SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects of the prior art and provide an air conditioner pipe clamp which is convenient to assemble.
In order to achieve the purpose, the utility model adopts the technical scheme that:
the air conditioner pipe clamp comprises a plate body structure, wherein the plate body structure comprises a bridging plate, and a sleeving hole is formed in the bridging plate.
The sleeve holes comprise a first sleeve hole and a second sleeve hole; the first and second sleeving holes are distributed at two ends of the bridge plate.
And the bridging plate is provided with an assembling hole.
The bridge plate comprises an upper plate body and a lower plate body, and the upper plate body and the lower plate body are oppositely arranged at intervals; the upper plate body and the lower plate body are encircled to form a sleeving hole.
The upper plate body comprises a first middle plate, and a first left arc plate and a first right arc plate are arranged at two ends of the first middle plate; the lower plate body comprises a second middle plate, and a second left arc plate and a second right arc plate are arranged at two ends of the second middle plate; the first left arc plate and the second left arc plate are arranged oppositely, and the second right arc plate and the first right arc plate are arranged oppositely.
The upper plate body is distributed above the lower plate body; the first left arc plate and the second left arc plate are of an integrated structure; the first right arc plate is connected with the second right arc plate through a clamping portion.
The clamping portion comprises a clamping hole formed in the first right arc plate, and one end, far away from the second middle plate, of the second right arc plate is inserted into the clamping hole.
Two ends of the first middle plate are respectively connected with the first left arc plate and the first right arc plate through the first longitudinal extension plate; and two ends of the first middle plate are respectively connected with the second left arc plate and the second right arc plate through the second longitudinal extension plate.
The bridge plate side is equipped with spacing portion, spacing portion is including setting up the vertical cardboard on the last plate body, vertical cardboard extends to plate body one side down, be equipped with the salient point on the vertical cardboard.
An air conditioner pipeline assembly comprises an air conditioner pipeline, wherein a shock pad and an air conditioner pipe clamp are arranged on the air conditioner pipeline, and the air conditioner pipe clamp is connected with the air conditioner pipeline through the shock pad; the air-conditioning pipe clamp is connected to the shock pad and the air-conditioning pipeline in a sleeved mode.
The utility model has the advantages that:
the utility model discloses an air conditioner pipe clamp, which can facilitate the connection between the air conditioner pipe clamp and an air conditioner pipeline and the connection between adjacent air conditioner pipelines by matching a plate body structure and a sleeving hole, and can be matched with a damping pad to play a good damping role.
Detailed Description
The following description of preferred embodiments of the utility model will be made in further detail with reference to the accompanying drawings.
An air conditioner pipe clamp comprises a plate body structure 1, wherein the plate body structure 1 comprises a bridging plate, and a sleeving hole is formed in the bridging plate; the utility model discloses an air conditioner pipe clamp, which can be conveniently connected with air conditioner pipelines 2 and adjacent air conditioner pipelines 2 through the matching of a plate body structure 1 and a sleeving hole, and can be matched with a damping pad 5 to play a good damping role.
In addition, the plate body structure 1 mainly comprises a bridging plate, and a sleeving hole is arranged on the bridging plate and plays a role in connection, so that the bridging structure is conveniently connected with the air conditioner pipeline 2; in the actual use process, the plate body structure 1 is sleeved on the corresponding air conditioner pipeline 2 through the sleeving hole, and finally the plate body structure 1 is connected to the vehicle body structure, so that the assembly connection of the air conditioner pipeline 2 is realized.
Further, in the utility model, the socket holes comprise a first socket hole 1-1 and a second socket hole 1-2; the first splicing hole 1-1 and the second splicing hole 1-2 are distributed at two ends of the bridge plate; through the arrangement of the structure, the plate structure disclosed by the utility model can realize the simultaneous connection of two air-conditioning pipelines 2; in the practical use process, the first splicing hole 1-1 is connected with one air-conditioning pipeline 2, the second splicing hole 1-2 is connected with the other air-conditioning pipeline 2, and the first splicing hole 1-1 and the second splicing hole 1-2 are distributed in parallel at intervals, so that the arrangement can realize the parallel distribution of the two air-conditioning pipelines 2 at intervals.
Further, the bridge plate is provided with an assembling hole 13; due to the arrangement of the assembly holes 13, the plate structure can be conveniently connected and assembled with the automobile body through bolts or lock columns and other structures.
Further, in the present invention, the bridging plate includes an upper plate body 11 and a lower plate body 12, wherein the upper plate body 11 and the lower plate body 12 are oppositely arranged at intervals; the upper plate body 11 and the lower plate body 12 form a sleeving hole; the upper plate body 11 and the lower plate body 12 are distributed at intervals, the upper plate body 11 and the lower plate body 12 are separately arranged, a sleeving hole is conveniently formed between the upper plate body 11 and the lower plate body 12, and the upper plate body 11 and the lower plate body 12 are convenient to extrude and lock corresponding air-conditioning pipelines 2.
Further, in the present invention, the upper plate 11 includes a first middle plate 111, and a first left arc plate 112 and a first right arc plate 113 are disposed at two ends of the first middle plate 111; the lower plate body 12 comprises a second middle plate 121, and a second left arc plate 122 and a second right arc plate 123 are arranged at two ends of the second middle plate 121; the first left arc plate 112 is arranged opposite to the second left arc plate 122, and the second right arc plate 123 is arranged opposite to the first right arc plate 113; in the present invention, the first left arc plate 112 and the second left arc plate 122 are assembled to form an arc-shaped groove structure, which is conveniently clamped on the corresponding air-conditioning pipeline 2, and similarly, in the present invention, the second right arc plate 123 and the first right arc plate 113 are assembled to form another arc-shaped groove structure, which is also convenient for the connection of another air-conditioning pipeline 2.
Further, in the present invention, the upper plate 11 is distributed above the lower plate 12; the first left arc plate 112 and the second left arc plate 122 are of an integrated structure; the first right arc plate 113 and the second right arc plate 123 are connected through a clamping part; due to the arrangement mode, the upper plate body 11 and the lower plate body 12 are of an integrated structure, and the two ends are free ends, so that when the air-conditioning pipeline 2 is connected subsequently, the air-conditioning pipeline 2 can be restrained and clamped by using the elastic deformation of the bridging plate; in addition, in order to ensure the stability of the connection between the upper plate body 11 and the lower plate body 12, the upper plate body 11 and the lower plate body 12 are connected through a clamping part, the type of the clamping part can be various, and the clamping part can be a lock catch or a buckle; the setting of joint portion, the free end to last plate body 11 and lower plate body 12 that can be fine carries out the locking to guarantee the locking of whole bridging board to air conditioner pipeline 2.
In addition, further, in the present invention, the clamping portion includes a clamping hole 4 disposed on the first right arc plate 113, and one end of the second right arc plate 123, which is far away from the second middle plate 121, is inserted into the clamping hole 4; during actual assembly, the plate body 11 and the lower plate body 12 are opened manually, after the plate body 11 and the lower plate body 12 are opened, the bridging plate is connected to the air conditioner pipeline 2 in a clamped mode, and after the bridging plate is connected to the air conditioner pipeline 2 in a clamped mode, the second right arc plate 123 is required to be connected to the first right arc plate 113 in a plugged mode, so that locking of the bridging plate to the air conditioner pipeline 2 is achieved.
Furthermore, in the present invention, two ends of the first middle plate 111 are respectively connected to the first left arc plate 112 and the first right arc plate 113 through the first longitudinally extending plate 114; two ends of the first middle plate 111 are respectively connected with a second left arc plate 122 and a second right arc plate 123 through a second longitudinally extending plate 124; the arrangement of the first and second longitudinally extending plates 114 and 124 makes the middle regions of the upper and lower plates 11 and 12 of the present invention resemble a structure like a Chinese character 'ji', and such an arrangement makes the middle regions of the upper and lower plates 11 and 12 present a recessed region, which facilitates subsequent assembly and mutual positioning between the upper and lower plates 11 and 12.
In addition, in the present invention, the first longitudinally extending plate 114, the second longitudinally extending plate 124, the first left arc plate 112 and the second left arc plate 122 form one arc-shaped assembling slot, and the first longitudinally extending plate 114, the second longitudinally extending plate 124, the first right arc plate 113 and the second right arc plate 123 form another arc-shaped assembling slot; based on such structural design, the connection assembly of two air conditioner pipelines 2 can be well realized.
Furthermore, the side surface of the bridging plate is provided with a limiting part 3, the limiting part 3 comprises a longitudinal clamping plate 31 arranged on the upper plate body 11, the longitudinal clamping plate 31 extends towards one side of the lower plate body 12, and a convex point 32 is arranged on the longitudinal clamping plate 31; according to the utility model, the limiting part 3 is arranged, so that a good clamping effect can be achieved, the upper end of the longitudinal clamping plate 31 is connected with the upper plate body 11, the convex points 32 on the longitudinal clamping plate 31 are positioned below the lower clamping plate, and the convex points 32 and the lower clamping plate are mutually clamped, so that a good locking and connecting effect is achieved.
An air conditioner pipeline 2 assembly comprises an air conditioner pipeline 2, wherein a shock pad 5 and an air conditioner pipe clamp are arranged on the air conditioner pipeline 2, and the air conditioner pipe clamp is connected with the air conditioner pipeline 2 through the shock pad 5; the air-conditioning pipe jacket is connected to the shock pad 5 and the air-conditioning pipeline 2; during specific assembly, the air conditioner pipeline 2 is wrapped by the shock absorption pad 5, the corresponding shock absorption pad 5 is clamped by the air conditioner pipe clamp, and the upper plate body 11 and the lower plate body 12 are locked and fixed through the clamping part and the limiting part 3; in the utility model, the damping pad 5 can be a damping sleeve which is sleeved on the air-conditioning pipeline 2; after the shock pad 5 is assembled, clamping the air conditioner pipe clamp on the shock pad 5, and finally connecting the plate structure with the air conditioner pipeline 2; the air conditioner pipe clamp disclosed by the utility model adopts a self-contained mechanical structure to realize locking and fixing of the plate structure and the air conditioner pipeline 2, additional fixing is not needed, the mounting time is saved, additional fasteners are not needed, and the air conditioner pipe clamp is convenient to use in actual assembly.
It is clear that the specific implementation of the utility model is not restricted to the above-described embodiments, but that various insubstantial modifications of the inventive process concept and technical solutions are within the scope of protection of the utility model.