CN210703507U - Valve ball automatic installation mechanism for installing water separator shell - Google Patents

Abstract

The utility model discloses an automatic valve ball mounting mechanism for mounting a water separator shell, which comprises a main frame, wherein a main conveying through groove is arranged in the middle part above a top plate of the main frame, and the top surface of the main frame at the rear side of the main conveying through groove is fixed with an automatic valve ball moving, grabbing and mounting mechanism; the valve ball automatic moving, grabbing and installing mechanism comprises a valve ball grabbing and installing bottom plate, the valve ball grabbing and installing bottom plate is fixed above the rear part of the main rack, a third grabbing and moving mechanism is fixed on the top surface of the valve ball grabbing and installing bottom plate, and two third moving blocks of the third grabbing and moving mechanism are both fixed with the valve ball grabbing and installing mechanism; the valve ball installing device can automatically stretch into the upper vertical column on the water distributor shell to be clamped, automatically grab and install, and is good in effect, high in efficiency and high in installation accuracy.

Description

Valve ball automatic installation mechanism for installing water separator shell

The technical field is as follows:

the utility model relates to a water knockout drum rigging equipment technical field, more specifically the valve ball automatic installation mechanism is used in installation of water knockout drum casing that says so.

Background art:

need parts such as installation packing ring, case, valve ball in the current water knockout drum casing, current mode all is artifical installation, its inefficiency, the effect is poor, if install the valve ball, it need stretch into the valve ball in the water knockout drum casing, insert on the bellying of case in the draw-in groove on the one side outer wall of valve ball, accomplish and connect and install, however, because the small of valve ball, manual operation, it is manual to grip the installation and probably inconvenient, need carry out manual operation with other instruments, its troublesome poeration, inefficiency.

The utility model has the following contents:

the utility model aims at overcoming prior art's is not enough, provides a water knockout drum is valve ball automatic installation mechanism for casing installation, and it can stretch into the installation valve ball in the vertical post in upper portion on will treating the centre gripping water knockout drum casing automatically, and it snatchs the installation automatically, and is effectual, efficient, and the installation accuracy is high moreover.

The utility model provides a technical problem's scheme is:

a valve ball automatic installation mechanism for installing a water separator shell comprises a main frame, wherein a main conveying through groove is formed in the middle of the upper portion of a top plate of the main frame, and a valve ball automatic moving, grabbing and installing mechanism is fixed on the top surface of the main frame on the rear side of the main conveying through groove;

the valve ball automatic moving, grabbing and installing mechanism comprises a valve ball grabbing and installing bottom plate, the valve ball grabbing and installing bottom plate is fixed above the rear part of the main rack, a third grabbing and moving mechanism is fixed on the top surface of the valve ball grabbing and installing bottom plate, and two third moving blocks of the third grabbing and moving mechanism are both fixed with the valve ball grabbing and installing mechanism;

two valve ball feeding channels are arranged on the top surface of the main frame at the front part of the main conveying through groove and correspond to the grabbing structures of the two valve ball grabbing and installing mechanisms.

The valve ball grabbing and installing mechanism comprises a third moving plate, the third moving plate is fixed on the top surface of a corresponding third moving block, a third vertical connecting plate is fixed on the top surface of the third moving plate, a third moving cylinder is fixed on the third vertical connecting plate, a third pushing plate is fixed on a pushing rod of the third moving cylinder, a transverse top plate part is formed on the top surface of the third pushing plate, a third grabbing cylinder and a third pushing cylinder are fixed on the top surface of the transverse top plate part, the pushing rods of the third grabbing cylinder and the third pushing cylinder are inserted and sleeved in corresponding through holes of the transverse top plate part, a grabbing supporting block is fixed at the end part of the pushing rod of the third grabbing cylinder, a valve ball clamping finger cylinder is fixed on the front wall surface of the bottom end of the grabbing supporting block, two grabbing fingers of the valve ball clamping finger cylinder face to the discharge holes of a corresponding valve ball feeding channel, and a guide convex block is formed in the middle part of the front wall surface of the grabbing, and a valve ball ejector rod is fixed on a push rod of the third pushing cylinder, is inserted in the middle vertical guide through hole of the guide protruding block, and extends out of the bottom end of the middle vertical guide through hole of the guide protruding block at the bottom end and is positioned between the upper parts of two grabbing fingers of the valve ball clamping finger cylinder.

A limiting support frame is fixed on the top surface of the main frame at the front part of the main conveying through groove, two valve ball limiting cylinders are mounted on the top surface of a top plate of the limiting support frame, push rods of the two valve ball limiting cylinders penetrate through the bottom surface of the top plate of the limiting support frame and are fixed with ejector pins, and the ejector pins lean against valve balls at the discharge outlets of corresponding valve ball feeding channels.

The top surface of the top plate of the limiting support frame is fixed with an oblique block with a high rear end and a low front end, the valve ball limiting cylinder is fixed on the oblique top surface of the oblique block, a push rod of the valve ball limiting cylinder penetrates through the oblique block and the bottom surface of the top plate of the limiting support frame in an oblique mode and is fixed with a thimble, and the thimble is arranged in an oblique mode.

The bottom plate at the discharge port of the valve ball feeding channel extends backwards and downwards in a slant direction to form a slant portion, the rear end of the slant portion is formed with a transverse material receiving portion, and a valve ball stop block is fixed on the top surface of the rear end of the transverse material receiving portion.

The bottom surface of the valve ball feeding channel is fixed with a connecting block, and the connecting block is fixed on an upper mounting plate fixed on the top surface of the main frame at the front part of the main conveying through groove.

The valve ball feeding channel is characterized in that long raised strip portions are formed on the top surface of the bottom plate and the top surface of the inclined portion of the valve ball feeding channel, long slots are formed in the side wall of the valve ball, and the long raised strip portions are inserted and sleeved in the long slots.

The valve ball snatchs the anterior top surface of mounting plate and is fixed with the upper level stopper, is fixed with the mounting panel on the top of the main frame of the opposite side of main transport through groove that the upper level stopper corresponds, and the top surface of going up the mounting panel is fixed with the last cylinder that compresses tightly corresponding with the upper level stopper, and the shaping has the side recess corresponding with the vertical post in upper portion of treating centre gripping water knockout drum casing on the preceding wall of upper level stopper, and the shaping has the preceding recess that corresponds with the side recess on the back wall of the ejector pad that compresses tightly the cylinder on.

At least one vertical guide rail part is fixed on the front wall surface of the third pushing plate, a sliding block is fixed on the rear wall surface of the grabbing supporting block, and the vertical guide rail part is inserted in a sliding groove of the sliding block.

The utility model discloses an outstanding effect is:

compared with the prior art, the valve ball mounting device can automatically stretch into the upper vertical column on the water distributor shell to be clamped, automatically snatchs and mounts, and is good in effect, high in efficiency and high in mounting precision.

Description of the drawings:

FIG. 1 is a simplified schematic partial top view of a mounting portion component of the present invention;

fig. 2 is a partial structural schematic diagram of the present invention;

fig. 3 is a partial structural schematic view of a third grip movement mechanism;

FIG. 4 is a schematic view of the present invention with parts of the ball feed passage removed;

FIG. 5 is a partial schematic view of the valve ball feed passage and main frame;

FIG. 6 is a schematic view of a partial structure where the valve ball clamps the finger cylinder;

fig. 7 is a partially enlarged view of fig. 2.

The specific implementation mode is as follows:

in an embodiment, as shown in fig. 1 to 7, an automatic valve ball mounting mechanism for mounting a water separator shell comprises a main frame 10, wherein a main conveying through groove 14 is formed in the middle of the upper part of a top plate of the main frame 10, and an automatic valve ball moving, grabbing and mounting mechanism 70 is fixed on the top surface of the main frame 10 at the rear side of the main conveying through groove 14;

the automatic ball grabbing and installing mechanism 70 comprises a ball grabbing and installing bottom plate 71, the ball grabbing and installing bottom plate 71 is fixed above the rear part of the main frame 10, a third grabbing and moving mechanism 72 is fixed on the top surface of the ball grabbing and installing bottom plate 71, and a ball grabbing and installing mechanism 73 is fixed on each of two third moving blocks 721 of the third grabbing and moving mechanism 72;

two valve ball feeding channels 74 are arranged on the top surface of the main frame 10 at the front part of the main conveying through groove 14, and the two valve ball feeding channels 74 correspond to the grabbing structures of the two valve ball grabbing and installing mechanisms 73.

Further, the valve ball gripping and mounting mechanism 73 includes a third moving plate 731, the third moving plate 731 is fixed on the top surface of the corresponding third moving block 721, a third vertical connecting plate is fixed on the top surface of the third moving plate 731, a third moving cylinder 732 is fixed on the third vertical connecting plate, a third pushing plate 733 is fixed on a pushing rod of the third moving cylinder 732, a transverse top plate portion is formed on the top surface of the third pushing plate 733, a third gripping cylinder 735 and a third pushing cylinder 736 are fixed on the top surface of the transverse top plate portion, the pushing rods of the third gripping cylinder 735 and the third pushing cylinder 736 are inserted and sleeved in corresponding through holes of the transverse top plate portion, a gripping support block 7351 is fixed on the end portion of the pushing rod of the third gripping cylinder 735, a valve ball clamping finger cylinder 7352 is fixed on the front wall surface of the bottom end of the gripping support block 7351, two gripping fingers of the valve ball clamping cylinder 7352 face the discharge port of the corresponding valve ball feeding channel 74, a guide protrusion block 7359 is formed in the middle of the front wall surface of the grabbing supporting block 7351, a valve ball ejector rod 7361 is fixed on the push rod of the third pushing cylinder 736, the valve ball ejector rod 7361 is inserted into the middle vertical guide through hole of the guide protrusion block 7359, and the bottom end of the valve ball ejector rod 7361 extends out of the bottom end of the middle vertical guide through hole of the guide protrusion block 7359 and is located between the upper parts of two grabbing fingers of the valve ball clamping finger cylinder 7352.

Further, a limit support frame 75 is fixed on the top surface of the main frame 10 at the front portion of the main conveying through slot 14, two valve ball limit cylinders 751 are installed on the top surface of the top plate of the limit support frame 75, push rods of the two valve ball limit cylinders 751 penetrate through the bottom surface of the top plate of the limit support frame 75 and are fixed with ejector pins 752, and the ejector pins 752 lean on the valve balls 300 at the discharge ports of the corresponding valve ball feeding channels 74.

Furthermore, an inclined block 753 with a high rear end and a low front end is fixed on the top surface of the top plate of the limiting support frame 75, a valve ball limiting cylinder 751 is fixed on the inclined top surface of the inclined block 753, a push rod of the valve ball limiting cylinder 751 obliquely penetrates through the inclined block 753 and the bottom surface of the top plate of the limiting support frame 75 and is fixed with a thimble 752, and the thimble 752 is obliquely arranged.

Further, a slant part 741 extends backwards and slantly downwards at the bottom plate at the discharge port of the valve ball feeding channel 74, a transverse receiving part 742 is formed at the rear end of the slant part 741, and a valve ball stopper 743 is fixed on the top surface of the rear end of the transverse receiving part 742.

Further, a connecting block is fixed to the bottom surface of the ball feed passage 74, and the connecting block is fixed to an upper mounting plate fixed to the top surface of the main frame 10 at the front portion of the main feed through groove 14.

Further, an elongated raised strip portion 744 is formed on the top surface of the bottom plate of the ball feed channel 74 and the top surface of the inclined portion 741, an elongated slot is formed on the side wall of the ball 300, and the elongated raised strip portion 744 is inserted into the elongated slot.

Further, an upper horizontal limiting block 17 is fixed on the front top surface of the valve ball grabbing mounting base plate 71, an upper mounting plate is fixed on the top of the main frame 10 on the other side of the main conveying through groove 14 corresponding to the upper horizontal limiting block 17, an upper pressing cylinder 18 corresponding to the upper horizontal limiting block 17 is fixed on the top surface of the upper mounting plate, a side groove corresponding to the upper vertical column of the water distributor shell 100 to be clamped is formed on the front wall surface of the upper horizontal limiting block 17, and a front groove corresponding to the side groove is formed on the rear wall surface of a pushing block of the upper pressing cylinder 18.

Further, at least one vertical guide rail part is fixed on the front wall surface of the third pushing plate 733, a sliding block is fixed on the rear wall surface of the grabbing support block 7351, and the vertical guide rail part is inserted into a sliding groove of the sliding block.

Further, the third grabbing and moving mechanism 72 includes two third transverse moving screws 722, the left and right portions of the third transverse moving screws 722 are fixed in the bearing inner rings of the third bearing seats 723 fixed on the top surface of the valve ball grabbing and mounting base plate 71, two third driving servo motors 724 are fixed on the valve ball grabbing and mounting base plate 71, the output shafts of the third driving servo motors 724 are connected with one end of the corresponding third transverse moving screw 722 through a coupler, and the third moving blocks 721 are screwed on the corresponding third transverse moving screws 722;

at least one third transverse guide rod 711 extending left and right is fixed on the top surface of the valve ball catching and mounting bottom plate 71, a third moving slider 7320 corresponding to the third transverse guide rod 711 is fixed on the bottom surface of the third moving plate 731, and the third transverse guide rod 711 is inserted into the guide sliding through hole of the corresponding third moving slider 7320.

Further, a valve ball vibration feeder 79 is arranged in front of the main frame 10, two valve ball discharging channels 78 are connected to a vibration disc on the valve ball vibration feeder 79, and the discharging ends of the two valve ball discharging channels 78 are connected to the feeding ports of the valve ball feeding channels 74.

All parts such as the cylinder, motor, the control valve that the cylinder communicates and air pump in this embodiment all are connected with the main control system electricity through the electricity connecting wire, carry out corresponding control through the procedure in the main control system, and parts such as main control system are common controlgear, no longer describe in detail.

In this embodiment, the ball vibration loader 79 is a conventional device, which is well known and not described in detail.

The working principle is as follows: when the clamping water segregator shell 100 is used, the water segregator shell 100 to be clamped is located in front of the valve ball grabbing and installing bottom plate 71 of the valve ball automatic moving grabbing and installing mechanism 70, and is pushed by the push block of the upper pressing air cylinder 18, so that the upper vertical column of the water segregator shell 100 to be clamped is clamped between the side groove of the upper horizontal limiting block 17 and the front groove of the push block of the upper pressing air cylinder 18, and fixed positioning is achieved;

meanwhile, the valve ball vibrating feeder 79 operates to convey the valve ball 300 to the discharge hole of the valve ball feeding channel 74, the valve ball vibrating feeder moves along the long protruding strip 744 of the valve ball feeding channel 74, and is pressed and limited by the thimble 752 of the valve ball limiting cylinder 751, at this time, the valve ball 300 is sensed by the proximity switch arranged on one side wall of the discharge hole of the valve ball feeding channel 74, and a sensing signal is conveyed to the control host, the control host retracts the push rod of the valve ball limiting cylinder 751, and then the valve ball 300 slides down to the top surface of the transverse material receiving portion 742 along the long protruding strip 744 of the inclined portion 741 and is blocked by the valve ball stopper 743;

then, the third push plate 733 is pushed forward by the push rod of the third moving cylinder 732 so that the two grasping fingers of the valve ball grasping finger cylinder 7352 are positioned at both sides directly above the valve ball 300, then, the lower portions of the two grasping fingers of the valve ball grasping finger cylinder 7352 are positioned at both sides of the valve ball 300 by the push rod of the third grasping cylinder 735, the operation is performed by the valve ball grasping finger cylinder 7352 so that the valve ball 300 is grasped between the two grasping fingers of the valve ball grasping finger cylinder 7352, then, the push rod of the third grasping cylinder 735 is retracted, the push rod of the third moving cylinder 732 is retracted so that the valve ball 300 is positioned directly above the corresponding upper vertical column of the water separator housing, and then, the valve ball 300 is extended into the upper vertical column by the push rod of the third grasping cylinder 735 so that the elongated insertion groove at the lower front portion of the valve ball 300 inserts the upper portion of the top elongated protrusion portion of the valve element having the elongated protrusion mounted on the side wall of the water separator housing therein Then, the valve ball mandril 7361 is pushed downwards by the pushing rod of the third pushing cylinder 736, and the pushing force of the third pushing cylinder 736 is greater than the clamping force of the two grabbing fingers of the valve ball clamping finger cylinder 7352, so that the valve ball 300 is separated from and descends between the two grabbing fingers, during the descending process, the long slot is adjusted along the long bulge at the top, so that the valve ball 300 rotates to a certain degree, so that the long bulge at the top of the valve core is completely inserted into the long slot of the valve ball 300, meanwhile, the bottom of the valve ball 300 is pressed at the lower installation position and covers the middle through hole of the installation position, the installation is completed, then all the components return to the original position, the subsequent valve ball 300 is grabbed, after the subsequent valve ball 300 is grabbed, the third driving servo motor 724 operates, so that the third transverse moving screw rod 722 rotates, so that the valve ball 300 is transversely moved to the upper vertical column of the other water knockout shell to be installed, then, the subsequent valve ball 300 is installed in the same way as before, and the installation effect is good and the efficiency is high.

Finally, the above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant art can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (9)

1. The utility model provides a water knockout drum casing installation is with valve ball automatic installation mechanism, includes main frame (10), its characterized in that: a main conveying through groove (14) is formed in the middle of the upper portion of a top plate of the main frame (10), and a valve ball automatic moving, grabbing and installing mechanism (70) is fixed on the top surface of the main frame (10) on the rear side of the main conveying through groove (14);

the automatic valve ball moving, grabbing and installing mechanism (70) comprises a valve ball grabbing and installing bottom plate (71), the valve ball grabbing and installing bottom plate (71) is fixed above the rear part of the main rack (10), a third grabbing and moving mechanism (72) is fixed on the top surface of the valve ball grabbing and installing bottom plate (71), and valve ball grabbing and installing mechanisms (73) are fixed on two third moving blocks (721) of the third grabbing and moving mechanism (72);

two valve ball feeding channels (74) are arranged on the top surface of the main frame (10) at the front part of the main conveying through groove (14), and the two valve ball feeding channels (74) correspond to the grabbing structures of the two valve ball grabbing and installing mechanisms (73).

2. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 1, wherein: the valve ball grabbing and installing mechanism (73) comprises a third moving plate (731), the third moving plate (731) is fixed on the top surface of a corresponding third moving block (721), a third vertical connecting plate is fixed on the top surface of the third moving plate (731), a third moving cylinder (732) is fixed on the third vertical connecting plate, a third pushing plate (733) is fixed on a pushing rod of the third moving cylinder (732), a transverse top plate part is formed on the top surface of the third pushing plate (733), a third grabbing cylinder (735) and a third pushing cylinder (736) are fixed on the top surface of the transverse top plate part, pushing rods of the third grabbing cylinder (735) and the third pushing cylinder (736) are inserted and sleeved in corresponding through holes of the transverse top plate part, a grabbing supporting block (7351) is fixed at the end part of the pushing rod of the third grabbing cylinder (735), and a valve ball clamping finger (7352) is fixed on the front wall surface of the bottom end of the grabbing supporting block (7351), two grabbing fingers of the valve ball clamping finger cylinder (7352) face to the discharge holes of the corresponding valve ball feeding channel (74), a guide convex block (7359) is formed in the middle of the front wall surface of the grabbing supporting block (7351), a valve ball ejector rod (7361) is fixed on a push rod of the third pushing cylinder (736), the valve ball ejector rod (7361) is inserted in a middle vertical guide through hole of the guide convex block (7359), and the bottom end of the valve ball ejector rod (7361) extends out of the bottom end of the middle vertical guide through hole of the guide convex block (7359) and is positioned between the upper parts of the two grabbing fingers of the valve ball clamping finger cylinder (7352).

3. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 1, wherein: the top surface of a main frame (10) at the front part of the main conveying through groove (14) is fixed with a limiting support frame (75), the top surface of a top plate of the limiting support frame (75) is provided with two valve ball limiting cylinders (751), push rods of the two valve ball limiting cylinders (751) penetrate through the bottom surface of the top plate of the limiting support frame (75) and are fixed with ejector pins (752), and the ejector pins (752) lean against valve balls (300) at the discharge outlets of corresponding valve ball feeding channels (74).

4. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 3, wherein: the top surface of the top plate of the limiting support frame (75) is fixedly provided with an inclined block (753) with a high rear end and a low front end, the valve ball limiting cylinder (751) is fixed on the inclined top surface of the inclined block (753), a push rod of the valve ball limiting cylinder (751) penetrates through the bottom surfaces of the inclined block (753) and the top plate of the limiting support frame (75) in an inclined mode and is fixedly provided with a thimble (752), and the thimble (752) is arranged in an inclined mode.

5. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 3, wherein: a bottom plate at a discharge port of the valve ball feeding channel (74) extends backwards, obliquely and downwards to form an oblique part (741), a transverse material receiving part (742) is formed at the rear end of the oblique part (741), and a valve ball stopper (743) is fixed to the top face of the rear end of the transverse material receiving part (742).

6. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 1, wherein: and a connecting block is fixed on the bottom surface of the valve ball feeding channel (74), and is fixed on an upper mounting plate fixed on the top surface of the main frame (10) at the front part of the main conveying through groove (14).

7. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 5, wherein: the top surface of the bottom plate of the valve ball feeding channel (74) and the top surface of the inclined part (741) are provided with long raised strip parts (744) in a forming mode, the side wall of the valve ball (300) is provided with long slots in a forming mode, and the long raised strip parts (744) are inserted into the long slots in a inserting mode.

8. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 1, wherein: the valve ball grabbing and installing device is characterized in that an upper horizontal limiting block (17) is fixed on the front top surface of the valve ball grabbing and installing bottom plate (71), an upper installing plate is fixed on the top of a main frame (10) on the other side of a main conveying through groove (14) corresponding to the upper horizontal limiting block (17), an upper pressing cylinder (18) corresponding to the upper horizontal limiting block (17) is fixed on the top surface of the upper installing plate, a side groove corresponding to an upper vertical column of a water distributor shell (100) to be clamped is formed in the front wall surface of the upper horizontal limiting block (17), and a front groove corresponding to the side groove is formed in the rear wall surface of a pushing block of the upper pressing cylinder (18).

9. The automatic valve ball mounting mechanism for mounting the water divider shell as claimed in claim 2, wherein: at least one vertical guide rail part is fixed on the front wall surface of the third pushing plate (733), a sliding block is fixed on the rear wall surface of the grabbing supporting block (7351), and the vertical guide rail part is inserted in a sliding groove of the sliding block.

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