CN212524718U - Be applied to semi-automatic interpolation of anti-sticking agent on oxygen sensor and paint device - Google Patents

Abstract

The utility model relates to a be applied to semi-automatic interpolation of antiseize agent on oxygen sensor and paint device, press from both sides the mechanism including oxygen sensor clamp, paint mechanism and rotary mechanism, press from both sides the mechanism and get the end including pressing from both sides, oxygen sensor presss from both sides respectively and gets in pressing from both sides the end, paint the mechanism and include oil brush and vertical setting and oil brush integrated into one piece's dead lever, be provided with oil brush position control unit on the dead lever, the oil brush can go on upper and lower shift in oil brush position control unit, rotary mechanism is for setting up revolving stage and the revolving cylinder of pressing from both sides the end of getting, the rotary motion is done to the steerable revolving stage of revolving cylinder to it is rotary motion to drive oxygen sensor, press from both sides and still be provided with oxygen sensor in pressing from both sides the mechanism and get.

Description

Be applied to semi-automatic interpolation of anti-sticking agent on oxygen sensor and paint device

Technical Field

The utility model belongs to the technical field of auto-parts and specifically relates to a be applied to semi-automatic interpolation of antiseized agent on oxygen sensor and paint device.

Background

The oxygen sensor and the exhaust pipe are usually engaged by using screw teeth, but the oxygen sensor is in a high-temperature environment for a long time, so that the screw teeth are locked, the oxygen sensor cannot be taken down, and an anti-sticking agent is usually added between the screw teeth to prevent the phenomenon. However, because the prior addition method of the anti-sticking agent is generally a manual addition method, and some manufacturers independently develop a production tool capable of automatically adding the anti-sticking agent in order to overcome the problem, the method mainly adopts a method of manufacturing a clamp and a rotating block, an oxygen sensor fixed on the clamp rotates by means of a rotating mechanism, and an oil brush on one side can brush the anti-sticking agent on the thread teeth. But can discover at the in-service use in-process, the oxygen sensor that the device that sets up like this can't the adaptation model differs can only correspond the oxygen sensor of a model by an automatic device, and the suitability is relatively poor to it is comparatively inconvenient to use, so, how to research and develop a suitability good, convenient to use's automatic adding of anti-sticking agent paints the device and becomes the technical problem that the urgent need was solved.

Disclosure of Invention

The utility model discloses a solve above-mentioned technical problem, press from both sides the mechanism including the oxygen sensor clamp, paint mechanism and rotary mechanism, press from both sides the mechanism and get the end including pressing from both sides, the oxygen sensor is got respectively and is got in pressing from both sides and get the end, paint the mechanism and include oil brush and vertical setting and oil brush integrated into one piece's dead lever, be provided with oil brush position control unit on the dead lever, the oil brush can go on upper and lower shifting in oil brush position control unit, rotary mechanism is for setting up revolving stage and the revolving cylinder of getting the end of pressing from both sides, the rotary motion is to the steerable revolving stage of revolving cylinder to it is rotary motion to drive the oxygen sensor, it still is provided with the oxygen sensor position control unit who gets the mechanism middle and upper, lower removal with.

After having adopted above-mentioned structure, the position of oil brush can be adjusted from top to bottom, to traditional device of paining, increased the suitability to the oxygen sensor of different models, let the oil brush carry out the adaptation to the oxygen sensor of corresponding model size through the position of adjusting the oil brush, and press from both sides and have also set up oxygen sensor position control unit on getting the mechanism, through the upper and lower position adjustment to the oxygen sensor, can help the oil brush can be better when paining, more comprehensive silk tooth department to the oxygen sensor paints.

As a further improvement of the utility model, the clamp is got the end and is the elasticity tong to be provided with the oil brush between dead lever and the elasticity tong and paint the space, oxygen sensor is when rotatory, and the oil brush paints oxygen sensor in the space is paintd to the oil brush.

After having adopted above-mentioned structure, the oil brush can be better scribble the oxygen sensor to do not need the manual work to operate again to scribbling the work.

As a further improvement, the oil brush position adjusting unit comprises a sliding end arranged in the fixed rod and a fixed end arranged outside the fixed rod and fixedly connected with the oil brush, and the sliding end is externally wrapped with a limiting cotton block.

After having adopted above-mentioned structure, spacing cotton piece can help the oil brush both can adjust upper and lower position, can be spacing in a certain place again with the oil brush, before beginning to paint, only need adjust according to corresponding position, just can adapt to the oxygen sensor of different models and size.

As a further improvement, the oxygen sensor position adjustment unit includes the rotary gear that sets up in the oxygen sensor below, sets up to press from both sides and get mechanism one side and press from both sides the ball screw of mechanism fixed connection with the clamp to and set up the drive gear of linkage between lead screw and rotary gear, rotary gear can drive gear and rotate, and drive gear and ball screw linkage.

After having adopted above-mentioned structure, under the condition that oxygen sensor can rotatory memorability scribble, increase the mechanism that can move from top to bottom again, because the brush area of oil brush is fixed unchangeable, and not all oxygen sensors can both the same oil brush of adaptation, so, utilize oxygen sensor still can utilize screw drive upper and lower displacement in self rotatory, played and let the oil brush can scribble the technological effect that oxygen sensor is scribbled in the different positions of different angles, increased the efficiency of scribbling and scribbled the effect.

Drawings

FIG. 1 shows a side view of the present patent;

FIG. 2 is a schematic view of an oxygen sensor disposed in a grasping mechanism;

fig. 3 is a schematic view showing the structural cooperation of the oil brush and the fixing rod.

Detailed Description

As shown in fig. 1, including oxygen sensor clamp and get mechanism 1, paint mechanism 2 and rotary mechanism 3, press from both sides and get mechanism 1 and press from both sides and get end 11 including pressing from both sides, oxygen sensor presss from both sides respectively and gets in getting end 11, paint mechanism 2 and include oil brush 21 and vertical setting and oil brush 21 integrated into one piece's dead lever 22, be provided with oil brush position control unit 23 on the dead lever 22, oil brush 21 can carry out upper and lower displacement in oil brush position control unit 23, rotary mechanism 3 is for setting up in the revolving stage 31 and the revolving cylinder 32 of getting the end on, the steerable revolving stage 31 of revolving cylinder 32 is rotary motion to drive oxygen sensor and be rotary motion, it gets still to be provided with oxygen sensor position control unit 4 who gets the oxygen sensor and get mechanism 1 in the upper and lower removal still to press from both sides to get on the mechanism 1.

The position of oil brush 21 can be adjusted from top to bottom, to traditional device of paining, increased the suitability to the oxygen sensor of different models, the position through adjusting oil brush 21 lets oil brush 21 carry out the adaptation to the oxygen sensor of corresponding model size, and press from both sides and have also set up oxygen sensor position control unit on getting mechanism 1, through the upper and lower position adjustment to oxygen sensor, can help the oil brush can be better when paining, more comprehensive silk tooth department to oxygen sensor paints. The clamping end is an elastic clamping hand, an oil brush coating space is arranged between the fixed rod 22 and the elastic clamping hand, and when the oxygen sensor rotates, the oil brush 21 coats the oxygen sensor in the oil brush coating space.

The oil brush 21 can paint the oxygen sensor well and does not need to be manually operated again for painting. The oil brush position adjusting unit 23 comprises a sliding end 231 arranged in the fixing rod 22 and a fixing end 232 arranged outside the fixing rod 22 and fixedly connected with the oil brush 21, and a limiting cotton block is wrapped outside the sliding end 231. The limiting cotton block can help the oil brush 21 to be adjusted in the upper position and the lower position, and the oil brush 21 can be limited in a certain position, and can be adapted to oxygen sensors of different models and sizes only by adjusting according to the corresponding position before the oil brush is coated. The oxygen sensor position adjusting unit 4 comprises a rotary gear 41 arranged below the oxygen sensor, a ball screw 43 arranged on one side of the clamping mechanism 1 and fixedly connected with the clamping mechanism 1, and a transmission gear 42 arranged between the screw and the rotary gear 41 for linkage, wherein the rotary gear 41 can drive the transmission gear 42 to rotate, and the transmission gear 42 is linked with the ball screw 43. Under the condition that oxygen sensor can rotate the memorability and paint, increase the mechanism that can move up and down again, because the brush coating area of oil brush 21 is fixed unchangeable, and not all oxygen sensors can both the same oil brush 21 of adaptation, so, utilize oxygen sensor still can utilize lead screw 43 transmission upper and lower displacement in self rotatory, played and let oil brush 21 can paint the technical effect that oxygen sensor is scribbled in the different positions of different angles, increased the efficiency of scribbling and scribbled the effect. Wherein the driving mode of the rotating gear is various and can be driven by a motor or manually.

Claims (4)

1. Be applied to semi-automatic adding of anti-sticking agent on oxygen sensor and paint device, its characterized in that: press from both sides including the oxygen sensor and get the mechanism, paint mechanism and rotary mechanism, press from both sides the mechanism and get the end including pressing from both sides, the oxygen sensor is got respectively and is got in pressing from both sides and get the end, paint the mechanism and include oil brush and vertical setting and oil brush integrated into one piece's dead lever, be provided with oil brush position control unit on the dead lever, the oil brush can go on upper and lower displacement in oil brush position control unit, rotary mechanism is for setting up revolving stage and the revolving cylinder of getting the end of getting on, the rotary motion is done to the steerable revolving stage of revolving cylinder to drive the oxygen sensor and be rotary motion, it is middle and upper in the mechanism, the oxygen sensor position control unit of lower removal still to be provided with pressing from both.

2. The semi-automatic anti-sticking agent adding and smearing device applied to the oxygen sensor as claimed in claim 1, wherein: the clamping end is an elastic clamping hand, an oil brush smearing space is arranged between the fixed rod and the elastic clamping hand, and when the oxygen sensor rotates, the oil brush smears the oxygen sensor in the oil brush smearing space.

3. The semi-automatic anti-sticking agent adding and smearing device applied to the oxygen sensor as claimed in claim 2, wherein: the oil brush position adjusting unit comprises a sliding end arranged in the fixed rod and a fixed end arranged outside the fixed rod and fixedly connected with the oil brush, and a limiting cotton block is wrapped outside the sliding end.

4. The semi-automatic anti-sticking agent adding and smearing device applied to the oxygen sensor as claimed in claim 3, wherein: the oxygen sensor position adjusting unit comprises a rotary gear arranged below the oxygen sensor, a ball screw arranged on one side of the clamping mechanism and fixedly connected with the clamping mechanism, and a transmission gear arranged between the screw rod and the rotary gear in linkage, wherein the rotary gear can drive the transmission gear to rotate, and the transmission gear is in linkage with the ball screw.

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