CN214567284U - Adapter block, tank body fixing assembly and modular tank body - Google Patents

Abstract

The utility model discloses a switching piece, jar body fixed subassembly and modularization jar body, wherein, the switching piece is including switching body and first sealed pad. The switching body is provided with a first mounting hole and a second mounting hole communicated with the first mounting hole. The first sealing gasket is arranged in the first mounting hole, the end face of the first sealing gasket is connected with the switching body and the tank body respectively, and the first mounting hole is provided with a pipe orifice used for being connected with the tank body. In the switching piece that this application provided, set up first sealed pad in the first mounting hole with jar body coupling on the switching body, through first sealed pad and jar body threaded end face connection, and cooperate first sealed pad to seal, realize that the switching piece is effectively fixed with sealed with jar body, the switching piece that this application provided has improved the safety in utilization of jar body effectively.

Description

Adapter block, tank body fixing assembly and modular tank body

Technical Field

The utility model relates to a jar body water-cooling technical field, in particular to switching piece. The utility model discloses still relate to a jar body fixed subassembly including above-mentioned switching piece. The utility model discloses relate to a modular tank body including above-mentioned jar body fixed subassembly again.

Background

Tanks are often used to contain gases, liquids or powdered structures. For example, in a high heat generation power apparatus, a water cooling system is indispensable for an expansion tank capable of stabilizing the pressure of the water cooling system.

For example, in wind power water cooling application, a welded joint is mostly adopted at the interface of a traditional expansion tank, or a large aluminum block is used for installation and switching. The welding easily causes the damage of the inside rubber of expansion tank to destroy, and the sealed raw material area winding of often using of kneck is sealed, and uses the reliability and the stability that the raw material can not reach the volume production demand, leads to the safety in utilization of the jar body to reduce, has above-mentioned problem in other applications equally at the jar body of course.

Therefore, how to improve the use safety of the tank body is a technical problem to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a switching piece to improve the safety in utilization of the jar body. Another object of the utility model is to provide a jar body fixed subassembly including above-mentioned switching piece. It is still another object of the present invention to provide a modular tank including the above tank fixing assembly.

In order to achieve the above object, the utility model provides a switching block, include:

the adapter body is provided with a first mounting hole connected with the pipe orifice of the tank body and a second mounting hole communicated with the first mounting hole;

and the first sealing gasket is arranged in the first mounting hole, and the end surface of the first sealing gasket is connected with the switching body and the tank body respectively.

Preferably, first mounting hole is the shoulder hole, first mounting hole be equipped with be used for with the internal thread of the mouth of pipe threaded connection of the jar body, first mounting hole the internal thread sets up in the outer tip hole department of first mounting hole, first sealed pad is located the step department in outer tip hole, the surface of first sealed pad is used for being connected with the jar mouth of the jar body.

Preferably, a thread glue layer is arranged at the internal thread of the first mounting hole.

Preferably, the connecting device further comprises a second sealing gasket which is arranged in the second mounting hole, and the end face of the second sealing gasket is connected with the adapter body and the piece to be mounted respectively.

Preferably, the second mounting hole is the shoulder hole, the outer end of second mounting hole be equipped with wait the internal thread of installed part threaded connection, the sealed outer end step department that is located the second mounting hole of second, the sealed surface of filling up of second be used for with wait the terminal surface of installed part to be connected.

Preferably, a thread glue layer is arranged at the internal thread of the second mounting hole.

Preferably, the extension of the first mounting hole on the adapter body is provided with a fixed torsion step which is concave relative to the side surface of the adapter body.

Preferably, the number of the second mounting holes is at least two, and the ports of at least two second mounting holes are arranged on different sides of the adapter body.

Preferably, the first mounting hole and the second mounting hole are of hole body structures with the same structure.

The utility model provides a jar body fixed subassembly, includes staple bolt subassembly, anti-skidding blotter and as above arbitrary the switching piece, the staple bolt subassembly includes the staple bolt body and locks the retaining member of two free ends of the hoop body, installed part fixed connection be in on the staple bolt body, anti-skidding blotter connect in the locking surface of the staple bolt body.

Preferably, the hoop body is an integrated structure which is annularly arranged.

Preferably, two free ends of the hoop body are provided with flanges used for installing the locking pieces, and a cushion block used for allowing the locking pieces to pass through is arranged between the two free ends.

Preferably, the hoop component further comprises a mounting piece, and the mounting piece is provided with a mounting position connected with an external piece.

Preferably, the width direction both ends of installed part extend to staple bolt body width direction's both sides, the installation position is located the relative both sides of staple bolt body width direction.

Preferably, the device further comprises a support plate, and the mounting part is mounted on the support plate.

Preferably, the supporting plate is provided with a hoop component mounting hole matched with the mounting part and a quick-hanging structure.

Preferably, the number of the hoop components is at least two, and all the hoop components are sequentially arranged along the length direction of the tank body.

A modularized tank body comprises a tank body and a tank body fixing component arranged on the tank body, wherein the tank body fixing component is any one of the tank body fixing components.

Preferably, the tank body is an expansion tank.

In the technical scheme, the utility model provides an adapter block includes switching body and first sealed pad. The switching body is provided with a first mounting hole and a second mounting hole communicated with the first mounting hole. The first sealing gasket is arranged in the first mounting hole, the end face of the first sealing gasket is abutted to the switching body and the to-be-mounted part respectively, and the first mounting hole is connected with the pipe opening of the tank body.

According to the switching block, the first sealing gasket is arranged in the first mounting hole connected with the tank body on the switching body, the first sealing gasket is abutted against the tank body and the switching body in a clamping manner, and the switching block effectively improves the use safety of the tank body compared with the condition that the tank body is damaged by welding and sealing.

Drawings

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

Fig. 1 is a view of an installation position of a modular tank provided in an embodiment of the present invention;

fig. 2 is a three-dimensional structure diagram of the hoop assembly provided in the embodiment of the present invention;

fig. 3 is a schematic structural diagram of the hoop assembly according to the embodiment of the present invention;

FIG. 4 is a top view of the hoop assembly shown in FIG. 3;

fig. 5 is a three-dimensional structure diagram of a transfer block according to an embodiment of the present invention;

fig. 6 is a cross-sectional view of a provided transfer block according to an embodiment of the present invention;

fig. 7 is a three-dimensional structure diagram of a supporting plate according to an embodiment of the present invention.

Wherein in FIGS. 1-7:

100-tank body;

200-an anchor ear component, 201-a flanging, 202-a mounting piece, 203-an anchor ear body and 204-a mounting position;

300-a switching block, 301-internal threads, 302-a first sealing gasket, 303-an outer end step, 304-a second sealing gasket, 305-a fixed-torque step, 306-a first mounting hole and 307-a second mounting hole;

400-antiskid cushion pad, 500-cushion block, 600-joint, 700-automatic exhaust valve, 800-safety valve;

900-support plate, 901-fast hanging structure and 902-hoop component mounting hole.

Detailed Description

The core of the utility model is to provide a switching piece to improve the safety in utilization of the jar body. The other core of the utility model is to provide a jar body fixed subassembly including above-mentioned switching piece. The utility model discloses a still another core provides the modularization jar body of the fixed subassembly of above-mentioned jar body.

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and embodiments.

Please refer to fig. 1 to fig. 6.

In one embodiment, the adapter block provided by the embodiment of the present invention includes an adapter body and a first sealing gasket 302.

The adapter body is provided with a first mounting hole 306 and a second mounting hole 307 communicated with the first mounting hole 306. The first mounting hole 306 is connected to the nozzle of the can 100. Specifically, the first mounting hole 306 is provided with an internal thread 301 for screwing with the nozzle of the tank 100. Wherein the tank 100 may be an expansion tank. Specifically, the second mounting hole 307 may be fitted with an automatic exhaust valve 700, a relief valve, and the like.

The first gasket 302 is disposed in the first mounting hole 306, and the end surfaces are connected to the adaptor body and the can 100, respectively. Specifically, an annular groove structure for installing the first sealing gasket 302 may be arranged in the adapter body, and the first sealing gasket 302 is preferably an annular structure sleeved outside the opening of the tank body.

As shown in fig. 6, in order to simplify the structure of the transfer block 300, the first mounting hole 306 is a stepped hole, the internal thread 301 of the first mounting hole 306 is disposed at the outer end hole of the first mounting hole 306, the first sealing gasket 302 is located at the step of the outer end hole, and the outer end surface of the first sealing gasket 302 is used for being pressed and abutted against the tank opening.

In order to improve the mounting stability, a thread glue layer is preferably arranged at the internal thread 301 of the first mounting hole 306. Specifically, when the transfer block 300 is assembled with the tank body 100, the first sealing gasket 302 is pushed in through the outer end hole of the first mounting hole 306 until the first sealing gasket 302 is located at the step of the outer end hole, then the thread glue is coated at the position of the inner thread 301, and the transfer block 300 is screwed into the position of the tank opening after being accommodated until the transfer block is transferred to the preset position of the tank opening.

In one embodiment, the second mounting hole 307 may be a light hole, and the adaptor block 300 further includes a second gasket 304 disposed in the second mounting hole 307 and having end surfaces abutting against the adaptor body and the member to be mounted, respectively. Specifically, an annular groove for mounting the second gasket 304 is formed in the second mounting hole 307, and the second gasket 304 is preferably an annular structure that is sleeved outside the member to be mounted.

As shown in fig. 6, the second mounting hole 307 is a stepped hole, an outer end of the second mounting hole 307 is provided with an internal thread for screwing with the member to be mounted, the second sealing gasket 304 is located at the step 303 of the outer end of the second mounting hole 307, and an outer surface of the second sealing gasket 304 is used for connecting with an end surface of the member to be mounted.

Specifically, it is preferable that the outer end step for mounting the first seal gasket 302 and the outer end step 303 for mounting the second seal gasket 304 are both planar structures.

The end face sealing with other structures is realized by arranging the first sealing gasket 302 and the second sealing gasket 304, the end face sealing requirement of the mounting position 204 can be met in the mounting process, the use of thread rubber and thread tape is avoided, and the end face sealing is more stable and reliable in the mass production process.

In order to improve the sealing property, a sealant is provided on the sealing surface of the first gasket 302 and the second gasket 304, and is bonded to the contact member after the fixation.

In order to improve the connection sealing performance, a thread glue layer is preferably arranged at the internal thread of the second mounting hole 307.

As can be seen from the above description, in the adapter block 300 provided in the embodiment of the present application, the first gasket 302 is disposed in the first mounting hole 306 of the adapter body connected to the tank 100, and the first gasket 302 is clamped and abutted against the tank 100 and the adapter body to realize sealing, so that the adapter block 300 provided in the present application effectively improves the safety of the tank 100 in use compared with the case that the tank 100 is damaged by welding and sealing.

In one embodiment, as shown in fig. 5 and 6, the extension of the first mounting hole 306 on the adapter body is provided with a torsion-fixing step 305 recessed relative to the side surface of the adapter body, specifically, the thickness of the adapter body is the same as that of the torsion-fixing step 305, and the side surface is flush. The design size of the fixed-torque step 305 and the tank opening of the tank body 100 is small, and the fixed-torque step is convenient to use when the connecting block 300 is installed.

Preferably, the second mounting holes 307 are at least two, and the ports of the at least two second mounting holes 307 are arranged on different sides of the adapter body. Specifically, the second mounting holes 307 may be three, four, etc. In order to avoid structural interference with the mounting on the adapter block 300, it is preferred that all second mounting holes 307 are arranged on different sides of the adapter body, respectively.

Specifically, when the number of the second mounting holes 307 is three, the switching block 300 provided by the present application can implement a modularized usage manner, and only the switching block 300 needs to be placed in a suitable position of the device to implement a desired function. For example, the joint 600, the automatic exhaust valve 700, and the safety valve 800 are respectively and independently corresponding to one second mounting hole 307, so that the functions of pressure stabilization, pressure relief, and automatic exhaust in one adapter can be realized, and the compatibility of different products can be realized, that is, the universality is improved.

In a specific implementation mode, the switching body can be of an integrally formed structure, and the switching body is used as a module in production, so that the production efficiency is improved, and the labor intensity of workers is reduced.

In addition to the above-described embodiments, in order to improve versatility, it is preferable that the first mounting hole 306 and the second mounting hole 307 have a hole structure having the same structure. Because the first mounting hole 306 and the second mounting hole 307 are common, multiple assembling modes of the transfer block 300 are realized, and the use universality of the transfer block 300 is further improved.

The utility model provides a jar body fixed subassembly includes staple bolt subassembly 200, anti-skidding blotter 400, switching piece 300. The transfer block 300 is any one of the above-mentioned transfer blocks 300, and the specific structure of the transfer block 300 is described above, and the present application includes the above-mentioned transfer block 300, and the above-mentioned technical effects are also achieved.

The hoop assembly 200 includes a hoop body 203 and locking members for locking two free ends of the hoop body. Specifically, the locking member may be a structure in which a bolt is engaged with a nut.

In one embodiment, the hoop assembly 200 further includes a mounting member 202, and the mounting member 202 is provided with a mounting position 204 connected to an external connector. The mounting member 202 is fixedly connected to the hoop body 203, and the mounting member 202 is provided with a mounting position 204 connected to an external device. Specifically, the mounting locations 204 may be mounting holes for bolts to pass through. The number of the mounting holes is determined according to the number of the locking pieces.

Preferably, jar body fixed subassembly still includes backup pad 900, and wherein installed part 202 is installed in backup pad 900, and is concrete, is equipped with the staple bolt subassembly mounting hole 902 that is used for installing this installed part 202 in the backup pad 900, and in order to improve backup pad 900 commonality, staple bolt subassembly mounting hole 902 is equipped with at least two sets ofly from top to bottom, and installed part 202 is installed as required on the staple bolt subassembly mounting hole 902 of corresponding height. In order to improve the mounting stability, it is preferable that the mounting member 202 is mounted to the support plate 900 by at least two locking members.

Of course, the hoop component mounting holes 902 may be arranged in an array, and the hoop component mounting holes 902 are specifically provided with at least three rows and three columns, so as to adjust the horizontal position and the height position of the mounting member 202 as required.

The anti-slip buffer pad 400 is connected in the locking surface of the hoop body 203, and is concrete, and the anti-slip buffer pad 400 can be rubber pads, foam-rubber cushions and the like, and is preferred, and the both sides of the anti-slip buffer pad 400 all are equipped with anti-slip lines, or the anti-slip buffer pad 400 fixed mounting is on the hoop body 203, and is concrete, and the anti-slip buffer pad 400 bonds on the hoop body 203.

This application adds the buffering slipmat in the centre when the staple bolt body 203 is assembled with jar body 100 for avoid hard to hard contact, prevent the slip of jar body 100 when vertical installation when the protection jar body 100 surface, prevent the extrusion deformation of jar body 100.

In one embodiment, the hoop body 203 is a ring-shaped integral structure, and the hoop body 203 may be formed by stamping or casting. Specifically, the hoop assembly 200 may be an integrally formed structure, and specifically, the hoop assembly 200 may also be integrally cast.

In order to facilitate the operation of the hoop assembly 200, preferably, two free ends of the hoop body 203 are provided with flanges 201 for mounting locking members, a cushion block 500 for the locking members to pass through is arranged between the two free ends, the cushion block 500 can be specifically an epoxy member or a nylon member, preferably, the cushion block 500 is preferably a flexible cushion block 500, and the hoop assembly 200 is prevented from being mounted too tightly.

Specifically, when the fixing is performed, the cushion block 500 is arranged between the two flanges 201, so that the bolt connection position can be limited, and the tank body 100 is prevented from being extruded and damaged in the fastening process. Prevent the extrusion deformation of the expansion tank.

As shown in fig. 2 and 3, in one embodiment, the two ends of the width of the mounting member 202 extend to two sides of the width direction of the hoop body 203, and the mounting positions 204 are located at two opposite sides of the width direction of the hoop body 203. Preferably, the extending lengths of the installation parts 202 on the two sides of the hoop body 203 are the same, and the installation positions are symmetrically arranged along the center line of the hoop body 203.

Specifically, staple bolt subassembly 200 is at side outstanding face design mounting hole, and staple bolt subassembly 200 adopts the installation of the outstanding limit trompil in both sides promptly, avoids staple bolt (203 to the influence of installation hole site, facilitates the use electric tool to install, can be quick fix to jar backup pad 900 of body 100 on, can improve installation production efficiency.

In order to facilitate the modularized installation, it is preferable that the supporting plate 900 is provided with a quick hanging structure 901, and specifically, the quick hanging structure 901 is an outward flange arranged at the top end of the supporting plate 900. The quick-hang structures 901 may be one or at least two. When there is one quick-hanging structure 901, in order to improve the hanging stability, preferably, two ends of the quick-hanging structure 901 extend to two opposite sides of the supporting plate 900.

In order to improve the installation stability of the tank 100, preferably, at least two hoop assemblies 200 are provided, and all the hoop assemblies 200 are sequentially arranged along the length direction of the tank.

The application provides a jar body fixed subassembly overall structure is simple, simple to operate, can carry out streamlined production.

The application provides a modularization jar body includes jar body 100 and installs the fixed subassembly of jar body on jar body 100, and the fixed subassembly of jar body is any kind of above-mentioned jar body fixed subassembly. The foregoing describes a specific structure of the tank fixing assembly, and the present application includes the tank fixing assembly as described above, and also has the technical effects as described above.

In particular, the tank 100 may be an expansion tank. The joint 600, the automatic exhaust valve 700 and the safety valve 800 can be installed at the position of the adapter block 300, the expansion tank is connected into a required pipeline system through the joint 600, the functions of pressure stabilization, pressure relief and automatic exhaust can be realized, and the space and the cost are greatly saved.

Further, the tank body 100 can be vertically placed or horizontally placed, and the position of the fitting at the switching block 300 can be adjusted to meet the exhaust requirement.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (19)

1. A transition block, comprising:

the connecting device comprises a connecting body, wherein a first mounting hole (306) connected with a pipe orifice of a tank body (100) and a second mounting hole (307) communicated with the first mounting hole (306) are formed in the connecting body;

and the first sealing gasket (302) is arranged in the first mounting hole (306), and the end surfaces of the first sealing gasket are respectively connected with the adapter body and the tank body (100).

2. The adapter block according to claim 1, wherein the first mounting hole (306) is a stepped hole, the first mounting hole (306) is provided with an internal thread (301) for being in threaded connection with a pipe orifice of the tank (100), the internal thread (301) of the first mounting hole (306) is arranged at an outer end hole of the first mounting hole (306), the first sealing gasket (302) is positioned at the step of the outer end hole, and the outer surface of the first sealing gasket (302) is used for being connected with the tank orifice of the tank (100).

3. The adapter block according to claim 2, characterized in that a thread glue layer is arranged at the internal thread (301) of the first mounting hole (306).

4. The adapter block according to claim 1, further comprising a second gasket (304) disposed in the second mounting hole (307) and having end surfaces connected to the adapter body and the member to be mounted, respectively.

5. The transfer block according to claim 4, characterized in that the second mounting hole (307) is a stepped hole, the outer end of the second mounting hole (307) is provided with an internal thread for screwing with the member to be mounted, the second sealing gasket (304) is positioned at the outer end step (303) of the second mounting hole (307), and the outer surface of the second sealing gasket (304) is used for connecting with the end surface of the member to be mounted.

6. The transfer block of claim 5, wherein the internal threads of the second mounting hole (307) are provided with a thread glue layer.

7. The adapter block according to claim 1, characterized in that the extension of the first mounting hole (306) on the adapter body is provided with a torsion-fixing step (305) recessed with respect to the side of the adapter body.

8. The transition block according to claim 1, wherein the second mounting holes (307) are at least two, the ports of at least two of the second mounting holes (307) being arranged on different sides of the transition body.

9. The transition block according to any of claims 1 to 8, wherein the first mounting hole (306) and the second mounting hole (307) are of a same aperture structure.

10. A tank fixing assembly, characterized by comprising a hoop assembly (200), an anti-slip buffer (400) and the transfer block (300) as claimed in any one of claims 1 to 9, wherein the hoop assembly (200) comprises a mounting member (202), a hoop body (203) and a locking member for locking two free ends of the hoop body, the mounting member (202) is fixedly connected to the hoop body (203), and the anti-slip buffer (400) is connected to a locking surface of the hoop body (203).

11. The tank securing assembly according to claim 10, wherein the hoop (203) is a one-piece structure arranged in a ring.

12. The tank fixing assembly according to claim 10, characterized in that two free ends of the hoop (203) are provided with flanges (201) for mounting the locking member, and a cushion block (500) for the locking member to pass through is arranged between the two free ends.

13. The tank fixing assembly according to claim 10, wherein the hoop assembly (200) further comprises a mounting member (202), and the mounting member (202) is provided with a mounting position (204) connected with an external connector.

14. The tank securing assembly according to claim 13, wherein the width-wise ends of the mounting members (202) extend to the width-wise sides of the hoop body (203), and the mounting locations (204) are located on opposite width-wise sides of the hoop body (203).

15. The can body securing assembly according to claim 13, further comprising a support plate (900), the mounting member (202) being mounted to the support plate (900).

16. The tank securing assembly according to claim 15, wherein the support plate (900) is provided with a hoop assembly mounting hole (902) for cooperating with the mounting member (202) and is provided with a quick-hanging structure (901).

17. The tank securing assembly according to any of claims 10-16, characterized in that there are at least two hoop assemblies (200), all of said hoop assemblies (200) being arranged one after the other along the length of the tank (100).

18. A modular can body comprising a can body (100) and a can body securing assembly mounted on the can body (100), the can body securing assembly being as claimed in any one of claims 10 to 17.

19. The modular tank of claim 18, wherein the tank (100) is an expansion tank.

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