CN113695642A

CN113695642A - Intermittent dotting machine for copper pipe fittings for part machining production

Info

Publication number: CN113695642A
Application number: CN202110982611.0A
Authority: CN
Inventors: 鲍家文
Original assignee: Individual
Current assignee: Foshan Deshengying Hardware Products Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2021-11-26
Anticipated expiration: 2041-08-25
Also published as: CN113695642B

Abstract

The invention relates to the technical field of copper pipe fitting processing, in particular to an intermittent dotting machine for copper pipe fittings for part processing production, which comprises a supporting seat, a processing table, a mounting plate, a lifting point drilling assembly, an extrusion fixing assembly and the like; the lifting point drilling device comprises two support seats, a lifting point drilling assembly and an extrusion fixing assembly. The number of teeth of the sector gear can be known, the sector gear intermittently drives the movable rack and the upper device to move rightwards, and the movable plate intermittently pushes the copper pipe fitting to move rightwards, so that the drill bit can hit different positions of the copper pipe fitting.

Description

Intermittent dotting machine for copper pipe fittings for part machining production

Technical Field

The invention relates to the technical field of copper pipe fitting machining, in particular to an intermittent dotting machine for a copper pipe fitting for part machining production.

Background

The copper pipe fitting is a joint for connecting a copper pipe, the processing method of the copper pipe fitting is various and belongs to the category of machining, the processing of the copper pipe fitting is actually a combination of machining and metal pressure processing, the copper pipe fitting is the first choice for installing a tap water pipeline, a heat supply pipeline and a refrigeration pipeline, and the copper pipe fitting is smooth in outside and not easy to be sleeved with a heat insulation material, so that the dotting operation of the pipe fitting needs to be carried out by utilizing a dotting device.

The current device of dotting can produce certain heat when dotting in the in-service use, can cause certain harm to the drill bit of dotting for its wearing and tearing speed, simultaneously because the pipe fitting texture is softer, when receiving the extrusion force of dotting the drill bit, the copper pipe spare takes place to warp easily.

Disclosure of Invention

The invention aims to provide an intermittent dotting machine for copper pipe fittings for part processing and production, which can perform dotting operation on the copper pipe fittings, can cool dotting positions of the copper pipe fittings and can repeatedly utilize water resources, so as to solve the problems that a certain amount of heat generated during dotting causes certain damage to a dotting drill bit and the copper pipe fittings are easy to deform in the background technology.

The technical implementation scheme of the invention is as follows: the utility model provides a copper pipe fitting intermittent type dotting machine for parts machining production, including the supporting seat, the processing platform, the mounting panel, the point brill subassembly that goes up and down, extrude fixed subassembly, inside packing subassembly and intermittent type promote the subassembly, the common fixed mounting in two supporting seat one sides has the processing platform, processing platform bottom is provided with two delivery ports, processing platform top surface fixed mounting has the mounting panel, the point brill subassembly that goes up and down is located on the mounting panel, fixed mounting has the fixed subassembly of extrusion on the mounting panel, inside packing subassembly sets up on the mounting panel equally, the slidingtype is connected with intermittent type and promotes the subassembly on the mounting panel.

Further, the lifting point drilling component comprises a bidirectional motor, a bevel gear ring, a power shaft, a rotating gear ring, a pinion, a fixed rod, a lifting plate, a lower pressing plate, a drill bit, a bevel gear and a guide strip, wherein the bidirectional motor is fixedly installed on the mounting plate, the power shaft is welded at two ends of an output shaft of the bidirectional motor, the bevel gear ring is welded on the power shaft at one position, the power shaft at the other position is rotatably connected with the mounting plate, the rotating gear ring is rotatably connected on the mounting plate, the pinion is welded on the power shaft at the same position, the rotating gear ring is mutually meshed with the pinion, the fixed rod is fixedly installed on the mounting plate, the lifting plate is slidably connected with the lifting plate on the fixed rod, the lifting plate is in limit fit with the rotating gear ring, the lower pressing plate is fixedly connected on the lifting plate, a bearing on the lower pressing plate is connected with the drill bit in an interference fit manner, the bevel gear is rotatably connected on the mounting plate, and the bevel gear ring is mutually matched, the drill bit passes through the bevel gear, and a guide strip is fixedly connected to the drill bit in a triangular distribution mode and is in sliding connection with the bevel gear.

Furthermore, the extrusion fixing assembly comprises a fixed groove plate, an extrusion rod, an extrusion spring and an extrusion arc plate, the fixed groove plate is fixedly mounted on the mounting plate, the extrusion rod is connected to the fixed groove plate in a liftable mode, the extrusion spring is connected to the extrusion rod, one end of the extrusion spring is fixedly connected with the fixed groove plate, and the extrusion arc plate is welded at the bottom end of the extrusion rod.

Further, the inside subassembly of filling is including extending the board, lifting rack one, compression spring, the rotation axis, the rotating gear, lifting rack two, tensile pole, the lifting plate, supporting spring and rubber slab, fixed mounting has the extension board on the mounting panel, the mode with the liftable on the extension board is connected with lifting rack one, fixedly connected with compression spring on the lifting rack one, compression spring one end and extension board hookup, the last rotation type of rotating on the extension board is connected with the rotation axis, the rigid coupling has rotating gear on the rotation axis, rotating gear and lifting rack intermeshing, two slidingtype connections of lifting rack are on the extension board, lifting rack two is same and rotating gear engagement, the welding of two bottom ends of lifting rack has tensile pole, the lifting plate has been placed on the processing bench, the sliding type is connected with the rubber slab on the lifting plate, be connected with three pairs of supporting spring between rubber slab and the lifting plate.

Furthermore, the intermittent pushing assembly comprises an overrunning clutch, a sector gear, a movable rack, a sliding seat and a movable plate, the overrunning clutch is arranged on the rotating shaft, the sector gear is fixedly mounted on the overrunning clutch, the movable rack is connected to the mounting plate in a sliding mode, the bottom surface of the movable rack is fixedly connected with the sliding seat, the sliding seat is connected with the processing table in a sliding mode, and the movable plate is connected to the sliding seat in a rotating mode.

Further, still including coolant liquid supplementary subassembly, coolant liquid supplementary subassembly sets up in processing platform bottom surface, and coolant liquid supplementary subassembly collects frame, water pump and output tube including the arc, and processing platform bottom surface fixed mounting has the arc to collect the frame, and fixed mounting has the water pump in the arc collects the frame, is provided with the output tube on the water pump, and the output tube passes arc and collects frame and mounting panel.

The beneficial effects are that:

through drill bit downstream and pivoted cooperation, the drill bit is got ready copper pipe spare, and extrusion arc downstream clips copper pipe spare, and the rubber slab blocks copper pipe spare simultaneously, and through supporting spring's effect, the rubber slab cushions copper pipe spare, and copper pipe spare takes place to warp when preventing to get ready.

The number of teeth of the sector gear can be known, the sector gear intermittently drives the movable rack and the upper device to move rightwards, and the movable plate intermittently pushes the copper pipe fitting to move rightwards, so that the drill bit can hit different positions of the copper pipe fitting.

Through the output tube with water blowout to copper pipe fitting dotting position, water cools off copper pipe fitting dotting position, to preventing to cause the drill bit to damage, alleviates drill bit wearing and tearing speed, the rivers can flow in the arc along processing platform landing to delivery port and collect the frame, realize water resource reuse's purpose, avoid extravagant water resource.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic diagram of a first partially assembled body configuration of the lift point drill assembly of the present invention.

FIG. 4 is a schematic diagram of a second partially assembled body of the elevator point drill assembly of the present invention.

Fig. 5 is a perspective view of the pressing and fixing assembly according to the present invention.

FIG. 6 is a schematic view of a first partially discrete body construction of the internal filling assembly of the present invention.

Fig. 7 is an enlarged schematic view of the structure of the present invention a.

FIG. 8 is a schematic view of a second partially discrete body construction of the internal filling assembly of the present invention.

FIG. 9 is an enlarged schematic view of the present invention B.

Fig. 10 is a perspective view of the coolant replenishing assembly according to the present invention.

The meaning of the reference symbols in the figures: 1: supporting seat, 2: processing table, 3: mounting plate, 4: lifting point drill assembly, 41: bidirectional motor, 42: bevel ring gear, 43: power shaft, 44: rotating ring gear, 45: pinion, 46: fixing rod, 47: lifter plate, 48: lower press plate, 49: a drill bit, 410: bevel gear, 411: guide strip, 5: press-fixing member, 51: fixed groove plate, 52: extrusion stem, 53: pressing spring, 54: extrusion arc, 6: internal filling assembly, 61: extension plate, 62: lifting rack I, 63: compression spring, 631: rotation axis, 64: rotating gear, 65: lifting rack II, 66: stretching rod, 67: lift plate, 68: support spring, 69: rubber sheet, 7: intermittent pushing assembly, 71: overrunning clutch, 72: sector gear, 73: moving rack, 74: sliding seat, 75: a movable plate, 8: coolant replenishment assembly, 81: arc collection frame, 82: water pump, 83: and (5) outputting the product.

Detailed Description

In order to make the technical solution and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

The utility model provides a copper pipe spare intermittent type dotting machine for parts machining production, as shown in fig. 1-9, including supporting seat 1, processing platform 2, mounting panel 3, lifting point drilling subassembly 4, extrude fixed subassembly 5, inside packing subassembly 6 and intermittent type promote subassembly 7, the common fixed mounting in two supporting seat 1 one side has processing platform 2, processing platform 2 bottom is provided with two delivery ports, 2 top surface fixed mounting of processing platform has mounting panel 3, lifting point drilling subassembly 4 for dotting to the copper pipe spare is located on mounting panel 3, fixed mounting has the extrusion fixed subassembly 5 that is used for fixing to the copper pipe spare on the mounting panel 3, inside packing subassembly 6 sets up on mounting panel 3 equally, the sliding type is connected with intermittent type that is used for intermittent type to promote subassembly 7 that the copper pipe spare was promoted on mounting panel 3.

The lifting point drilling assembly 4 comprises a bidirectional motor 41, a bevel gear ring 42, a power shaft 43, a rotating gear ring 44, a pinion 45, a fixed rod 46, a lifting plate 47, a lower pressing plate 48, a drill bit 49, a bevel gear 410 and a guide strip 411, wherein the bidirectional motor 41 is fixedly installed on the mounting plate 3, the power shaft 43 is welded at two ends of an output shaft of the bidirectional motor 41, the bevel gear ring 42 is welded on the power shaft 43 at one position, the power shaft 43 at the other position is rotatably connected with the mounting plate 3, the rotating gear ring 44 is rotatably connected on the mounting plate 3, the pinion 45 is welded on the power shaft 43 at the same position, the rotating gear ring 44 is meshed with the pinion 45, the fixed rod 46 is fixedly installed on the mounting plate 3, the lifting plate 47 is slidably connected on the fixed rod 46, the lifting plate 47 is in limit fit with the rotating gear ring 44, the lower pressing plate 48 is fixedly connected on the lifting plate 47, the bearing on the lower pressing plate 48 far away from the lifting plate 47 is connected with the drill bit 49 in an interference fit manner, the drill bit 49 is used for dotting the copper pipe fitting, the mounting plate 3 close to the bidirectional motor 41 is connected with a bevel gear 410 in a rotating mode, the bevel gear 410 is matched with the bevel gear ring 42, the drill bit 49 penetrates through the bevel gear 410, a guide strip 411 is fixedly connected to the drill bit 49 in a triangular distribution mode, and the guide strip 411 is connected with the bevel gear 410 in a sliding mode.

The extrusion fixing component 5 comprises a fixed groove plate 51, an extrusion rod 52, an extrusion spring 53 and an extrusion arc plate 54, the fixed groove plate 51 is fixedly mounted on the mounting plate 3, the extrusion rod 52 is connected to the fixed groove plate 51 in a liftable mode, the extrusion spring 53 is connected to the extrusion rod 52, one end of the extrusion spring 53 far away from the extrusion rod 52 is fixedly connected with the fixed groove plate 51, the extrusion arc plate 54 is welded at the bottom end of the extrusion rod 52, and the extrusion arc plate 54 is used for clamping the copper pipe fitting.

The internal filling assembly 6 comprises an extension plate 61, a first lifting rack 62, a compression spring 63, a rotating shaft 631, a rotating gear 64, a second lifting rack 65, a stretching rod 66, a lifting plate 67, a supporting spring 68 and a rubber plate 69, wherein the extension plate 61 is fixedly installed on the installation plate 3, the first lifting rack 62 is connected to the extension plate 61 in a lifting manner, the compression spring 63 is fixedly connected to the first lifting rack 62, one end of the compression spring 63 far away from the first lifting rack 62 is connected to the extension plate 61, the rotating shaft 631 is rotatably connected to the extension plate 61, the rotating gear 64 is fixedly connected to the rotating shaft 631, the rotating gear 64 is meshed with the first lifting rack 62, the second lifting rack 65 is slidably connected to the extension plate 61, the second lifting rack 65 is also meshed with the rotating gear 64, the stretching rod 66 is welded to the bottom end of the second lifting rack 65 far away from the extension plate 61, and the stretching rod 66 is used for pushing the lifting plate 67 and the upper device to move upwards, the processing table 2 is provided with a lifting plate 67, the lifting plate 67 is connected with a rubber plate 69 in a sliding manner, the rubber plate 69 is used for clamping the copper pipe, and three pairs of supporting springs 68 are connected between the rubber plate 69 and the lifting plate 67.

The intermittent pushing assembly 7 comprises an overrunning clutch 71, a sector gear 72, a moving rack 73, a sliding seat 74 and a movable plate 75, the overrunning clutch 71 is arranged on a rotating shaft 631 far away from the rotating gear 64, the sector gear 72 is fixedly installed on the overrunning clutch 71, the moving rack 73 is connected on the mounting plate 3 in a sliding mode, the sliding seat 74 is fixedly connected to the bottom surface of the moving rack 73, the sliding seat 74 is connected with the processing table 2 in a sliding mode, the movable plate 75 is connected on the sliding seat 74 far away from the moving rack 73 in a rotating mode, and the movable plate 75 is used for pushing the copper pipe to move rightwards.

When needing to dotting the copper pipe fitting, the staff manually rotates the movable plate 75 for the movable plate 75 can not hinder the copper pipe fitting, and the staff manually places the copper pipe fitting in the processing platform 2, and the processing platform 2 blocks the copper pipe fitting, and then the staff rotates the movable plate 75 back, and the movable plate 75 blocks the copper pipe fitting. Then, the worker manually starts the bidirectional motor 41, the output shaft of the bidirectional motor 41 rotates to drive the power shaft 43 to rotate, the power shaft 43 drives the bevel gear ring 42 to rotate, and the bevel gear ring 42 drives the bevel gear 410 and the device thereon to rotate rapidly. The power shaft 43 drives the pinion 45 to rotate, the pinion 45 drives the rotating gear ring 44 to rotate, and the rotating gear ring 44 drives the lifting plate 47 and the device on the lifting plate to reciprocate up and down.

When the lifting plate 47 and the device thereon move downwards, the drill 49 performs dotting on the copper pipe fitting through the cooperation of the downward movement and the rotation of the drill 49. The lifting plate 47 drives the lower pressing plate 48 to move downward, the lower pressing plate 48 pushes the extrusion rod 52 and the extrusion arc 54 to move downward, and the extrusion arc 54 clamps the copper pipe. Then the lower pressing plate 48 pushes the first lifting rack 62 to move downwards, the first lifting rack 62 drives the rotating gear 64 to rotate clockwise, the rotating gear 64 drives the second lifting rack 65 and the stretching rod 66 to move upwards, the stretching rod 66 pushes the lifting plate 67 and the upper device thereof to move upwards, the rubber plate 69 clamps the copper pipe, and the supporting spring 68 and the rubber plate 69 buffer the copper pipe to prevent the copper pipe from deforming during dotting. When the rotary gear 64 rotates clockwise, the rotary gear 64 drives the rotary shaft 631 and the overrunning clutch 71 to rotate clockwise, and the overrunning clutch 71 rotates clockwise without transmitting power to the sector gear 72.

When the lifting plate 47 and the upper device move upwards, the drill 49 does not perform dotting on the copper pipe, the lower pressing plate 48 is separated from the first lifting rack 62, the compressed compression spring 63 resets to drive the first lifting rack 62 to move upwards, the first lifting rack 62 drives the rotary gear 64 to rotate anticlockwise, the rotary gear 64 drives the second lifting rack 65 and the stretching rod 66 to move downwards, the stretching rod 66 is separated from the lifting plate 67, the lifting plate 67 and the device on the lifting plate are influenced by gravity to move downwards, then the lower pressing plate 48 is separated from the extrusion rod 52, the compressed extrusion spring 53 resets to drive the extrusion rod 52 and the extrusion arc plate 54 to move upwards, and the extrusion arc plate 54 does not clamp the copper pipe any more.

The rotating gear 64 drives the rotating shaft 631 and the device thereon to rotate counterclockwise, when the moving rack 73 is meshed with the sector gear 72, the sector gear 72 drives the moving rack 73 and the device thereon to move rightward, the moving plate 75 pushes the copper pipe to move rightward, as can be known from the number of teeth of the sector gear 72, the sector gear 72 intermittently drives the moving rack 73 and the device thereon to move rightward, and the moving plate 75 intermittently pushes the copper pipe to move rightward, so that the drill 49 performs dotting on different positions of the copper pipe. After the drill 49 finishes dotting the whole copper pipe, the worker manually turns off the bidirectional motor 41 to stop the operation of the equipment, and then takes out the copper pipe from the processing table 2.

Example 2

On the basis of embodiment 1, as shown in fig. 10, the cooling liquid supply device further comprises a cooling liquid supply assembly 8, the cooling liquid supply assembly 8 is arranged on the bottom surface of the processing table 2, the cooling liquid supply assembly 8 is used for cooling the dotting position of the copper pipe fitting, the cooling liquid supply assembly 8 comprises an arc-shaped collection frame 81, a water pump 82 and an output pipe 83, the arc-shaped collection frame 81 for storing water is fixedly arranged on the bottom surface of the processing table 2, the water pump 82 is fixedly arranged in the arc-shaped collection frame 81, the water pump 82 is used for pumping water into the output pipe 83, the water pump 82 is provided with the output pipe 83, and the output pipe 83 penetrates through the arc-shaped collection frame 81 and the mounting plate 3.

Water is equipped with in the frame 81 is collected to the arc, and when drill bit 49 got a point to the copper pipe fitting, staff's manual start water pump 82, and water pump 82 gets into water pump output tube 83 in, then output tube 83 with water blowout to the copper pipe fitting position of getting a point, water got a point the position to the copper pipe fitting and cools off, rivers can collect frame 81 along 2 landing to delivery port inflow arcs of processing platform, realize reuse's purpose, avoid the water waste resource.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a machine is got ready with copper pipe fitting intermittent type to parts machining production which characterized by: including the supporting seat, the processing platform, the mounting panel, the fixed subassembly of lift point brill subassembly, the fixed subassembly of extrusion, inside packing subassembly and intermittent type promote the subassembly, the common fixed mounting in two supporting seat one sides has the processing platform, and processing platform bottom is provided with two delivery ports, and processing platform top surface fixed mounting has the mounting panel, and on the mounting panel was located to the drill subassembly of lift point, fixed mounting had the fixed subassembly of extrusion on the mounting panel, and inside packing subassembly sets up on the mounting panel equally, and the sliding type is connected with intermittent type and promotes the subassembly on the mounting panel.

2. The intermittent dotting machine for the copper pipe fittings for the part processing production as claimed in claim 1, is characterized in that: the lifting point drilling assembly comprises a bidirectional motor, a bevel gear ring, a power shaft, a rotating gear ring, a pinion, a fixed rod, a lifting plate, a lower pressing plate, a drill bit, a bevel gear and a guide strip, wherein the bidirectional motor is fixedly installed on a mounting plate, the power shaft is welded at two ends of an output shaft of the bidirectional motor, the bevel gear ring is welded on one power shaft, the other power shaft is rotatably connected with the mounting plate, the rotating gear ring is rotatably connected on the mounting plate, the pinion is welded on the same power shaft, the rotating gear ring is mutually meshed with the pinion, the fixed rod is fixedly installed on the mounting plate, the lifting plate is slidably connected on the fixed rod, the lifting plate is in limit fit with the rotating gear ring, the lower pressing plate is fixedly connected on the lifting plate, a bearing on the lower pressing plate is connected with the drill bit in an interference fit manner, the bevel gear is rotatably connected on the mounting plate, the bevel gear is mutually matched with the bevel gear ring, and the drill bit passes through the bevel gear, the drill bit is fixedly connected with a guide strip in a triangular distribution mode, and the guide strip is connected with the bevel gear in a sliding mode.

3. The intermittent dotting machine for the copper pipe fittings for the part processing production as claimed in claim 2, wherein: the extrusion fixing assembly comprises a fixed groove plate, an extrusion rod, an extrusion spring and an extrusion arc plate, the fixed groove plate is fixedly mounted on the mounting plate, the extrusion rod is connected to the fixed groove plate in a liftable mode, the extrusion spring is connected to the extrusion rod, one end of the extrusion spring is fixedly connected with the fixed groove plate, and the extrusion arc plate is welded at the bottom end of the extrusion rod.

4. The intermittent dotting machine for the copper pipe fittings for the part processing production as claimed in claim 3, wherein: the inside subassembly of filling is including extending the board, lifting rack one, compression spring, the rotation axis, rotating gear, lifting rack two, tensile pole, the lifting plate, supporting spring and rubber slab, fixed mounting has the extension board on the mounting panel, the mode with the liftable is connected with lifting rack one on the extension board, fixedly connected with compression spring on the lifting rack one, compression spring one end and extension board hookup, the rotation type is connected with the rotation axis on the extension board, the rigid coupling has rotating gear on the rotation axis, rotating gear and lifting rack intermeshing, two slidingtypes of lifting rack connect on the extension board, lifting rack two is the same with rotating gear meshing, the welding of two bottom ends of lifting rack has tensile pole, the lifting plate has been placed on the processing bench, the sliding type is connected with the rubber slab on the lifting plate, be connected with three pairs of supporting spring between rubber slab and the lifting plate.

5. The intermittent dotting machine for the copper pipe fittings for the part processing production as claimed in claim 4, is characterized in that: the intermittent pushing assembly comprises an overrunning clutch, a sector gear, a movable rack, a sliding seat and a movable plate, the overrunning clutch is arranged on the rotating shaft, the sector gear is fixedly mounted on the overrunning clutch, the movable rack is connected to the mounting plate in a sliding mode, the bottom surface of the movable rack is fixedly connected with the sliding seat, the sliding seat is connected with the machining table in a sliding mode, and the movable plate is connected to the sliding seat in a rotating mode.

6. The intermittent dotting machine for the copper pipe fittings for the part processing production as claimed in claim 5, wherein: the cooling liquid supplementing assembly is arranged on the bottom surface of the machining table and comprises an arc-shaped collecting frame, a water pump and an output pipe, the arc-shaped collecting frame is fixedly arranged on the bottom surface of the machining table, the water pump is fixedly arranged in the arc-shaped collecting frame, the output pipe is arranged on the water pump, and the output pipe penetrates through the arc-shaped collecting frame and the mounting plate.