CN215572342U - Plate-type tantalum heat exchanger connecting pipe assembling structure - Google Patents

Abstract

The utility model discloses a connecting pipe assembling structure of a plate-type tantalum heat exchanger, which comprises a heat exchanger assembly, wherein the heat exchanger assembly comprises a plate-type heat exchanger body, a threaded pipe communicated with the top surface of the plate-type heat exchanger body and a heat exchange pipeline arranged above the threaded pipe, the connecting assembly comprises external threads arranged at the tail end of the heat exchange pipeline, a connecting cylinder sleeved with the heat exchange pipeline, internal threads arranged on the inner side wall of the connecting cylinder and round rods fixed on two opposite sides of the connecting cylinder.

Description

Plate-type tantalum heat exchanger connecting pipe assembling structure

Technical Field

The utility model relates to the technical field of plate-type tantalum heat exchangers, in particular to a connecting pipe assembling structure of a plate-type tantalum heat exchanger.

Background

According to the grant publication No. CN 211782992U, the heat exchanger is a device for transferring partial heat of hot fluid to cold fluid, the heat exchanger can be used as a heater, a cooler, a condenser, an evaporator, a reboiler and the like in chemical production, the heat exchanger is widely applied, is suitable for heat exchangers with different media, different working conditions, different temperatures and different pressures, has different structural forms, and is connected with the plate heat exchanger in a welding manner by the connecting pipe.

Along with the continuous development of technique, the separation is convenient for dismantling in the later stage, at the terminal erection joint head of pipeline, be connected with the heat exchanger through the connector, but this kind of structural design, pipeline and connector integrated design, in the installation like this, if connection structure appears when the condition of smooth silk, need change whole pipeline, lead to use cost higher easily like this, and the change of whole pipeline is difficult to operate, need certain time to accomplish the change and the laying of whole pipeline, it is inconvenient to use, for this reason, we provide a plate-type tantalum material heat exchanger and take over assembly structure.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to provide a connecting pipe assembling structure of a plate-type tantalum heat exchanger, which optimizes a traditional plate-type pipeline connecting structure, achieves a completely separated structural design by mutual matching of the arranged heat exchanger structure and the connecting structure, connects a pipeline with the plate-type heat exchanger through a connecting cylinder, and is convenient to use because a user can replace an independent connecting cylinder structure when the connecting cylinder structure slides, the pipeline does not need to be integrally replaced.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

a plate-type tantalum material heat exchanger connecting pipe assembling structure comprises:

the heat exchanger component comprises a plate type heat exchanger body, a threaded pipe and a heat exchange pipeline, wherein the threaded pipe is communicated with the top surface of the plate type heat exchanger body, and the heat exchange pipeline is arranged above the threaded pipe;

the connecting assembly comprises external threads arranged at the tail end of the heat exchange pipeline, a connecting cylinder sleeved with the heat exchange pipeline, internal threads arranged on the inner side wall of the connecting cylinder and round rods fixed on two opposite sides of the connecting cylinder;

wherein the internal thread is connected with the external thread and the threaded pipe respectively.

The plate-type tantalum heat exchanger connecting pipe assembling structure comprises a heat exchange pipeline, a plurality of plate-type tantalum heat exchanger connecting pipes are arranged on the heat exchange pipeline, and the heat exchange pipeline is provided with a plurality of heat exchange pipes.

As a preferable scheme of the plate-type tantalum material heat exchanger connecting tube assembling structure, the structure further comprises an anti-displacement assembly, wherein the anti-displacement assembly comprises an upper annular plate fixed on the outer side wall of the connecting cylinder, a first threaded hole formed in the surface of the upper annular plate, and a locking bolt penetrating through the first threaded hole.

As a preferable scheme of the plate-type tantalum heat exchanger connecting tube assembling structure, the plate-type tantalum heat exchanger connecting tube assembling structure further comprises a fixing assembly, wherein the fixing assembly comprises a lower annular plate fixed on the outer side surface of the threaded pipe and a second threaded hole formed in the surface of the lower annular plate.

As a preferred embodiment of the connecting tube assembling structure of the plate-type tantalum heat exchanger, the first threaded holes correspond to the second threaded holes one to one, and the locking bolts sequentially penetrate through the first threaded holes and the second threaded holes.

Compared with the prior art, the utility model has the beneficial effects that: optimize the traditional plate type pipeline connecting structure, through the mutual cooperation of the heat exchanger structure and the connecting structure, reach the structural design of complete separation type, connect the pipeline with the plate type heat exchanger through the connecting cylinder, when the connecting cylinder structure slides, the user can change the independent connecting cylinder structure, do not need to change the pipeline wholly, facilitate the use, when specifically using, the user butt joints the end of the heat exchange pipeline with the screwed pipe, and use the connecting cylinder to directly sleeve on the surface of the heat exchange pipeline, move down gradually, when moving down to the external screw thread position, the user holds the round bar to rotate, the connecting cylinder rotates, drive the internal thread to advance on the external screw thread surface slowly, until the intermediate position of the connecting cylinder is located the junction of external screw thread and screwed pipe, at this moment, the heat exchange pipeline is locked by the whole connecting cylinder, when the connecting cylinder slides, the round bar is rotated to the user direction to carry out the independent disassembly and replacement, in the locking and dismounting processes, only the connecting cylinder is rotated, the heat exchange pipeline does not need to be rotated, and the operation is convenient while the use cost is saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a perspective view of a connection tube assembly structure of a plate-type tantalum heat exchanger according to the present invention

FIG. 2 is an enlarged view of a connecting component in the plate-type tantalum heat exchanger connecting tube assembly structure of FIG. 1;

fig. 3 is an enlarged structural view of an anti-displacement assembly in the structural diagram 2 for assembling the connecting tube of the plate-type tantalum heat exchanger.

In the figure: 100. A heat exchanger assembly; 110. a plate heat exchanger body; 120. a threaded pipe; 130. a heat exchange conduit; 200. a connecting assembly; 210. an external thread; 220. a connecting cylinder; 230. an internal thread; 240. a round bar; 300. a limiting component; 310. a limiting rod; 320. a limiting hole; 400. an anti-shifting assembly; 410. an upper annular plate; 420. a first threaded hole; 430. locking the bolt; 500. a fixing assembly; 510. a lower annular plate; 520. and a second threaded hole.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional views illustrating the structure of the device are not enlarged partially according to the general scale for convenience of illustration, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a connecting pipe assembling structure of a plate-type tantalum heat exchanger, which optimizes a traditional plate-type pipeline connecting structure, achieves a completely separated structural design by mutual matching of the arranged heat exchanger structure and the connecting structure, connects a pipeline with the plate-type heat exchanger through a connecting cylinder, and is convenient to use because a user replaces an independent connecting cylinder structure when the connecting cylinder structure is in a smooth state without integrally replacing the pipeline.

Fig. 1 to 3 are schematic overall structural diagrams illustrating an embodiment of a plate-type tantalum heat exchanger nozzle assembly structure according to the present invention, and referring to fig. 1 to 3, a main body of the plate-type tantalum heat exchanger nozzle assembly structure according to the present embodiment includes a heat exchanger assembly 100 and a connecting assembly 200.

The heat exchanger assembly 100 is used for heat transfer, and is matched with the connecting assembly 200 to complete a split type structural design, specifically, the heat exchanger assembly 100 comprises a plate heat exchanger body 110, a threaded pipe 120 communicated with the top surface of the plate heat exchanger body 110, and a heat exchange pipeline 130 arranged above the threaded pipe 120, and when the heat exchanger assembly is specifically used, a user butt joints the tail end of the heat exchange pipeline 130 with the threaded pipe 120 and uses the connecting assembly 200 for installation and locking.

The connection assembly 200 is used for locking when being separated, reduces the use cost and is convenient to operate, and concretely, the connection assembly 200 comprises an external thread 210 arranged at the tail end of the heat exchange pipeline 130, a connection cylinder 220 sleeved with the heat exchange pipeline 130, an internal thread 230 arranged on the inner side wall of the connection cylinder 220 and round rods 240 fixed on two opposite sides of the connection cylinder 220, when the connection assembly is specifically used, the connection cylinder 220 is directly sleeved on the surface of the heat exchange pipeline 130 and gradually moves downwards, when the connection cylinder moves downwards to the position of the external thread 210, a user holds the round rods 240 to rotate, the connection cylinder 220 rotates to drive the internal thread 230 to slowly advance on the surface of the external thread 210 gradually until the middle position of the connection cylinder 220 is located at the connection position of the external thread 210 and the threaded pipe 120, and at the moment, the heat exchange pipeline 130 is locked by the whole connection cylinder 220.

Referring to fig. 1 to 3, in the plate-type tantalum heat exchanger adapter tube assembly structure of the present embodiment, when in use, a user butt-joints the end of the heat exchange pipe 130 with the threaded pipe 120, and the connecting cylinder 220 is directly sleeved on the surface of the heat exchange pipe 130, and gradually moves downwards, when moving downwards to the position of the external thread 210, a user holds the round bar 240 to rotate, the connecting cylinder 220 rotates to drive the internal thread 230 to slowly advance on the surface of the external thread 210 until the middle position of the connecting cylinder 220 is located at the joint of the external thread 210 and the threaded pipe 120, at this time, the whole connecting cylinder 220 locks the heat exchange pipe 130, when the connecting cylinder 220 is slid, the user rotates the round rod 240 in the direction to perform a single detachment and replacement, in the locking and detaching processes, only the connecting cylinder 220 is rotated without rotating the heat exchange pipe 130, so that the operation is convenient while the use cost is saved.

Further, the external thread 210 contacts with the threaded pipe 120, when the connection cylinder 220 is to be used for locking, a worker is required to support the heat exchange pipe 130, when the operation is performed, the user is required to rotate the heat exchange pipe 130 with one hand while rotating the connection cylinder 220 with one hand, the operation is not easy, therefore, the problem is solved by arranging the limiting component 300, specifically, the heat exchange pipe comprises the limiting component 300, the limiting component 300 comprises a limiting rod 310 fixed on the top surface of the threaded pipe 120 and three limiting holes 320 arranged at the tail end of the heat exchange pipe 130, the limiting rods 310 are arranged in three numbers, the limiting holes 320 correspond to the limiting rods 310 one by one, when the heat exchange pipe is used specifically, the user is clamped with the limiting rods 310 through the limiting holes 320, the three limiting rods 310 are designed to be distributed in a triangular shape, the heat exchange pipe 130 is stably placed, and the user can rotate the round rod 240 by operating with two hands, thus, the installation and operation of a user are facilitated, and the use is convenient.

Further, after the connection using the connection cylinder 220, the connection of the single layer is stable enough to be reinforced to prevent the loosening, and therefore the above-mentioned problem is solved by providing the mutual cooperation of the displacement prevention assembly 400 and the fixing assembly 500.

The anti-displacement assembly 400 is used for being matched with the fixing assembly 500 to complete secondary locking, specifically, the anti-displacement assembly 400 comprises an upper annular plate 410 fixed on the outer side wall of the connecting cylinder 220, a first threaded hole 420 formed in the surface of the upper annular plate 410 and a locking bolt 430 penetrating through the first threaded hole 420, and when the anti-displacement assembly is used specifically, the connecting cylinder 220 drives the upper annular plate 410 to move downwards in the downward moving process until the upper annular plate 410 is butted with the lower annular plate 510.

Fixing assembly 500 docks with preventing displacement subassembly 400, accomplishes the secondary and locks, and is concrete, and fixing assembly 500 includes fixing lower annular plate 510 and the second screw hole 520 of seting up on lower annular plate 510 surface at screwed pipe 120 lateral surface, and when specifically using, when last annular plate 410 and lower annular plate 510 butt joint, the user passes through first screw hole 420 and second screw hole 520 respectively through locking bolt 430, carries out the secondary and locks, prevents that not hard up condition from appearing in heat transfer pipeline 130 junction.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (5)

1. The utility model provides a board-like tantalum material heat exchanger takes over assembly structure which characterized in that includes:

the heat exchanger assembly (100) comprises a plate type heat exchanger body (110), a threaded pipe (120) communicated with the top surface of the plate type heat exchanger body (110) and a heat exchange pipeline (130) arranged above the threaded pipe (120);

the connecting assembly (200) comprises external threads (210) arranged at the tail end of the heat exchange pipeline (130), a connecting cylinder (220) sleeved with the heat exchange pipeline (130), internal threads (230) arranged on the inner side wall of the connecting cylinder (220) and round rods (240) fixed on two opposite sides of the connecting cylinder (220);

wherein the internal thread (230) is connected with the external thread (210) and the threaded pipe (120), respectively.

2. The connecting pipe assembling structure of the plate-type tantalum material heat exchanger as claimed in claim 1, further comprising a limiting assembly (300), wherein the limiting assembly (300) comprises three limiting rods (310) fixed on the top surface of the threaded pipe (120) and three limiting holes (320) formed at the tail end of the heat exchange pipe (130), and the limiting rods (310) are in one-to-one correspondence with the limiting holes (320).

3. The plate-type tantalum material heat exchanger adapter tube assembling structure according to claim 2, further comprising a displacement prevention assembly (400), wherein the displacement prevention assembly (400) comprises an upper annular plate (410) fixed on the outer side wall of the connecting cylinder (220), a first threaded hole (420) formed in the surface of the upper annular plate (410), and a locking bolt (430) penetrating through the first threaded hole (420).

4. The plate-type tantalum material heat exchanger adapter tube assembling structure according to claim 3, further comprising a fixing assembly (500), wherein the fixing assembly (500) comprises a lower annular plate (510) fixed on the outer side surface of the threaded pipe (120) and a second threaded hole (520) formed in the surface of the lower annular plate (510).

5. The adapter tube assembling structure of plate-type tantalum material heat exchanger as claimed in claim 4, wherein the first threaded holes (420) correspond to the second threaded holes (520) one by one, and the locking bolts (430) pass through the first threaded holes (420) and the second threaded holes (520) in sequence.

Images