CN218033887U - Quartz hot working cooling device - Google Patents

Abstract

The utility model relates to a quartzy stick processing technology field discloses a quartzy hot work cooling device, be in including support, slip setting triangle chuck on the support sets up two workstation between the triangle chuck, the workstation slides and sets up on the support, it is connected with the graphite roller to rotate on the workstation, is located be provided with on the workstation of graphite roller both sides with heating member, lie in on the workstation be provided with cooling device around the graphite roller. The utility model discloses a set up cooling device at heating device's up end, make it can cool off the device at whole equipment and graphite roller both ends, reduce the heat loss, simultaneously, because the vapor of high temperature evaporation can also evaporate the powder that the shaping processing produced and absorb and make it fall and carry out centralized processing in cooling device.

Description

Quartz hot working cooling device

Technical Field

The utility model relates to a quartzy stick processing technology field, in particular to quartzy hot work cooling device.

Background

The main material of the quartz rod is quartz glass fiber, so the heat resistance of the quartz rod is consistent with the resistance of the quartz glass fiber. The softening temperature of the quartz glass fiber is 1700 ℃, the general quartz glass fiber can be used for a long time at 600-1050 ℃, when the temperature is higher than 1600 ℃, the quartz glass fiber starts to sublimate, which is an endothermic reaction to consume heat energy, and by utilizing the performance, the quartz glass fiber can be used as an ablative material for returning aerospace craft and intercontinental missiles to the atmosphere. Therefore, when the quartz rod needs to be molded and processed, a high-temperature torch needs to be used for carrying out heat treatment on the quartz rod, the treatment temperature reaches more than 1600 ℃, and the high temperature has large heat loss on the whole equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a quartzy hot working cooling device has high-efficient cooling's effect.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a quartzy hot working cooling device, includes the support, slides and sets up triangle chuck on the support sets up two workstation between the triangle chuck, the workstation slides and sets up on the support, it is connected with the graphite roller to rotate on the workstation, is located be provided with on the workstation of graphite roller both sides and add the heat-insulating material, lie in on the workstation be provided with cooling device around the graphite roller.

Through adopting above-mentioned technical scheme, quartz rod is adding man-hour carrying out the shaping, need make quartz rod soften through the heating member, and rethread graphite roller carries out the machine-shaping, and at the softened in-process of high temperature, the temperature can reach the thousand degrees, has great heat loss to whole equipment, consequently, the utility model discloses a set up cooling device at heating device's up end, make it can cool off the device at whole equipment and graphite roller both ends, reduce the heat loss, simultaneously, because the vapor of high temperature evaporation can also absorb the powder that the shaping processing produced and make it fall and carry out centralized processing in cooling device.

The utility model discloses a further set up to: the cooling device comprises a cooling tank, a baffle is arranged on the inner side of the cooling tank close to the graphite roller, and a water inlet column and a water outlet column are arranged in the cooling tank.

Through adopting above-mentioned technical scheme, the setting of cooling bath can increase the surface area of water evaporation, not only can cool down to the surrounding environment after the water evaporation, can also take away the dust to lower the temperature to the upper surface of device.

The utility model discloses a further set up to: the height of the water inlet column is lower than that of the water outlet column.

Through adopting above-mentioned technical scheme, the height that highly is less than the play water column of intaking the post can make to have certain liquid level difference in the cooling bath, not only can improve cooling efficiency, can also carry out appropriate cooling to the internal face of cooling bath.

The utility model discloses a further set up to: the outside of cooling bath still is provided with the annular tube, be provided with inlet tube and outlet pipe on the annular tube.

Through adopting above-mentioned technical scheme, because heating temperature is higher, the surface of cooling bath need be heated the fracture easily, consequently adopts the annular tube to carry out attached cooling, inside and outside dual cooling, and the cooling effect is better.

The utility model discloses a further set up to: the cross section of the annular pipe is square, the upper surface of the annular pipe is higher than the height of the water outlet column in the cooling groove, the water inlet pipe is horizontally arranged on the side surface of the annular pipe, and the water outlet pipe is vertically arranged on the upper side of the annular pipe.

The utility model discloses a further set up to: the water inlet pipe and the water outlet pipe are arranged at the same right angle of the square annular pipe.

The utility model discloses a further set up to: the inside radial of annular pipe is provided with the baffle, the baffle is located the inlet tube with between the outlet pipe, the baffle will the inlet tube with the outlet pipe is separated.

Through adopting above-mentioned technical scheme, this mode can make the cooling water at the intraductal circulation of ring round flow, improves the cooling homogeneity, and the baffle can be separated outlet pipe and inlet tube and come, avoids in partial cooling water directly flows into the outlet pipe from the inlet tube, causes the uneven phenomenon of cooling, and the inlet tube level sets up the side at the ring pipe simultaneously, the vertical setting of outlet pipe can guarantee that liquid is full of whole ring pipe completely at the upside of ring pipe, avoids having partial ring pipe not to contact with liquid and unable cooling.

The beneficial effects of the utility model are that: the utility model discloses well quartz rod is carrying out the shaping man-hour, need make quartz rod soften through heating member, and rethread graphite roller carries out the machine-shaping, and at the high temperature softening in-process, the temperature can reach the thousand degrees, has great heat loss to whole equipment, consequently, the utility model discloses a set up cooling device at heating device's up end, make it can cool off the device at whole equipment and graphite roller both ends, reduce the heat loss, simultaneously, because the vapor of high temperature evaporation can also absorb the powder that the shaping processing produced and make it fall and carry out centralized processing in cooling device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained without creative efforts.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the workbench of the present invention.

Fig. 3 is a schematic structural view of the cooling device of the present invention.

In the figure, 1, a bracket; 2. a triangular chuck; 3. a work table; 31. a graphite roller; 4. a heating element; 5. a cooling device; 51. a cooling tank; 511. a baffle plate; 512. a water inlet column; 513. discharging a water column; 52. an annular tube; 521. a water inlet pipe; 522. and (4) a water outlet pipe.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the specific embodiments. It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

In the embodiment, as shown in fig. 1 and fig. 2, a quartz hot working cooling device 5 comprises a support 1, triangular chucks 2 arranged on the support 1 in a sliding manner, two work tables 3 arranged between the triangular chucks 2, wherein the work tables 3 are arranged on the support 1 in a sliding manner, graphite rollers 31 are rotatably connected to the work tables 3, heating members 4 are arranged on the work tables 3 at two sides of the graphite rollers 31, and the cooling device 5 is arranged around the graphite rollers 31 on the work tables 3. Quartz rod is carrying out the shaping man-hour, need make quartz rod soften through heating member 4, and rethread graphite roller 31 carries out the machine-shaping, and at the in-process of high-temperature softening, the temperature can reach the thousand degrees, has great heat loss to whole equipment, consequently, the utility model discloses a set up cooling device 5 at heating device's up end, make it can carry out cooling to the device at whole equipment and graphite roller 31 both ends, reduce the heat loss, simultaneously, because the vapor of high-temperature evaporation can also evaporate the powder that the shaping processing produced and absorb and make it fall and carry out centralized processing in cooling device 5.

As shown in fig. 3, the cooling device 5 includes a cooling tank 51, a baffle 511 is disposed on the cooling tank 51 near the inner side of the graphite roller 31, and a water inlet column 512 and a water outlet column 513 are disposed in the cooling tank 51. The surface area of water evaporation can be increased by the arrangement of the cooling tank 51, and the surrounding environment can be cooled after the water evaporation, dust can also be taken away, and the upper surface of the device is cooled. The height of the water inlet column 512 is lower than that of the water outlet column 513. The height of the water inlet column 512 is lower than the height of the water outlet column 513, so that a certain liquid level difference can be provided in the cooling tank 51, and not only the cooling efficiency can be improved, but also the inner wall surface of the cooling tank 51 can be appropriately cooled.

As shown in fig. 3, a ring pipe 52 is further disposed outside the cooling tank 51, and a water inlet pipe 521 and a water outlet pipe 522 are disposed on the ring pipe 52. Because the heating temperature is higher, the surface of cooling bath 51 need be heated the fracture easily, consequently adopts annular tube 52 to carry out attached cooling, and inside and outside dual cooling, the cooling effect is better. The cross section of the annular pipe 52 is square, the upper surface of the annular pipe 52 is higher than the height of the water outlet column 513 in the cooling groove 51, the water inlet pipe 521 is horizontally arranged on the side surface of the annular pipe 52, and the water outlet pipe 522 is vertically arranged on the upper side of the annular pipe 52. The water inlet pipe 521 and the water outlet pipe 522 are arranged at the same right angle of the square annular pipe 52. A partition is radially arranged inside the annular pipe 52, the baffle 511 is located between the water inlet pipe 521 and the water outlet pipe 522, and the partition separates the water inlet pipe 521 from the water outlet pipe 522. This mode can make the cooling water at the annular pipe 52 inner loop round that flows, improves the cooling homogeneity, and the baffle can be separated outlet pipe 522 and inlet tube 521 and come, avoids partial cooling water directly to flow into outlet pipe 522 from inlet tube 521 in, causes the uneven phenomenon of cooling, and inlet tube 521 level sets up the side at annular pipe 52 simultaneously, the vertical setting of outlet pipe 522 can guarantee that liquid is full of whole annular pipe 52 completely at the upside of annular pipe 52, avoids having partial annular pipe 52 not contact with liquid and can't lower the temperature.

The working principle of the quartz hot working cooling device 5 is as follows: the utility model discloses well quartz rod is carrying out the shaping man-hour, need make the quartz rod soften through heating member 4, and rethread graphite roller 31 carries out the machine-shaping, and at the softened in-process of high temperature, the temperature can reach the thousand degrees, has great heat loss to the whole equipment, consequently, the utility model discloses a set up cooling device 5 at heating device's up end, make it can cool off the device at whole equipment and graphite roller 31 both ends, reduce the heat loss, simultaneously, because the vapor of high temperature evaporation can also evaporate the powder that produces to absorb and make it fall and carry out centralized processing in cooling device 5.

Claims (7)

1. A quartz hot working cooling device is characterized in that: set up including support (1), slip triangle chuck (2) on support (1) set up two workstation (3) between triangle chuck (2), workstation (3) slide to set up on support (1), it is connected with graphite roller (31) to rotate on workstation (3), is located be provided with on workstation (3) of graphite roller (31) both sides and add heat-insulating material (4), lie in on workstation (3) be provided with cooling device (5) around graphite roller (31).

2. A quartz thermal process cooling device according to claim 1, wherein: the cooling device (5) comprises a cooling tank (51), a baffle (511) is arranged on the inner side, close to the graphite roller (31), of the cooling tank (51), and a water inlet column (512) and a water outlet column (513) are arranged in the cooling tank (51).

3. A quartz thermal process cooling device according to claim 2, wherein: the height of the water inlet column (512) is lower than that of the water outlet column (513).

4. A quartz thermal process cooling device according to claim 2, wherein: the outer side of the cooling groove (51) is also provided with an annular pipe (52), and the annular pipe (52) is provided with a water inlet pipe (521) and a water outlet pipe (522).

5. A quartz thermal process cooling device according to claim 4, wherein: the cross section of the annular pipe (52) is square, the upper surface of the annular pipe (52) is higher than the height of a water outlet column (513) in the cooling groove (51), the water inlet pipe (521) is horizontally arranged on the side surface of the annular pipe (52), and the water outlet pipe (522) is vertically arranged on the upper side of the annular pipe (52).

6. A quartz thermal process cooling device according to claim 5, wherein: the water inlet pipe (521) and the water outlet pipe (522) are arranged at the same right angle of the square annular pipe (52).

7. A quartz thermal process cooling device according to claim 6, wherein: the inside radial of annular pipe (52) is provided with the baffle, the baffle is located inlet tube (521) with outlet pipe (522), the baffle will inlet tube (521) with outlet pipe (522) separate.

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