CN220523540U - Anti-slip tool for hose connector connection - Google Patents

Abstract

The utility model provides an anti-slipping tool for hose interface connection, which comprises a clamping device and a processing device, wherein the two groups of processing devices are symmetrically arranged by taking the clamping device as a center, the clamping device is arranged in parallel with the processing device, the clamping device comprises a first sliding rail and a clamping plate arranged on the first sliding rail and used for limiting a hose and an interface, and the processing device comprises a second sliding rail, a mounting plate arranged on the second sliding rail, an electric drill and a pneumatic rivet pulling gun which are arranged on the mounting plate and used for diagonally punching and mounting rivets. According to the utility model, the hose and the connector are fixed together through diagonal perforation and rivet pulling fastening, and then are bound, internally expanded and buckled for fixation, so that the phenomenon that the connector slips from the hose is effectively prevented.

Description

Anti-slip tool for hose connector connection

Technical Field

The utility model relates to the technical manufacturing field of hoses, in particular to an anti-slipping tool for hose interface connection.

Background

The hose is widely applied to the fields of fire control, agriculture, mining, industry and the like, and under the working scene that the working pressure is more than 2.0MPa, the hose and the interface are easy to slip, so that the transportation work is invalid.

In the prior art, the step is designed on the surface of the interface, the binding tension is increased, the friction force between the interface and the hose is increased, the risk of interface slipping is reduced, for example, chinese patent with publication number of CN 209196361U discloses a sealing connection device for a fire hose and a water hose joint.

In the prior art, the tension of the binding is increased by designing the steps so as to increase the friction force between the connector and the hose, however, if the binding is too tight, the lining of the hose is easy to be pressed, and if the binding is loose, the connector is easy to slip, so that water leakage is caused.

Disclosure of Invention

In order to achieve the above and other objects, the present utility model is achieved by the following technical solutions: the utility model provides a hose interface connection frock of preventing slipping off, includes clamping device and processingequipment, two processingequipment with clamping device is the central symmetry setting, clamping device includes: a first slide rail; the clamping plate is arranged on the first sliding rail and used for clamping the hose and the connector; the processing device comprises: the first sliding rail is parallel to the second sliding rail; the mounting plate is mounted on the second sliding rail; the electric drill is fixedly arranged on the mounting plate and used for drilling holes; the pneumatic rivet pulling gun is fixedly arranged on the mounting plate and used for mounting rivets.

In an embodiment, the clamping device is arranged parallel to the processing device.

In an embodiment, the port of the hose is placed on the first slide rail downward after the interface is connected with the hose, and the clamping plate is higher than the thickness of the interface exposing the hose.

In one embodiment, the clamping plate moves along the first slide rail to clamp the hose.

In an embodiment, the mounting plate drives the electric drill and the pneumatic hand riveter to align to the center of the interface along the second sliding rail.

In one embodiment, the drill holes diagonally after moving the mounting plate to align with the center of the interface.

In one embodiment, after the punching is completed, the pneumatic rivet pulling gun moves to be aligned with the center position of the interface to drive in rivets and pull the rivets for locking.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages: the hose and the connector are fixed together through diagonal perforation and rivet pulling fastening and then are bound, internally expanded and buckled for fixation, so that the phenomenon that the connector slips from the hose is effectively prevented.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a drilling step according to the present utility model;

fig. 3 shows a schematic drawing of the rivet locking of the present utility model.

1-connecting a hose interface with an anti-slipping tool; 11-clamping means; 111-a first slide rail; 112-clamping plates; 12-a processing device; 121-a second slide rail; 122-mounting plate; 123-electric drill; 1231-first drive means; 1232-first telescoping device; 1233-bit; 124-pneumatic hand riveter; 1241-a second drive; 1242-second telescopic means; 1243-gun head; 2-hose; 3-interface.

Detailed Description

Please refer to fig. 1 to 3. Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that it can be practiced, since modifications, changes in the proportions, or adjustments of the sizes, which are otherwise, used in the practice of the utility model, are included in the spirit and scope of the utility model which is otherwise, without departing from the spirit or scope thereof. Also, the terms "left", "right", "upper", "lower" and "a" are used herein for descriptive purposes only and are not intended to limit the scope of the utility model as embodied or construed in any manner without substantially altering the technical context.

As shown in fig. 1, a hose connector connection anti-slip tool 1 is used for fixedly connecting a hose 2 with a connector 3. The hose connector connection anti-slipping tool 1 comprises a clamping device 11 and a machining device 12, wherein the clamping device 11 is arranged in parallel with the machining device 12, the clamping device 11 is positioned in the middle of two machining devices 12, the two machining devices 12 are symmetrically placed with the clamping device 11 as a center, after the end part of a hose 2 is sleeved with a connector 3, the hose 2 and the connector 3 are placed on the clamping device 11 to be clamped, and the machining devices 12 are used for connecting and fixing the hose 2 and the connector 3.

Referring to fig. 2 and 3, the clamping device 11 includes a first sliding rail 111 and a clamping plate 112, two clamping plates 112 are mounted on the first sliding rail 111, and a lower end of the clamping plate 112 is embedded in a track of the first sliding rail 111. After the hose 2 is connected with the connector 3, the port of the hose 2 is downward placed on the first slide rail 111, the clamping plates 112 on two sides slide towards the hose 2 and the connector 3, and are abutted against the hose 2 to clamp the connection part of the inner wall of the hose 2 and the inner tube of the connector 3.

The two processing devices 12 are symmetrically arranged with the clamping device 11 as a center, the processing devices 12 comprise a second slide rail 121, a mounting plate 122, an electric drill 123 and a pneumatic rivet gun 124, the second slide rail 121 is arranged in parallel with the first slide rail 111, the mounting plate 122 is arranged on the second slide rail 121, the mounting plate 122 slides on the second slide rail 121, and the electric drill 123 and the pneumatic rivet gun 124 are arranged on the mounting plate 122. The electric drill 123 and the pneumatic hand riveter 124 slide left and right along with the mounting plate 122 on the second slide rail 121, and the hose 2 is processed by adjusting the position.

The electric drill 123 includes a first driving device 1231, a first telescopic device 1232, and a drill bit 1233, wherein the first driving device 1231 is fixedly mounted on the mounting plate 122, a part of the first telescopic device 1232 is located inside the first driving device 1231, and the top end of the first telescopic device 1232 is connected with the drill bit 1233. The first driving device 1231 drives the first telescopic device 1232 to retract and the drill bit 1233 to rotate at a high speed for drilling.

The pneumatic rivet gun 124 comprises a second driving device 1241, a second telescopic device 1242 and a gun head 1243, wherein the second driving device 1241 is fixedly mounted on the mounting plate 122, a part of the second telescopic device 1242 is located inside the first driving device 1241, and the top end of the second telescopic device 1242 is connected with the gun head 1243. The second driving device 1241 drives the second telescopic device 1242 to retract and the gun head 1243 to install the rivet.

After the inner tube of the connector 3 is embedded and installed in the hose 2, the connector 3 and the port of the hose 2 are placed on the clamping device 11 downwards, as shown by an arrow in the figure, the clamping plate 112 slides along the first sliding rail 111 to clamp the overlapping position of the hose 2 and the inner tube of the connector 3, and two symmetrically arranged processing devices 12 parallel to the clamping device 11 realize drilling and pulling rivet work. The mounting plate 122 slides along the second sliding rail 121 to drive the electric drill 123 to move to the center of the connector 3, diagonal drilling operation is performed, after drilling is completed, the mounting plate 122 slides along the second sliding rail 121 to drive the pneumatic rivet pulling gun 124 to move to the center of the connector 3, and the pneumatic rivet pulling gun 124 stretches out of the inserted rivet and is locked by rivet pulling. The rivet is inserted through symmetrical punching to be locked, and when the hose 2 works, the joint of the hose 2 and the connector 3 is consistent in stress and not easy to fall off due to the symmetrical positions of the rivets.

After the electric drill 123 moves to the center of the interface 3, the first driving device 1231 drives the first telescopic device 1232 to extend, the drill bit 1233 drills into the hose 2 to perform diagonal punching, and after the punching is completed, the first driving device 1231 drives the first telescopic device 1232 to retract. After the pneumatic rivet gun 124 moves to the center of the connector 3, the second driving device 1241 drives the second telescopic device 1242 to extend, and the gun head 1243 drives the rivet into the hose 2 and rivets the hose 2 and the connector 3. Through electric drill 123 punching with pneumatic rivet rifle 124 rivet locking, fix hose 2 with interface 3 after the rethread ligature area is used hose 2 with interface 3 is fixed.

In conclusion, the hose and the connector are fixed together through diagonal perforation and rivet pulling fastening and then are bound, internally expanded and buckled for fixation, so that the phenomenon that the connector slips off the hose is effectively prevented.

Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value. The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (7)

1. The utility model provides a hose interface connection frock is prevented sliding off, includes clamping device and processingequipment, two processingequipment with clamping device sets up its characterized in that as central symmetry, clamping device includes:

a first slide rail;

the clamping plate is arranged on the first sliding rail and used for clamping the hose and the connector;

the processing device comprises:

the first sliding rail is parallel to the second sliding rail;

the mounting plate is mounted on the second sliding rail;

the electric drill is fixedly arranged on the mounting plate and used for drilling holes;

the pneumatic rivet pulling gun is fixedly arranged on the mounting plate and used for mounting rivets.

2. A hose connector fitting according to claim 1, wherein the clamping means is arranged parallel to the machining means.

3. The hose connector anti-slip tool according to claim 1, wherein the port of the hose is placed on the first slide rail downward after the connector is connected with the hose, and the clamping plate is higher than a thickness of the connector exposing the hose.

4. A hose interface connection anti-slip tool as claimed in claim 3, wherein the clamping plate moves along the first rail to clamp the hose.

5. The hose connector anti-slip tool of claim 1, wherein said mounting plate drives said electric drill and said pneumatic hand riveter along said second slide rail to align with a center of said connector.

6. A hose connector anti-slip tool according to claim 5, wherein said drill holes diagonally after moving said mounting plate into alignment with the central location of said connector.

7. The hose connector assembly anti-slip tool of claim 6, wherein said pneumatic hand riveter is moved into alignment with the center of said connector after the completion of the punching operation to drive in rivets and lock the rivets.