CN205571680U - Rotation type double -screw bolt conveyor - Google Patents
Rotation type double -screw bolt conveyor Download PDFInfo
- Publication number
- CN205571680U CN205571680U CN201620111859.4U CN201620111859U CN205571680U CN 205571680 U CN205571680 U CN 205571680U CN 201620111859 U CN201620111859 U CN 201620111859U CN 205571680 U CN205571680 U CN 205571680U
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- CN
- China
- Prior art keywords
- stud
- block
- screw bolt
- double
- rotor
- Prior art date
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Abstract
The utility model discloses a rotation type double -screw bolt conveyor, including the rotatory advancing device who presss from both sides tight stop device and be connected with the tight stop device's of this clamp delivery outlet, rotatory advancing device includes double -screw bolt receipt piece, rotatory rotor and rotatory rotor actuating mechanism, the piece was received to the double -screw bolt upper end is equipped with the double -screw bolt entry that the delivery outlet of carrying the piece with the double -screw bolt meets, and the both sides end is equipped with relative double -screw bolt export respectively and blows the mouth, rotatory rotor cover is established in the piece is received to the double -screw bolt, and the upper end of rotatory rotor be equipped with with the corresponding double -screw bolt receiving port of double -screw bolt entry, the lower extreme is equipped with gaseous receiving port, rotatory rotor actuating mechanism and rotatory rotor fixed connection. The utility model discloses a rotatory rotor is received from the double -screw bolt that presss from both sides the transport of tight stop device and through rotatory 90 degrees backs for the double -screw bolt blows off and stabilizes in welder can follow rotatory rotor under external compressed air's promotion in, in realizing accurately and carrying welder with the double -screw bolt full -automaticly, has improved work efficiency.
Description
Technical field
This utility model relates to stud transportation art, particularly relates to a kind of rotary stud conveyer device.
Background technology
Stud, as a kind of conventional subsidiary combining member, is widely used in the fields such as boiler, automobile, shipbuilding.During welding,
Typically require and stud is loaded in welding gun, make arc stud welding junction contact with welding surface of the work by welding gun, and produce between the two
Electric arc, and then form molten bath on welding workpiece;A level pressure is applied to stud rapidly by welding gun again when contacting surface waiting is fully dissolved
Power, is allowed to controllably insert in the molten bath welding workpiece with certain speed;When welding arc extinguishes, the gold of both contact surfaces
Belong to solidification, so that stud and welding workpiece compact siro spinning technology.At present, generally in stud screening plant, taken out stud by workman,
By hand stud is put into welding gun again, weld finally by welding gun.During owing to putting into stud in welding gun, do not allow workman
Handle stretches in welding gun, and the instrument of permission pliers etc sandwiches stud in welding gun, the most usually there will be and puts into welding gun
Stud position offset so that the problem got stuck occurs when stud is got in welding gun, thus affects the life-span of welding gun;Or
When person's stud gets welding in welding gun, because stud position offsets, and cause welding position skew or the problem such as built on the sand, need
Again weld, affect welding efficiency.It addition, artificial, stud being put into welding gun one by one, work efficiency is the lowest, increases
Job costs.
Utility model content
This utility model is to overcome the shortcoming of prior art with not enough, it is provided that a kind of stud conveying automatization, work efficiency high and
The rotary stud conveyer device that stud placement location offsets can be avoided.
This utility model is achieved through the following technical solutions: a kind of rotary stud conveyer device, including clamping stopping means
And the rotary propelling device being connected with the delivery outlet of this clamping stopping means and being disposed below;Described rotary propelling device includes spiral shell
Post receives block, rotor and rotor drive mechanism;Described stud receives the upper end of block and is provided with and described stud transfer block
The stud entrance that delivery outlet connects, two side ends is respectively equipped with relative stud outlet and inflatable mouth;Described inflatable mouth and extraneous compression
Air connects;Described rotor is set in described stud and receives in block, and the upper end of described rotor is provided with and stud entrance
Corresponding stud receiving port, lower end is provided with gas receiving port;Described rotor drive mechanism is fixing with described rotor even
Connect.
Compared to prior art, stud is one by one transported to described rotation by described clamping stopping means and advances by this utility model
In device, affect it and normally work in preventing multiple stud to be fastened on described rotary propelling device;Described rotary propelling device
Rotor receives the stud from clamping stopping means conveying, and by after rotor drive mechanism 90-degree rotation so that stud
It is able to blow out in rotor and be stabilized in welding gun, it is achieved accurately and fully automatically by spiral shell under extraneous compressed-air actuated promotion
Post is transported in welding gun, it is to avoid what the skew of stud placement location caused gets stuck, and the problem that welding is unstable substantially increases work
Efficiency.
Further, described rotary propelling device also includes cylinder fixed block;Described rotor drive mechanism passes through described cylinder
Fixed block is fixing with described rotor to be connected.
Further, described clamping stopping means includes stud transfer block, clamping device and stopping means;Described stud transfer block
It is provided with the passage for carrying stud;And it is respectively arranged at two ends with input port and delivery outlet up and down, at this passage at this passage
Side is provided with clamping device socket and stopping means socket;Described clamping device periodically stretches through described clamping device socket
It is plugged in this passage;Described stopping means is positioned at the lower section of described clamping device and passes described stopping means socket periodically
Stretch and be plugged in this passage, and periodically lid is located on described stud delivery outlet.
Further, described clamping device includes push rod, push rod clamping plate and top rod driving mechanism;One end of described push rod is periodically
Ground stretches in the passage being plugged in described stud transfer block, and periodically clamps together with the channel side wall of described stud transfer block
The stud entered from input port;The other end is connected through described push rod clamping plate are fixing with described top rod driving mechanism.
Further, described stopping means includes limited block and limited block drive mechanism;One end of described limited block is periodically stretched
Contracting is plugged in the passage of described stud transfer block, periodically to cover on the delivery outlet being located at described stud transfer block;The other end
Connect described limited block drive mechanism.
Further, described clamping stopping means also includes position adjustments block;Described position adjustments block include scalable fixed block and
Scalable fixes seat;Described scalable fixed block is fixed on described scalable and fixes on seat;Described clamping device be fixed on described can
On regulation fixed block;Described stopping means is fixed on described base.
In order to be more fully understood that and implement, describe this utility model below in conjunction with the accompanying drawings in detail.
Accompanying drawing explanation
Fig. 1 is the explosive view of this utility model clamping stopping means;
Fig. 2 is the explosive view of this utility model rotary propelling device.
Detailed description of the invention
The rotary stud conveyer device that this utility model provides includes clamping stopping means 1 and being positioned at this clamping stopping means 1 time
The rotary propelling device 2 that its delivery outlet of Fang Bingyu connects.
Referring to Fig. 1, it is the explosive view of this utility model clamping stopping means.Described clamping stopping means 1 include base 11,
Stud transfer block 12, position adjustments block 13, clamping device 14 and stopping means 15.Described stud transfer block 12 passes through screw
It is fixed on described base 11.The passage (not shown) for carrying stud is offered in described stud transfer block 12;And
Being respectively arranged at two ends with input port 121 and delivery outlet (not shown) up and down at this passage, the side at this passage is provided with clamping
Device socket 122 and stopping means socket 123.Described position adjustments block 13 is screwed on described base 11.Institute
State clamping device 14 to be screwed on described position adjustments block 13, and described clamping device 14 is through described clamping device
Socket 122 is periodically flexible to be plugged in this passage, periodically to be fixed by the stud clamping entered from input port 121.
Described stopping means 15 is positioned at the lower section of described clamping device 14 and is screwed on described position adjustments block 13, and institute
State stopping means 15 to be plugged in this passage through described stopping means socket 123 is periodically flexible, be located at periodically to cover
On delivery outlet, prevent a large amount of stud from falling in rotary propelling device 2.
The side top of described stud transfer block 12 is additionally provided with the air inlet 124 communicated with its passage, and described air inlet 124 passes through
Air inlet pipe 125 is connected with extraneous breather.By the way vent to described stud transfer block 12, so that stud can be certain
Speed fall in rotary propelling device 2.
Described clamping stopping means 1 also includes the input port sleeve 126 being fixed on input port 121;Described input port sleeve 126
It is connected with extraneous stud screening plant, to receive the stud from extraneous stud screening plant conveying.
Described position adjustments block 13 includes that scalable fixed block 131 and scalable fix seat 132;Described scalable fixed block 131
It is fixed on described scalable to fix on seat 132;Described clamping device 14 is fixed on described scalable fixed block 131;Described limit
Position device 15 is fixed on described base 11 and its one end is fixed seat 132 with described scalable and is connected.By regulating described clamping
Device 14 is fixed on described scalable fixed block 131 and scalable fixes the position of seat 132, can realize the stud to different size
It is clamped with spacing.
Described clamping device 14 includes push rod 141, push rod clamping plate 142 and top rod driving mechanism 143.The one of described push rod 141
In the end periodically flexible passage being plugged in described stud transfer block 12, and with the channel side wall one of described stud transfer block 12
Rise and periodically clamp the stud entered from input port 121;The other end is through described push rod clamping plate 142 and described top rod driving machine
Structure 143 is fixing to be connected.Described push rod 141 is periodically driven to be plugged in described stud by described top rod driving mechanism 143 defeated
In sending the passage of block 12, make the end of push rod 141 periodically stretch out, and with the channel side wall one of described stud transfer block 12
Play the stud that clamping enters from input port 121, prevent a large amount of stud from dropping on the stopping means 15 of lower section.Described top rod driving
Mechanism 143 is a pneumatic cylinder, which is provided with multiple first scalable air inlet pipe 1431.
Described stopping means 15 includes limited block 151 and limited block drive mechanism 152.One end of described limited block 151 is periodically
Ground stretches in the passage being plugged in described stud transfer block 12, periodically to cover the delivery outlet being located at described stud transfer block 12
On;The other end connects described limited block drive mechanism 152.Periodically driven described by described limited block drive mechanism 152
Limited block 151 periodically covers on the delivery outlet being located at described stud transfer block 12, to prevent a large amount of stud from dropping in described rotation
In propulsive mechanism.Similar to described top rod driving mechanism 143, described limited block drive mechanism 152 is also a pneumatic cylinder, its
On also be provided with multiple second scalable air inlet pipe 1521.
Referring to Fig. 2, it is the explosive view of this utility model rotary propelling device.Described rotary propelling device 2 includes that stud connects
Receive block 21, rotor 22, cylinder fixed block 23 and rotor drive mechanism 24.Described stud receives the upper end of block 21
Being provided with the stud entrance 211 that the delivery outlet with described stud transfer block 12 connects, two side ends is respectively equipped with relative stud outlet 212
With inflatable mouth 213;Described inflatable mouth 213 is connected with extraneous compressed air.Described rotor 22 is set in described stud and receives
In block 21, and the upper end of described rotor 22 is provided with the stud receiving port 221 corresponding with stud entrance 211, and lower end sets
There is gas receiving port (not shown).Described rotor drive mechanism 24 is by described cylinder fixed block 23 and described rotation
Rotor 22 is fixing to be connected.From clamping stopping means 151 conveying stud through described stud receive block 21 stud entrance 211,
After the stud receiving port 221 of rotor 22 falls in described rotor 22, driven by described rotor drive mechanism 24
Dynamic described rotor 22 rotates 90 degree, make the stud receiving port 221 of described rotor 22 and gas receiving port respectively with institute
The stud outlet 212 stating stud reception block 21 is relative with inflatable mouth 213, starts extraneous compressed air by stud from rotor
Blow out and be stabilized in certain speed in extraneous welding gun in 22.
Described rotary propelling device 2 also includes that being fixed on described stud receives the fixed plate 25 of block 21 upper end;Lid is located at described spiral shell
Post receives the cover plate 26 of block 21 side.
Described rotary propelling device 2 also includes the stud Inlet sleeve 214 being fixed on stud entrance 211;Described stud enters muzzle
Cylinder 214 is connected through described fixed plate 25 with the delivery outlet of described stud transfer block 12, carries from stud transfer block 12 to receive
Stud.
Described rotary propelling device 2 also includes that the stud outlet being respectively sleeved on described stud outlet 212 and inflatable mouth 213 connects
215 and gas blow pipe joint 216.
Described rotor drive mechanism 24 is also a pneumatic cylinder, and it also is provided with multiple 3rd scalable air inlet pipe 241.
From first stud of extraneous stud screening plant conveying through the input port 121 of described stud transfer block 12, delivery outlet, institute
The stud receiving port 221 stating stud entrance 211 and described rotor 22 that stud receives block 21 falls into described rotor 22
After Nei, described rotor drive mechanism 24 drives described rotor 22 to rotate 90 degree, makes the spiral shell of described rotor 22
Post receiving port 221 is relative with the stud of described stud receiving port 221 outlet 212 and inflatable mouth 213 respectively with gas receiving port;
Stud is stabilized in extraneous welding gun in rotor 22 by extraneous compressed air with certain speed;The most described rotor drives
Motivation structure 24 drives described rotor 22 to return in situ, even if the stud receiving port 221 of described rotor 22 is with described again
The stud entrance 211 of stud receiving port 221 connects.Before first stud falls into described rotor 22, described limited block drives
Motivation structure 152 drives described limited block 151 to stretch out, and makes this limited block 151 lid be located on the delivery outlet of described stud transfer block 12,
Prevent follow closely second stud from falling in described rotor 22;The most described top rod driving mechanism 143 drives described push rod
141 stretch out, and make this push rod 141 clamp the 3rd entered from input port 121 together with the channel side wall of described stud transfer block 12
Individual stud, prevents it from falling on limited block 151.When first stud is stabilized in welding gun, described limited block drive mechanism 152
Drive described limited block 151 to retract, make second stud drop in described rotor 22, rear drive described in limited block
151 stretch out lid again is located on delivery outlet;Meanwhile, described top rod driving mechanism 143 drives described push rod 141 to retract, and makes
Three studs are fallen on described limited block 151, rear drive described in push rod 141 stretch out clamping the 4th stud.With this periodically
Ground work, is one by one transported to stud in extraneous welding gun.
Compared to prior art, stud is one by one transported to described rotation by described clamping stopping means and advances by this utility model
In device, affect it and normally work in preventing multiple stud to be fastened on described rotary propelling device;Described rotary propelling device
Rotor receives the stud from clamping stopping means conveying, and by, after rotor drive mechanism 90-degree rotation, making rotation turn
The stud receiving port of son is relative with the stud outlet of described stud reception block and inflatable mouth respectively with gas receiving port, and then makes stud
It is able to blow out and be stabilized in extraneous welding gun with certain speed under extraneous compressed-air actuated promotion, it is achieved accurately and fully automatically
Being transported in welding gun by stud, it is to avoid what the skew of stud placement location caused gets stuck, the problem that welding is unstable substantially increases
Work efficiency.Further, it is positioned at the position of described position adjustments block by the described clamping device of regulation and stopping means,
Realize the conveying of the stud of any specification to a diameter of Φ 6mm~Φ 12mm, and the error of length be loosened to ± 10mm,
Completely eliminate the error occurred in stud production and processing, make the course of conveying of stud will not get stuck easily.Without difference is advised
The supporting different stud conveyer device that the stud of lattice is corresponding, reaches to save acquisition cost significantly.
This utility model is not limited to above-mentioned embodiment, if to various changes of the present utility model or deformation without departing from this reality
By novel spirit and scope, if within the scope of these changes and deformation belong to claim of the present utility model and equivalent technologies,
Then this utility model is also intended to comprise these changes and deformation.
Claims (10)
1. a rotary stud conveyer device, it is characterised in that: include the rotary propelling device that clamping stopping means and the delivery outlet with this clamping stopping means are connected and are disposed below;Described rotary propelling device includes that stud receives block, rotor and rotor drive mechanism;Described stud receives the upper end of block and is provided with the stud entrance that the delivery outlet with described stud transfer block connects, and two side ends is respectively equipped with relative stud outlet and inflatable mouth;Described inflatable mouth is connected with extraneous compressed air;Described rotor is set in described stud and receives in block, and the upper end of described rotor is provided with the stud receiving port corresponding with stud entrance, and lower end is provided with gas receiving port;Described rotor drive mechanism is fixing with described rotor to be connected.
Rotary stud conveyer device the most according to claim 1, it is characterised in that: described rotary propelling device also includes cylinder fixed block;Described rotor drive mechanism is connected by described cylinder fixed block and described rotor are fixing.
Rotary stud conveyer device the most according to claim 2, it is characterised in that: described clamping stopping means includes stud transfer block, clamping device and stopping means;Described stud transfer block is provided with the passage for carrying stud;And it being respectively arranged at two ends with input port and delivery outlet up and down at this passage, the side at this passage is provided with clamping device socket and stopping means socket;Described clamping device is plugged in this passage through described clamping device socket is periodically flexible;Described stopping means is positioned at the lower section of described clamping device and through described stopping means socket periodically flexible this passage that is plugged in, and periodically lid is located on described stud delivery outlet.
Rotary stud conveyer device the most according to claim 3, it is characterised in that: described clamping device includes push rod, push rod clamping plate and top rod driving mechanism;In the periodically flexible passage being plugged in described stud transfer block of one end of described push rod, and periodically clamp the stud entered from input port together with the channel side wall of described stud transfer block;The other end is connected through described push rod clamping plate are fixing with described top rod driving mechanism.
Rotary stud conveyer device the most according to claim 4, it is characterised in that: described stopping means includes limited block and limited block drive mechanism;In the periodically flexible passage being plugged in described stud transfer block of one end of described limited block, periodically to cover on the delivery outlet being located at described stud transfer block;The other end connects described limited block drive mechanism.
6. according to the rotary stud conveyer device described in any claim in claim 1-5, it is characterised in that: described clamping stopping means also includes position adjustments block;Described position adjustments block includes that scalable fixed block and scalable fix seat;Described scalable fixed block is fixed on described scalable and fixes on seat;Described clamping device is fixed on described scalable fixed block.
Rotary stud conveyer device the most according to claim 6, it is characterised in that: the side top of described stud transfer block is additionally provided with the air inlet communicated with its passage, and described air inlet is connected with extraneous breather by air inlet pipe.
Rotary stud conveyer device the most according to claim 6, it is characterised in that: described clamping stopping means also includes the input port sleeve being fixed on input port;Described input port sleeve is connected with extraneous stud screening plant, to receive the stud from extraneous stud screening plant conveying.
Rotary stud conveyer device the most according to claim 6, it is characterised in that: described rotary propelling device also includes the stud Inlet sleeve being fixed on stud entrance;Described stud Inlet sleeve is connected with the delivery outlet of described stud transfer block, to receive the stud from the conveying of stud transfer block.
Rotary stud conveyer device the most according to claim 5, it is characterised in that: described top rod driving mechanism, limited block drives mechanism and rotor drive mechanism is pneumatic cylinder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620111859.4U CN205571680U (en) | 2016-02-03 | 2016-02-03 | Rotation type double -screw bolt conveyor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620111859.4U CN205571680U (en) | 2016-02-03 | 2016-02-03 | Rotation type double -screw bolt conveyor |
Publications (1)
Publication Number | Publication Date |
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CN205571680U true CN205571680U (en) | 2016-09-14 |
Family
ID=56869787
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620111859.4U Expired - Fee Related CN205571680U (en) | 2016-02-03 | 2016-02-03 | Rotation type double -screw bolt conveyor |
Country Status (1)
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CN (1) | CN205571680U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105562899A (en) * | 2016-02-03 | 2016-05-11 | 江门健维自动化设备有限公司 | Rotary stud conveying device |
-
2016
- 2016-02-03 CN CN201620111859.4U patent/CN205571680U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105562899A (en) * | 2016-02-03 | 2016-05-11 | 江门健维自动化设备有限公司 | Rotary stud conveying device |
CN105562899B (en) * | 2016-02-03 | 2017-09-29 | 江门健维自动化设备有限公司 | A kind of rotary stud conveying device |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160914 Termination date: 20200203 |