CN211178386U - On-line detection device for outer diameter of stainless steel round pipe of automobile gasoline fuel distribution system and pipe - Google Patents

Abstract

The utility model discloses a gasoline fuel distribution system stainless steel circle external diameter on-line measuring device for vehicle, include: the device comprises a rack, a first detection device and a second detection device are arranged on the rack along the axial displacement direction of a stainless steel round pipe; the first detection device comprises a left detection probe and a right detection probe which are arranged in a first detection direction perpendicular to the axial displacement direction of the stainless steel round pipe and are used for detecting the outer diameter of the stainless steel round pipe in the first detection direction; the second detection device comprises an upper detection probe and a lower detection probe which are arranged in the second detection direction perpendicular to the axial displacement direction of the stainless steel round pipe and used for detecting the outer diameter of the stainless steel round pipe in the second detection direction. The utility model also discloses a by detection device detects the automobile gasoline fuel distribution system stainless steel pipe of preparation. The utility model provides a stainless steel pipe off-line measuring to solution efficiency is slow, problem with high costs, the utility model discloses can guarantee that stainless steel pipe external diameter meets the requirements, and satisfies the performance requirement.

Description

On-line detection device for outer diameter of stainless steel round pipe of automobile gasoline fuel distribution system and pipe

Technical Field

The utility model belongs to automobile-used nonrust steel pipe field of making, concretely relates to automobile-used petrol fuel distribution is stainless steel circle external diameter on-line measuring device and pipe.

Background

Gasoline engines for medium and high grade vehicles all adopt conventional stainless steel round pipes to improve fuel response speed and fuel mixing precision, thereby achieving higher combustion performance, improving engine performance and saving energy. During welding, the performance of the stainless steel round pipe can be ensured only by ensuring that the outer diameter of the stainless steel round pipe meets the requirements of a drawing.

However, in the prior art, the outer diameter detection of the stainless steel round tube is off-line detection, which has high detection cost and low efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a gasoline fuel for vehicle distributes and is stainless steel pipe external diameter on-line measuring device and by gasoline fuel for vehicle that detection device detected preparation distributes and is stainless steel pipe for the external diameter on-line measuring of welding stainless steel pipe.

In order to realize the utility model discloses an aim, the technical scheme who adopts is:

the utility model provides a gasoline fuel distribution system stainless steel pipe external diameter on-line measuring device for car, includes:

the rack is provided with a first detection device and a second detection device along the axial displacement direction of the stainless steel round pipe; the first detection device comprises a left detection probe and a right detection probe which are arranged in a first detection direction perpendicular to the axial displacement direction of the stainless steel round tube, and the left detection probe and the right detection probe are positioned on two sides of the stainless steel round tube in the axial displacement direction and are used for detecting the outer diameter of the stainless steel round tube in the first detection direction; the second detection device comprises an upper detection probe and a lower detection probe which are arranged in a second detection direction perpendicular to the axial displacement direction of the stainless steel round tube, and the upper detection probe and the lower detection probe are positioned on two sides of the stainless steel round tube in the axial displacement direction and are used for detecting the outer diameter of the stainless steel round tube in the second detection direction; the device for detecting the outer diameter of the stainless steel round pipe on line is integrally placed in the axial displacement direction of the stainless steel round pipe, and the manufactured stainless steel round pipe is subjected to outer diameter detection and then flows into the subsequent production process.

In a preferred embodiment of the present invention, a first detecting device mounting rack is mounted on the frame, the tails of the left and right detecting probes in the first detecting device are respectively mounted on the left and right mounting plates of the first detecting device mounting rack and are respectively connected to the left and right driving cylinders, and the measuring heads of the left and right detecting probes are respectively supported by the left and right supporting plates on the first detecting device mounting rack.

In a preferred embodiment of the present invention, a second detecting device mounting rack is installed on the frame, the tails of the upper detecting probe and the lower detecting probe in the second detecting device are respectively installed on the upper mounting plate and the lower mounting plate of the second detecting device mounting rack and are respectively connected to the upper driving cylinder and the lower driving cylinder, and the measuring heads of the upper detecting probe and the lower detecting probe are respectively supported by the upper supporting plate and the lower supporting plate on the second detecting device mounting rack.

In a preferred embodiment of the present invention, the zero positions of the left and right detecting probes and the zero positions of the upper and lower detecting probes are all located on the same straight line.

In a preferred embodiment of the present invention, the first detecting direction and the second detecting direction are perpendicular to each other.

The stainless steel round tube is detected and prepared by the detection device, wherein the stainless steel round tube is detected and prepared by the online detection device for the outer diameter of the stainless steel round tube of the vehicle gasoline fuel distribution system.

The beneficial effects of the utility model reside in that:

compared with the prior art, the utility model provides a stainless steel pipe off-line measuring to the solution efficiency is slow, problem with high costs, the utility model discloses can guarantee that stainless steel pipe external diameter meets the requirements, and satisfies the performance requirement.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The invention is further explained by means of specific embodiments in the following with reference to the drawings.

The on-line detection device 100 for the outer diameter of the stainless steel round tube of the gasoline fuel distribution system for the vehicle shown in fig. 1 comprises a frame 110, and a detection device 120 and a detection device 130 are mounted on the frame 110 along the axial displacement direction 200a of the stainless steel round tube 200.

The detecting device 120 includes a left detecting probe 121 and a right detecting probe 122 disposed in a first detecting direction perpendicular to the axial displacement direction 200a of the circular stainless steel tube 200, and the left detecting probe 121 and the right detecting probe 122 are located on two sides of the axial displacement direction 200a of the circular stainless steel tube 200 and are used for detecting outer diameters 201 and 202 of the circular stainless steel tube 200 in the first detecting direction.

Specifically, the rack 110 is provided with a detection device mounting bracket 140, the tails 121a and 122a of the left and right detection probes 121 and 122 in the detection device 120 are respectively mounted on the left and right mounting plates 141 and 142 of the detection device mounting bracket 140 and respectively connected with the left and right driving cylinders 161 and 162, and the probes 121b and 122b of the left and right detection probes 121 and 122 are respectively supported on the detection device mounting bracket 140 by the left and right support plates 143 and 144.

The detecting device 130 comprises an upper detecting probe 131 and a lower detecting probe 132 which are arranged in a second detecting direction perpendicular to the axial displacement direction 200a of the stainless steel round pipe 200, wherein the upper detecting probe 131 and the lower detecting probe 132 are positioned at two sides of the axial displacement direction 200a of the stainless steel round pipe 200 and are used for detecting the outer diameters 203 and 204 of the stainless steel round pipe 200 in the second detecting direction.

Specifically, the rack 110 is provided with a detection device mounting bracket 150, tails 131a and 132a of an upper detection probe 131 and a lower detection probe 132 in the detection device 130 are respectively mounted on an upper mounting plate 151 and a lower mounting plate 152 of the detection device mounting bracket 150 and are respectively connected with an upper driving cylinder 163 and a lower driving cylinder 164, and probes 131b and 132b of the upper detection probe 131 and the lower detection probe 132 are respectively supported on the detection device mounting bracket 150 by an upper supporting plate 153 and a lower supporting plate 154.

The first detection direction and the second detection direction are perpendicular to each other.

The device 100 for online detection of the outer diameter of the stainless steel round tube is integrally placed in the axial displacement direction 200a of the stainless steel round tube 200, and the manufactured stainless steel round tube 200 is subjected to outer diameter detection and then flows into the subsequent production process.

Because of having the structure, the utility model discloses a theory of operation and method are:

after the circular stainless steel tube 200 is machined, the circular stainless steel tube 200 enters the online outer diameter detection device 100 along the axial displacement direction 200a of the circular stainless steel tube 200, the probes 121b and 122b of the left and right detection probes 121 and 122 first detect the outer diameters 201 and 202 of the circular stainless steel tube 200 in the first detection direction under the driving of the left driving cylinder 161 and the right driving cylinder 162, and then the probes 131b and 132b of the upper and lower detection probes 131 and 132 detect the outer diameters 203 and 204 of the circular stainless steel tube 200 in the second detection direction under the driving of the upper driving cylinder 163 and the lower driving cylinder 164, respectively.

In order to ensure accuracy, the zero positions of the left detection probe 121 and the right detection probe 122 and the zero positions of the upper detection probe 131 and the lower detection probe 131 are all located on the same straight line 400.

The detection result is transmitted by a connecting circuit (not shown in the figure) of the measuring head so as to find out unqualified products in time.

Claims (6)

1. The utility model provides a gasoline fuel distribution system stainless steel pipe external diameter on-line measuring device for car which characterized in that includes:

the rack is provided with a first detection device and a second detection device along the axial displacement direction of the stainless steel round pipe; the first detection device comprises a left detection probe and a right detection probe which are arranged in a first detection direction perpendicular to the axial displacement direction of the stainless steel round tube, and the left detection probe and the right detection probe are positioned on two sides of the stainless steel round tube in the axial displacement direction and are used for detecting the outer diameter of the stainless steel round tube in the first detection direction; the second detection device comprises an upper detection probe and a lower detection probe which are arranged in a second detection direction perpendicular to the axial displacement direction of the stainless steel round tube, and the upper detection probe and the lower detection probe are positioned on two sides of the stainless steel round tube in the axial displacement direction and are used for detecting the outer diameter of the stainless steel round tube in the second detection direction; the device for detecting the outer diameter of the stainless steel round pipe on line is integrally placed in the axial displacement direction of the stainless steel round pipe, and the manufactured stainless steel round pipe is subjected to outer diameter detection and then flows into the subsequent production process.

2. The on-line detection device for the outer diameter of the stainless steel round pipe of the vehicle gasoline fuel distribution system as claimed in claim 1, wherein a first detection device mounting frame is mounted on the frame, the tail portions of a left detection probe and a right detection probe of the first detection device are respectively mounted on a left mounting plate and a right mounting plate of the first detection device mounting frame and are respectively connected with a left driving cylinder and a right driving cylinder, and the measuring heads of the left detection probe and the right detection probe are respectively supported on the first detection device mounting frame by a left support plate and a right support plate.

3. The on-line detection device for the outer diameter of the stainless steel round tube of the vehicle gasoline fuel distribution system according to claim 2, wherein a second detection device mounting frame is mounted on the frame, the tails of an upper detection probe and a lower detection probe of the second detection device are respectively mounted on an upper mounting plate and a lower mounting plate of the second detection device mounting frame and are respectively connected with an upper driving cylinder and a lower driving cylinder, and the measuring heads of the upper detection probe and the lower detection probe are respectively supported on the second detection device mounting frame by an upper supporting plate and a lower supporting plate.

4. The on-line detection device for the outer diameter of the stainless steel round pipe of the vehicle gasoline fuel distribution system as defined in claim 1, wherein the zero positions of the left detection probe and the right detection probe and the zero positions of the upper detection probe and the lower detection probe are all on the same straight line.

5. The on-line detection device for the outer diameter of the stainless steel round tube of the vehicle gasoline fuel distribution system as claimed in claim 1, wherein the first detection direction and the second detection direction are perpendicular to each other.

6. A stainless steel round tube for a vehicle gasoline fuel distribution system, which is characterized in that the stainless steel round tube is prepared by the on-line detection device for the outer diameter of the stainless steel round tube for the vehicle gasoline fuel distribution system according to any one of claims 1 to 5.

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