CN-224227331-U - Integrated formed plug connector for network nozzle of elasticizer

Abstract

The utility model discloses an integrally formed plug connector for a network nozzle of a elasticizer, which comprises a ceramic chip and an outer framework matched with the ceramic chip, wherein the top of the ceramic chip is provided with an upper air hole penetrating through the height direction of the ceramic chip and a wire slot extending along the length direction of the ceramic chip, the outer framework comprises a bottom surface, a support frame and a lower air hole, the ceramic chip and the outer framework are integrally formed through an embedded connecting structure, the ceramic chip and the outer framework are integrally formed through an embedded structure, the traditional glue is replaced for fixing, the hidden danger of gluing and cracking under high-frequency vibration is eliminated, the dislocation and the turbulent flow increase of the air hole caused by split micro-displacement are avoided, the structural stability and the air flow guiding precision of the network nozzle are improved, and the elasticizing network effect is ensured.

Inventors

• HAN TAO

Assignees

• 宜兴市阿芙勒尔陶瓷科技有限公司

Dates

Publication Date

20260512

Application Date

20250521

Claims (7)

1. 1. The utility model provides an integrated into one piece adds bullet machine network plug connector for nozzle, includes ceramic chip (1) and with ceramic chip complex exoskeleton (2), ceramic chip (1) top is equipped with upward gas pocket (3) and wire casing (4) that extend along length direction that run through its direction of height, and exoskeleton (2) include bottom surface (5), support frame (6) and lower gas pocket (7), its characterized in that, ceramic chip (1) and exoskeleton (2) are through embedded connection structure (8) integrated into one piece.
2. 2. The integrally formed plug-in connection for a network nozzle of a elasticizer according to claim 1, wherein the embedded connection comprises a dovetail groove (81) arranged on the porcelain piece and a correspondingly embedded exoskeleton tenon (82).
3. 3. The integrally formed plug-in connector for the network nozzle of the elasticizer according to claim 2, wherein a diversion micro-channel extending into the ceramic chip is arranged in the dovetail groove (81), and the exoskeleton tenons (82) are filled into the diversion micro-channel in a melting way to form a bonding layer.
4. 4. An integrally formed plug for a network nozzle of a elasticizer as defined in claim 3, wherein said flow-guiding micro-channels extend helically and have flow-guiding ribs on the inner walls thereof.
5. 5. The integrally formed plug-in connector for the network nozzle of the elasticizer according to claim 1, wherein a plurality of supporting frames (6) protruding from the bottom surface and capable of being matched with and clamping the ceramic chip are arranged on the bottom surface (5), and an air inlet space (8) communicated with the outside is formed between the bottom of the ceramic chip (1) and the bottom surface of the outer framework.
6. 6. The integrally formed plug-in connector for the network nozzle of the elasticizer according to claim 1, wherein the bottom surface and the side surface of the ceramic chip are integrally formed with the top surface of the supporting frame (6) of the outer framework (2) through an embedded connecting structure (8).
7. 7. The integrally formed plug-in connector for a network nozzle of a elasticizer according to claim 1, wherein the outer skeleton (2) is formed by injection molding of glass fiber reinforced polyether ether ketone.

Description

Integrated formed plug connector for network nozzle of elasticizer Technical Field The utility model relates to the technical field of clothes making equipment, in particular to an integrally formed plug connector for a network nozzle of a elasticizer. Background In the technical evolution of the network nozzle plug-in unit of the elasticizer, the prior patent CN 114717711B of the inventor has proposed an improvement scheme, the plug-in unit comprises a ceramic chip and an outer framework, the top of the ceramic chip is provided with an upper air hole penetrating through the height direction and a wire slot penetrating through the upper air hole, the upper air hole opening at the bottom of the ceramic chip is outwards expanded to form a first guiding inclined plane, the bottom surface of the outer framework is provided with a support column and a lower air hole, and the upper air hole and the lower air hole are concentrically arranged. However, the prior art still has the key problems that the ceramic chip and the outer framework are of a split type structure, the ceramic chip and the outer framework are generally fixed simply by adopting glue, micro cracks are easily generated at a cementing interface under the influence of high-frequency vibration in the network process, the split type structure is pulled by high-speed silk threads, micro displacement is easily generated between the ceramic chip and the outer framework, air hole dislocation and turbulent flow intensity are increased, and network effect is influenced. Disclosure of utility model The utility model aims to provide an integrally formed plug-in component for a network nozzle of a elasticizer, wherein a ceramic chip and an outer framework are integrally formed through an embedded structure, so that the plug-in component is fixed by replacing traditional glue, the hidden danger of glue joint and cracking under high-frequency vibration is eliminated, the dislocation of air holes and the increase of turbulence caused by split micro-displacement are avoided, the structural stability and the air flow guiding precision of the network nozzle are improved, and the elasticizing network effect is ensured. The technical scheme is as follows: The utility model provides an integrated into one piece adds bullet machine network plug connector for nozzle, includes the ceramic chip and with ceramic chip complex exoskeleton, the ceramic chip top is equipped with the last gas pocket that runs through its direction of height and the wire casing that extends along length direction, and the exoskeleton includes bottom surface, support frame and lower gas pocket, ceramic chip and exoskeleton pass through embedded connection structure integrated into one piece. Further, the embedded connecting structure comprises a dovetail groove arranged on the ceramic chip and an outer framework tenon correspondingly embedded. Further, a flow guiding micro-channel extending to the inside of the ceramic chip is arranged in the dovetail groove, and the outer skeleton tenons are filled into the flow guiding micro-channel in a melting way to form a bonding layer. Further, the flow guiding micro-channel extends spirally, and the inner wall of the flow guiding micro-channel is provided with flow guiding ribs. Further, a plurality of support frames protruding from the bottom surface and capable of being matched with and clamping the ceramic chip are arranged on the bottom surface, and an air inlet space communicated with the outside exists between the bottom of the ceramic chip and the bottom surface of the outer framework. Further, the bottom surface and the side surface of the porcelain piece are integrally formed with the top surface of the support frame of the outer framework through an embedded connecting structure. Further, the outer framework is formed by injection molding of glass fiber reinforced polyether-ether-ketone. The ceramic tile has the beneficial effects that the ceramic tile and the outer framework are integrally formed through the embedded structure, so that the traditional glue fixing is replaced, the hidden danger of glue joint cracking under high-frequency vibration is eliminated, the dislocation of air holes and the increase of turbulence caused by split micro-displacement are avoided, the structural stability and the air flow guiding precision of the network nozzle are improved, and the elasticizing network effect is ensured. Drawings FIG. 1 is a perspective view of the present utility model; FIG. 2 is a perspective view of the present utility model; FIG. 3 is a perspective view of a tile of the present utility model; fig. 4 is a perspective view of an exoskeleton of the present utility model. Detailed Description In order to make the technical scheme of the invention clearer, the invention is further described in detail below with reference to the attached drawings and specific embodiments. Example 1 As shown in fig. 1-4, an integrally formed plug connector for a