CN115302239A - Sealing gasket mounting equipment for water pump flange - Google Patents

Abstract

The invention belongs to the technical field of industrial pipeline equipment installation engineering, and particularly relates to sealing gasket installation equipment of a water pump flange, which comprises a leveling moving base, an automatic fine-tuning direction mechanism and a gasket installation mechanism, wherein the automatic fine-tuning direction mechanism is fixedly arranged on the leveling moving base, and the gasket installation mechanism is slidably arranged on the automatic fine-tuning direction mechanism; the invention creatively designs the gasket fixing device, through which not only the position of the gasket can be adjusted without hands, but also a foundation is laid for automatic filling of the gasket in the future due to the arrangement of the component rope in the device; in order to ensure that the fixed gasket device is matched with the water pump flange in height and is parallel to the plane where the fixed gasket device is located, and the operation of people is reduced, the leveling movable base and the automatic direction fine-adjusting mechanism are designed, so that the height and the deflection angle of the water pump can be adjusted while the adjusting device is parallel to the ground.

Description

Sealing gasket mounting equipment for water pump flange

Technical Field

The invention belongs to the technical field of industrial pipeline equipment installation engineering, and particularly relates to sealing gasket installation equipment for a water pump flange.

Background

The flange gasket is arranged between the two flanges, and the flange gasket and the flanges are concentrically arranged to ensure the tightness after the flanges are fastened. At present, when the flange gasket is installed, the position of the gasket is generally adjusted by using a slender component such as a wire through visual, manual and other modes. However, the method has large error, the flange gasket and the flange can not be accurately concentrically installed, and the gasket is easy to deviate in the installation process, so that the gasket and the flange sealing surface can not be completely matched, the medium flow in the pipeline can be influenced, and the local pressure is unstable; and the diameters of the inlet and the outlet of the water pump are usually not consistent with the diameter of the water pipe, so that an eccentric reducing pipe is usually required to be used as a transition carrier of the water pump and the water pipe during butt joint.

Disclosure of Invention

The invention relates to sealing gasket mounting equipment of a water pump flange, which aims to solve the problem that the position of a flange gasket is adjusted by hands so that the flange gasket and the flange are kept concentrically mounted; in order to ensure that the height of the fixed gasket device is matched with the height of a water pump flange, the plane where the fixed gasket device is located is parallel, and the operation of people is reduced, the invention designs a leveling moving base and an automatic fine-tuning direction mechanism, wherein the leveling moving base can adjust the height of the invention when an adjusting device is parallel to the ground, infrared rays emitted by an infrared emitting device in the automatic fine-tuning direction mechanism are reflected and then received by an infrared receiving device, a generated signal determines the left-right deflection and the deflection angle of the invention, and the gasket installation mechanism can be started to install a gasket after adjustment.

The technical scheme adopted by the invention is as follows: the invention relates to sealing gasket mounting equipment of a water pump flange, which comprises a leveling moving base, an automatic fine-adjustment direction mechanism and a mounting gasket mechanism, wherein the automatic fine-adjustment direction mechanism is fixedly arranged on the leveling moving base, the mounting gasket mechanism is arranged on the automatic fine-adjustment direction mechanism in a sliding manner, the automatic fine-adjustment direction mechanism comprises a first flat plate, a direction-adjustment reset device, a first support column, a second flat plate, a second support column, a spherical joint, a first L-shaped plate, a first sliding chute group, a first support frame, an infrared emission receiving group and a first sliding chute, the direction-adjustment reset device is arranged on the first flat plate, one end of the first support column is arranged on the first flat plate, the second flat plate is arranged at the other end of the first support column, the infrared control reaction mechanism is arranged on the second flat plate, the second support column is arranged on the second flat plate, the spherical joint is arranged on the second support column, the first L-shaped plate is arranged above the second flat plate in parallel, one surface of the first L-shaped plate is connected with the direction-adjustment reset device, the other surface of the first L-shaped plate is in point-surface contact with the spherical joint, the spherical joint can provide the supporting force for the first L-shaped plate on the premise that the first support plate rotates left and right, the first support plate, one side of the first support plate, and the first support plate is arranged on the first support frame, and the infrared emission receiving device is arranged on the first support frame.

Further, transfer to resetting means includes semicircle ring gear, clockwork spring input hole, clockwork spring fastening mouth, clockwork spring mounting, axle one, axle two, sun gear, planetary gear, shift fork, hole one, hole two and support frame two, the semicircle ring gear is fixed to be located on the flat board one, clockwork spring locates a flat board surface, and clockwork spring is used for the restoration after the installation finishes, clockwork spring center is located in the clockwork spring input hole, clockwork spring fastening mouth locates on the clockwork spring, the clockwork spring mounting runs through to be located on the clockwork spring fastening mouth, the one end of clockwork spring mounting is fixed to be located on the flat board one, one axle rotates to be located on the flat board one, the one end and the interference fit of axle one and clockwork spring input hole, axle two rotate to be located on the flat board one, sun gear rotates to be located on the axle one, planetary gear rotates to be located on the axle two, the one end of shift fork cup joints on locating on the axle two, the middle part of axle one, one end of one of axle is located on the shift fork, one end of hole one is located in the shift fork, the other end of shift fork is located in the hole one is located in the shift fork, the hole two holes, the other end of two is fixed two support frame L of two, the support frame is located on the support frame.

Furthermore, the infrared control reaction mechanism comprises a first stop block, a second stop block, a straight tooth bevel gear, a third shaft, a fourth shaft, a first gear, a second gear, a limiting protrusion, a loop bar, a first cylinder, a tooth column, a tooth sleeve, a protrusion of the tooth sleeve, a fixing part of the tooth sleeve, a diameter-variable pulley, a second cylinder, a pulley, a steel belt and a motor, wherein the first stop block is arranged on the second flat plate, the second stop block is arranged on the second flat plate, the straight tooth bevel gear is arranged on the second flat plate, the third shaft is rotatably arranged on the second flat plate, one end of the third shaft is fixedly arranged on the straight tooth bevel gear, the other end of the third shaft is fixedly connected with the first shaft, the fourth shaft is rotatably connected with the second stop block, the first gear is fixedly arranged on the fourth shaft, the second gear is fixedly arranged on the fourth shaft, the limiting protrusion is fixedly arranged on the fourth shaft, the one end of loop bar is located between the spacing arch, cylinder one is located on dull and stereotyped two, the output of cylinder one and the other end fixed connection of loop bar, the one end of axle four is located to the tooth post, the one end meshing of tooth cover is located on the tooth post, the tooth cover is protruding to be fixed to be located on the tooth cover, tooth cover mounting one end cup joints on the tooth cover, tooth cover mounting other end is fixed to be located on dull and stereotyped two, the tooth cover mounting is located between the tooth cover arch, the other end of tooth cover is located to the reducing pulley, cylinder two is located on the dull and stereotyped two, the output and the reducing pulley fixed connection of cylinder two, the pulley is located on the dull and stereotyped two, steel band one side cup joints and locates on the reducing pulley, the steel band opposite side cup joints and locates on the pulley, the motor is located on the dull and stereotyped two, the output and the pulley fixed connection of motor. Under the coordination of the straight bevel gear, the first gear, the second gear, the fourth shaft, the loop bar and the first cylinder, the rotating direction of the third shaft can be changed under the condition of not changing the rotation direction of the motor, so that the movement of the sun gear and the planetary gear is changed, then the rotating direction of the first L-shaped plate is changed, the matching effect of the tooth column and the tooth sleeve is a simple telescopic rod, the transmission of rotation is not influenced, and under the coordination of the reducing pulley, the second cylinder, the pulley, the steel belt and the motor, the rotating speed of the sun gear can be controlled, namely, the rotating path of the planetary gear is controlled in unit time, namely, the rotating angle of the first L-shaped plate is controlled.

Furthermore, infrared emission receiving group includes infrared emitter and infrared receiving device, infrared emitter locates in the middle of the infrared emission receiving group, infrared receiving device locates infrared emitter both sides. The infrared receiving devices on the left side and the right side of the infrared transmitting device determine whether the first air cylinder works, the extending length of the second air cylinder and the work of the motor.

As a further aspect of the present invention, the leveling moving base includes a leveling bolt, a bottom plate, a wheel, and a wheel fixing member, wherein one end of the leveling bolt is disposed on a lower surface of the first flat plate, the bottom plate is disposed on the other side of the leveling bolt, the wheel is disposed on a lower surface of the bottom plate, and the wheel fixing member is disposed on the wheel. The leveling bolt can not only adjust the parallelism of the bottom plate and the ground, but also adjust the height of the device.

The gasket mounting mechanism further comprises a U-shaped sliding block, a sliding groove group II, an L-shaped plate II, an infrared positioning lamp, an infrared receiver, a sliding groove II, a sliding baffle plate, a guide shaft, a baffle plate, a sliding groove group III, a hanging frame and a fixed gasket device, wherein the U-shaped sliding block is arranged on the sliding groove I in a sliding mode, the sliding groove group II is arranged on the U-shaped sliding block, the L-shaped plate II is arranged on the sliding groove group II in a sliding mode, the infrared positioning lamp is arranged on one surface of the L-shaped plate II, the infrared receiver is arranged on one surface of the L-shaped plate II, the sliding groove II is arranged on the L-shaped plate II, the sliding baffle plate is arranged on the sliding groove II in a sliding mode, one end of the guide shaft is fixedly arranged on one surface of the L-shaped plate II, the guide shaft penetrates through the sliding baffle plate, the baffle plate is fixedly arranged on the U-shaped sliding block, the sliding groove group III is arranged on the baffle plate, one end of the hanging frame is arranged on the sliding groove group III in a sliding mode, and the fixed gasket device is arranged at the other end of the hanging frame. The U-shaped sliding block can move back and forth, the L-shaped plate II can move left and right, the two devices are convenient to align to a water pump interface, the guide shaft is used for supporting the eccentric reducing pipe and serving as a height measurement mark, and the sliding baffle plate moves forward to push the eccentric reducing pipe to move forward when in use and deviates to a flange for connecting the water pump and the eccentric reducing pipe after reaching a proper distance.

Further, the gasket fixing device comprises an outer ring, a component rope accommodating cavity, a component rope, a third air cylinder, a first rod, a second rod, a third rod, a fourth rod, a flexible dragging mechanism, a second flexible dragging mechanism, a clamp, a chute, a spring, a cross rod, a rigid wire guide groove, a rigid wire, a soft rope, a take-up shaft, a take-up rotating machine and a power supply, wherein the component rope accommodating cavity is formed in the inner wall of the outer ring, the component rope is arranged in the component rope accommodating cavity in a penetrating mode, the third air cylinder is arranged on the outer ring, one end of the first rod is hinged to an output shaft of the third air cylinder, one end of the second rod is hinged to an output shaft of the third air cylinder, one end of the third rod is hinged to the other end of the first rod, one end of the fourth rod is hinged to the other end of the second rod, the third rod is hinged to the fourth rod, the first flexible dragging mechanism is arranged on the outer ring, the utility model discloses a take-up reel, including flexible dragging mechanism two, pole three, horizontal pole, rigid wire guide way, flexible dragging mechanism two, the other end of pole four is articulated with flexible dragging mechanism two, the both ends of subassembly rope are located to the clip, the chute is located on the clip, the one end of spring is fixed to be located in the chute, the horizontal pole runs through to be located on the chute, the outer lane is located to the rigid wire guide way, the fixed horizontal pole midpoint department of locating of one end of rigid wire, the rigid wire slides and locates on the rigid wire guide way, the one end of soft rope and the other end fixed connection of rigid wire, the take-up reel runs through to be located on the outer lane, the soft rope winding is located on the take-up reel, the take-up reel is located on the outer lane, the output and the take-up reel of taking-up reel are connected, the outer lane is located to the power. The simple pressure applying structure is formed by the cylinder III, the rod I, the rod II, the rod III and the rod, so that the flexible dragging mechanism I and the flexible dragging mechanism I can apply pressure to the assembly ropes.

Furthermore, the soft iron is fixedly arranged at two ends of the plastic rod, the iron core is embedded on the soft iron, the coil is wound on the iron core, the rope penetrating hole is formed in the soft iron, the rope penetrates through the rope penetrating hole, and the rope knot is formed in the rope. The soft iron is used for isolating the interference of other electromagnets as much as possible.

Further, on two adjacent iron cores in the assembly rope, the winding directions of the coils are opposite. The two electromagnets closest to each other attract each other when energized, thereby providing the flexible assembly cord with the ability to provide a holding force.

Further, flexible dragging mechanism one includes mounting, saddle cylinder one, saddle cylinder two, conveyer belt one, connecting rod, saddle cylinder three, saddle cylinder four, conveyer belt two, metal handle, graphite brush, line connector, electric wire one and electric wire two, the mounting is fixed to be located the subassembly rope and holds the surface of chamber, saddle cylinder one rotates to be located on the mounting, saddle cylinder two rotates to be located on the mounting, the conveyer belt cup joints on saddle cylinder one and saddle cylinder two, the articulated one end of locating the pole four in connecting rod mid point, saddle cylinder three rotates and locates the one end of connecting rod, saddle cylinder four rotates and locates the other end of connecting rod, the conveyer belt cup joints on saddle cylinder three and saddle cylinder four, metal handle rotates and cup joints on saddle cylinder three, the graphite brush is located the one end of metal handle, the other end of electric wire one connects the circuit connector, the one end of electric wire two connects the terminal coil of subassembly rope, flexible dragging mechanism two is unanimous with flexible dragging mechanism and is constituteed, the flexible dragging mechanism is unanimous with flexible connection mode with two. After the flexible dragging mechanism I and the flexible dragging mechanism apply pressure to the component ropes, the saddle-shaped roller I, the saddle-shaped roller II, the saddle-shaped roller III and the saddle-shaped roller IV rotate to drive the conveyor belt I and the conveyor belt II to rotate so as to wrap the component ropes to move, and partial coils in the metal handle, the graphite electric brush, the electric wire I, the electric wire II, the power supply and the component ropes form a passage, so that iron cores exposed in the component ropes outside the component rope accommodating cavity attract and are connected with each other, and supporting force is provided for opening and closing the clamps.

The invention with the structure has the following beneficial effects: this scheme a sealed erection equipment that fills up of water pump flange has realized following beneficial effect.

(1) The invention designs the gasket fixing device, and the gasket is adjusted by separating from hands through the device, so that the gasket is more close to be concentrically placed while being convenient, and the gasket placing precision is improved.

(2) The assembly rope is arranged, so that the assembly rope exposed out of the assembly rope accommodating cavity has supporting force, the opening and closing of the clamp are facilitated, the gasket is placed to the gasket fixing device conveniently, and a foundation is laid for automatic filling of the gasket later.

(3) The leveling movable base not only can facilitate leveling and moving of the device, but also can adjust the height of the device, and facilitates alignment of the water pump and the device.

(4) The automatic direction fine-tuning mechanism can adjust the included angle between the device and the water pump flange, and facilitates the alignment of the water pump and the device without manpower.

(5) The device can be used for butting the eccentric reducing pipe and the water pump flange, and can also be used when the diameters of the water pump and the water pipe are the same, and the flow is consistent.

Drawings

FIG. 1 is a schematic view of the overall structure of a gasket mounting device for a water pump flange according to the present invention;

FIG. 2 is a right side view of a gasket mounting apparatus of a water pump flange according to the present invention;

FIG. 3 is a front view of a gasket mounting arrangement of a water pump flange according to the present invention;

FIG. 4 is a front view of the securement spacer assembly;

FIG. 5 is a schematic view of the internal structure of the module rope;

FIG. 6 is a schematic view of a clip construction;

FIG. 7 is a top view of the flexible drag mechanism relative to the module cord;

FIG. 8 is a front view of the flexible drag mechanism in a position opposite the module cords;

FIG. 9 is a schematic view of a saddle drum;

FIG. 10 is a view showing the effect of the clip engaging the assembly cord;

wherein, 1, a leveling moving base, 2, an automatic direction fine-adjusting mechanism, 3, a gasket mounting mechanism, 4, a leveling bolt, 5, a bottom plate, 6, a wheel, 7, a wheel fixing piece, 8, a first flat plate, 9, a direction adjusting reset device, 10, a first support column, 11, a second flat plate, 12, an infrared control reaction mechanism, 13, a second support column, 14, a spherical joint, 15, a first L-shaped plate, 16, a first sliding chute group, 17, a first support frame, 18, a first infrared emission receiving group, 19, a first sliding chute, 20, a semicircular gear ring, 21, a clockwork spring, 22, a clockwork spring input hole, 23, a clockwork spring fastening hole, 24, a clockwork spring fixing piece, 25, a first shaft, 26, a second shaft, 27, a sun gear, 28, a planetary gear, 29, a shifting fork, 30, a first hole, 31, a second hole, 32, a second support frame, 33, a first stopper, 34, a second stopper, 35, a straight bevel gear, 36 and a third shaft, 37, a fourth shaft, 38, a first gear, 39, a second gear, 40, a limiting protrusion, 41, a loop bar, 42, a first cylinder, 43, a tooth column, 44, a tooth sleeve, 45, a tooth sleeve protrusion, 46, a tooth sleeve fixing piece, 47, a diameter-variable pulley, 48, a second cylinder, 49, a pulley, 50, a steel belt, 51, a motor, 52, an infrared transmitting device, 53, an infrared receiving device, 54, a U-shaped sliding block, 55, a sliding chute group two, 56, an L-shaped plate two, 57, an infrared positioning lamp, 58, an infrared receiver, 59, a sliding chute two, 60, a sliding baffle, 61, a guide shaft, 62, a baffle, 63, a sliding chute group three, 64, a hanging bracket, 65, a fixed gasket device, 66, an outer ring, 67, a component rope accommodating cavity, 68, a component rope, 69, a third cylinder, 70, a first rod, 71, a second rod, 72, a third rod, 73, a fourth rod, 74, a first flexible dragging mechanism, 75 and a second flexible dragging mechanism, 76. the device comprises a clamp 77, an inclined groove 78, a spring 79, a cross rod 80, a rigid wire guide groove 81, a rigid wire 82, a soft rope 83, a take-up reel 84, a take-up reel 85, a power supply 86, a plastic rod 87, a soft iron 88, an iron core 89, a coil 90, a rope through hole 91, a rope 92, a rope knot 93, a fixing part 94, a saddle roller I, 95, a saddle roller II, 96, a conveyor belt I, 97, a connecting rod 98, a saddle roller III, 99, a saddle roller IV, 100, a conveyor belt II, 101, a metal handle 102, a graphite brush 103, a line connector 104, a wire I, 105 and a wire II.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, 2 and 3, the sealing gasket installation device for the water pump flange comprises a leveling moving base 1, an automatic direction fine-tuning mechanism 2 and an installation gasket mechanism 3, wherein the automatic direction fine-tuning mechanism 2 is fixedly arranged on the leveling moving base 1, the installation gasket mechanism 3 is slidably arranged on the automatic direction fine-tuning mechanism 2, the automatic direction fine-tuning mechanism 2 comprises a first flat plate 8, a direction adjusting and resetting device 9, a first support column 10, a second flat plate 11, an infrared control reaction mechanism 12, a second support column 13, a spherical joint 14, a first L-shaped plate 15, a first chute group 16, a first support frame 17, a first infrared transmitting and receiving group 18 and a first chute 19, the direction adjusting and resetting device 9 is arranged on the first flat plate 8, one end of the first support column 10 is arranged on the first flat plate 8, the other end of the first support column 10 is arranged on the second flat plate 11, the infrared control reaction mechanism 12 is arranged on the second flat plate 11, the second support column 13 is arranged on the second flat plate 11, the spherical joint 14 is arranged on the second support column 13, the first L-shaped plate 15 is arranged above the second flat plate 11 in parallel, one surface of the first L-shaped plate 15 is connected with the direction-adjusting reset device 9, the other surface of the first L-shaped plate 15 is in point-surface contact with the spherical joint 14, the spherical joint 14 can provide supporting force for the first L-shaped plate 15 on the premise of not influencing left-right rotation of the first L-shaped plate 15, the first sliding groove group 16 is arranged on one surface of the first L-shaped plate 15, one end of the first support frame 17 is arranged on the first sliding groove group 16, the infrared emission receiving group 18 is arranged on the first support frame 17, and the first sliding groove 19 is arranged on the first L-shaped plate 15. Further, transfer to resetting means 9 and include semicircle ring gear 20, clockwork spring 21, clockwork spring input hole 22, clockwork spring fastening mouth 23, clockwork spring mounting 24, axle one 25, axle two 26, sun gear 27, planetary gear 28, shift fork 29, hole one 30, hole two 31 and support frame two 32, semicircle ring gear 20 is fixed to be located on dull and stereotyped 8, clockwork spring 21 locates dull and stereotyped 8 lower surface, and clockwork spring 21 is used for the restoration after the installation finishes, clockwork spring 21 center is located to clockwork spring input hole 22, clockwork spring fastening mouth 23 is located on clockwork spring 21, clockwork spring mounting 24 runs through and locates on clockwork spring fastening mouth 23, the one end of clockwork spring mounting 24 is fixed to be located dull and stereotyped 8 lower surface, axle one 25 rotates and locates on dull and stereotyped 8, axle one end and clockwork spring input hole 22 cooperation of axle one 25, axle two 26 rotate and locate on dull and stereotyped 8, sun gear 27 rotates and locates on one 25 locates on the planet gear 28 rotates and locates on the one end of planet gear 26 locates on the one end of axle two shafts 29 the one end of shift fork shaft one end of the one end of fork shaft 29 the one end of the axle two shafts 29 the one end of the one fork shaft is fixed in the middle part of the fork shaft 32 and two shafts 30 and two shafts 31 the one end of the other end of the fork shaft 32 the one fork shaft 31 of the fork shaft 32 is located on the fork shaft 15 fixed plate 31 two shafts 32 and two shafts 15 the one shaft 32 on the one end of the one of the fork shaft 25, the two shafts 32 of the one fork shaft 32 of the one axle hole 31 of the two shafts. Further, the infrared control reaction mechanism 12 includes a first stopper 33, a second stopper 34, a straight bevel gear 35, a third shaft 36, a fourth shaft 37, a first gear 38, a second gear 39, a limiting protrusion 40, a loop bar 41, a first cylinder 42, a tooth post 43, a tooth sleeve 44, a tooth sleeve protrusion 45, a tooth sleeve fixing member 46, a diameter-variable pulley 47, a second cylinder 48, a pulley 49, a steel belt 50, and a motor 51, where the first stopper 33 is disposed on the second flat plate 11, the second stopper 34 is disposed on the second flat plate 11, the straight bevel gear 35 is disposed on the second flat plate 11, the third shaft 36 is rotatably disposed on the second flat plate 11, one end of the third shaft 36 is fixedly disposed on the straight bevel gear 35, the other end of the third shaft 36 is fixedly connected with the first shaft 25, the fourth shaft 37 is rotatably connected with the first stopper 33, the fourth shaft 37 is rotatably connected with the second stopper 34, the first gear 38 is fixedly disposed on the fourth shaft 37, the second gear 39 is fixedly disposed on the fourth shaft 37, the limiting protrusions 40 are fixedly arranged on the shaft IV 37, one end of the sleeve rod 41 is arranged between the limiting protrusions 40, the cylinder I42 is arranged on the flat plate II 11, the output end of the cylinder I42 is fixedly connected with the other end of the sleeve rod 41, the toothed column 43 is arranged at one end of the shaft IV 37, one end of the toothed sleeve 44 is meshed with the toothed column 43, the toothed sleeve protrusion 45 is fixedly arranged on the toothed sleeve 44, one end of the toothed sleeve fixing piece 46 is sleeved on the toothed sleeve 44, the other end of the toothed sleeve fixing piece 46 is fixedly arranged on the flat plate II 11, the toothed sleeve fixing piece 46 is arranged between the toothed sleeve protrusions 45, the reducing pulley 47 is arranged at the other end of the toothed sleeve 44, the cylinder II 48 is arranged on the flat plate II 11, the output end of the cylinder II 48 is fixedly connected with the reducing pulley 47, the pulley 49 is arranged on the flat plate II 11, one side of the steel belt 50 is sleeved on the reducing pulley 47, the other side of the steel belt 50 is sleeved on the pulley 49, the motor 51 is arranged on the second flat plate 11, and the output end of the motor 51 is fixedly connected with the pulley 49. Under the cooperation of the straight bevel gear 35, the first gear 38, the second gear 39, the fourth shaft 37, the sleeve rod 41 and the first cylinder 42, the rotating direction of the third shaft 36 can be changed without changing the rotation direction of the motor 51, so that the movement of the sun gear 27 and the planet gear 28 is changed, and then the rotating direction of the L-shaped plate 15 is changed, the matching effect of the toothed column 43 and the toothed sleeve 44 is a simple telescopic rod, and the transmission of rotation is not influenced, and under the cooperation of the reducing pulley 47, the second cylinder 48, the pulley 49, the steel belt 50 and the motor 51, the rotating speed of the sun gear 27 can be controlled, namely the rotating path of the planet gear 28 in unit time, namely the rotating angle of the L-shaped plate 15 is controlled. Further, the infrared transmitting and receiving set 18 includes an infrared transmitting device 52 and an infrared receiving device 53, the infrared transmitting device 52 is disposed in the middle of the infrared transmitting and receiving set 18, and the infrared receiving device 53 is disposed on two sides of the infrared transmitting device 52. The infrared receiving devices 53 on the left and right sides of the infrared transmitting device 52 determine whether the first air cylinder 42 is operated, the extending length of the second air cylinder 48 and the operation of the motor 51.

As shown in fig. 1 to 10, as a further aspect of the present invention, the leveling moving base 1 includes leveling bolts 4, a bottom plate 5, a wheel 6, and a wheel fixing member 7, wherein one end of the leveling bolt 4 is disposed on a lower surface of the first plate 8, the bottom plate 5 is disposed on the other side of the leveling bolt 4, the wheel 6 is disposed on a lower surface of the bottom plate 5, and the wheel fixing member 7 is disposed on the wheel 6. The leveling bolt 4 can not only adjust the parallelism of the bottom plate 5 and the ground, but also adjust the height of the device.

As a further aspect of the present invention, the mounting pad mechanism 3 includes a U-shaped slider 54, a second sliding groove set 55, a second L-shaped plate 56, an infrared positioning lamp 57, an infrared receiver 58, a second sliding groove 59, a sliding baffle 60, a guide shaft 61, a baffle 62, a third sliding groove set 63, a hanging bracket 64, and a fixed pad device 65, wherein the U-shaped slider 54 is slidably disposed on the first sliding groove 19, the second sliding groove set 55 is disposed on the U-shaped slider 54, the second L-shaped plate 56 is slidably disposed on the second sliding groove set 55, the infrared positioning lamp 57 is disposed on one surface of the second L-shaped plate 56, the infrared receiver 58 is disposed on one surface of the second L-shaped plate 56, the second sliding groove 59 is disposed on the second L-shaped plate 56, the sliding baffle 60 is slidably disposed on the second sliding groove set 59, one end of the guide shaft 61 is fixedly disposed on one surface of the second L-shaped plate 56, the guide shaft 61 penetrates through the sliding baffle 60, the baffle 62 is fixedly disposed on the U-shaped slider 54, the third sliding groove set 63, the third sliding baffle 63 is disposed on the baffle 62, and the other end of the hanging bracket 64 is slidably disposed on the hanging bracket 65. Further, the fixed pad device 65 includes an outer ring 66, a module rope accommodating chamber 67, a module rope 68, a cylinder three 69, a rod one 70, a rod two 71, a rod three 72, a rod four 73, a flexible dragging mechanism one 74, a flexible dragging mechanism two 75, a clamp 76, a chute 77, a spring 78, a cross bar 79, a rigid wire guide groove 80, a rigid wire 81, a soft rope 82, a take-up shaft 83, a take-up converter 84 and a power source 85, the module rope accommodating chamber 67 is disposed on the inner wall of the outer ring 66, the module rope 68 is disposed in the module rope accommodating chamber 67 in a penetrating manner, the cylinder three 69 is disposed on the outer ring 66, one end of the rod one 70 is hinged to an output shaft of the cylinder three 69, one end of the rod two 71 is hinged to an output shaft of the cylinder three 69, one end of the rod three 72 is hinged to the other end of the rod one 70, one end of the rod four 73 is hinged to the other end of the rod two rod 71, the rod three 72 is hinged to the four rod 73, the flexible dragging mechanism one 74 is disposed on the outer ring 66, the other end of the flexible dragging mechanism 75 is hinged to the chute 82, the flexible dragging mechanism 76 is hinged to the chute 82, one end of the flexible dragging mechanism 80, one end of the flexible dragging mechanism is hinged to the flexible dragging mechanism 80, one fixed pad rope 82, one end of the rigid wire 82 is hinged to the chute 77, one fixed pad rope 82, one fixed pad device 80 is hinged to the chute 82, one end of the chute is hinged to the flexible dragging mechanism 80, one fixed pad 80, the output end of the take-up rotating machine 84 is connected with the take-up shaft 83, and the power supply 85 is arranged on the outer ring 66. The cylinder three 69, the rod one 70, the rod two 71, the rod three 72 and the rod four 73 form a simple pressing structure, so that the flexible dragging mechanism one 74 and the flexible dragging mechanism two 75 can apply pressure to the assembly rope 68. Further, the assembly rope 68 includes a plastic rod 86, soft iron 87, an iron core 88, a coil 89, a rope passing hole 90, a rope 91 and a knot 92, the soft iron 87 is fixedly disposed at two ends of the plastic rod 86, the iron core 88 is embedded in the soft iron 87, the coil 89 is wound on the iron core 88, the rope passing hole 90 is disposed on the soft iron 87, the rope 91 penetrates through the rope passing hole 90, and the knot 92 is disposed on the rope 91. The soft iron 87 acts to isolate as much as possible the interference of the remaining electromagnets. Further, the winding directions of the coils 89 on two adjacent iron cores 88 in the assembly cord 68 are opposite. The two nearest electromagnets attract each other when energized, thereby providing the flexible assembly cord 68 with the ability to provide a holding force. Further, the first flexible dragging mechanism 74 includes a fixing member 93, a first saddle roller 94, a second saddle roller 95, a first conveyor belt 96, a connecting rod 97, a third saddle roller 98, a fourth saddle roller 99, a second conveyor belt 100, a metal handle 101, a graphite brush 102, a line connector 103, a first electric wire 104 and a second electric wire 105, the fixing member 93 is fixedly disposed on the outer surface of the rope accommodating cavity 67, the first saddle roller 94 is rotatably disposed on the fixing member 93, the second saddle roller 95 is rotatably disposed on the fixing member 93, the first conveyor belt 96 is sleeved on the first saddle roller 94 and the second saddle roller 95, the midpoint of the connecting rod 97 is hinged to one end of the fourth rod 73, the third saddle roller 98 is rotatably disposed at one end of the connecting rod 97, the fourth saddle roller 99 is rotatably disposed at the other end of the connecting rod 97, the second conveyor belt 100 is sleeved on the third saddle roller 98 and the fourth saddle roller 99, the metal handle 101 is rotatably sleeved on the third saddle roller 98, the graphite brush 102 is disposed at one end of the metal handle 101, the line connector 103 is disposed at the other end of the metal handle 101, one end of the first electric wire 104 is connected to the power source 85, the other end of the first electric wire 104, the second wire 104 is connected to the wire connector 103, the flexible dragging mechanism 74, and the flexible wire connector 105 is connected to the first flexible dragging mechanism 75 and the flexible dragging mechanism 75. After the first flexible dragging mechanism 74 and the second flexible dragging mechanism 75 apply pressure on the assembly rope 68, the first saddle roller 94, the second saddle roller 95, the third saddle roller 98 and the fourth saddle roller 99 rotate to drive the first conveyor belt 96 and the second conveyor belt 100 to rotate, so that the assembly rope 68 is wrapped and moved, the metal handle 101, the graphite brush 102, the first electric wire 104, the second electric wire 105, the power source 85 and the partial coil 89 in the assembly rope 68 form a passage, and the iron cores 88 in the assembly rope 68 exposed outside the assembly rope accommodating cavity 67 are attracted and connected with each other to provide supporting force for opening and closing the clamp 76.

When the device is used specifically, a user pushes the device to a proper position, then fastens the wheel fixing piece 7, adjusts the leveling bolt 4 to enable the device to be parallel to the ground, then continuously adjusts the leveling bolt 4 to enable the guide shaft 61 to be at the highest position of the inner wall of the water pump interface, at the moment, the infrared emission receiving group 18 is started, the starting of the first air cylinder 42, the second air cylinder 48 and the motor 51 is determined according to the position for receiving infrared rays, the starting of the three components respectively determines the rotating direction, the rotating angle and whether the first L-shaped plate 15 rotates, at the moment, the device is parallel to the water pump, how to push the U-shaped sliding block 54 and the second L-shaped plate 56 to adjust the distance until the position is proper, at the moment, the flange gasket is fixed on the clamp, the power supply 85, the first flexible dragging mechanism 74 and the second flexible dragging mechanism 75 are started, whether power supply continues to be determined according to the feedback of the infrared emission device 52 and the infrared receiving device 53, when the position is concentric, the infrared receiving device 53 cannot receive infrared ray, the winding machine 84 works, the clamp 76 is opened, the power supply stops, the assembly rope 68 is softened again and then falls off from the flange gasket, and at the bolt of a worker only needs to be installed. The above is the overall working process of the invention, and the steps are repeated when the device is used next time.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a sealed pad erection equipment of water pump flange which characterized in that: including leveling mobile base (1), automatic fine setting direction mechanism (2) and installation gasket mechanism (3), automatic fine setting direction mechanism (2) is fixed to be located on leveling mobile base (1), installation gasket mechanism (3) slides and locates on automatic fine setting direction mechanism (2), automatic fine setting direction mechanism (2) includes dull and stereotyped (8), accent to resetting means (9), support column (10), dull and stereotyped two (11), infrared control reaction mechanism (12), support column two (13), spherical joint (14), L shaped plate (15), spout group (16), support frame (17), infrared emission receiving group (18) and spout (19), the accent is located on dull and stereotyped one (8) to resetting means (9), the one end of support column (10) is located on dull and stereotyped one (8), the other end of support column one (10) is located to dull and stereotyped two (11), infrared control reaction mechanism (12) is located on dull and stereotyped two (11), support column two (13) are located on dull and stereotyped two (11), spherical joint (14) go up the other end of support column one (11), L shaped plate (15) is connected to dull and stereotyped resetting means (15) one side, L shaped plate (15) are located on dull and stereotyped two (11), the other surface of the first L-shaped plate (15) is in point-surface contact with the spherical joint (14), the first sliding groove group (16) is arranged on one surface of the first L-shaped plate (15), one end of the first support frame (17) is arranged on the first sliding groove group (16), the infrared transmitting and receiving group (18) is arranged on the first support frame (17), and the first sliding groove (19) is arranged on the first L-shaped plate (15).

2. The gasket mounting apparatus of a water pump flange according to claim 1, wherein: the accent is to resetting means (9) including semicircle ring gear (20), clockwork spring (21), clockwork spring input hole (22), clockwork spring fastening mouth (23), clockwork spring mounting (24), axle one (25), axle two (26), sun gear (27), planetary gear (28), shift fork (29), hole one (30), hole two (31) and support frame two (32), semicircle ring gear (20) are fixed and are located on dull and stereotyped one (8), clockwork spring (21) are located dull and stereotyped one (8) lower surface, clockwork spring input hole (22) are located clockwork spring (21) center, clockwork spring fastening mouth (23) are located on clockwork spring (21), clockwork spring mounting (24) run through and are located on spring fastening mouth (23), the one end of clockwork spring mounting (24) is fixed and is located dull and stereotyped one (8) lower surface, clockwork spring shaft one (25) rotate and are located on dull and stereotyped one (8), the one end of clockwork spring shaft one (25) cup joints with spring input hole (22) and locates on dull and rotate, two dull and stereotyped gear (26) last planetary gear (26) of shift fork shaft (26), the middle part of shift fork (29) is cup jointed and is located on axle one (25), the one end of shift fork (29) is located in hole one (30), the middle part of shift fork (29) is located in hole two (31), axle one (25) run through in hole one (30), axle two (26) run through in hole two (31), the other end of locating shift fork (29) is fixed to the one end of support frame two (32), the other end of support frame two (32) is fixed to be located on L shaped plate one (15).

3. The gasket mounting apparatus of a water pump flange according to claim 2, wherein: the infrared control reaction mechanism (12) comprises a first stop block (33), a second stop block (34), a straight bevel gear (35), a third shaft (36), a fourth shaft (37), a first gear (38), a second gear (39), a limit protrusion (40), a loop bar (41), a first cylinder (42), a tooth column (43), a gear sleeve (44), a protrusion of the gear sleeve (45), a fixing member of the gear sleeve (46), a diameter-changing pulley (47), a second cylinder (48), a pulley (49), a steel belt (50) and a motor (51), wherein the first stop block (33) is arranged on the second plate (11), the second stop block (34) is arranged on the second plate (11), the straight bevel gear (35) is arranged on the second plate (11), the third shaft (36) is rotatably arranged on the second plate (11), one end of the third shaft (36) is fixedly arranged on the straight bevel gear (35), the other end of the third shaft (36) is fixedly connected with the first shaft (25), the fourth shaft (37) is rotatably connected with the first stop block (33), the fourth shaft (37) is rotatably connected with the second stop block (34), the fourth shaft (37) is fixedly arranged on the fixed gear (38), the fourth shaft (37) is arranged on the limit protrusion (39), the one end of loop bar (41) is located between spacing arch (40), cylinder (42) are located on dull and stereotyped two (11), the output of cylinder (42) and the other end fixed connection of loop bar (41), the one end of axle four (37) is located in tooth post (43), the one end meshing of tooth cover (44) is located on tooth post (43), the fixed tooth cover (44) of locating of tooth cover arch (45), tooth cover mounting (46) one end is cup jointed on tooth cover (44), tooth cover mounting (46) other end is fixed to be located on dull and stereotyped two (11), tooth cover mounting (46) are located between tooth cover arch (45), the other end of tooth cover (44) is located in reducing pulley (47), on dull and stereotyped two (11) are located in cylinder two (48), the output and reducing pulley (47) fixed connection of cylinder two (48), pulley (49) are located on dull and stereotyped two (11), cup joint is located on steel band (50) one side pulley (47), connect on the reducing pulley (51) motor (11), motor (51) connect on dull and motor (11).

4. The gasket mounting apparatus of a water pump flange according to claim 3, wherein: the infrared transmitting and receiving group (18) comprises an infrared transmitting device (52) and an infrared receiving device (53), the infrared transmitting device (52) is arranged in the middle of the infrared transmitting and receiving group (18), and the infrared receiving device (53) is arranged on two sides of the infrared transmitting device (52).

5. The gasket mounting apparatus of a water pump flange according to claim 4, wherein: leveling mobile base (1) includes leveling bolt (4), bottom plate (5), wheel (6) and wheel mounting (7), the lower surface of dull and stereotyped (8) is located to the one end of leveling bolt (4), the opposite side of leveling bolt (4) is located in bottom plate (5), the lower surface of bottom plate (5) is located in wheel (6), wheel mounting (7) are located on wheel (6).

6. The gasket mounting apparatus of a water pump flange according to claim 5, wherein: the gasket mounting mechanism (3) comprises a U-shaped sliding block (54), a sliding groove group II (55), an L-shaped plate II (56), an infrared positioning lamp (57), an infrared receiver (58), a sliding groove II (59), a sliding baffle plate (60), a guide shaft (61), a baffle plate (62), a sliding groove group III (63), a hanging bracket (64) and a fixed gasket device (65), the U-shaped sliding block (54) is arranged on the first sliding groove (19) in a sliding manner, the second sliding groove group (55) is arranged on the U-shaped sliding block (54), the second L-shaped plate (56) is arranged on the second sliding groove group (55) in a sliding manner, the infrared positioning lamp (57) is arranged on one surface of the second L-shaped plate (56), the infrared receiver (58) is arranged on one surface of the second L-shaped plate (56), the second sliding chute (59) is arranged on the second L-shaped plate (56), the sliding baffle (60) is arranged on the second sliding chute (59) in a sliding manner, one end of the guide shaft (61) is fixedly arranged on one surface of the L-shaped plate II (56), the guide shaft (61) penetrates through the sliding baffle (60), the baffle (62) is fixedly arranged on the U-shaped sliding block (54), the third sliding chute group (63) is arranged on the baffle (62), one end of the hanging bracket (64) is arranged on the third sliding chute group (63) in a sliding way, the fixed gasket device (65) is arranged at the other end of the hanging bracket (64).

7. The gasket mounting apparatus of a water pump flange according to claim 6, wherein: the fixed gasket device (65) comprises an outer ring (66), a component rope accommodating cavity (67), a component rope (68), a cylinder III (69), a rod I (70), a rod II (71), a rod III (72), a rod IV (73), a flexible dragging mechanism I (74), a flexible dragging mechanism II (75), a clamp (76), a chute (77), a spring (78), a cross rod (79), a rigid line guide groove (80), a rigid line (81), a soft rope (82), a take-up shaft (83), a take-up rotating machine (84) and a power supply (85), wherein the component rope accommodating cavity (67) is arranged on the inner wall of the outer ring (66), the component rope (68) is arranged in the component rope accommodating cavity (67) in a penetrating manner, the cylinder III (69) is arranged on the outer ring (66), one end of the rod I (70) is hinged on an output shaft of the cylinder III (69), one end of the rod II (71) is hinged on an output shaft of the cylinder III (69), one end of the rod III (72) is hinged on the other end of the rod I (70), the rod II (73) is hinged on the rod III) and the flexible dragging mechanism II (73), the rod III (73) is hinged on the outer ring (66), the flexible dragging mechanism II (75), the other end of three (72) of pole drags mechanism two (75) with the flexibility and articulates, the other end of four (73) of pole drags mechanism one (74) with the flexibility and articulates, the both ends of subassembly rope (68) are located in clip (76), on clip (76) are located in chute (77), the one end of spring (78) is fixed to be located in chute (77), horizontal pole (79) run through locate on chute (77), rigid line guide way (80) are located on outer lane (66), the one end of rigid line (81) is fixed to be located horizontal pole (79) midpoint department, rigid line (81) slide and locate on rigid line guide way (80), the one end of soft rope (82) and the other end fixed connection of rigid line (81), take-up axle (83) run through locate on outer lane (66), soft rope (82) winding is located on take-up axle (83), take-up commentaries on classics machine (84) is located on outer lane (66), the output and take-up commentaries on machines (84) with power supply (83) are connected, power supply (85) are connected on outer lane (66).

8. The gasket mounting apparatus of a water pump flange according to claim 7, wherein: the assembly rope (68) comprises a plastic rod (86), soft iron (87), an iron core (88), a coil (89), a rope passing hole (90), a rope (91) and a rope knot (92), wherein the soft iron (87) is fixedly arranged at two ends of the plastic rod (86), the iron core (88) is embedded in the soft iron (87), the coil (89) is wound on the iron core (88), the rope passing hole (90) is arranged on the soft iron (87), the rope (91) penetrates through the rope passing hole (90), and the rope knot (92) is arranged on the rope (91).

9. The gasket mounting apparatus of a water pump flange according to claim 8, wherein: and the winding directions of the coils (89) on two adjacent iron cores (88) in the assembly rope (68) are opposite.

10. The gasket mounting apparatus for a water pump flange according to claim 9, wherein: the flexible dragging mechanism I (74) comprises a fixing piece (93), a saddle-shaped roller I (94), a saddle-shaped roller II (95), a conveyor belt I (96), a connecting rod (97), a saddle-shaped roller III (98), a saddle-shaped roller IV (99), a conveyor belt II (100), a metal handle (101), a graphite brush (102), a line joint (103), a wire I (104) and a wire II (105), wherein the fixing piece (93) is fixedly arranged on the outer surface of the assembly rope accommodating cavity (67), the saddle-shaped roller I (94) is rotatably arranged on the fixing piece (93), the saddle-shaped roller II (95) is rotatably arranged on the fixing piece (93), the conveyor belt I (96) is sleeved on the saddle-shaped roller I (94) and the saddle-shaped roller II (95), the middle point of the connecting rod (97) is hinged to one end of the rod IV (73), the saddle-shaped roller III (98) is rotatably arranged at one end of the connecting rod (97), the saddle-shaped roller IV (99) is rotatably arranged at the other end of the connecting rod (97), the conveyor belt II (100) is sleeved on the saddle-shaped roller III (98) and the saddle-shaped roller IV (99), the metal handle (101) is rotatably arranged on the metal handle (101) of the graphite brush II (101), and the metal handle II (103) is rotatably arranged on the metal handle II (101), an end connection power supply (85) of electric wire (104), the other end connection circuit joint (103) of electric wire (104), an end connection power supply (85) of electric wire two (105), another end connection subassembly rope (68) terminal coil (89) of electric wire two (105), flexible dragging mechanism two (75) and flexible dragging mechanism one (74) structure with constitute unanimously, flexible dragging mechanism two (75) and flexible dragging mechanism one (74) fixed and connected mode unanimously.

Images