CN211072478U - Automatic feeding mechanism for outer mesh enclosure of roller valve - Google Patents

Automatic feeding mechanism for outer mesh enclosure of roller valve Download PDF

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Publication number
CN211072478U
CN211072478U CN201921633743.7U CN201921633743U CN211072478U CN 211072478 U CN211072478 U CN 211072478U CN 201921633743 U CN201921633743 U CN 201921633743U CN 211072478 U CN211072478 U CN 211072478U
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China
Prior art keywords
rotary table
mesh enclosure
groove
discharging
material carrying
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CN201921633743.7U
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Chinese (zh)
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姜斌
郭景平
贾路伟
朱明华
陈世英
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Jinhua Hongchi Technology Co ltd
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Jinhua Hongchi Technology Co ltd
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Abstract

The utility model provides an automatic feeding mechanism for a roller valve outer mesh enclosure, which comprises a turntable, wherein a plurality of material carrying grooves are uniformly distributed on the turntable along the circumferential direction, and each material carrying groove is provided with a feeding notch and a discharging notch; the rotary table is driven by the driving device to rotate, the material carrying groove sequentially passes through the feeding station and the discharging station, the outer net cover enters the material carrying groove from the feeding notch in the radial direction of the rotary table at the feeding station, and leaves the material carrying groove from the discharging notch in the axial direction of the rotary table at the discharging station to be assembled to the valve body; a feeding station is provided with a straight vibration rail, a feeding port of the straight vibration rail is communicated with the vibration disc, and a discharging port of the straight vibration rail is adjacent to the rotary disc; the discharging station is provided with an assembling cylinder, a push rod is fixedly connected to a piston rod of the assembling cylinder, and the push rod can do telescopic motion along the axial direction of the rotary table under the action of the assembling cylinder. The utility model discloses can realize the automatic feeding assembly of outer screen panel, can effectively improve the material loading assembly efficiency and the assembly precision of outer screen panel through the cooperation of each device.

Description

Automatic feeding mechanism for outer mesh enclosure of roller valve
Technical Field
The utility model belongs to the technical field of the solenoid valve, in particular to cylinder valve outer mesh enclosure automatic feeding mechanism.
Background
The end of intaking of cylinder valve body usually need assemble two and filter the screen panel, filters the water, is interior screen panel and outer screen panel respectively, adopts artifical manual assembly now more, because outer screen panel is closely for cooperating with the valve body, the manual assembly difficulty, and is inefficient, and the cost of labor is high, and outer screen panel structure is special, needs directional assembly, and the assembly required precision is high, and the assembly precision is hardly ensured to manual assembly to influence the quality of solenoid valve.
Disclosure of Invention
The utility model aims at providing a cylinder valve outer screen panel automatic feeding mechanism to current cylinder valve outer screen panel assembly efficiency low, the unable guaranteed problem of assembly precision.
The purpose of the utility model can be realized by the following technical proposal:
an automatic feeding mechanism for an outer mesh enclosure of a roller valve comprises a rotary table, wherein a plurality of material carrying grooves are uniformly distributed on the rotary table along the circumferential direction, each material carrying groove is provided with a feeding groove opening formed in the outer circumferential surface of the rotary table and a discharging groove opening formed in the front end surface of the rotary table, and a material carrying space of each material carrying groove is limited by a groove bottom and a groove wall; the rotary table is driven by the driving device to rotate, the material carrying groove sequentially passes through the feeding station and the discharging station, the outer net cover enters the material carrying groove from the feeding notch in the radial direction of the rotary table at the feeding station, and leaves the material carrying groove from the discharging notch in the axial direction of the rotary table at the discharging station to be assembled to the valve body; the feeding station is provided with a straight vibrating track, a feeding port of the straight vibrating track is communicated with the vibrating disc, and a discharging port of the straight vibrating track is adjacent to the rotating disc; the discharging station is provided with an assembling cylinder, a push rod is fixedly connected to a piston rod of the assembling cylinder, and the push rod can do telescopic motion along the axial direction of the rotary table under the action of the assembling cylinder.
The automatic feeding of the outer mesh enclosure of the roller valve can be realized through the arrangement, the material carrying groove on the rotary table rotates along with the rotary table, the material carrying groove firstly passes through the feeding station, the outer mesh enclosure which is directionally sequenced by the vibration disc and conveyed by the direct vibration track enters the material carrying groove from the feeding groove opening along the radial direction of the rotary table, the material carrying groove carrying the outer mesh enclosure rotates to the discharging station along the rotary table, and the outer mesh enclosure is pushed out along the axial direction of the rotary table by the push rod under the action of the assembling cylinder and is assembled to the valve body; a plurality of material loading grooves are uniformly distributed on the rotary table along the circumferential direction, the outer net cover respectively enters and exits the material loading grooves along the radial direction and the axial direction of the rotary table, the material loading grooves are not affected by each other in feeding and discharging and can be carried out simultaneously, therefore, the assembly efficiency is effectively improved, the assembly posture of the outer net cover can be adjusted through the rotation of the rotary table, and the directional requirement of the assembly of the outer net cover is met.
Preferably, the body of the outer mesh enclosure is cylindrical and comprises a circular bottom wall and an annular side wall, a strip-shaped assembly handle is radially arranged on the circular bottom wall, a limiting opening penetrating through the whole tank bottom is formed in the center of the tank bottom along the radial direction of the rotary table, the limiting opening is matched with the assembly handle, and the assembly handle is limited in the limiting opening. All be provided with the assembly handle on most outer screen panel, the setting of spacing opening is used for adapting to the assembly handle, also can carry out accurate spacing to outer screen panel simultaneously, improves the assembly precision.
Preferably, two push holes are arranged on two sides of the limiting opening in a mirror image mode, the two push rods are arranged in parallel and correspond to the push holes in position, the push rods penetrate into the push holes under the pushing of the assembling air cylinder, and the outer net cover is pushed out and assembled to the valve body. The cooperation of two push rods and two push holes can guarantee that the outer mesh enclosure does not take place the skew when being released to assemble to the valve body to improve the assembly precision.
Preferably, the vertical vibration track is a groove-shaped track which is horizontally arranged, and the length direction of the vertical vibration track is arranged along the radial direction of the rotating disc; the vertical vibration track comprises a first baffle plate positioned on the outer side and a second baffle plate positioned on the inner side, the first baffle plate and the second baffle plate are parallel to each other, and the distance between the two baffle plates is consistent with the axial height of the outer mesh enclosure. The arrangement can ensure that the outer net cages on the straight vibrating track keep directional sequencing and smoothly enter the material loading groove.
Preferably, a limiting plate is fixedly arranged above the second baffle, the limiting plate and the second baffle are matched to form a clamping groove for clamping and embedding the assembling handle, and the clamping groove is formed along the length direction of the rail and is as long as the second baffle. The clamping groove is used for adapting to the assembly handle, so that the outer net cover can smoothly move forwards in the direct vibration track, and the posture of the outer net cover in the direct vibration track can be kept.
Preferably, still be equipped with a locating piece on the straight track of shaking, the locating piece is located the top of limiting plate to be close to straight orbital discharge port of shaking, the locating piece can be with the outer screen cover who closes on discharge port support under the effect of location cylinder and press to first baffle. The setting of locating piece can guarantee that outer screen panel gets into year silo one by one, avoids outer screen panel to appear the extrusion when getting into year silo.
Preferably, the front end of the first baffle extends towards the rotary table and shields a discharge port of the material loading groove running to the feeding station. The outer mesh enclosure is prevented from sliding out of the discharging slot opening when entering the material loading slot by the arrangement, and meanwhile, the outer mesh enclosure can be guided when entering the material loading slot.
Preferably, eight material loading grooves are arranged, and the arc distance traveled by the material loading grooves from the feeding station to the discharging station is one fourth of the circumference of the rotary table. Above setting up can make outer screen panel be in the state of level to with the assembly handle and get into the material loading groove, assemble to the valve body with the state that the assembly handle is in vertical, satisfy feeding demand and assembly demand simultaneously.
Preferably, the groove wall of the material loading groove comprises an arc surface section adapting to the shape of the outer net cover, the arc surface section is arranged close to the axis of the rotary table, two ends of the arc surface section extend towards the outer peripheral surface of the rotary table to form two plane sections, and the two plane sections are parallel to each other and limit the width of the feeding groove opening. The cambered surface section can keep the posture of the outer net cover in the material loading groove, and the plane section can ensure that the outer net cover smoothly enters the material loading groove.
Preferably, the driving device comprises a stepping motor, a first synchronizing wheel and a second synchronizing wheel, the first synchronizing wheel is connected to an output shaft of the stepping motor, the second synchronizing wheel is connected with the rotary table through a rotary shaft, the rotary shaft and the rotary table are coaxially arranged, and the first synchronizing wheel and the second synchronizing wheel are connected through synchronous belt transmission. The turntable is driven by the stepping motor, the synchronous wheel and the synchronous belt, so that the accuracy of the rotation angle of the turntable can be ensured, and the reliable operation of the whole feeding mechanism is ensured.
Compared with the prior art, the utility model has the advantages that the automatic feeding assembly of the outer mesh enclosure of the roller valve can be realized through the cooperation of the vibration disc, the straight vibration track and the rotary disc, and the assembly efficiency and the assembly precision are effectively improved; the positions of all devices of the whole feeding mechanism are reasonably distributed, the matching is reliable and efficient, the feeding and discharging directions are carried out along different directions, the continuous feeding can be realized, the assembly efficiency is improved, and meanwhile, the assembly posture of the outer net cover can be adjusted through the rotation of the rotary disc; the direct-vibration track and the material carrying groove are compact and reasonable in structure, and can keep the posture of the outer net cover in the carrying and assembling process while being adaptive to the structure of the outer net cover, so that the assembling precision is guaranteed.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the turntable and the feeding station of the present invention;
FIG. 3 is a schematic structural view of the turntable and the discharge station of the present invention;
FIG. 4 is a schematic view of the structure of the middle direct-vibration track of the present invention;
FIG. 5 is a schematic view of the structure of the turntable of the present invention;
FIG. 6 is a schematic view of the structure of the outer mesh enclosure of the present invention;
in the figure, a turntable 10; a material loading groove 11; a front end face 12; an outer peripheral surface 13; a tank bottom 111; a limit gap 112; a push hole 113; a cambered surface section 114; a planar section 115; a stepping motor 21; a first synchronizing wheel 22; a synchronous belt 23; the fitting cylinder 31; a push rod 32; a direct shock rail 40; a first baffle plate 41; a second shutter 42; a stopper plate 43; a card slot 44; a positioning block 45; a positioning cylinder 46; a linear vibrator 47; a vibration plate 50; a shield plate 61; an in-position detection optical fiber 62; an outer mesh enclosure 70; an annular side wall 71; the shank 72 is assembled.
Detailed Description
The following are specific embodiments of the present invention, and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.
Referring to fig. 1-6, the present embodiment discloses an automatic feeding mechanism for an outer mesh enclosure of a roller valve, which includes a rotary table 10, wherein a plurality of material loading slots 11 are uniformly distributed on the rotary table 10 along the circumferential direction, the number of the material loading slots 11 is eight in the present embodiment, and each material loading slot 11 has a feeding slot formed on the outer circumferential surface 13 of the rotary table 10 and a discharging slot formed on the front end surface 12 of the rotary table 10. Carousel 10 rotates under drive arrangement's drive, and drive arrangement includes step motor 21, first synchronizing wheel 22, second synchronizing wheel in this embodiment, first synchronizing wheel 22 is connected in step motor 21's output shaft, the second synchronizing wheel is connected with carousel 10 through the pivot, pivot and the coaxial setting of carousel 10, and first synchronizing wheel 22 passes through synchronous belt 23 transmission with the second synchronizing wheel and is connected, adopts step motor 21, synchronizing wheel, synchronous belt 23 to drive carousel 10, can guarantee carousel 10 turned angle's accuracy nature to guarantee the reliable operation of whole feed mechanism. Carry silo 11 to pass through feeding station and ejection of compact station in proper order, outer screen cover 70 radially gets into by the feed notch and carries silo 11 at feeding station along carousel 10, and leave by ejection of compact notch along the axial of carousel 10 at ejection of compact station and carry silo 11 to assemble to the valve body, there are a plurality of silos 11 that carry along circumference evenly distributed on the carousel 10, and outer screen cover 70 carries silo 11 along the radial and axial business turn over of carousel 10 respectively, each carries 11 silos that carry the material ejection of compact and does not influence each other, can go on simultaneously, thereby effectively improve assembly efficiency, outer screen cover 70's assembly gesture also can be adjusted through carousel 10's rotation, thereby directional requirement when satisfying outer screen cover 70's assembly, make the assembly precision can ensure.
The feeding station is provided with a straight vibrating track 40, a feeding port of the straight vibrating track 40 is communicated with a vibrating disc 50, a discharging port of the straight vibrating track 40 is adjacent to the rotary disc 10, the outer net covers 70 are firstly arranged in order under the vibration of the vibrating disc in a directional mode and then enter the straight vibrating track 40, and the straight vibrating track 40 sends the outer net covers 70 to the material loading groove 11 on the rotary disc 10 under the action of a straight vibrator 47; the straight vibrating track 40 is a groove-shaped track which is horizontally arranged, the length direction of the straight vibrating track is arranged along the radial direction of the rotary table 10, and the running direction of the outer net cover 70 on the straight vibrating track 40 is consistent with the direction of the outer net cover entering the material loading groove 11, so that the continuous feeding of the whole feeding mechanism is ensured, and the assembly efficiency is improved; the vertical vibration rail 40 comprises a first baffle plate 41 positioned on the outer side and a second baffle plate 42 positioned on the inner side, the first baffle plate 41 and the second baffle plate 42 are parallel to each other, and in order to ensure that the outer mesh enclosures 70 on the vertical vibration rail 40 keep directional sequencing and smoothly enter the material loading groove 11, the distance between the two baffle plates is consistent with the axial height of the outer mesh enclosures 70; in this embodiment, the body of the outer mesh enclosure 70 is cylindrical, and includes a circular bottom wall and an annular side wall 71, a strip-shaped assembly handle 72 is radially disposed on the circular bottom wall, a limit plate 43 is fixedly disposed above the second baffle 42, the limit plate 43 and the second baffle cooperate to form a slot 44 for inserting the assembly handle 72, the slot 44 is formed along the length direction of the rail and has the same length as the second baffle 42, the slot 44 is adapted to the assembly handle 72, so as to ensure that the outer mesh enclosure 70 smoothly moves forward in the direct-vibration rail 40, and simultaneously, the posture of the outer mesh enclosure 70 in the direct-vibration rail 40 can be maintained; in order to ensure that the outer mesh enclosures 70 enter the material carrying grooves 11 one by one, the straight vibrating track 40 is further provided with a positioning block 45, the positioning block 45 is positioned above the positioning plate 43 and is close to the material outlet port of the straight vibrating track 40, when the in-place detection optical fiber 62 detects that the outer mesh enclosure 70 enters the material carrying groove 11, the positioning cylinder 46 pushes the positioning block 45 to move, the outer mesh enclosure 70 closest to the material outlet port is pressed against the first baffle 41 to limit the movement of the first baffle 41 in the feeding direction, and the continuous forward movement and extrusion of the outer mesh enclosure 70 are avoided, so that the material carrying and rotation of the rotary disc 10 are influenced, when the material carrying groove 11 carrying the outer mesh enclosure 70 leaves the feeding station, the next adjacent empty material carrying groove 11 reaches the feeding station, the in-place detection optical fiber 62 detects that the material carrying groove 11 is empty, the positioning cylinder 46 drives the positioning block 45 to return to loosen the outer mesh enclosure 70 close to the material inlet port to enable the outer mesh enclosure 70 to smoothly enter the material carrying groove, the positioning cylinder 46 pushes the positioning block 45 to move again, so that the cycle is repeated; the front end of the first baffle plate 41 extends towards the rotary table 10 and shields a discharge port of the material carrying groove 11 running to the feeding station, so that the outer mesh enclosure 70 is prevented from sliding out of the discharge port when entering the material carrying groove 11, and the outer mesh enclosure 70 can be guided when entering the material carrying groove 11; in order to avoid that the material loading groove 11 loaded with the outer mesh enclosure 70 throws the outer mesh enclosure 70 out when rotating to the discharging station, a shielding plate 61 is vertically arranged at a position close to the discharging port, the shielding plate 61 is fixedly arranged on the machine frame below the rotary table 10 and extends upwards, part of the shielding plate covers the discharging port opening of the material loading groove 11 between the feeding station and the discharging station, and the in-place detection optical fiber 62 is arranged on the shielding plate 61.
The material carrying space of the material carrying groove 11 is limited by the groove bottom 111 and the groove wall, the center of the groove bottom 111 is provided with a limit opening 112 penetrating through the whole groove bottom 111 along the radial direction of the turntable 10, the limit opening 112 is matched with the assembly handle 72, the assembly handle 72 is limited in the limit opening 112, the limit opening 112 is arranged to adapt to the assembly handle 72, meanwhile, the outer mesh enclosure 70 can be accurately limited, and the assembly precision is improved; the assembly cylinder 31 is arranged at the discharging station, a push rod 32 is fixedly connected to a piston rod of the assembly cylinder 31, the push rod 32 can do telescopic motion along the axial direction of the rotary table 10 under the action of the assembly cylinder 31, the outer mesh enclosure 70 in the material loading groove 11 is pushed out and assembled to the valve body along the axial direction of the rotary table 10 through the discharging groove opening, two push holes 113 are arranged on two sides of the limiting notch 112 in a mirror image mode, the push rods 32 are arranged in parallel and correspond to the push holes 113 in position, the push rods 32 penetrate into the push holes 113 under the pushing action of the assembly cylinder 31 to push the outer mesh enclosure 70 out and assemble the outer mesh enclosure 70 to the valve body, and the two push rods 32 are matched with the two push holes 113 to ensure that the outer mesh enclosure 70 does not deviate when being pushed out and assembled to the; the groove wall comprises an arc surface section 114 adapting to the shape of the outer net cover 70, the arc surface section 114 is arranged close to the axis of the rotary table 10, two ends of the arc surface section 114 extend towards the outer peripheral surface 13 of the rotary table 10 to form two plane sections 115 and limit the width of the feeding groove opening, the arc surface section 114 can keep the posture of the outer net cover 70 in the material carrying groove 11, the plane sections 115 can ensure that the outer net cover 70 smoothly enters the material carrying groove 11, the two plane sections 115 are parallel to each other, and the distance between the two plane sections is matched with the maximum transverse size of the outer net cover 70.
The working process of the automatic feeding mechanism for the outer mesh enclosure of the roller valve disclosed by the embodiment is that the rotary table 10 rotates under the drive of the stepping motor 21, the material carrying groove 11 sequentially passes through a feeding station and a discharging station, the outer mesh enclosure 70 enters the material carrying groove 11 from a feeding notch along the radial direction of the rotary table 10 at the feeding station, and leaves the material carrying groove 11 from a discharging notch along the axial direction of the rotary table 10 at the discharging station to be assembled to a valve body; the feeding station is provided with a vibration disc 50 and a straight vibration rail 40, the outer net cover 70 is firstly arranged in the vibration disc 50 in a directional mode, the outer net cover 70 enters the straight vibration rail 40 in a horizontal state, the assembling handle 72 is horizontally clamped in the clamping groove 44, the outer net cover 70 moves from a feeding port of the straight vibration rail 40 to a discharging port, and after reaching the discharging port, the outer net cover sequentially enters the material carrying groove 11 of the feeding station one by one along the radial direction of the rotary disc 10 under the matching of the in-place detection optical fiber 62 and the positioning block 45; the material loading groove 11 carrying the outer net cover 70 rotates to a discharging station along with the rotary table 10, eight material loading grooves 11 are arranged in the embodiment, the arc distance of the material loading groove 11 which rotates from the feeding station to the discharging station is a quarter of the circumference of the rotary table 10, the outer net cover 70 enters the material loading groove 11 in a state that the assembling handle 72 is in the horizontal direction, and the outer net cover 70 is assembled to the valve body in a directional state that the assembling handle 72 is in the vertical direction through the rotation of the rotary table 10, so that the directional requirement of assembly is met; after the material loading groove 11 loaded with the outer mesh enclosure 70 reaches the material discharging station, the push rod 32 is driven by the assembling cylinder 31 to penetrate into the push hole 113, so that the outer mesh enclosure 70 is pushed out along the axial direction of the rotary table 10 and assembled to the valve body; a plurality of material carrying grooves 11 sequentially circulate through the feeding station and the discharging station to complete material carrying assembly and operate efficiently and continuously.
The utility model discloses a cylinder valve outer screen panel automatic feeding mechanism can realize the automatic feeding assembly of outer screen panel 70, can effectively improve outer screen panel 70's material loading assembly efficiency and assembly precision through the cooperation of each device to reduce the manufacturing cost of cylinder valve, and improve its quality, the utility model discloses not only be applicable to cylinder valve outer screen panel automatic feeding assembly, but also wide application in other assembly lines.
It is to be understood that in the claims, the specification of the present invention, all "including … …" are to be interpreted in an open-ended manner, i.e., in a manner equivalent to "including at least … …", and not in a closed manner, i.e., in a manner not to be interpreted as "including only … …". The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.
The above description is only the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and those skilled in the art should be able to make changes, modifications, additions or substitutions within the scope of the present invention.

Claims (10)

1. The automatic feeding mechanism for the outer mesh enclosure of the roller valve is characterized by comprising a rotary table (10), wherein a plurality of material carrying grooves (11) are uniformly distributed on the rotary table (10) along the circumferential direction, the material carrying grooves (11) are provided with a feeding notch formed in the outer circumferential surface (13) of the rotary table (10) and a discharging notch formed in the front end surface (12) of the rotary table (10), and the material carrying space of the material carrying grooves (11) is limited by a groove bottom (111) and groove walls; the rotary table (10) is driven by the driving device to rotate, the material carrying groove (11) sequentially passes through a feeding station and a discharging station, the outer mesh cover (70) enters the material carrying groove (11) from a feeding notch in the radial direction of the rotary table (10) in the feeding station, and leaves the material carrying groove (11) from the discharging notch in the axial direction of the rotary table (10) in the discharging station to be assembled to the valve body; the feeding station is provided with a straight vibrating track (40), a feeding port of the straight vibrating track (40) is communicated with a vibrating disc (50), and a discharging port of the straight vibrating track (40) is adjacent to the rotary disc (10); the discharging station is provided with an assembling cylinder (31), a push rod (32) is fixedly connected to a piston rod of the assembling cylinder (31), and the push rod (32) can do telescopic motion along the axial direction of the turntable (10) under the action of the assembling cylinder (31).
2. The automatic feeding mechanism of the outer mesh enclosure of the roller valve is characterized in that the body of the outer mesh enclosure (70) is cylindrical and comprises a circular bottom wall and an annular side wall (71), a strip-shaped assembling handle (72) is arranged on the circular bottom wall along the radial direction, a limiting opening (112) penetrating through the whole groove bottom (111) is formed in the center of the groove bottom (111) along the radial direction of the rotating disc (10), and the limiting opening (112) is matched with the assembling handle (72).
3. The automatic feeding mechanism for the external mesh enclosure of the roller valve is characterized in that two sides of the limiting notch (112) are provided with two pushing holes (113) in a mirror image manner, the two pushing rods (32) are arranged in parallel and correspond to the positions of the pushing holes (113), and the pushing rods (32) penetrate into the pushing holes (113) under the pushing action of the assembling cylinder (31) to push the external mesh enclosure (70) out and assemble the external mesh enclosure to the valve body.
4. The automatic feeding mechanism for the external net cover of the roller valve as claimed in claim 2, wherein the vertical vibration rail (40) is a horizontally arranged groove-shaped rail, and the length direction of the vertical vibration rail is arranged along the radial direction of the rotating disc (10); the vertical vibration track (40) comprises a first baffle (41) positioned on the outer side and a second baffle (42) positioned on the inner side, the first baffle (41) and the second baffle (42) are parallel to each other, and the distance between the two baffles is consistent with the axial height of the outer mesh enclosure (70).
5. The automatic feeding mechanism for the external mesh enclosure of the roller valve is characterized in that a limiting plate (43) is fixedly arranged above the second baffle (42), the limiting plate (43) and the second baffle are matched to form a clamping groove (44) for clamping and embedding the assembling handle (72), and the clamping groove (44) is formed along the length direction of the rail and is as long as the second baffle (42).
6. The automatic feeding mechanism for the cylinder valve outer mesh enclosure is characterized in that a positioning block (45) is further arranged on the straight vibrating track (40), the positioning block (45) is located above the positioning plate (43) and close to the discharge port of the straight vibrating track (40), and the positioning block (45) can press the outer mesh enclosure (70) close to the discharge port to the first baffle (41) under the action of the positioning cylinder (46).
7. The automatic feeding mechanism of the cylinder valve outer screen cover as claimed in claim 4, wherein the front end of the first baffle (41) extends towards the rotary disc (10) and shields the discharging port of the loading groove (11) running to the feeding station.
8. The automatic feeding mechanism of the cylinder valve outer screen cover is characterized in that the wall of the loading groove (11) comprises an arc-shaped section (114) adapting to the shape of the outer screen cover (70), the arc-shaped section (114) is arranged close to the axis of the rotating disc (10), two ends of the arc-shaped section (114) extend towards the outer peripheral surface (13) of the rotating disc (10) to form two plane sections (115), and the two plane sections (115) are parallel to each other and limit the width of the feeding notch.
9. The automatic feeding mechanism of the roller valve outer screen cover is characterized in that eight loading grooves (11) are arranged, and the arc distance traveled by the loading grooves (11) from the feeding station to the discharging station is one fourth of the circumference of the rotary table (10).
10. The automatic feeding mechanism for the cylinder valve outer mesh enclosure is characterized in that the driving device comprises a stepping motor, a first synchronizing wheel (22) and a second synchronizing wheel, the first synchronizing wheel (22) is connected to an output shaft of the stepping motor (21), the second synchronizing wheel is connected with the rotary table (10) through a rotary shaft, the rotary shaft is coaxially arranged with the rotary table (10), and the first synchronizing wheel (22) and the second synchronizing wheel are in transmission connection through a synchronous belt (23).
CN201921633743.7U 2019-09-27 2019-09-27 Automatic feeding mechanism for outer mesh enclosure of roller valve Active CN211072478U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921633743.7U CN211072478U (en) 2019-09-27 2019-09-27 Automatic feeding mechanism for outer mesh enclosure of roller valve

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921633743.7U CN211072478U (en) 2019-09-27 2019-09-27 Automatic feeding mechanism for outer mesh enclosure of roller valve

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Publication Number Publication Date
CN211072478U true CN211072478U (en) 2020-07-24

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CN201921633743.7U Active CN211072478U (en) 2019-09-27 2019-09-27 Automatic feeding mechanism for outer mesh enclosure of roller valve

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112191452A (en) * 2020-10-12 2021-01-08 温州市飞博工程设计有限公司 Piston ring dispensing equipment
CN112476381A (en) * 2020-12-07 2021-03-12 昆山尤特威热处理有限公司 Heat treating workpiece detects and uses turning device
CN113601041A (en) * 2021-08-17 2021-11-05 河北申科模具有限公司 Self-adjusting clamping alignment marking machine
CN113681267A (en) * 2021-09-01 2021-11-23 宁波银球小型轴承有限公司 High-speed energy-saving bearing oil seal press-fitting integrated machine for washing machine roller
CN115090549A (en) * 2022-06-16 2022-09-23 昆山力创精密弹簧有限公司 Tension spring screening machine

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112191452A (en) * 2020-10-12 2021-01-08 温州市飞博工程设计有限公司 Piston ring dispensing equipment
CN112476381A (en) * 2020-12-07 2021-03-12 昆山尤特威热处理有限公司 Heat treating workpiece detects and uses turning device
CN113601041A (en) * 2021-08-17 2021-11-05 河北申科模具有限公司 Self-adjusting clamping alignment marking machine
CN113601041B (en) * 2021-08-17 2023-08-18 河北申科电子股份有限公司 Self-adjusting clamping alignment marking machine
CN113681267A (en) * 2021-09-01 2021-11-23 宁波银球小型轴承有限公司 High-speed energy-saving bearing oil seal press-fitting integrated machine for washing machine roller
CN115090549A (en) * 2022-06-16 2022-09-23 昆山力创精密弹簧有限公司 Tension spring screening machine
CN115090549B (en) * 2022-06-16 2023-08-29 昆山力创精密弹簧有限公司 Tension spring screening machine

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