999463U (en) | 2020-02-14 | 2020-02-14 | Glass tube wire drawing machine |
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Publication Number | Publication Date |
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CN211999463U true CN211999463U (en) | 2020-11-24 |
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Application Number | Title | Priority Date | Filing Date |
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CN202020174207.1U Active CN211999463U (en) | 2020-02-14 | 2020-02-14 | Glass tube wire drawing machine |
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CN (1) | CN211999463U (en) |
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2020
- 2020-02-14 CN CN202020174207.1U patent/CN211999463U/en active Active
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