阅读说明：本技术 一种能高效热交换的三轴非金属夹持器 (Three-axis nonmetal clamp holder capable of realizing efficient heat exchange ) 是由 吴建 何小兵 刘永根 王彩鹏 许小林 于 2020-04-30 设计创作，主要内容包括：本发明公开了一种能高效热交换的三轴非金属夹持器,包括上侧细管套壳和中间壳体,所述上侧细管套壳安装固定在中间壳体的上端内侧位置上,所述上侧细管套壳和中间壳体的连接处内侧设置有上侧轴块,所述上侧细管套壳的内部位于上侧轴块上设置有上侧内部细管,该能高效热交换的三轴非金属夹持器通过中间壳体外侧的锯齿卡扣槽,使得便于固定上侧套壳和下侧套壳,而通过上侧轴芯管和上侧内部细管的组合,从而有效散热,而且通过下侧细管套壳和下侧内部细管的组合,从而也便于散热,这样散热更加的高效,而上侧密封套块和下侧密封套块均通过下端的胶垫,从而有效填补密封间隙,这样使得固定连接更加的牢固紧密。(The invention discloses a triaxial non-metal holder capable of high-efficiency heat exchange, which comprises an upper side tubule casing and a middle shell, wherein the upper side tubule casing is fixedly arranged at the inner side position of the upper end of the middle shell, an upper side shaft block is arranged at the inner side of the joint of the upper side tubule casing and the middle shell, an upper side inner tubule is arranged on the upper side shaft block in the upper side tubule casing, the triaxial non-metal holder capable of high-efficiency heat exchange is convenient to fix the upper side casing and the lower side casing through a sawtooth buckling groove at the outer side of the middle shell, the heat is effectively dissipated through the combination of an upper side shaft core tube and the upper side inner tubule, the heat is also convenient to dissipate through the combination of a lower side tubule casing and the lower side inner tubule, the heat dissipation is more efficient, and the upper side sealing sleeve block and the lower, this makes the fixed connection more secure and tight.)

1. A three-axis nonmetal clamper capable of high-efficiency heat exchange comprises an upper side tubule casing (10) and a middle shell (12), and is characterized in that: the device is characterized in that an upper side thin tube casing (10) is fixedly arranged on the inner side position of the upper end of a middle shell (12), an upper side shaft block (11) is arranged on the inner side of the joint of the upper side thin tube casing (10) and the middle shell (12), an upper side thin tube (9) is arranged on the upper side shaft block (11) in the upper side of the upper side thin tube casing (10), an upper side casing (4) is arranged on the middle shell (12) in the outer side of the upper side thin tube casing (10), an upper side sealing casing block (3) is arranged on the inner side of the upper end of the upper side casing block (4), an upper side limiting sleeve (2) is arranged on the upper side thin tube (9) in the inner side of the upper side limiting sleeve (2), a lower side thin tube casing (14) is arranged on the inner side of the lower end of the middle shell (12), the junction inboard of middle casing (12) and downside tubule cover shell (14) is provided with downside axle block (13), the inside of downside tubule cover shell (14) is located and is provided with the inside tubule (15) of downside on downside axle block (13), the lower extreme outside of downside tubule cover shell (14) is located and is provided with downside cover shell (5) on middle casing (12), the lower extreme inboard of downside cover shell (5) is provided with downside sealed cover block (6), the lower extreme inboard of downside sealed cover block (6) is provided with downside limit sleeve (7), the lower extreme inboard of downside limit sleeve (7) is located and is provided with downside axle core pipe (8) on the inside tubule (15) of downside.

2. A triaxial non-metallic clamp holder capable of high efficiency heat exchange according to claim 1, wherein: lower side axle core pipe (8) include both ends draw-in groove (81), internal flow way (82), cavity tubular metal resonator (83) and bottom connecting block (84), the inside of cavity tubular metal resonator (83) is provided with internal flow way (82), the both ends outside of cavity tubular metal resonator (83) is provided with both ends draw-in groove (81), the lower extreme of cavity tubular metal resonator (83) is provided with bottom connecting block (84), bottom connecting block (84) are connected on inside tubule (15) of downside, cavity tubular metal resonator (83) are connected on downside stop collar (7).

3. A triaxial non-metallic clamp holder capable of high heat exchange according to claim 2, wherein: the outer side shape of the lower end of the hollow metal pipe (83) is equal to the outer side shape of the bottom connecting block (84), and the hollow metal pipe (83) is communicated with the bottom connecting block (84).

4. A triaxial non-metallic clamp holder capable of high efficiency heat exchange according to claim 1, wherein: upside stop collar (2) include outside dog (21), installation through-hole (22), inside pipe (23) and inside recess (24), be provided with installation through-hole (22) in the middle of the outside of outside dog (21), the lower extreme of outside dog (21) is provided with inside pipe (23), the inside of inside pipe (23) is provided with inside recess (24), inside pipe (23) are connected on upside sealed sleeve block (3).

5. A triaxial non-metallic clamp holder capable of high efficiency heat exchange according to claim 1, wherein: the middle shell (12) comprises an outer side sawtooth groove (121), a shell (122) and a hollow channel (123), the hollow channel (123) is arranged in the middle of the inner portion of the shell (122), and the outer side sawtooth grooves (121) are arranged on the outer sides of the two ends of the shell (122).

6. A triaxial non-metallic clamp holder capable of high efficiency heat exchange according to claim 1, wherein: sealed cover piece (3) of upside are including cover piece shell (31), cup joint recess (32), the outside keeps off ring (33) and sealed cushion (34), be provided with outside in the middle of the outside of cover piece shell (31) and keep off ring (33), the inside of cover piece shell (31) is provided with cup joint recess (32), the lower extreme outside of cover piece shell (31) is provided with sealed cushion (34), cover piece shell (31) are connected on upside cover shell (4).

7. The triaxial non-metallic clamp holder capable of efficient heat exchange according to claim 6, wherein: the set block shell (31) and the sealing rubber mat (34) are fixedly connected through sleeving, and the outer sides of the connection part of the set block shell (31) and the sealing rubber mat (34) are positioned on the same straight line.

Technical Field

The invention relates to the technical field of three-axis nonmetal holders, in particular to a three-axis nonmetal holder capable of efficiently exchanging heat.

Background

The three-axis non-metal clamp holder is a heat exchange object, so that the safety of the whole use is effectively ensured.

At present, when a triaxial nonmetal clamp holder on the market is wholly sealed and fixed, the fixed connection is not firm, the heat dissipation is not efficient, and the internal objects cannot be effectively limited and fixed.

Disclosure of Invention

The invention aims to provide a three-axis nonmetal clamp holder capable of realizing efficient heat exchange, and aims to solve the problems that the existing three-axis nonmetal clamp holder in the background art is not firm in fixed connection, is not efficient in heat dissipation and cannot effectively limit and fix internal objects when the whole three-axis nonmetal clamp holder is sealed and fixed.

In order to achieve the purpose, the invention provides the following technical scheme: a three-axis nonmetal holder capable of high-efficiency heat exchange comprises an upper side tubule casing and a middle casing, wherein the upper side tubule casing is fixedly arranged at the inner position of the upper end of the middle casing, an upper side shaft block is arranged at the inner side of the joint of the upper side tubule casing and the middle casing, an upper side inner tubule is arranged on the upper side shaft block in the upper side of the upper side tubule casing, an upper side casing is arranged on the middle casing at the outer side of the upper side tubule casing, an upper side sealing casing block is arranged at the inner side of the upper end of the upper side casing block, an upper side limiting sleeve is arranged at the inner side of the upper side limiting sleeve, an upper side core tube is arranged on the upper side inner tubule in the upper side limiting sleeve, a lower side tubule casing is arranged at the inner side of the, the inside of downside tubule cover shell is located and is provided with the inside tubule of downside on the downside axle block, the lower extreme outside of downside tubule cover shell is located and is provided with the downside cover shell on the intermediate casing, the lower extreme inboard of downside cover shell is provided with the sealed sleeve block of downside, the lower extreme inboard of the sealed sleeve block of downside is provided with the spacing sleeve pipe of downside, the inboard of the lower extreme that is located the spacing sleeve pipe of downside is provided with the lower side axle core pipe on the inside tubule of downside.

Preferably, downside axle core pipe includes both ends draw-in groove, inside runner, cavity tubular metal resonator and bottom connecting block, the inside of cavity tubular metal resonator is provided with inside runner, the both ends outside of cavity tubular metal resonator is provided with both ends draw-in groove, the lower extreme of cavity tubular metal resonator is provided with the bottom connecting block, the bottom connecting block is connected on the inside tubule of downside, the cavity tubular metal resonator is connected on downside limit sleeve.

Preferably, the outer shape and size of the lower end of the hollow metal pipe are equal to the outer shape and size of the bottom connecting block, and the hollow metal pipe is communicated with the bottom connecting block.

Preferably, the upside limit sleeve comprises an outside stop block, an installation through hole, an inner circular tube and an inner groove, the installation through hole is arranged in the middle of the outside stop block, the lower end of the outside stop block is provided with the inner circular tube, the inner portion of the inner circular tube is provided with the inner groove, and the inner circular tube is connected to the upside sealing sleeve block.

Preferably, the middle shell comprises an outer side sawtooth groove, a shell and a hollow channel, the hollow channel is arranged in the middle of the inner part of the shell, and the outer side sawtooth grooves are arranged on the outer sides of two ends of the shell.

Preferably, the sealed cover piece of upside includes the cover piece shell, cup joints recess, the outside keeps off ring and sealed cushion, be provided with the outside in the middle of the outside of cover piece shell and keep off the ring, the inside of cover piece shell is provided with cup joints the recess, the lower extreme outside of cover piece shell is provided with sealed cushion, the cover piece shell is connected on the upside cover shell.

Preferably, the sleeve block shell and the sealing rubber pad are fixedly connected through sleeving, and the outer sides of the joints of the sleeve block shell and the sealing rubber pad are positioned on the same straight line.

Compared with the prior art, the invention has the beneficial effects that: the triaxial non-metal holder capable of efficiently exchanging heat is convenient for fixing the upper side casing and the lower side casing through the sawtooth buckling groove on the outer side of the middle shell, and is convenient for heat dissipation through the combination of the upper side shaft core pipe and the upper side inner thin pipe, so that the heat dissipation is more efficient, the upper side sealing sleeve block and the lower side sealing sleeve block both pass through the rubber gasket at the lower end, so that the sealing gap is effectively filled, and the fixed connection is more firm and tight;

(1) the lower side shaft core pipe structure is arranged, so that the fixing and heat dissipation use is facilitated, the external liquid conveying is facilitated through the internal flow channel inside the hollow metal pipe, during conveying, the hollow metal pipe is made of high-efficiency heat dissipation metal, so that the heat dissipation use is facilitated, in addition, the conveying is facilitated to the thin pipe inside the lower side through the bottom connecting block at the lower end of the hollow metal pipe, so that the heat dissipation is effectively accelerated through the contact surface inside the thin pipe, and during fixing, the hollow metal pipe is connected to the lower side limiting sleeve through the clamping grooves at the two ends, so that the effective fixing is realized, and the falling is not easy to occur;

(2) the upper sealing sleeve block structure is arranged to enable the fixed connection to be tighter, the sleeve block shell is blocked by the outer side baffle ring, so that the sleeve block shell is more convenient to be sleeved and fixed on the upper sleeve shell, and when the sleeve block shell is sleeved and fixed, a good sealing and fixing effect is achieved through the sealing rubber gasket on the outer side of the lower end of the sleeve block shell, so that the sleeve block shell is tighter in the fixed sleeve connection process, and the generation of a connection gap is effectively avoided;

(3) make more convenient when equipment through being provided with middle shell structure, through the inside hollow channel of casing shell for be convenient for deposit fixed object, and when with outside fixed connection, the casing shell passes through the outside sawtooth groove in both ends outside, thereby the buckle of being convenient for fixes the object, and more firmly inseparable when fixed like this.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a cross-sectional view of the lower mandrel of the present invention;

FIG. 3 is a schematic cross-sectional view of the upper limit sleeve of the present invention;

FIG. 4 is a cross-sectional view of the middle housing of the present invention;

FIG. 5 is a schematic cross-sectional view of the upper seal nest of the present invention.

In the figure: 1. the upper shaft core pipe; 2. an upper limit sleeve; 21. an outer stop block; 22. mounting a through hole; 23. an inner circular tube; 24. an inner groove; 3. an upper side sealing sleeve block; 31. a nest block housing; 32. sleeving the groove; 33. an outer retainer ring; 34. sealing the rubber gasket; 4. an upper side casing; 5. a lower side casing; 6. a lower side sealing sleeve block; 7. a lower limit sleeve; 8. the lower shaft core pipe; 81. clamping grooves at two ends; 82. an internal flow passage; 83. a hollow metal tube; 84. a bottom connecting block; 9. an upper internal tubule; 10. an upper thin tube casing; 11. an upper side shaft block; 12. a middle housing; 121. an outer side sawtooth groove; 122. a housing shell; 123. a hollow channel; 13. a lower side shaft block; 14. a lower side thin tube casing; 15. a lower internal tubule.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: a three-axis nonmetal clamper capable of high-efficiency heat exchange comprises an upper thin tube casing 10 and a middle shell 12, wherein the upper thin tube casing 10 is fixedly arranged on the inner side of the upper end of the middle shell 12;

the middle shell 12 comprises an outer side sawtooth groove 121, a shell 122 and a hollow channel 123, the hollow channel 123 is arranged in the middle of the inner part of the shell 122, and the outer side sawtooth grooves 121 are arranged on the outer sides of two ends of the shell 122;

specifically, as shown in fig. 1 and 4, when the mechanism is used, firstly, the hollow channel 123 inside the shell 122 is used for facilitating the storage of the fixed object, and when the mechanism is fixedly connected with the outside, the shell 122 passes through the outer side sawtooth grooves 121 on the outer sides of the two ends, thereby facilitating the buckling and fixing of the object, so that the object is more firm and compact during the fixing;

an upper side shaft block 11 is arranged on the inner side of the joint of the upper side thin tube casing 10 and the middle casing 12, an upper side inner thin tube 9 is arranged on the upper side shaft block 11 in the upper side thin tube casing 10, an upper side casing 4 is arranged on the middle casing 12 on the outer side of the upper side thin tube casing 10, and an upper side sealing casing block 3 is arranged on the inner side of the upper end of the upper side casing 4;

the upper side sealing sleeve block 3 comprises a sleeve block shell 31, a sleeve groove 32, an outer side baffle ring 33 and a sealing rubber gasket 34, the outer side baffle ring 33 is arranged in the middle of the outer side of the sleeve block shell 31, the sleeve groove 32 is arranged inside the sleeve block shell 31, the sealing rubber gasket 34 is arranged on the outer side of the lower end of the sleeve block shell 31, the sleeve block shell 31 and the sealing rubber gasket 34 are fixedly connected through sleeve connection, the outer sides of the joints of the sleeve block shell 31 and the sealing rubber gasket 34 are positioned on the same straight line, and the sleeve block shell 31 is connected to the upper side sleeve shell 4;

specifically, as shown in fig. 1 and 5, when the mechanism is used, firstly, the sleeve block shell 31 is blocked by the outer side baffle ring 33, so that the sleeve is more convenient to be fixed on the upper side sleeve shell 4, and when the sleeve is fixedly sleeved, the sealing rubber pad 34 on the outer side of the lower end of the sleeve block shell 31 plays a good role in sealing and fixing, so that the sleeve block shell 31 is more compact in fixing and sleeving, and the generation of a connecting gap is effectively avoided, and when an object is fixed, the sleeve block shell 31 passes through the stepped cylindrical groove area of the sleeve groove 32, so that the object can be well sleeved and fixed, and thus the object is effectively prevented from falling off when the mechanism is used;

an upper side limiting sleeve 2 is arranged on the inner side of the upper end of the upper side sealing sleeve block 3, and an upper side shaft core pipe 1 is arranged on an upper side inner thin pipe 9 in the upper side limiting sleeve 2;

the upper limiting sleeve 2 comprises an outer side stop block 21, a mounting through hole 22, an inner circular tube 23 and an inner groove 24, the mounting through hole 22 is formed in the middle of the outer side stop block 21, the inner circular tube 23 is arranged at the lower end of the outer side stop block 21, the inner groove 24 is formed in the inner portion of the inner circular tube 23, and the inner circular tube 23 is connected to the upper sealing sleeve block 3;

specifically, as shown in fig. 1 and 3, when the mechanism is used, firstly, the inner circular tube 23 at the lower end of the outer side stopper 21 is sleeved and fixed on the upper side sealing sleeve block 3, so that the outer side stopper 21 is blocked to facilitate fixed installation and use, and when the mechanism is fixed with the outside, the outer side stopper 21 passes through the installation through hole 22 in the middle of the outer side, so that the outer side stopper is convenient to fixedly connect, and the inner circular tube 23 passes through the inner groove 24 in the inner side, so that an object can be well sleeved and fixed for use;

a lower side thin tube casing 14 is arranged on the inner side of the lower end of the middle shell 12, a lower side shaft block 13 is arranged on the inner side of the joint of the middle shell 12 and the lower side thin tube casing 14, a lower side inner thin tube 15 is arranged on the lower side shaft block 13 in the lower side thin tube casing 14, a lower side casing 5 is arranged on the middle shell 12 on the outer side of the lower end of the lower side thin tube casing 14, a lower side sealing casing block 6 is arranged on the inner side of the lower end of the lower side casing block 5, a lower side limiting sleeve 7 is arranged on the inner side of the lower end of the lower side sealing casing block 6, and a lower side shaft core tube;

the lower shaft core tube 8 comprises two end clamping grooves 81, an internal flow channel 82, a hollow metal tube 83 and a bottom connecting block 84, the internal flow channel 82 is arranged in the hollow metal tube 83, the two end clamping grooves 81 are arranged on the outer sides of two ends of the hollow metal tube 83, the bottom connecting block 84 is arranged at the lower end of the hollow metal tube 83, the shape and size of the outer side of the lower end of the hollow metal tube 83 are equal to the shape and size of the outer side of the bottom connecting block 84, the hollow metal tube 83 is communicated with the inside of the bottom connecting block 84, the bottom connecting block 84 is connected to the lower inner thin tube 15, and the hollow metal tube 83 is connected to the;

specifically, as shown in fig. 1 and fig. 2, when using this mechanism, at first, through the inside internal flow channel 82 of hollow metal pipe 83, make the outside liquid of being convenient for carry, and during the transport, hollow metal pipe 83 is the high-efficient heat dissipation metal, the use of heat dissipation is convenient for like this, and through the bottom connecting block 84 of hollow metal pipe 83 lower extreme, make be convenient for carry on the inside tubule 15 of downside, like this through the inside contact surface of tubule, thereby effectively accelerate the heat dissipation, and when fixed, hollow metal pipe 83 passes through both ends draw-in groove 81 and connects on downside limit sleeve 7, effectively fix like this, thereby be difficult for droing.

The working principle is as follows: when the invention is used, firstly, the upper side shaft core tube 1 and the lower side shaft core tube 8 inside the upper side limit sleeve 2 and the lower side limit sleeve 7 are used, thereby being convenient for being connected with the outside for use. And when using, through the combination of the inside tubule 9 of the combination of the interior tubule of upside axle core pipe 1 of upside and upside for be convenient for carry in the inboard upside axle piece 11 of upside tubule cover shell 10, thereby effectively dispel the heat, and through the combination of the inside tubule 15 of downside tubule cover shell 14 and downside, make be convenient for carry in the inboard downside axle piece 13 of downside tubule cover shell 14, thereby also be convenient for dispel the heat, dispel the heat more high-efficient like this. And middle casing 12 passes through the inside hollow channel 123 of casing shell 122 for be convenient for deposit fixed object, and when with outside fixed connection, casing shell 122 passes through the outside sawtooth groove 121 in the both ends outside, thereby be convenient for the fixed object of buckle, more firmly inseparable when fixed like this, and middle casing 12 both ends are the symmetric state, make whole stable in utilization. And the sealed cover block 3 of upside passes through the stopping of cover block shell 31 outside fender ring 33, it is more convenient when fixing on upside cover shell 4 to make to cup joint, and when cup jointing fixedly, through the sealed cushion 34 in the cover block shell 31 lower extreme outside, make to play fine sealed fixed action, it is inseparabler when fixed cup jointing like this, effectively avoid the production of joint gap, and during fixed object, cover block shell 31 is regional through the ladder cylinder groove of cup jointing recess 32, make can be fine cup joint fixed object, effectively avoid droing of object like this when using.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.