CN112045259A

CN112045259A - End threading machining equipment for multi-batch small faucet valves

Info

Publication number: CN112045259A
Application number: CN202010932082.9A
Authority: CN
Inventors: 陶仁元
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-08
Filing date: 2020-09-08
Publication date: 2020-12-08

Abstract

The invention relates to the field of automatic processing, in particular to end threading processing equipment for multi-batch small faucet valves, which comprises a feeding assembly, a positioning assembly, a pushing assembly used for pushing the faucet valves from the feeding assembly to the positioning assembly, a material moving assembly used for moving the positioning assembly, a pushing cylinder, a feeding assembly used for rotating disc type feeding, a first processing assembly used at one end of the threading faucet valve, a second processing assembly used at the other end of the threading faucet valve and a discharging assembly, wherein the pushing assembly is arranged at one end of the feeding assembly, the material moving assembly is arranged at one side of the feeding assembly far away from the pushing assembly, the pushing direction of the pushing cylinder and the material moving direction of the material moving assembly are both vertical to the feeding direction of the feeding assembly, the positioning assembly is arranged on the material moving assembly, and the feeding assembly is arranged at the side of the material moving assembly, so that the manual positioning processing of the faucet valves is realized, the problem of low efficiency has reduced the human labor to and improved machining efficiency.

Description

End threading machining equipment for multi-batch small faucet valves

Technical Field

The invention relates to the field of automatic processing, in particular to end threading processing equipment for a multi-batch small faucet valve.

Background

At present, the use of a water faucet is more and more extensive, the valve body of the water faucet is usually made of copper or stainless steel, the valve body of the water faucet made of copper materials is usually made through a casting or hot forging process, along with the frequency rising of the price of recent metal materials, the reasonable utilization of the metal materials obviously becomes a difficult problem which is urgently needed to be solved by enterprises, the water faucet is mostly used in places such as kitchens, bathrooms and the like, and is one of water supply tools which are indispensable in the life of people, the current water faucet is generally connected with two water inlet pipes, one water inlet pipe is used for feeding cold water, the other water inlet pipe is used for feeding hot water, a component in a valve core is driven by a handle to rotate, the flow of the cold water and the hot water and the height.

After the existing faucet casting part is formed, the left clamping plate and the right clamping plate are adopted for fixing, the two clamping plates are not provided with clamping areas matched with the appearance of the casting part, the casting part is easy to displace in the machining process after clamping, the machining precision is influenced, meanwhile, the threading tool needs to be adjusted for clamping each time, the machining efficiency is influenced, the faucet is used for controlling the size switch of water flow, and the water-saving effect is achieved.

The existing faucet is processed, and then the threading of the end part of the pipe orifice is needed to be carried out, however, most of the existing threading processing is carried out through manual work to carry out feeding and discharging, and carry out positioning and clamping on the existing threading, so that the processing of multiple batches can not be realized, and the faucet is needed to be accurately positioned when threading, so that the processing error of the faucet is ensured, and therefore, the processing equipment capable of automatically feeding and discharging and the automatic threading faucet is needed to be designed.

Disclosure of Invention

In order to solve the technical problem, the end threading machining equipment for the small-size faucet valves in multiple batches is provided, and the technical scheme solves the problem that the faucet valves are manually positioned and machined and are low in efficiency.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

an end threading processing device for multi-batch small faucet valves comprises a feeding assembly, a positioning assembly, a pushing assembly used for pushing faucet valves from the feeding assembly to the positioning assembly, a material moving assembly used for moving the positioning assembly, a pushing cylinder, a feeding assembly used for rotating disc type feeding, a first processing assembly used for one end of each faucet valve, a second processing assembly used for the other end of each faucet valve and a discharging assembly, wherein the pushing assembly is arranged at one end of the feeding assembly, the material moving assembly is arranged on one side, away from the pushing assembly, of the feeding assembly, the pushing direction of the pushing cylinder and the material moving direction of the material moving assembly are perpendicular to the feeding direction of the feeding assembly, the positioning assembly is arranged on the material moving assembly, the feeding assembly is arranged beside the material moving assembly, the pushing cylinder is arranged on one side, away from the feeding assembly, of the first processing assembly, the second processing assembly, and the positioning assembly, The second processing assembly and the discharging assembly are uniformly distributed along the circumferential direction of the feeding assembly.

As an optimal scheme of end threading processing equipment for multi-batch small faucet valves, a feeding component comprises a feeding frame, a feeding channel and a moving mechanism, the feeding channel is arranged at the top of the feeding frame along the length direction of the feeding frame, one end, away from the pushing component, of the top of the feeding channel is further provided with a discharging hole, the top of the feeding channel is provided with a top plate capable of preventing a plurality of faucet valves from shaking during material moving, the top of the top plate is further provided with a movable port convenient for one end of the faucet valve to move along the length direction, one side, facing the pushing component, of the feeding channel is further provided with a pushing channel, and the moving mechanism is arranged inside the feeding frame.

As an optimal scheme that is used for the tip mantle fiber processing equipment of small-size tap valve in batches more, it comprises a push pedal to move material mechanism, the inside of going up the work or material rest is equipped with a screw rod and a guide bar from last to down in proper order along the length direction of going up the work or material rest, the screw rod passes through a transmission motor drive, still cooperate through a belt and two band pulleys between the output shaft of transmission motor and the one end of screw rod, the bottom of push pedal passes the slide of the vertical downward cover of material loading way and locates screw rod and guide bar, the top of material loading way still is equipped with a bar mouth that is used for the push pedal to remove along length direction, it includes a ejector rod to push away the material subassembly, the ejector rod sets up in the one side that the locating component was kept away from to the ejector rod way, the one end that the.

As an optimal scheme that is used for the tip mantle fiber processing equipment of many batches of small-size tap valves, the one end that the pushing ram kept away from the pushing disk is equipped with a barrel, the top of barrel is equipped with a fixture block along the length direction of barrel, the fixture block slides and sets up in the top of a rectangular frame, one side of rectangular frame still pivoted is equipped with a driving-disc, the driving-disc passes through a rotating electrical machines drive, one side of rectangular frame is located the below of driving-disc and is equipped with a protruding pole, the articulated poker rod that is equipped with on the protruding pole, the lateral wall center of barrel still is equipped with a round bar, and the round bar still activity joint in a bayonet of poker rod free end, the lateral wall of driving-disc is equipped with a cylinder, be equipped with a group mouth that is used for the cylinder to stir on the.

As an optimal scheme of end threading processing equipment for multi-batch small-size faucet valves, the material moving assembly comprises a material moving platform and a sliding block, the material moving platform is perpendicular to the feeding direction of the material feeding assembly and is arranged at one end of the material pushing channel, the sliding block is arranged on the material moving platform in a sliding mode, one side of the material moving platform is further provided with a rack along the length direction of the material moving platform, a driving gear is meshed with the rack and is driven by a material moving motor, the material moving motor is fixed to the top of the sliding block, the top of the sliding block is further provided with a support for mounting a positioning assembly, the side wall of the support is provided with an induction piece, one side, located on the material feeding assembly, of the material moving platform is further provided with a photoelectric sensor, and one side, close to the material feeding assembly, of the material moving platform is further provided with a reserved channel for pushing the faucet valves into the material.

As an optimal scheme of end threading processing equipment for multi-batch small-size faucet valves, the top of the support is provided with a geneva gear, the positioning assembly is arranged at the top of the geneva gear and comprises a bottom plate, the bottom plate is arranged on the geneva gear, the top of the bottom plate is sequentially provided with a supporting seat convenient for positioning a bolt head of the faucet valve along the pushing direction of the pushing assembly, two clamping semicircular blocks used for abutting against the faucet valve and a clamping seat used for positioning the end part of the faucet valve, the outer ends of the two clamping semicircular blocks are also inserted into a rectangular plate through two insertion rods, and each insertion rod is further sleeved with a compression spring.

As an optimal scheme of end threading processing equipment for multi-batch small-size faucet valves, a sheave mechanism comprises a sheave and a drive plate, the sheave is fixedly sleeved on a convex shaft at the bottom of a bottom plate, the bottom of the sheave is further rotatably arranged in a circular shell at the top of a support through a movable column, four notches are uniformly arranged around the sheave along the circumferential direction, an arc opening is further formed between every two notches, the drive plate is driven by a second rotating motor, the second rotating motor is fixedly arranged at the top of a sliding block, two ends of the drive plate respectively extend outwards to form an extension rod, one end of each extension rod is further provided with a clamping column used for being stirred through the notch, and two ends of the drive plate, which are located in the vertical direction of the two extension rods, are further provided with arc blocks matched with the arc openings.

As an optimal scheme that is used for the tip mantle fiber processing equipment of small-size tap valve in batches more, pay-off subassembly includes a ratchet and a carousel, ratchet sets up in a circle frame, the carousel sets up on ratchet, ratchet comprises a ratchet and a disc, the top of circle frame is equipped with the round circular slot, the ratchet is hollow structure, the bottom of ratchet rotates through the round swivel becket and sets up in the circular slot, the ratchet still with between the circle frame coaxial line, the inner circle of ratchet still evenly is equipped with a plurality of along the circumferencial direction and dials the mouth, one side of disc still is equipped with the shifting block that is used for stirring the ratchet and is clearance motion, and the disc is through a single-axis motor drive, single-axis motor is fixed to be set up in the circle frame bottom.

As an optimal scheme that is used for the tip mantle fiber processing equipment of small-size tap valve in batches more, the top of ratchet is equipped with a connection pad through a plurality of bolt fastening, connection pad and ratchet coaxial line, and the top inboard of connection pad is still vertical upwards to be equipped with four support columns, the carousel cover is located on four support columns, and the top of four support columns is still all fixed with the carousel through a nut, coaxial line between carousel and the connection pad, the top of carousel evenly is equipped with the constant head tank that a plurality of is used for chucking tap valve along the circumferencial direction of carousel, first processing subassembly, the structure of second processing subassembly and ejection of compact subassembly is all the same, first processing subassembly, second processing subassembly and ejection of compact subassembly all include an XY axle moving member, every XY axle moving member still all sets up on a high support body.

As a preferred scheme of the end threading machining equipment for the multi-batch small faucet valves, a first threading part and a first abutting rod are respectively arranged on X-direction moving parts of XY-axis moving parts of a first machining assembly and a second machining assembly, a second abutting rod and a second threading part are respectively arranged on Y-direction moving parts of the XY-axis moving parts of the first machining assembly and the second machining assembly, a discharging rod is further arranged on Y-direction moving parts of the XY-axis moving parts of the discharging assembly, and a discharging box is further arranged below the discharging rod.

Compared with the prior art, the invention has the beneficial effects that:

when an operator performs end threading on the small faucet valve, firstly, the operator places a plurality of small faucet valves on the feeding assembly, then the pushing assembly pushes the small faucet valves one by one from the feeding assembly to the positioning assembly, and after the positioning assembly positions the small faucet valves, the small faucet valve is moved to the material pushing cylinder by the material moving assembly, the small faucet valve is pushed to the material feeding assembly by the material pushing cylinder, the small faucet valve is sequentially brought to the first machining assembly, the second machining assembly and the material discharging assembly by the material feeding assembly through the rotating disc, the first machining assembly and the second machining assembly sequentially perform one-to-one threading on two end portions of the small faucet valve, and the small faucet valve after the threading is machined is finally discharged through the material discharging assembly.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of the feeding assembly;

FIG. 4 is a front view of the feeding assembly;

FIG. 5 is a schematic perspective view of the pusher assembly;

FIG. 6 is a partial perspective view of the present invention;

FIG. 7 is a perspective view of the positioning assembly;

FIG. 8 is a side view of the positioning assembly;

fig. 9 is a schematic perspective view of the geneva gear;

FIG. 10 is a schematic perspective view of the feed assembly;

fig. 11 is an exploded perspective view of the feed assembly.

Description of reference numerals: the device comprises a faucet valve 1, a pushing cylinder 2, a feeding frame 3, a feeding channel 4, a discharging port 5, a top plate 6, a pushing channel 7, a pushing plate 8, a screw 9, a guide rod 10, a transmission motor 11, a belt 12, a sliding plate 13, a pushing rod 14, a pushing disc 15, a bar block 16, a clamping block 17, a rectangular frame 18, a driving disc 19, a first rotating motor 20, a convex rod 21, a poking rod 22, a round rod 23, a bayonet 24, a cylinder 25, a poking port 26, a material moving table 27, a sliding block 28, a rack 29, a driving gear 30, a material moving motor 31, a support 32, a sensing element 33, a photoelectric sensor 34, a reserved channel 35, a bottom plate 36, a support seat 37, a clamping semicircular block 38, a clamping seat 39, a plug rod 40, a rectangular plate 41, a compression spring 42, a grooved wheel 43, a dial 44, a circular shell 45, a notch 46, an arc-shaped port 47, a second rotating motor 48, an extension rod 49, a clamping column 50, an arc-shaped block, Disc 55, dial mouth 56, shifting block 57, unipolar motor 58, connection pad 59, support column 60, nut 61, constant head tank 62, XY axle moving member 63, high support body 64, first cover silk spare 65, first tight pole 66 that supports, second tight pole 67, second cover silk spare 68, ejection of compact stick 69, ejection of compact box 70.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 11, an end threading processing device for multi-batch small faucet valves comprises a feeding assembly, a positioning assembly, a pushing assembly for pushing a faucet valve 1 from the feeding assembly to the positioning assembly, a moving assembly for moving the positioning assembly, a pushing cylinder 2, a feeding assembly for rotating disc 52 type feeding, a first processing assembly for one end of the threading faucet valve 1, a second processing assembly for the other end of the threading faucet valve 1 and a discharging assembly, wherein the pushing assembly is arranged at one end of the feeding assembly, the moving assembly is arranged at one side of the feeding assembly far away from the pushing assembly, the pushing direction of the pushing cylinder 2 and the moving direction of the moving assembly are both perpendicular to the feeding direction of the feeding assembly, the positioning assembly is arranged on the moving assembly, the feeding assembly is arranged beside the moving assembly, the pushing cylinder 2 is arranged at one side of the moving assembly far away from the feeding assembly, the first processing assembly, the second processing assembly and the discharging assembly are uniformly distributed along the circumferential direction of the feeding assembly. When an operator performs end threading on the small faucet valve 1, firstly, the operator places a plurality of small faucet valves 1 on a feeding assembly, then the small faucet valves 1 are pushed to a positioning assembly from the feeding assembly one by the pushing assembly, the positioning assembly positions the small faucet valves, then the small faucet valves 1 are moved to a pushing cylinder 2 by a moving assembly, the small faucet valves 1 are pushed to a feeding assembly by the pushing cylinder 2, the feeding assembly sequentially brings the small faucet valves 1 to a first processing assembly, a second processing assembly and a discharging assembly through a turntable 52 type, the first processing assembly and the second processing assembly perform one-to-one threading on two ends of the small faucet valves 1, and the small faucet valves 1 after the threading are finally discharged through the discharging assembly.

The material loading subassembly includes a material loading frame 3, a material loading says 4 and a moving mechanism, material loading says 4 and sets up in the top of material loading frame 3 along the length direction of material loading frame 3, the one end that the material pushing component was kept away from at the top of material loading says 4 still is equipped with a drain hole 5, the top of material loading way 4 is equipped with a roof 6 that prevents a plurality of tap valve 1 shake when moving the material, the top of roof 6 still is equipped with a movable joint that is convenient for 1 one end of tap valve and removes along length direction, material loading says 4 and still is equipped with a material pushing channel 7 towards one side of material pushing component, moving mechanism sets up in the inside of material loading frame 3. When an operator carries out end threading machining on the small faucet valve 1, the operator places the small faucet valves 1 on the feeding channel 4, the material moving mechanism pushes the small faucet valves 1 to move towards the material pushing assembly, and when the small faucet valves 1 are pushed, the top plate 6 plays a role in preventing shaking.

Move material mechanism and constitute by a push pedal 8, the inside of going up work or material rest 3 is equipped with a screw rod 9 and a guide bar 10 from last to down in proper order along the length direction of going up work or material rest 3, screw rod 9 is driven through a transmission motor 11, still cooperate through a belt 12 and two band pulleys between the output shaft of transmission motor 11 and the one end of screw rod 9, the bottom of push pedal 8 passes the vertical slide 13 of overlapping downwards of material loading way 4 on locating screw rod 9 and guide bar 10, the top of material loading way 4 still is equipped with a bar mouth that is used for push pedal 8 to remove along length direction, it includes a material pushing rod 14 to push away the material subassembly, material pushing rod 14 sets up in the one side that locating component was kept away from to material pushing way 7, material pushing rod 14 still is equipped with a pushing tray 15 towards the one end. When the material moving mechanism is driven, the transmission motor 11 drives the screw rod 9 to rotate, the sliding plate 13 moves on the guide rod 10 through the screw rod 9, the push plate 8 pushes the small faucet valve 1 to move along with the small faucet valve, and after the small faucet valve 1 arrives at the material pushing assembly, the material pushing rod 14 pushes the material pushing rod into the material pushing channel 7 through the push disc 15 and then is pushed into the positioning assembly.

The end, far away from the pushing disc 15, of the pushing rod 14 is provided with a bar 16, the top of the bar 16 is provided with a clamping block 17 along the length direction of the bar 16, the clamping block 17 is arranged at the top of a rectangular frame 18 in a sliding manner, one side of the rectangular frame 18 is further provided with a driving disc 19 in a rotating manner, the driving disc 19 is driven by a first rotating motor 20, one side of the rectangular frame 18 is located below the driving disc 19, a convex rod 21 is arranged below the driving disc 19, a poking rod 22 is hinged to the convex rod 21, the center of the side wall of the bar 16 is further provided with a round rod 23, the round rod 23 is further movably clamped in a bayonet 24 at the free end of the poking rod 22, the side wall of the driving disc 19 is provided with a cylinder 25, and the poking rod 22. When the material pushing rod 14 pushes, the first rotating motor 20 drives the driving disc 19 to rotate, after the driving disc 19 rotates, the cylinder 25 on the driving disc 19 moves in the poking opening 26 to drive the poking rod 22 to swing on the convex rod 21, the poking rod 22 pokes the round rod 23 through the bayonet 24, the bar 16 at one end of the material pushing rod 14 moves on the top of the rectangular frame 18 through the fixture block 17, and the material pushing rod 14 can push the small faucet valve 1.

The material moving assembly comprises a material moving platform 27 and a sliding block 28, the material moving platform 27 is perpendicular to the material feeding direction of the material feeding assembly and is arranged at one end of the material pushing channel 7, the sliding block 28 is arranged on the material moving platform 27 in a sliding mode, a rack 29 is further arranged on one side of the material moving platform 27 along the length direction of the material moving platform 27, a driving gear 30 is arranged on the rack 29 in a meshed mode, the driving gear 30 is driven by a material moving motor 31, the material moving motor 31 is fixed to the top of the sliding block 28, a support 32 used for mounting a positioning assembly is further arranged on the top of the sliding block 28, a sensing piece 33 is arranged on the side wall of the support 32, a photoelectric sensor 34 is further arranged on one side, located on the material feeding assembly, of the material moving platform 27, and a reserved channel 35 convenient for pushing the faucet valve 1 into the material feeding assembly is further arranged on one. When the material moving assembly drives the positioning assembly to move, the material moving motor 31 drives the driving gear 30 to rotate, and due to the fact that the driving gear 30 is meshed with the rack 29, the sliding block 28 can move on the material moving platform 27, when the sliding block 28 drives the positioning assembly to move to the material pushing cylinder 2, the M18 photoelectric sensor 34 senses the sensing piece 33 on the support 32, and then the material pushing cylinder 2 can accurately push the small faucet valve 1 on the positioning assembly.

The top of support 32 is equipped with a sheave 43 mechanism, locating component sets up in the top of sheave 43 mechanism, locating component includes a bottom plate 36, bottom plate 36 sets up in sheave 43 mechanism, the top of bottom plate 36 is equipped with a supporting seat 37 that is convenient for the bolt head location of tap valve 1 along the direction of pushing away of material pushing component in proper order, two clamping semicircular blocks 38 that are used for supporting tightly tap valve 1 and the joint seat 39 of a location tap valve 1 tip, the outside end of two clamping semicircular blocks 38 still all pegs graft on a rectangular plate 41 through two inserted link 40, and still all overlap on every inserted link 40 and be equipped with a compression spring 42. When the small faucet valve 1 is pushed by the material pushing rod 14, the small faucet valve 1 is pushed onto the clamping seat 39, the bolt head end of the small faucet valve 1 is clamped on the clamping seat 39, and the two clamping semicircular blocks 38 tightly press the small faucet valve 1 under the action of the two corresponding compression springs 42.

The grooved wheel 43 mechanism is composed of a grooved wheel 43 and a driving plate 44, the grooved wheel 43 is fixedly sleeved on a convex shaft at the bottom of the bottom plate 36, the bottom of the grooved wheel 43 is further rotatably arranged in a circular shell 45 at the top of the support 32 through a movable column, four notches 46 are uniformly arranged around the grooved wheel 43 along the circumferential direction, an arc 47 is further arranged between every two notches 46, the driving plate 44 is driven by a second rotating motor 48, the second rotating motor 48 is fixedly arranged at the top of the sliding block 28, two ends of the driving plate 44 are respectively provided with an extending rod 49 in an outward extending mode, one end of each extending rod 49 is further provided with a clamping column 50 used for passing through the notches 46 and the two ends of the driving plate 44 in the vertical direction of the two extending rods 49 are further provided with an arc block 51 matched with each arc 47. When the small faucet valve 1 is positioned, the grooved wheel 43 mechanism drives the small faucet valve 1 to rotate 90 degrees, so that the small faucet valve 1 can be pushed out by the pushing cylinder 2, when the grooved wheel 43 mechanism is driven, the second rotating motor 48 drives the dial 44 to rotate, because the clamping column 50 on the dial 44 is rotationally clamped in the notch 46 on the grooved wheel 43, the grooved wheel 43 is stirred by the clamping column 50 to rotate, after the clamping column 50 on the dial 44 is pulled out from the notch 46, the arc block 51 on the dial 44 is attached to the arc port 47 on the grooved wheel 43, the rotation of the grooved wheel 43 is not hindered, and because the grooved wheel 43 is sleeved on the convex column, the small faucet valve 1 rotates 90 degrees.

The feeding assembly comprises a ratchet wheel 54 mechanism and a rotating disc 52, the ratchet wheel 54 mechanism is arranged in a circular frame body 53, the rotating disc 52 is arranged on the ratchet wheel 54 mechanism, the ratchet wheel 54 mechanism is composed of a ratchet wheel 54 and a circular disc 55, a circle of circular groove is formed in the top of the circular frame body 53, the ratchet wheel 54 is of a hollow structure, the bottom of the ratchet wheel 54 is rotatably arranged in the circular groove through a circle of rotating ring, the ratchet wheel 54 and the circular frame body 53 are coaxial, a plurality of shifting openings 56 are uniformly formed in the inner ring of the ratchet wheel 54 along the circumferential direction, a shifting block 57 used for shifting the ratchet wheel 54 to move in a gap mode is further arranged on one side of the circular disc 55, the circular disc 55 is driven by a single-shaft motor 58, and the single-. When the small faucet valve 1 is pushed onto the rotating disc 52 by the pushing cylinder 2 through the reserved channel 35, the ratchet wheel 54 mechanism drives the rotating disc 52 to intermittently rotate, the single-shaft motor 58 drives the disc 55 to rotate, and as the shifting block 57 on the disc 55 is matched with the shifting port 56 on the ratchet wheel 54, shifting of the disc 55 drives the ratchet wheel 54 to intermittently rotate in the circular groove.

The top of ratchet 54 is equipped with a connection pad 59 through a plurality of bolt fastening, connection pad 59 and ratchet 54 coaxial line, and the top inboard of connection pad 59 still vertically upwards is equipped with four support columns 60, carousel 52 overlaps locates on four support columns 60, and the top of four support columns 60 is still all fixed with carousel 52 through a nut 61, coaxial line between carousel 52 and the connection pad 59, the top of carousel 52 evenly is equipped with a plurality of constant head tank 62 that is used for chucking faucet valve 1 along the circumferencial direction of carousel 52, first processing subassembly, the structure of second processing subassembly and ejection of compact subassembly is all the same, first processing subassembly, second processing subassembly and ejection of compact subassembly all include an XY axle moving member 63, every XY axle moving member 63 still all sets up on an elevated frame body 64. When the ratchet wheel 54 rotates, the connecting disc 59 rotates along with the ratchet wheel, the rotating disc 52 rotates along with the ratchet wheel under the fixation of the three supporting columns 60, and the rotation of the rotating disc 52 drives the small faucet valve 1 to intermittently and accurately come to the first processing assembly, the second processing assembly and the discharging assembly.

The X-direction moving piece of the XY-axis moving piece 63 of the first machining assembly and the second machining assembly is respectively provided with a first threading piece 65 and a first abutting rod 66, the Y-direction moving piece of the XY-axis moving piece 63 of the first machining assembly and the second machining assembly is respectively provided with a second abutting rod 67 and a second threading piece 68, the Y-direction moving piece of the XY-axis moving piece 63 of the discharging assembly is further provided with a discharging rod 69, and a discharging box 70 is further arranged below the discharging rod 69. After the faucet valve 1 comes to the first processing assembly, the first threading piece 65 and the second tightening rod 67 tighten and thread the faucet valve 1 under the driving of the XY axis moving piece 63, then the faucet valve 1 comes to the second processing assembly, the first tightening rod 66 and the second threading piece 68 also thread the other end of the faucet valve 1 under the driving of the corresponding XY axis moving piece 63, and finally, the faucet valve 1 after the processing is pushed into the discharging box 70 through the pushing of the discharging rod 69.

The equipment realizes the functions of the invention through the following steps, thereby solving the technical problems provided by the invention:

step one, when an operator performs end threading processing on the small faucet valve 1, the operator places a plurality of small faucet valves 1 on a feeding channel 4, a material moving mechanism pushes the small faucet valves 1 to move towards a material pushing component, when the material moving mechanism is driven, a transmission motor 11 drives a screw rod 9 to rotate, a sliding plate 13 moves on a guide rod 10 through the screw rod 9, a push plate 8 pushes the small faucet valves 1 to move along with the small faucet valves, when the small faucet valves 1 are pushed, a top plate 6 plays a role in preventing shaking, after the small faucet valves 1 come to the material pushing component, a material pushing rod 14 is pushed into a material pushing channel 7 through a push disc 15, when the material pushing rod 14 is pushed, a first rotating motor 20 drives a driving disc 19 to rotate, after the driving disc 19 rotates, a cylinder 25 on the driving disc 19 moves in a poking opening 26 to drive a poking rod 22 to swing on a convex rod 21, and the poking rod 22 pokes a round rod 23 through a bayonet 24, the bar 16 at one end of the material pushing rod 14 moves on the top of the rectangular frame 18 through the fixture block 17, and the material pushing rod 14 can push the small faucet valve 1;

step two, when the small faucet valve 1 is pushed by the material pushing rod 14, the small faucet valve 1 is pushed onto the clamping seat 39, the bolt head end of the small faucet valve 1 is clamped on the clamping seat 39, the two clamping semicircular blocks 38 tightly press the small faucet valve 1 under the action of the two corresponding compression springs 42, after the small faucet valve 1 is positioned, the grooved wheel 43 mechanism drives the small faucet valve 1 to rotate 90 degrees, so that the small faucet valve can be pushed out by the material pushing cylinder 2, when the grooved wheel 43 mechanism is driven, the second rotating motor 48 drives the small faucet valve 44 to rotate, since the clamping column 50 on the dial plate 44 is rotationally clamped in the groove opening 46 on the grooved wheel 43, the grooved wheel 43 is shifted to rotate by the clamping column 50, after the clamping column 50 on the dial plate 44 is pulled out from the groove opening 46, the arc block 51 on the dial plate 44 is attached to the arc opening 47 on the grooved wheel 43, the grooved wheel 43 does not interfere with the rotation, because the grooved wheel 43 is sleeved on the convex column, thus, the small tap valve 1 is turned 90 °;

step three, when the material moving assembly drives the positioning assembly to move, the material moving motor 31 drives the driving gear 30 to rotate, and the driving gear 30 and the rack 29 are meshed with each other, so that the sliding block 28 can move on the material moving platform 27, when the sliding block 28 drives the positioning assembly to come to the material pushing cylinder 2, after the M18 photoelectric sensor 34 senses the sensing piece 33 on the support 32, the material pushing cylinder 2 can accurately push the small faucet valve 1 on the positioning assembly, after the small faucet valve 1 is pushed to the positioning groove 62 on the rotating disc 52 by the material pushing cylinder 2 through the reserved channel 35, the ratchet 54 mechanism drives the rotating disc 52 to intermittently rotate, the single-shaft motor 58 drives the disk 55 to rotate, and as the poking block 57 on the disk 55 is matched with the poking port 56 on the ratchet 54, the disk 55 pokes to drive the ratchet 54 to intermittently rotate in the circular groove;

step four, after the ratchet wheel 54 rotates, the connecting disc 59 rotates along with the ratchet wheel, the rotating disc 52 rotates along with the ratchet wheel under the fixation of the three support columns 60, the rotating disc 52 rotates to drive the miniature faucet valve 1 to intermittently and accurately come to the positions of the first processing assembly, the second processing assembly and the discharging assembly, after the miniature faucet valve 1 comes to the position of the first processing assembly, the first threading piece 65 and the second abutting rod 67 abut against and thread one end of the miniature faucet valve 1 under the driving of the XY-axis moving piece 63, then the miniature faucet valve 1 comes to the position of the second processing assembly, the first abutting rod 66 and the second threading piece 68 also sleeve the other end of the miniature faucet valve 1 under the driving of the corresponding XY-axis moving piece 63, and finally, the processed miniature faucet valve 1 is pushed into the discharging box 70 through the pushing of the discharging rod 69.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An end threading processing device for multi-batch small faucet valves is characterized by comprising a feeding assembly, a positioning assembly, a pushing assembly for pushing a faucet valve (1) from the feeding assembly to the positioning assembly, a moving assembly for moving the positioning assembly, a pushing cylinder (2), a feeding assembly for rotary disc (52) type feeding, a first processing assembly for one end of the faucet valve (1), a second processing assembly and a discharging assembly for the other end of the faucet valve (1), wherein the pushing assembly is arranged at one end of the feeding assembly, the moving assembly is arranged at one side of the feeding assembly, which is far away from the pushing assembly, the pushing direction of the pushing cylinder (2) and the moving direction of the moving assembly are perpendicular to the feeding direction of the feeding assembly, the positioning assembly is arranged on the moving assembly, the feeding assembly is arranged at one side of the moving assembly, the pushing cylinder (2) is arranged at one side of the moving assembly, which is far away from the feeding assembly, the first processing assembly, the second processing assembly and the discharging assembly are uniformly distributed along the circumferential direction of the feeding assembly.

2. The end threading processing equipment for the multi-batch small faucet valves according to claim 1, wherein the feeding assembly comprises a feeding frame (3), a feeding channel (4) and a moving mechanism, the feeding channel (4) is arranged at the top of the feeding frame (3) along the length direction of the feeding frame (3), a discharging hole (5) is further formed in one end, far away from the pushing assembly, of the top of the feeding channel (4), a top plate (6) for preventing the faucet valves (1) from shaking during material moving is arranged at the top of the feeding channel (4), a moving opening convenient for moving one end of the faucet valve (1) is further formed in the top of the top plate (6) along the length direction, a pushing channel (7) is further arranged on one side, facing the pushing assembly, of the feeding channel (4), and the moving mechanism is arranged inside the feeding frame (3).

3. The end threading processing equipment for the multi-batch small faucet valve according to claim 2, characterized in that the material moving mechanism is composed of a push plate (8), the interior of the material feeding frame (3) is sequentially provided with a screw rod (9) and a guide rod (10) from top to bottom along the length direction of the material feeding frame (3), the screw rod (9) is driven by a transmission motor (11), a belt (12) and two belt wheels are further matched between the output shaft of the transmission motor (11) and one end of the screw rod (9), the bottom of the push plate (8) penetrates through the material feeding channel (4) and is vertically sleeved on a sliding plate (13) on the screw rod (9) and the guide rod (10), the top of the material feeding channel (4) is further provided with a strip-shaped port for the push plate (8) to move along the length direction, the material pushing assembly comprises a material pushing rod (14), the material pushing rod (14) is arranged on one side of the material pushing channel (7) far away from the positioning assembly, a pushing disc (15) is arranged at one end of the pushing rod (14) facing the pushing channel (7).

4. The end threading processing equipment for the multi-batch small faucet valve as claimed in claim 3, characterized in that a bar block (16) is arranged at one end of the material pushing rod (14) far away from the pushing disc (15), a clamping block (17) is arranged at the top of the bar block (16) along the length direction of the bar block (16), the clamping block (17) is slidably arranged at the top of a rectangular frame (18), a driving disc (19) is rotatably arranged at one side of the rectangular frame (18), the driving disc (19) is driven by a first rotating motor (20), a convex rod (21) is arranged at one side of the rectangular frame (18) and below the driving disc (19), a poking rod (22) is hinged on the convex rod (21), a round rod (23) is further arranged at the center of the side wall of the bar block (16), and the round rod (23) is further movably clamped in a bayonet (24) at the free end of the poking rod (22), the side wall of the driving disk (19) is provided with a cylinder (25), and the poking rod (22) is provided with a poking opening (26) for poking the cylinder (25).

5. The end threading processing equipment for the multi-batch small-sized faucet valve as claimed in claim 3, wherein the material moving assembly comprises a material moving platform (27) and a sliding block (28), the material moving platform (27) is arranged at one end of the material pushing channel (7) perpendicular to the material feeding direction of the material feeding assembly, the sliding block (28) is arranged on the material moving platform (27) in a sliding manner, a rack (29) is further arranged on one side of the material moving platform (27) along the length direction of the material moving platform (27), a driving gear (30) is meshed with the rack (29), the driving gear (30) is driven by a material moving motor (31), the material moving motor (31) is fixed on the top of the sliding block (28), a bracket (32) for installing the positioning assembly is further arranged on the top of the sliding block (28), a sensing piece (33) is arranged on the side wall of the bracket (32), a photoelectric sensor (34) is further arranged on one side of the material feeding assembly of the material moving platform (27), a reserved channel (35) which is convenient for pushing the faucet valve (1) into the feeding assembly is also arranged on one side of the material moving platform (27) close to the feeding assembly.

6. The end threading machining apparatus for multi-batch small faucet valves as recited in claim 5, the device is characterized in that a grooved wheel (43) mechanism is arranged at the top of the support (32), a positioning assembly is arranged at the top of the grooved wheel (43) mechanism and comprises a bottom plate (36), the bottom plate (36) is arranged on the grooved wheel (43) mechanism, a supporting seat (37) convenient for positioning a bolt head of the faucet valve (1), two clamping semicircular blocks (38) used for abutting against the faucet valve (1) and a clamping seat (39) used for positioning the end part of the faucet valve (1) are sequentially arranged at the top of the bottom plate (36) along the pushing direction of the pushing assembly, the outward ends of the two clamping semicircular blocks (38) are also inserted into a rectangular plate (41) through two inserting rods (40), and each plug-in rod (40) is also sleeved with a compression spring (42).

7. The end threading machining equipment for the multi-batch small faucet valve as claimed in claim 6, wherein the grooved wheel (43) mechanism is composed of a grooved wheel (43) and a driving plate (44), the grooved wheel (43) is fixedly sleeved on a protruding shaft at the bottom of the bottom plate (36), the bottom of the grooved wheel (43) is further rotatably arranged in a circular shell (45) at the top of the bracket (32) through a movable column, four notches (46) are uniformly arranged around the grooved wheel (43) along the circumferential direction, an arc (47) is further arranged between every two notches (46), the driving plate (44) is driven by a second rotating motor (48), the second rotating motor (48) is fixedly arranged at the top of the sliding block (28), two extending rods (49) are respectively arranged at two ends of the driving plate (44) in an outward extending manner, one end of each extending rod (49) is further provided with a clamping column (50) for shifting the grooved wheel (43) through the notches (46), and the two ends of the dial plate (44) in the vertical direction of the two extension rods (49) are provided with an arc block (51) matched with each arc opening (47).

8. The end threading processing equipment for the multi-batch small-sized faucet valve according to claim 5, characterized in that the feeding assembly comprises a ratchet wheel (54) mechanism and a rotating disc (52), the ratchet wheel (54) mechanism is arranged in a circular frame body (53), the rotating disc (52) is arranged on the ratchet wheel (54) mechanism, the ratchet wheel (54) mechanism consists of a ratchet wheel (54) and a circular disc (55), the top of the circular frame body (53) is provided with a circle of circular groove, the ratchet wheel (54) is of a hollow structure, the bottom of the ratchet wheel (54) is rotatably arranged in the circular groove through a circle of rotating ring, the ratchet wheel (54) is coaxial with the circular frame body (53), the inner ring of the ratchet wheel (54) is uniformly provided with a plurality of shifting ports (56) along the circumferential direction, one side of the circular disc (55) is further provided with a shifting block (57) for shifting the ratchet wheel (54) to perform clearance motion, the disc (55) is driven by a single-shaft motor (58), and the single-shaft motor (58) is fixedly arranged at the bottom of the round frame body (53).

9. The end threading processing equipment for the multi-batch small faucet valve as claimed in claim 8, wherein the top of the ratchet wheel (54) is fixedly provided with a connecting disc (59) through a plurality of bolts, the connecting disc (59) and the ratchet wheel (54) are coaxial, the inner side of the top of the connecting disc (59) is further vertically and upwardly provided with four supporting columns (60), the turntable (52) is sleeved on the four supporting columns (60), the tops of the four supporting columns (60) are further fixed with the turntable (52) through nuts (61), the turntable (52) and the connecting disc (59) are coaxial, the top of the turntable (52) is uniformly provided with a plurality of positioning grooves (62) for clamping the faucet valve (1) along the circumferential direction of the turntable (52), the structures of the first processing assembly, the second processing assembly and the discharging assembly are the same, and the first processing assembly, the second processing assembly and the discharging assembly are the same, The second processing assembly and the discharging assembly comprise XY-axis moving parts (63), and each XY-axis moving part (63) is further arranged on a high frame body (64).

10. The end threading machining equipment for the multi-batch small faucet valve as claimed in claim 9, wherein the X-direction moving member of the XY-axis moving member (63) of the first machining assembly and the second machining assembly is respectively provided with a first threading member (65) and a first abutting rod (66), the Y-direction moving member of the XY-axis moving member (63) of the first machining assembly and the second machining assembly is respectively provided with a second abutting rod (67) and a second threading member (68), the Y-direction moving member of the XY-axis moving member (63) of the discharging assembly is further provided with a discharging rod (69), and a discharging box (70) is further provided below the discharging rod (69).