CN219823385U - Crystal hanging device - Google Patents

Abstract

The utility model discloses a crystal hanging device, which comprises a frame body, wherein the frame body comprises an upper frame body part, a lower frame body part and a supporting part connected between the upper frame body part and the lower frame body part; one end of the first rope component is connected to the upper frame body; a second rope assembly connected to the lower frame body; and the tightening mechanism is connected to one end of the first rope assembly, which is far away from the upper frame body. Through the arrangement, the crystal lifting device can be used for taking out the crystal in a mode of directly contacting with the crystal, so that the step of taking out the crystal is reduced, and the working efficiency of taking out the crystal is improved.

Description

Crystal hanging device

Technical Field

The utility model relates to the technical field of crystal production, in particular to a crystal lifting device.

Background

With the development of modern technology, the sapphire crystal, as a functional material with excellent optical performance, mechanical performance and chemical stability, has the advantages of high strength, high hardness, high temperature resistance, corrosion resistance and the like, and is widely applied to the fields of military, aerospace, laser technology, high-grade daily necessities and the like.

In the prior art, after the production of crystals such as sapphire is opened, a plurality of complicated steps are needed to be carried out to take out the crystals in the crucible, more manpower and time are needed to be consumed in the process of taking out the crystals, and the crystals are easy to collide and break, so that the production efficiency and cost of the crystals are affected.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model aims to provide a crystal lifting device capable of improving the production efficiency of crystals.

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

the utility model provides a crystal hanging device, includes support body, first rope subassembly, second rope subassembly and tightening mechanism: the support body includes support body portion, lower support body portion and connects the support portion between last support body portion and lower support body portion, and the one end of first rope subassembly is connected to last support body portion, and the second rope subassembly is connected to lower support body portion, and tightening mechanism is connected to the one end that first rope subassembly kept away from last support body portion.

Further, the upper frame body is circular, the lower frame body is circular, and the size of the upper frame body is basically consistent with that of the lower frame body.

Further, the frame body is a rigid frame structure.

Further, the first rope assembly comprises six rope bodies, and the six rope bodies are uniformly connected between the upper frame body part and the tightening mechanism.

Further, the connection position of the first rope assembly on the upper frame body corresponds to the connection position of the supporting portion on the upper frame body.

Further, the second rope assembly comprises three rope bodies, the three rope bodies are uniformly connected to the lower frame body part, and the three rope bodies are enclosed to form a triangular structure.

Further, the connection position of the second rope assembly to the lower frame body corresponds to at least part of the connection position of the support part to the lower frame body.

Further, the first rope component comprises a rope body, the second rope component comprises a rope body, and the rope body is a steel wire rope.

Further, the diameter of the upper frame body is 400mm or more and 600mm or less, the diameter of the lower frame body is 400mm or more and 600mm or less, and the height of the supporting part is 480mm or more and 720mm or less.

Further, the tightening mechanism is ring-shaped, and the diameter of the tightening mechanism is 80mm or more and 120mm or less.

According to the crystal lifting device, the crystals can be taken out in a mode of being directly contacted with the crystals, so that the step of taking out the crystals is reduced, the working efficiency of taking out the crystals is improved, and the production efficiency of the crystals is improved.

Drawings

Fig. 1 is a schematic structural diagram of a crystal lifting device according to the present utility model.

Fig. 2 is a schematic side view of a crystal lifting device according to the present utility model.

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 top view of a crystal lifting device according to the present utility model.

Fig. 5 is a schematic side view of a crystal lifting device according to another embodiment 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 and 2, a crystal lifting apparatus is provided for lifting a crystal produced in a crystal growing apparatus (not shown). The crystal lifting apparatus 100 includes a frame 11. The frame 11 includes an upper frame portion 111, a lower frame portion 112, and a support portion 113 connected between the upper frame portion 111 and the lower frame portion 112. Specifically, the supporting portions 113 are fixedly connected with the upper frame body 111 and the lower frame body 112, respectively. The fixed connection mode can be a clamping connection mode. By the above arrangement, the connection stability of the frame 11 can be improved, thereby improving the working stability of the frame 11. In addition, the mounting, dismounting and replacement of the frame 11 are facilitated. The upper and lower sides shown in fig. 1 are defined for clarity of explanation of the technical solution of the present utility model.

As shown in fig. 1, 2 and 3, crystal lifting apparatus 100 further includes a first string assembly 12, a second string assembly 13 and a tightening mechanism 14. Specifically, one end of the first string assembly 12 is connected to the upper frame body 111, and the first string assembly 12 is used to control the crystal lifting device 100 to move upward. The second string assembly 13 is connected to the lower frame body 112, and the second string assembly 13 is used to hold and clamp the crystal in the crystal growing apparatus. The tightening mechanism 14 is connected to one end of the first rope assembly 12 far away from the upper frame 111, when the contact area of the crystal and the second rope assembly 13 reaches the required range, the tightening mechanism 14 is controlled to move upwards to tighten the first rope assembly 12, the first rope assembly 12 generates an upward pulling force, the crystal lifting device 100 is further controlled to move upwards, and the operation of lifting the crystal by the crystal lifting device 100 is completed under the action of the second rope assembly. As one possible implementation, tightening mechanism 14 may be a flange. Through the arrangement, the crystal lifting device 100 can be used for taking out the crystal in the crystal growing device in a mode of directly contacting with the crystal, so that the step of taking out the crystal is reduced, the working efficiency of taking out the crystal is improved, and the production efficiency of the crystal is improved. In addition, through above-mentioned setting, can also reduce the manpower investment in taking out the crystal in-process and reduce the risk that the crystal takes place fracture, collide with in taking out the in-process, and then reduce the manufacturing cost of crystal.

It can be appreciated that the crystal lifting device 100 of the present utility model has a simple structure, and is convenient to move, carry and install, so that the utilization rate of the crystal lifting device 100 can be improved.

Specifically, the upper frame body 111 is circular, the lower frame body 112 is circular, the size of the upper frame body 111 is basically consistent with that of the lower frame body 112, that is, the frame body 11 is basically cylindrical, and the cylindrical frame body 11 can be matched with most crystal growing devices, so that the crystal hanging device 100 can conveniently move in the crystal growing devices, the collision of the crystal hanging device 100 in the hanging process is reduced, and the crystal hanging device 100 is facilitated to take out crystals in the crystal growing devices. In addition, by the arrangement, the crystal lifting device 100 can be more matched with the shapes of the crystal and the crystal growing device, so that the working efficiency of the crystal lifting device 100 is improved, and the production efficiency of the crystal is further improved.

As an implementation manner, the frame 11 is of a rigid frame structure, so that the frame 11 is more stable in structure, the frame 11 is not easy to deform in the crystal hanging process, and the situation that crystals are broken due to deformation of the frame 11 is reduced, so that the working efficiency and the working effect of the crystal hanging device 100 are improved. In addition, the frame 11 is a rigid frame structure, so that the service life of the frame 11 can be prolonged, the service life of the crystal lifting device 100 can be prolonged, and the use cost of the crystal lifting device 100 can be reduced.

As shown in fig. 1 and 4, the first rope assembly 12 includes six ropes 121, and the six ropes 121 are uniformly connected between the upper frame body 111 and the tightening mechanism 14. Through the arrangement, the upward pulling force generated by the six rope bodies 121 under the action of the tightening mechanism 14 can be more balanced, so that the crystal lifting device 100 can be moved upwards, and the working efficiency of the crystal lifting device 100 can be improved.

As one implementation, the connection position of the first rope assembly 12 on the upper frame body 111 corresponds to the connection position of the support portion 113 on the upper frame body 111. By the arrangement, the connecting points of the upper frame body 111 can be reduced, so that the structural strength of the frame body 11 is improved, and the crystal lifting device 100 can work normally.

As an implementation manner, the second rope assembly 13 includes three ropes 131, the three ropes 131 are uniformly connected to the lower frame portion 112, and the three ropes 131 are enclosed to form a triangle structure. Specifically, the triangle structure is basically a regular triangle structure, so that the characteristic that the regular triangle structure has stability can be utilized to further increase the clamping force of the three ropes 131 on the crystal, which is favorable for the crystal to be in a balanced state in the taking out process, and the crystal is prevented from falling out of the crystal hanging device 100, so that the working efficiency of the crystal hanging device 100 and the yield of crystal production are improved.

Specifically, the connection position of the second rope assembly 13 to the lower frame body 112 corresponds to at least part of the connection position of the support portion 113 to the lower frame body 112. Through the arrangement, the second rope component 13 can be prevented from shaking in the process of hanging the crystal, so that the crystal is prevented from being knocked due to shaking of the second rope component 13, and the production quality of the crystal is improved. In addition, through the arrangement, the connecting points of the lower frame body 112 can be reduced, so that the structural strength of the frame body 11 is improved, and the crystal lifting device 100 can work normally.

As an implementation manner, the first rope assembly 12 includes the rope body 122, the second rope assembly 13 includes the rope body 122, and the rope body 122 is a steel wire rope, so that the strength and the bearing capacity of the rope body 122 can be improved, and the first rope assembly 12 and the second rope assembly 13 are in a stable state in the crystal hanging process, which is beneficial to improving the working efficiency of the crystal hanging device 100. In addition, the wire rope may have many burrs on the outer surface after wear and may have a sign of breakage before breakage, thereby facilitating the inspection and timely replacement of the first and second rope assemblies 12 and 13, and further facilitating the normal operation of the crystal lifting device 100. The rope 122 is a steel wire rope and can further improve the wear resistance of the rope 122, so that the service lives of the first rope assembly 12 and the second rope assembly 13 are prolonged.

As shown in fig. 5, as one implementation, the diameter D1 of the upper frame body 111 is 400mm or more and 600mm or less, the diameter D2 of the lower frame body 112 is 400mm or more and 600mm or less, and the height H1 of the support 113 is 480mm or more and 720mm or less. Further, the diameter D1 of the upper frame body 111 is 450mm or more and 550mm or less, the diameter D2 of the lower frame body 112 is 450mm or more and 550mm or less, and the height H1 of the support portion 113 is 540mm or more and 660mm or less. Further, the diameter D1 of the upper frame body 111 is 475mm or more and 525mm or less, the diameter D2 of the lower frame body 112 is 475mm or more and 525mm or less, and the height H1 of the support portion 113 is 570mm or more and 630mm or less. By the arrangement, the situation that the size of the frame 11 is too large to facilitate the movement of the crystal lifting device 100 in the crystal growing device can be avoided; and the contact area between the crystal and the second rope set 13, which is caused by the too small volume of the frame 11, can be prevented from reaching the specified requirement range, so that the working efficiency of the crystal lifting device 100 is improved, and the production efficiency of the crystal is improved.

As shown in fig. 4, the tightening mechanism 14 has a circular ring shape, and the diameter D3 of the tightening mechanism 14 is 80mm or more and 120mm or less. Further, the diameter D3 of the tightening mechanism 14 is 90mm or more and 110mm or less. Further, the diameter D3 of the tightening mechanism 14 is 95mm or more and 105mm or less. By the arrangement, the phenomenon that the hung crystal is difficult to pass through the tightening mechanism 14 due to the fact that the tightening mechanism 14 is too small can be avoided; it is also possible to prevent the length of the first string 12 connected to the tightening mechanism 14 and the upper frame body 111 from being reduced due to the excessive tightening mechanism 14, thereby preventing the first string 12 from being reduced in length to reduce the stability of the crystal lifting device 100 when it is moved upward, and thus advantageously improving the working efficiency of the crystal lifting device 100.

The crystal lifting device 100 can take out the crystals in the crystal growth device in a mode of directly contacting the crystals, so that the step of taking out the crystals is reduced, the working efficiency of taking out the crystals is improved, and the production efficiency of the crystals is improved. In addition, the labor investment for taking out the crystals can be reduced, the risk of cracking and colliding the crystals in the taking-out process is reduced, and the production cost of the crystals is further reduced. In the present utility model, the crystal lifting device 100 has a simple structure, and is convenient to move, carry and install, so that the utilization rate of the crystal lifting device 100 can be improved.

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 crystal lifting device, comprising:

the frame body comprises an upper frame body part, a lower frame body part and a supporting part connected between the upper frame body part and the lower frame body part;

a first rope assembly having one end connected to the upper frame body;

a second rope assembly connected to the lower frame body;

and the tightening mechanism is connected to one end, far away from the upper frame body, of the first rope assembly.

2. The crystal lifting device of claim 1, wherein:

the upper frame body is circular, the lower frame body is circular, and the size of the upper frame body is basically consistent with that of the lower frame body.

3. The crystal lifting device of claim 1, wherein:

the frame body is of a rigid frame structure.

4. The crystal lifting device of claim 1, wherein:

the first rope assembly comprises six rope bodies, and the six rope bodies are uniformly connected between the upper frame body and the tightening mechanism.

5. The crystal lifting apparatus of claim 4, wherein:

the connection position of the first rope component on the upper frame body corresponds to the connection position of the supporting part on the upper frame body.

6. The crystal lifting apparatus of claim 1, wherein

The second rope assembly comprises three rope bodies, the three rope bodies are uniformly connected to the lower frame body, and the three rope bodies enclose to form a triangular structure.

7. The crystal lifting device of claim 1, wherein:

the connection position of the second rope assembly to the lower frame body corresponds to at least part of the connection position of the support part on the lower frame body.

8. The crystal lifting device of claim 1, wherein:

the first rope component comprises a rope body, the second rope component comprises a rope body, and the rope body is a steel wire rope.

9. The crystal lifting device of claim 1, wherein:

the diameter of the upper frame body part is more than or equal to 400mm and less than or equal to 600mm, the diameter of the lower frame body part is more than or equal to 400mm and less than or equal to 600mm, and the height of the supporting part is more than or equal to 480mm and less than or equal to 720mm.

10. The crystal lifting device of claim 1, wherein:

the tightening mechanism is annular, and the diameter of the tightening mechanism is more than or equal to 80mm and less than or equal to 120mm.