CN218965839U - Silicon rod processing workbench - Google Patents

Abstract

The utility model discloses a silicon rod processing workbench, which comprises a rack, wherein the rack is provided with a plurality of guide rails; the operation turntable is at least partially arranged at the lower side of the rack and is rotationally connected with the rack; the clamping head seat is arranged on the side surface of the frame and moves on the frame along the up-down direction; the clamping tail seat is arranged on the side surface of the frame, the clamping tail seat is arranged on the lower side or the upper side of the clamping head seat, and the clamping head seat and the clamping tail seat are used for fixing two ends of the silicon rod; the organ shield is at least partially arranged between the upper end of the frame and the clamping headstock, and is also at least partially arranged between the clamping headstock and the clamping tailstock; the silicon rod machining workbench further comprises a steel plate shield, the steel plate shield is at least partially arranged around the organ shield, and the steel plate shield is at least partially arranged between the clamping head seat and the clamping tail seat. Through the arrangement, the steel plate shield has better impact resistance, so that the sealing performance and the service life of the silicon rod processing workbench are improved.

Description

Silicon rod processing workbench

Technical Field

The utility model relates to the field of machine tools, in particular to a silicon rod machining workbench.

Background

At present, in the existing silicon rod processing workbench, a driving mechanism between a clamping head seat and a clamping tail seat, a sliding guide rail part and internal parts of a frame are protected by virtue of an organ shield, and in the silicon rod processing process, the organ shield can contact a large amount of silicon mud or slag, so that the service life is greatly reduced, the situation of cracking is easy to occur, and the protection is invalid.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model aims to provide a silicon rod processing workbench capable of improving the sealing performance and prolonging the service life.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a silicon rod processing workbench comprises a frame; the operation turntable is at least partially arranged at the lower side of the rack and is rotationally connected with the rack; the clamping head seat is arranged on the side surface of the frame and moves on the frame along the up-down direction; the clamping tail seat is arranged on the side surface of the frame, the clamping tail seat is arranged on the lower side or the upper side of the clamping head seat, and the clamping head seat and the clamping tail seat are used for fixing two ends of the silicon rod; the organ shield is at least partially arranged between the upper end of the frame and the clamping headstock, and is also at least partially arranged between the clamping headstock and the clamping tailstock; the silicon rod machining workbench further comprises a steel plate shield, the steel plate shield is at least partially arranged around the organ shield, and the steel plate shield is at least partially arranged between the clamping head seat and the clamping tail seat.

Further, the silicon rod processing workbench further comprises a fixed connecting plate, the fixed connecting plate is fixedly connected to the side face of the frame, and the clamping head seat and the clamping tail seat are connected to the frame through the fixed connecting plate.

Further, a sliding guide rail part extending along the up-down direction is arranged on the fixed connecting plate, and the sliding guide rail part is in sliding connection with the clamping head seat.

Further, the organ shield includes a first shield disposed at least partially around the slide rail portion.

Further, a driving mechanism is arranged in the frame and controls the clamping head seat to move up and down, and the organ shield is at least partially arranged around the driving mechanism.

Further, the driving mechanism comprises a driving motor, a speed reducing part and a driving part, wherein the two ends of the speed reducing part are respectively connected with the driving motor and the driving part, the driving part controls the movement of the clamping headstock, the driving motor is arranged on the clamping tailstock, the speed reducing part is connected with the clamping tailstock, and torque of the driving motor is transmitted to the clamping tailstock through the speed reducing part.

Further, the clamping headstock includes first connecting plate and second connecting plate, and the clamping tailstock includes the third connecting plate, and first connecting plate sets up the upside at the clamping headstock, and the second connecting plate sets up the downside at the clamping headstock, and the third connecting plate sets up the upside at the clamping tailstock, and the organ guard shield includes second guard shield and third guard shield, and the one end of second guard shield is connected to the upper end of frame, the other end of second guard shield is connected to first connecting plate, and the one end of third guard shield is connected to the second connecting plate, and the other end of third guard shield is connected to the third connecting plate.

Further, the steel plate shield comprises a first steel plate, a second steel plate and a third steel plate, the first steel plate is in sliding connection with the second steel plate, the second steel plate is in sliding connection with the third steel plate, the upper end of the first steel plate is fixedly connected to the second connecting plate, and the lower end of the third steel plate is fixedly connected to the third connecting plate.

Further, adjusting pieces are arranged on two sides of the clamping head seat and the clamping tail seat, and the adjusting pieces adjust coaxiality and feeding straightness of the clamping head seat and the clamping tail seat.

Further, the frame has a plurality of working positions, and the operation revolving stage control frame switches in a plurality of working positions, and the operation revolving stage still is provided with locking mechanism, and when the frame is in a working position, locking mechanism locks the rotation of frame.

The silicon rod processing workbench provided by the utility model can seal the frame through the steel plate shield, so that the tightness of the silicon rod processing workbench is improved, and the service life of the silicon rod processing workbench is prolonged.

Drawings

FIG. 1 is a schematic view showing the overall structure of a silicon rod processing table according to the present utility model.

Fig. 2 is a schematic connection diagram of a steel plate shield, an organ shield, a clamping head seat and a clamping tail seat of the silicon rod processing workbench.

Fig. 3 is an enlarged view of a portion of fig. 1 a in accordance with the present utility model.

Fig. 4 is a schematic connection diagram of a driving mechanism of a silicon rod processing table according to the present utility model.

Fig. 5 is a partial enlarged view of the present utility model at B in fig. 1.

Fig. 6 is a schematic connection diagram of the operating turntable of the silicon rod processing table of the present utility model.

Detailed Description

In order to make the present utility model better understood by those skilled in the art, the technical solutions in the specific embodiments of the present utility model will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1, a silicon rod machining table 100 includes a frame 11, an operation turret 12, a chuck base 13, a chuck tailstock 14, and a organ shield 15. For clarity of explanation of the technical solution of the present utility model, the front side, rear side, left side, right side, upper side, lower side as shown in fig. 1 are also defined to represent the front side, rear side, left side, right side, upper side, lower side of the silicon rod processing table 100.

The frame 11 forms a basic frame of the silicon rod machining table 100, and the frame 11 is used for supporting the clamping head seat 13, the clamping tail seat 14 and the organ shield 15. The operation turntable 12 is at least partially arranged at the lower side of the frame 11, and the operation turntable 12 is rotationally connected with the frame 11, specifically, the operation turntable 12 drives the frame 11 to rotate through a turntable motor 121; the clamping head seat 13 is arranged on the side surface of the frame 11, and the clamping head seat 13 moves on the frame 11 along the up-down direction of the silicon rod processing workbench 100; the clamping tailstock 14 is arranged on the side surface of the frame 11, and the clamping tailstock 14 is arranged on the lower side or the upper side of the clamping head seat 13, namely, the positions of the clamping head seat 13 and the clamping tailstock 14 can be changed, so that at least one of the clamping head seat 13 and the clamping tailstock 14 can move on the frame 11 along the up-down direction of the silicon rod processing workbench 100. In the present embodiment, the clamping head seat 13 is provided on the upper side of the clamping tail seat 14. The clamping head seat 13 and the clamping tail seat 14 are used for fixing two ends of the silicon rod; the organ shield 15 is at least partially arranged between the upper end of the frame 11 and the clamping head seat 13, the organ shield 15 is also at least partially arranged between the clamping head seat 13 and the clamping tail seat 14, and the organ shield 15 is used for covering a gap of the frame 11 to prevent waste materials generated in the silicon rod processing process from being deposited on internal parts of the frame 11, so that the internal parts of the frame 11 are protected.

As shown in fig. 2, as an implementation, the silicon rod processing table 100 further includes a steel plate shield 16, where the steel plate shield 16 is at least partially disposed around the organ shield 15, and the steel plate shield 16 is at least partially disposed between the clamping head seat 13 and the clamping tail seat 14. Specifically, the uppermost end of the steel plate shield 16 is connected to the lower end of the clamping head seat 13, and the lowermost end of the steel plate shield 16 is connected to the upper end of the clamping tail seat 14, and both can be connected by bolts. Through the arrangement, the steel plate shield 16 is used for protecting the internal parts of the frame 11, and preventing waste generated in the silicon rod machining process from damaging the internal parts of the frame 11, so that the internal parts of the frame 11 are better protected, and the service life of the silicon rod machining workbench 100 is prolonged.

As shown in fig. 1, the silicon rod processing table 100 further includes a fixed connection plate 17, the fixed connection plate 17 is fixedly connected to a side surface of the frame 11, and the clamping head seat 13 and the clamping tail seat 14 are connected to the frame 11 through the fixed connection plate 17. Specifically, the fixed connection plate 17 is at least partially disposed on a side surface of the frame 11, and the clamping head seat 13 and the clamping tail seat 14 are at least partially disposed on the fixed connection plate 17. Compared with the clamping head seat 13 and the clamping tail seat 14 which are directly connected to the frame 11, in the embodiment, the frame 11 is connected with the fixed mounting plate 17 more simply, and the processing difficulty is reduced. The clamping head seat 13 is slidably connected with the fixed connecting plate 17, so that the clamping head seat 13 can move along the vertical direction of the silicon rod machining workbench 100, the clamping head seat 13 and the clamping tail seat 14 are separated to be arranged, a structure for being slidably connected with the clamping head seat 13 can be machined on the fixed connecting plate 17 by using equipment such as a milling machine, machining precision is improved, stability in the silicon rod clamping process is improved, and working efficiency of the silicon rod machining workbench 100 is improved.

As shown in fig. 1, the fixed connection plate 17 is provided with a slide rail portion 171 extending in the up-down direction of the silicon rod processing table 100, and the slide rail portion 171 is slidably connected to the chuck base 13. Specifically, the sliding rail portion 171 is substantially disposed along the up-down direction of the silicon rod processing table 100, and the sliding rail portion 171 is at least partially disposed on the frame 11, and the sliding rail portion 171 is used to implement up-down sliding of the clamping head seat 13, so that the clamping head seat 13 and the clamping tail seat 14 implement clamping of silicon rods with different lengths, and further improve flexibility of the silicon rod processing table 100.

As shown in fig. 3, the organ shield 15 includes a first shield 151, and the first shield 151 is disposed at least partially around the slide rail portion 171. Specifically, the first shield 151 is divided into an upper portion and a lower portion, the first shield 151 of the upper portion is disposed at the upper end of the clamping head seat 13, the first shield 151 of the lower portion is disposed between the clamping head seat 13 and the clamping tail seat 14, specifically, the upper end of the first shield 151 of the upper portion is fixedly connected to the upper end of the frame 11, the lower end of the first shield 151 of the upper portion is fixedly connected to the upper end of the clamping head seat 13, the upper end of the first shield 151 of the lower portion is fixedly connected to the lower end of the clamping head seat 13, and the lower end of the first shield 151 of the lower portion is fixedly connected to the upper end of the clamping tail seat 14. The first shields 151 of the upper and lower parts are used for protecting the sliding guide rail portion 171, so that waste materials generated by processing silicon rods are prevented from adhering to the sliding guide rail portion 171, normal sliding of the sliding guide rail portion 171 is affected, flexibility of the sliding guide rail portion 171 is improved, clamping of the silicon rods by the clamping head seat 13 is facilitated, and service life of the silicon rod processing workbench 100 is prolonged.

As shown in fig. 4, a driving mechanism 111 is provided in the frame 11, the driving mechanism 111 controls the chuck base 13 to move in the up-down direction of the silicon rod processing table 100, and the organ shield 15 is provided at least partially around the driving mechanism 111. Specifically, the driving mechanism 111 is at least partially disposed on the frame 11, the driving mechanism 111 is also at least partially fixedly connected with the frame 11, the upper end of the driving mechanism 111 is fixedly connected with the clamping head seat 13, the driving mechanism 111 has a telescopic function, and the clamping head seat 13 is driven by the driving mechanism 111 to move up and down along the silicon rod processing workbench 100, so that the silicon rod is clamped conveniently, and the flexibility of the silicon rod processing workbench 100 is improved. Meanwhile, the driving mechanism 111 is covered by the organ shield 15, so that waste materials generated by silicon rod processing are prevented from adhering to the driving mechanism 111, normal operation of the driving mechanism 111 is affected, and stability of the driving mechanism 111 is improved.

As shown in fig. 4, the driving mechanism 111 includes a driving motor 1111, a reduction member 1112 and a driving member 1113, wherein two ends of the reduction member 1112 are respectively connected with the driving motor 1111 and the driving member 1113, the driving member 1113 controls the movement of the clamping head seat 13, the driving motor 1111 is disposed on the clamping tail seat 14, the reduction member 1112 is connected with the clamping tail seat 14, and torque of the driving motor 1111 is transmitted to the clamping tail seat 14 through the reduction member 1112. Specifically, the driving motor 1111, the speed reducer 1112 and the clamping tailstock 14 are integrally arranged, so that torque of the driving motor 1111 is conveniently transmitted to the clamping tailstock 14, and the driving mechanism 111 and the clamping tailstock 14 are more compact in structure due to the integrally arranged structure. Through the arrangement, the stability of the silicon rod machining workbench 100 is improved, so that the driving mechanism 111, the clamping head seat 13 and the clamping tail seat 14 are tightly matched, the machining precision of the silicon rod is improved, and the overall performance of the silicon rod machining workbench 100 is improved.

As shown in fig. 3 and 5, the clamping head seat 13 includes a first connection plate 131 and a second connection plate 132, the clamping tail seat 14 includes a third connection plate 141, the first connection plate 131 is disposed at an upper side of the clamping head seat 13, the second connection plate 132 is disposed at a lower side of the clamping head seat 13, the third connection plate 141 is disposed at an upper side of the clamping tail seat 14, the organ shield 15 includes a second shield 152 and a third shield 153, one end of the second shield 152 is connected to an upper end of the frame 11, the other end of the second shield 152 is connected to the first connection plate 131, one end of the third shield 153 is connected to the second connection plate 132, and the other end of the third shield 153 is connected to the third connection plate 141. Specifically, the driving motor 1111 drives the clamping head seat 13 to move up and down on the sliding rail portion 171, so as to fold and unfold the second shield 152 and the third shield 153, and further enable the second shield 152 and the third shield 153 to cover the frame 11, prevent the waste of the silicon rod from entering the frame 11, improve the tightness of the frame 11, and further protect the internal parts of the frame 11.

As shown in fig. 2, the steel plate shield 16 includes a first steel plate 161, a second steel plate 162, and a third steel plate 163, the first steel plate 161 and the second steel plate 162 being slidably connected, the second steel plate 162 and the third steel plate 163 being slidably connected, an upper end of the first steel plate 161 being fixedly connected to the second connection plate 132, and a lower end of the third steel plate 163 being fixedly connected to the third connection plate 141. Specifically, the first steel plate 161 may be sleeved on the second steel plate 162, the second steel plate 162 may be sleeved on the third steel plate 163, and the first steel plate 161, the second steel plate 162 and the third steel plate 163 are respectively from top to bottom along the up-down direction of the silicon rod processing table 100. The first steel plate 161, the second steel plate 162 and the third steel plate 163 are all used for protecting the frame 11, waste materials of silicon rods are prevented from entering the frame 11, the tightness of the frame 11 is further improved under the cooperation of the steel plate shield 16 and the organ shield 15, the internal parts of the frame 11 are protected, the service life of the silicon rod machining workbench 100 is further prolonged, meanwhile, the strength of the steel plate shield 16 is higher than that of the organ shield 15, and the silicon rod waste materials which are not easy to splash are impacted and deformed, so that the steel plate shield 16 is arranged on the outer side of the organ shield 15, and the strength of the frame 11 is further improved.

As shown in fig. 5, adjusting members 142 are disposed on both sides of the clamping head seat 13 and the clamping tail seat 14, and the adjusting members 142 adjust the coaxiality and the feeding straightness of the clamping head seat 13 and the clamping tail seat 14. Specifically, in the silicon rod machining process, the setting positions of the clamping headstock 13 and the clamping tailstock 14 are not fixed, and the dimensions of the silicon rod are not fixed as well, as an implementation manner, the clamping headstock 13 and the clamping tailstock 14 are set according to actual needs, so that adjusting pieces 142 are arranged on two sides of the clamping headstock 13 and the clamping tailstock 14, the adjusting pieces 142 can be set as jackscrews, the coaxiality of the clamping headstock 13 and the clamping tailstock 14 and the feeding straightness of the clamping headstock 13 are adjusted by adjusting the jackscrews, the influence of machining errors on the coaxiality of the clamping headstock 13 and the clamping tailstock 14 and the feeding straightness of the clamping headstock 13 is reduced, so that the silicon rod clamping is better realized, the machining precision of the silicon rod is improved, and the flexibility of the silicon rod machining workbench 100 is further improved.

As shown in fig. 1 and 6, the frame 11 has a plurality of working positions, the operation turret 12 controls the frame 11 to switch among the plurality of working positions, and the operation turret 12 is further provided with a locking mechanism 122, and the locking mechanism 122 locks the rotation of the frame 11 when the frame 11 is in one working position. Specifically, according to the actual needs of the silicon rod processing, a plurality of working positions can be integrated on the silicon rod processing workbench 100, when the frame 11 is set to be a regular hexagon upright, three working positions can be set for processing, when the frame 11 is set to be a regular octagon upright, four working positions can be set for processing, meanwhile, the turntable 12 is operated to drive the frame 11 to rotate through the turntable motor 121, when the frame 11 rotates to any one working position, the turntable motor 121 stops rotating, the turntable 12 is operated to lock the frame 11 through the locking mechanism 122, so that the silicon rod can be rapidly processed, the processing speed of the silicon rod is improved, and the processing efficiency of the silicon rod processing workbench 100 is improved.

It can be appreciated that in the present application, the strength of the frame 11 of the silicon rod processing table 100 is increased by providing the steel plate shield 16, the steel plate shield 16 can be moved up and down, and the steel plate shield 16 has adjustability, and the steel plate shield 16 and the organ shield 15 cooperate to enhance the tightness of the silicon rod processing table 100, thereby realizing better protection of the internal parts of the frame 11, and further being beneficial to prolonging the service life of the silicon rod processing table 100.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (10)

1. A silicon rod processing table comprising:

a frame;

the operation turntable is at least partially arranged on the lower side of the rack, and is in rotary connection with the rack;

the clamping head seat is arranged on the side face of the frame and moves on the frame along the up-down direction;

the clamping tail seat is arranged on the side face of the frame, the clamping tail seat is arranged on the lower side or the upper side of the clamping head seat, and the clamping head seat and the clamping tail seat are used for fixing two ends of the silicon rod;

the organ shield is at least partially arranged between the upper end of the frame and the clamping head seat, and is also at least partially arranged between the clamping head seat and the clamping tail seat; it is characterized in that the method comprises the steps of,

the silicon rod machining workbench further comprises a steel plate shield, the steel plate shield at least partially surrounds the organ shield, and the steel plate shield is at least partially arranged between the clamping head seat and the clamping tail seat.

2. The silicon rod processing table of claim 1 further comprising a fixed connection plate fixedly connected to a side of the frame, the clamping head mount and the clamping tail mount each being connected to the frame by the fixed connection plate.

3. The silicon rod processing table according to claim 2, wherein the fixed connection plate is provided with a slide rail portion extending in the up-down direction, and the slide rail portion is slidably connected to the chuck base.

4. A silicon rod processing table according to claim 3, wherein the organ shield includes a first shield disposed at least partially around the slide rail portion.

5. The silicon rod processing table according to claim 1, wherein a driving mechanism is provided in the frame, the driving mechanism controls the chuck base to move in the up-down direction, and the organ shield is provided at least partially around the driving mechanism.

6. The silicon rod processing table according to claim 5, wherein the driving mechanism comprises a driving motor, a speed reducing member and a driving member, both ends of the speed reducing member are respectively connected with the driving motor and the driving member, the driving member controls the movement of the clamping headstock, the driving motor is arranged on the clamping tailstock, the speed reducing member is connected with the clamping tailstock, and torque of the driving motor is transmitted to the clamping tailstock through the speed reducing member.

7. The silicon rod machining workbench according to claim 1, wherein the clamping head seat comprises a first connecting plate and a second connecting plate, the clamping tail seat comprises a third connecting plate, the first connecting plate is arranged on the upper side of the clamping head seat, the second connecting plate is arranged on the lower side of the clamping head seat, the third connecting plate is arranged on the upper side of the clamping tail seat, the organ shield comprises a second shield and a third shield, one end of the second shield is connected to the upper end of the frame, the other end of the second shield is connected to the first connecting plate, one end of the third shield is connected to the second connecting plate, and the other end of the third shield is connected to the third connecting plate.

8. The silicon rod processing table of claim 7 wherein the steel plate shield comprises a first steel plate, a second steel plate, and a third steel plate, the first steel plate and the second steel plate being slidably connected, the second steel plate and the third steel plate being slidably connected, an upper end of the first steel plate being fixedly connected to the second connection plate, a lower end of the third steel plate being fixedly connected to the third connection plate.

9. The silicon rod processing table according to claim 1, wherein adjusting members are arranged on two sides of the clamping head seat and the clamping tail seat, and the adjusting members adjust coaxiality and feeding straightness of the clamping head seat and the clamping tail seat.

10. A silicon rod processing table according to claim 1, wherein the frame has a plurality of working positions, the operating turret controls the frame to switch among the plurality of working positions, and the operating turret is further provided with a locking mechanism that locks the rotation of the frame when the frame is in one of the working positions.

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