CN212143204U - Spray gun position adjusting device for automatic spraying of nuclear manipulator protective sleeve - Google Patents

Abstract

The utility model discloses a spray gun position adjusting device for automatic spraying of a nuclear manipulator protective sleeve, one end of a position adjusting screw is fixedly connected with a rotating shaft of a position adjusting motor, the position adjusting screw and the rotating shaft of the position adjusting motor are in the same axial direction, a position adjusting nut is fixedly connected with a radial moving plate, the position adjusting nut is sleeved on the position adjusting screw through a self threaded hole, the radial moving plate is arranged on a position adjusting linear guide rail and can freely move in the axial direction of the position adjusting linear guide rail, and a pneumatic electric control spray gun is arranged on the radial moving plate; the control input end of the position adjusting motor is correspondingly connected with the control output end of the controller. The utility model discloses a direction of rotation, rotation rate and the rotation time of control position control motor can remove pneumatic automatically controlled spray gun to the reasonable interval department with the lag mould, realize better spraying effect.

Description

Spray gun position adjusting device for automatic spraying of nuclear manipulator protective sleeve

Technical Field

The utility model relates to a production facility of manipulator lag for nuclear especially relates to a spray gun position control device that is used for manipulator lag for nuclear to spout system automatically.

Background

The nuclear manipulator protecting sleeve is a nuclear industrial manipulator protecting sleeve, is generally of a corrugated pipe structure, is mainly used for protecting a nuclear manipulator driven arm, and aims to prevent harmful gas in a hot chamber from overflowing into an operating area through a manipulator gap.

At present, the forming process of the nuclear manipulator protective sleeve is as follows: and spraying the polyurethane solution on a protective sleeve die by a worker, drying and forming, and taking down to obtain the mechanical arm protective sleeve, wherein the thickness after forming is about 0.6mm, and the formed protective sleeve is required to be uniform in wall thickness and smooth in surface, and has no defects of obvious air holes, slag inclusion and the like in the inner part.

In the traditional processing mode, a complete nuclear manipulator protective sleeve needs to be manually and repeatedly sprayed (about 40 times in average), baked and stood for forming, full manual operation is adopted, the operation space is large, the quality reliability of spraying and forming is closely related to the experience of operators, the nuclear manipulator protective sleeve is easily influenced by outside weather, and more air holes are easily generated when the temperature and the humidity are high, so that the quality is not reliably guaranteed; in addition, the mode has the advantages of high labor intensity in the processing process, long operation time, low production efficiency, strong repeatability and strong experience dependence, operators are not easy to control the consistency of spraying each time, errors in any one time can cause the defects of finished products, and spraying gas is irritating and smelly and is not beneficial to health. However, the corrugated-pipe-shaped manipulator protective sleeve is difficult to form, high in experience dependence and relatively small in batch, so that better automatic production equipment is not available all the time, the production of the nuclear manipulator protective sleeve is greatly limited, and the requirement of batch production cannot be met.

The automatic spraying system for the nuclear manipulator protective sleeve is an ideal choice for producing the nuclear manipulator protective sleeve, and the position of a spray gun, namely the distance between the spray gun and a protective sleeve mold, needs to be adjusted in the spraying process to realize the automatic spraying of the nuclear manipulator protective sleeve and achieve a good spraying effect, so that a spray gun position adjusting device is needed to solve the problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a spray gun position control device that is used for nuclear manipulator lag to spout system automatically in order to solve above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a spray gun position adjusting device for automatic spraying of a nuclear manipulator protective sleeve comprises a controller, a position adjusting motor, a position adjusting linear guide rail, a position adjusting screw, a position adjusting nut and a radial moving plate, wherein one end of the position adjusting screw is fixedly connected with a rotating shaft of the position adjusting motor, the position adjusting screw and the rotating shaft of the position adjusting motor are coaxial, the position adjusting nut is fixedly connected with the radial moving plate, the position adjusting nut is sleeved on the position adjusting screw through a self threaded hole, the radial moving plate is installed on the position adjusting linear guide rail and can freely move in the axial direction of the position adjusting linear guide rail, and a pneumatic electric control spray gun is installed on the radial moving plate; and the control input end of the position adjusting motor is correspondingly connected with the control output end of the controller. The pneumatic electric control spray gun is generally called as a pneumatic spray gun, and in order to determine the function of controlling the on-off of the pneumatic electric control spray gun through a controller, the name of the pneumatic electric control spray gun is adopted, namely, an external high-pressure air source such as an air compressor is used as a power source, and the on-off of the high-pressure air source is controlled by installing a solenoid valve on an air pipe, so that the on-off of the spray gun is controlled.

Preferably, in order to improve the installation stability, the position adjustment linear guide comprises two linear guide rails which are parallel to each other; in order to improve the position adjusting precision of the pneumatic electric control spray gun, the position adjusting motor is a servo motor or a stepping motor.

Further, in order to realize closed spraying and realize better spraying effect by matching with other mechanisms, the spray gun position adjusting device is arranged in the sealed box body, an independent area formed by a partition plate in the sealed box body comprises a spraying area, a spray gun control area and an electric control area, the controller is arranged in the electric control area, the spraying area and the spray gun control area are separated by a vertical partition plate, the vertical partition plate is provided with a partition plate strip-shaped through hole, the pneumatic electric control spray gun is arranged in the spraying area, a workpiece rotating device is also arranged in the spraying area, the workpiece rotating device comprises a protective sleeve die and can control the protective sleeve die to rotate around the central axis of the workpiece rotating device, the spray gun position adjusting device is arranged in the spray gun control area, and a spray gun angle adjusting device and a spray gun moving device are also arranged in the spray gun control area, the spray gun angle adjusting device for adjusting the spraying angle of the pneumatic electric control spray gun is arranged on the radial moving plate, the moving direction of the radial moving plate is parallel to the radial direction of the protective sleeve mould, the pneumatic electric control spray gun is arranged on a spray gun mounting plate of the spray gun angle adjusting device, the spray gun mounting plate penetrates through the strip-shaped through hole of the partition plate, the position adjusting motor and the position adjusting linear guide rail are respectively arranged on the spray gun moving device which is used for controlling the pneumatic electric control spray gun to move in the axial direction of the protective sleeve mould, the control input end of the pneumatic electric control spray gun, the control input end of the workpiece rotating device, the control input end of the spray gun angle adjusting device and the control input end of the spray gun moving device are respectively and correspondingly connected with the control output end of the controller.

The beneficial effects of the utility model reside in that:

the utility model controls the position adjusting motor to rotate forwards or backwards through the controller, the rotating shaft drives the position adjusting screw to rotate synchronously and synchronously in the same direction, and the position adjusting screw is matched with the position adjusting nut to drive the position adjusting nut and the radial moving plate to move axially on the position adjusting linear guide rail, so as to drive the pneumatic electric control spray gun to be far away from or close to the protective sleeve mold; therefore, the pneumatic electric control spray gun can be moved to a position with a reasonable distance from the protecting sleeve die by controlling the rotating direction, the rotating speed and the rotating time of the position adjusting motor, and a better spraying effect is realized. Further, will spray gun position control device and other supporting devices all arrange the seal box in internal and mutually support, have that operating space is little, the leakproofness is strong, do benefit to the environmental protection, do benefit to that operating personnel is healthy, low in labor strength, production efficiency is high, do not rely on operating personnel experience, product quality is guaranteed advantage, can satisfy the batch production demand.

Drawings

Fig. 1 is a schematic perspective view of a spray gun position adjusting device for automatic spraying of a nuclear manipulator protective cover according to the present invention, and also shows a spray gun angle adjusting device used in cooperation with the spray gun position adjusting device according to the present invention;

fig. 2 is one of the schematic three-dimensional structures of the nuclear manipulator protective sleeve automatic spraying system including the spray gun position adjusting device of the present invention, and the internal structure is not shown in the figure;

fig. 3 is a second schematic perspective view of the nuclear manipulator protective cover automatic spraying system including the spray gun position adjusting device of the present invention, showing an internal structure, with a plurality of panels of the sealing box removed compared with fig. 2;

fig. 4 is a third schematic perspective view of the nuclear manipulator protective jacket automatic spraying system including the spray gun position adjusting device of the present invention, which shows an internal structure and has a sound-light alarm removed and has a different view angle from that of fig. 3, and a plurality of panels of the sealing box body are removed compared with fig. 2;

FIG. 5 is a schematic perspective view of a workpiece rotating apparatus used in conjunction with the device for adjusting the position of a spray gun of the present invention, the perspective view being consistent with FIG. 3 but being larger than FIG. 3;

fig. 6 is a schematic perspective view of a spray gun moving device used with the spray gun position adjusting device of the present invention, which is identical to the view of fig. 4 but is in a larger scale than fig. 4.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1, the spray gun position adjusting device 5 (see the spray gun position adjusting device 5 in fig. 4) for automatically spraying nuclear manipulator protection sleeves of the present invention comprises a controller (not shown), a position adjusting motor 50, a position adjusting linear guide 51, the pneumatic and electric control spray gun comprises a position adjusting screw 52, a position adjusting nut 54 and a radial moving plate 53, wherein one end of the position adjusting screw 52 is fixedly connected with a rotating shaft of a position adjusting motor 50, the position adjusting screw 52 and the rotating shaft of the position adjusting motor 50 are coaxial, the position adjusting nut 54 is fixedly connected with the radial moving plate 53, the position adjusting nut 54 is sleeved on the position adjusting screw 52 through a threaded hole of the position adjusting nut, the radial moving plate 53 is installed on a position adjusting linear guide rail 51 and can freely move in the axial direction of the position adjusting linear guide rail 51, and a pneumatic and electric control spray gun 6 is installed on the radial moving plate; the control input end of the position adjusting motor 50 is correspondingly connected with the control output end of the controller. In order to improve the mounting stability, the position adjustment linear guide 51 includes two and parallel to each other; in order to improve the position adjustment accuracy of the pneumatic and electric control spray gun 6, the position adjustment motor 50 is a servo motor or a stepping motor.

When the pneumatic and electric control spray gun is used, the controller controls the position adjusting motor 50 to rotate forwards or backwards, the rotating shaft of the position adjusting motor drives the position adjusting screw rod 52 to synchronously rotate in the same direction, and the position adjusting screw rod 52 is matched with the position adjusting nut 54 to drive the position adjusting nut 54 and the radial moving plate 53 to axially move on the position adjusting linear guide rail 51, so that the pneumatic and electric control spray gun 6 is driven to be far away from or close to the protective sleeve mold 26; therefore, the pneumatic electric control spray gun 6 can be moved to a position with a reasonable distance from the protective sleeve mold 26 by controlling the rotating direction, the rotating speed and the rotating time of the position adjusting motor 50, so that a better spraying effect is realized.

As shown in fig. 1-6, in order to realize closed spraying and realize better spraying effect by matching with other mechanisms, a spray gun position adjusting device 5 is installed in a sealed box body 1, an independent area formed by partition plates in the sealed box body 1 comprises a spraying area 14, a spray gun control area 15 and an electric control area 19, a controller is arranged in the electric control area 19, the spraying area 14 and the spray gun control area 15 are separated by a vertical partition plate 16, a partition plate strip-shaped through hole 17 is arranged on the vertical partition plate 16, a pneumatic electric control spray gun 6 is arranged in the spraying area 14, a workpiece rotating device 2 is also installed in the spraying area 14, the workpiece rotating device 2 comprises a protective sleeve mold 26 and can control the protective sleeve mold 26 to rotate around the central axis of the workpiece, the spray gun position adjusting device 5 is arranged in the spray gun control area 15, a spray gun angle adjusting device 4 and a spray gun moving device 3 are also installed in the spray gun control area 15, the spray gun angle adjusting device 4 for adjusting the spraying angle of the pneumatic electric control spray gun 6 is arranged on a radial moving plate 53, the moving direction of the radial moving plate 53 is parallel to the radial direction of the protective sleeve mould 26, the pneumatic electric control spray gun 6 is arranged on a spray gun mounting plate 44 of the spray gun angle adjusting device 4, the spray gun mounting plate 44 penetrates through the partition plate strip-shaped through hole 17, the shape and the size of the spray gun mounting plate 44 are set according to requirements, and as the spray gun mounting plate penetrates through the partition plate strip-shaped through hole 17, therefore, a multi-bending structure is adopted, the position adjusting motor 50 and the position adjusting linear guide rail 51 are respectively installed on the spray gun moving device 3 for controlling the pneumatic electric control spray gun 6 to move in the axial direction of the protective sleeve mold 26, and the control input end of the pneumatic electric control spray gun 6, the control input end of the workpiece rotating device 2, the control input end of the spray gun angle adjusting device 4 and the control input end of the spray gun moving device 3 are respectively and correspondingly connected with the control output end of the controller. The devices are integrated together to form the automatic spraying system of the manipulator protective sleeve for the core.

As shown in fig. 1-6, when in use, the controller controls the spray gun angle adjusting device 4, the spray gun position adjusting device 5 and the spray gun moving device 3 to operate correspondingly according to actual needs, and finally the pneumatic and electric control spray gun 6 is placed at a reasonable position and angle, and then the pneumatic and electric control spray gun 6 can be started to spray polyurethane solution on the surface of the protective sleeve mold 26; in the spraying process, according to actual needs, the controller controls the protective sleeve mold 26 of the workpiece rotating device 2 to rotate, and meanwhile, the spray gun angle adjusting device 4 and the spray gun moving device 3 can be controlled to operate, so that the polyurethane solution sprayed by the pneumatic electric control spray gun 6 can be more uniformly covered on the protective sleeve mold 26. And after the spraying is finished, drying the polyurethane solution on the protective sleeve mold 26, and taking down the cured polyurethane layer after the drying is finished to obtain the nuclear manipulator protective sleeve.

As shown in fig. 1 to 6, in order to ensure the feasibility of the spray gun angle adjusting device 4, the spray gun moving device 3 and the workpiece rotating device 2, the specific structures of the respective devices will be described in detail below, but the following structures are not the only structures of the respective devices and are not within the scope of the present invention.

As shown in fig. 1 and 4, in order to facilitate the machining, assembly and angle adjustment control of the pneumatically-controlled spray gun 6, the spray gun angle adjusting means 4 includes a spray gun mounting plate 44, an angle adjustment mounting bracket 40, the angle adjusting device comprises an angle adjusting motor 41, a small transmission gear 42 and a large transmission gear 43, wherein an angle adjusting mounting bracket 40 is arranged on a spray gun position adjusting device 5, the angle adjusting motor 41 is arranged on the angle adjusting mounting bracket 40, the small transmission gear 42 is arranged on a rotating shaft of the angle adjusting motor 41, the small transmission gear 42 is meshed with the large transmission gear 43, the large transmission gear 43 is arranged on the angle adjusting mounting bracket 40 and can rotate freely (the function can be easily realized through bearing connection), a spray gun mounting plate 44 is fixedly arranged on the large transmission gear 43, and the plane where the large transmission gear 43 is located is parallel to the axial direction of a protective sleeve mold 26; the control input end of the angle adjusting motor 41 is correspondingly connected with the control output end of the controller; in order to improve the angle adjustment accuracy of the pneumatically and electrically controlled spray gun 6, the angle adjustment motor 41 is preferably a servo motor or a stepping motor. When the device is used, the controller controls the angle adjusting motor 41 to rotate forwards or backwards, so that the small transmission gear 42 can be driven to synchronously rotate in the same direction, the large transmission gear 43 is driven to synchronously rotate in the opposite direction, and finally the spray gun mounting plate 44 and the pneumatic electric control spray gun 6 are driven to synchronously rotate in the opposite direction; therefore, by controlling the rotation direction, the rotation time and the rotation speed of the angle adjusting motor 41, the direction of the pneumatic and electric control spray gun 6 aiming at the protective sleeve mold 26 can be controlled, the function of angle adjustment is realized, and a better spraying effect is realized.

As shown in fig. 4 and 6, for the convenience of processing, assembling and controlling the axial movement of the pneumatically electrically controlled spray gun 6, the spray gun moving device 3 includes an axial moving linear guide 30, an axial moving motor 35, an axial moving driving wheel 34, an axial moving driven wheel 31, an axial moving synchronous belt 33 and an axial moving plate 32, the axial moving linear guide 30 and the axial moving motor 35 are respectively installed at the bottom of the spray gun control area 15 in the sealed box 1, the axial moving motor 35 is installed in the sealed box 1 through a motor installation seat 36, the axial moving driving wheel 34 is installed on the rotating shaft of the axial moving motor 35, the axial moving driven wheel 31 is installed at the bottom of the spray gun control area 15 in the sealed box 1 and can freely rotate (the function can be easily realized through bearing installation), the axial moving synchronous belt 33 is installed on the axial moving driving wheel 34 and the axial moving driven wheel 31, the bottom of the axial moving plate 32 is connected with the axial moving synchronous belt 33 and can move synchronously with the axial moving synchronous belt 33, the bottom of the axial moving plate 32 is simultaneously installed on the axial moving linear guide rail 30 and can freely move in the axial direction of the axial moving linear guide rail 30, the spray gun position adjusting device 5 is installed on the axial moving plate 32, and the moving direction of the axial moving plate 32 is parallel to the axial direction of the protecting sleeve mold 26; the control input end of the axial moving motor 35 is correspondingly connected with the control output end of the controller; in order to improve the installation stability, the axial moving linear guide 30 includes two and parallel to each other; in order to improve the axial movement control accuracy, the axial movement motor 35 is a servo motor or a stepping motor. When the pneumatic electric control spray gun is used, the controller controls the axial moving motor 35 to rotate forwards or reversely, the axial moving synchronous belt 33 is driven to rotate by the axial moving driving wheel 34, so that the axial moving plate 32 is driven to move in the direction parallel to the axial direction of the protecting sleeve mold 26, namely, the pneumatic electric control spray gun 6 is driven to move in the direction parallel to the axial direction of the protecting sleeve mold 26; therefore, by controlling the rotation direction, the rotation speed and the rotation time of the axial movement motor 35, the pneumatic and electric control spray gun 6 can be moved to a reasonable position between the two ends of the protective sleeve mold 26, and a better spraying effect is achieved.

As shown in fig. 3 and 5, in order to facilitate the processing, assembly and rotation control of the protection sleeve mold 26, the workpiece rotating device 2 includes a protection sleeve mold 26, a head end mounting seat 25, a workpiece rotating motor 21, a workpiece rotating driving wheel 20, a workpiece rotating driven wheel 24, a workpiece rotating synchronous belt 22, a workpiece rotating shaft (not shown, inside), a three-jaw chuck 23 and a tail end mounting seat 27, the head end mounting seat 25 and the tail end mounting seat 27 are respectively installed at the bottom of the spraying area 14 in the sealed box body 1, the workpiece rotating motor 21 is installed on the head end mounting seat 25, the workpiece rotating driving wheel 20 is installed on the rotating shaft of the workpiece rotating motor 21, the workpiece rotating driven wheel 24 is installed on the head end mounting seat 25 and can freely rotate (this function can be easily realized by bearing installation), the workpiece rotating synchronous belt 22 is installed on the workpiece rotating driving wheel 20 and the workpiece rotating driven, the workpiece rotating shaft is mounted on the head end mounting seat 25 through a bearing and can rotate freely, two ends of the workpiece rotating shaft are respectively connected with the workpiece rotating driven wheel 24 and the three-jaw chuck 23, the first end of the protective sleeve mold 26 is connected with the three-jaw chuck 23, the second end of the protective sleeve mold 26 is provided with a connecting shaft, and the connecting shaft is mounted on the tail end mounting seat 27 through a bearing and can rotate freely; the control input end of the workpiece rotating motor 21 is correspondingly connected with the control output end of the controller; in order to facilitate manual rotation of the protection sleeve mold 26 when necessary, a connecting shaft at the second end of the protection sleeve mold 26 passes through the tail end mounting seat 27 and then is connected with a rotating handle 28; in order to improve the rotation control accuracy of the shield mold 26, the workpiece rotation motor 21 is a servo motor or a stepping motor. When the device is used, the controller controls the workpiece rotating motor 21 to rotate forwards or reversely, the workpiece rotating driving wheel 20 and the workpiece rotating synchronous belt 22 drive the workpiece rotating driven wheel 24 to rotate, and the workpiece rotating shaft and the three-jaw chuck 23 drive the protective sleeve mold 26 to rotate; therefore, by controlling the rotation direction, the rotation speed and the rotation time of the workpiece rotating motor 21, the rotation direction, the rotation speed and the rotation time of the protection sleeve mold 26 can be controlled, and a better spraying effect is achieved. The corresponding function can be achieved by manually rotating the protective sleeve mold 26 by rotating the handle 28, if necessary.

As shown in fig. 2 to 4, in order to facilitate control operation and observation, a control panel 11 correspondingly connected to the controller is disposed on a side panel of the sealed box 1, at least one side panel of the sealed box 1 is a transparent panel 12, a transverse partition (not marked in the figures) is disposed in the sealed box 1, the spraying area 14 and the spray gun control area 15 are both located above the transverse partition, and the electric control area 19 is located below the transverse partition; in order to further improve the automatic temperature and humidity control to improve spraying quality and efficiency, an exhaust fan (not shown but easy to understand), a dehumidifier (not shown but easy to understand), an electric heater (not shown but easy to understand) and a temperature and humidity sensor (not shown but easy to understand) are arranged in the spraying area 14 in the sealed box body 1, the signal output end of the temperature and humidity sensor is correspondingly connected with the signal input end of the controller, and the control input end of the exhaust fan, the control input end of the dehumidifier and the control input end of the electric heater are respectively correspondingly connected with the control output end of the controller. When the spraying device is applied, the real-time temperature and humidity in the spraying area 14 can be detected through the temperature and humidity sensor, and the exhaust fan, the dehumidifier and the electric heater are controlled to operate as required, so that better temperature and humidity control is realized, and a better spraying effect and a baking function are realized. The design of the door plate on the sealing box body 1 is determined according to the actual requirement, which is not the innovation of the utility model.

Fig. 2 and 3 also show the audible and visual alarm 10 connected with the controller, fig. 2, 3 and 4 also show the rollers 13 arranged at the bottom of the sealed box body 1, fig. 3 also shows the lighting lamp 18 arranged in the spraying area 14 and above the workpiece rotating device 2, and fig. 6 also shows the material tank 60 for supplying polyurethane solution to the pneumatic and electric control spray gun 6, which are all in a conventional structure.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and is not to the limitation of the technical solution of the present invention, as long as the technical solution can be realized on the basis of the above-mentioned embodiment without creative work, all should be regarded as falling into the protection scope of the right of the present invention.

Claims (3)

1. The utility model provides a spray gun position control device that is used for nuclear manipulator lag to spout system automatically which characterized in that: the pneumatic and electric control spray gun comprises a controller, a position adjusting motor, a position adjusting linear guide rail, a position adjusting screw rod, a position adjusting nut and a radial moving plate, wherein one end of the position adjusting screw rod is fixedly connected with a rotating shaft of the position adjusting motor, the position adjusting screw rod and the rotating shaft of the position adjusting motor are in the same axial direction, the position adjusting nut is fixedly connected with the radial moving plate, the position adjusting nut is sleeved on the position adjusting screw rod through a self threaded hole, the radial moving plate is installed on the position adjusting linear guide rail and can freely move in the axial direction of the position adjusting linear guide rail, and a pneumatic and electric control spray gun is installed on the radial moving plate; and the control input end of the position adjusting motor is correspondingly connected with the control output end of the controller.

2. The apparatus of claim 1, wherein the apparatus further comprises a mechanical arm protecting sleeve for automatically spraying the nuclear reactor, and the apparatus further comprises: the position adjusting linear guide rail comprises two linear guide rails which are parallel to each other; the position adjusting motor is a servo motor or a stepping motor.

3. The apparatus for adjusting the position of a nuclear-dedicated manipulator-protecting jacket-based spray gun according to claim 1 or 2, wherein: the spray gun position adjusting device is installed in the seal box body, an independent area formed in the seal box body through a partition plate comprises a spraying area, a spray gun control area and an electric control area, the controller is arranged in the electric control area, the spraying area and the spray gun control area are separated through a vertical partition plate, partition plate strip-shaped through holes are formed in the vertical partition plate, the pneumatic electric control spray gun is arranged in the spraying area, a workpiece rotating device is further installed in the spraying area, the workpiece rotating device comprises a protective sleeve die and can control the protective sleeve die to rotate around the central axis of the pneumatic electric control spray gun, the spray gun position adjusting device is arranged in the spray gun control area, a spray gun angle adjusting device and a spray gun moving device are further installed in the spray gun control area, the spray gun angle adjusting device for adjusting the spraying angle of the pneumatic electric control spray gun is installed on the radial moving plate, the moving direction of radial moving plate with the radial direction of protective sheath mould is parallel, pneumatic automatically controlled spray gun is installed on spray gun angle adjusting device's the spray gun mounting panel, the spray gun mounting panel passes baffle bar through-hole, the position control motor with position control linear guide installs respectively and is used for control pneumatic automatically controlled spray gun is in the axial direction of protective sheath mould removes on the spray gun mobile device, the control input of pneumatic automatically controlled spray gun the control input of work piece rotary device the control input of spray gun angle adjusting device with the control input of spray gun mobile device respectively with the control output of controller corresponds the connection.

Images