CN105947552B - Automatic feeding device for locking and fixing part of fire-fighting nozzle - Google Patents

Automatic feeding device for locking and fixing part of fire-fighting nozzle Download PDF

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Publication number
CN105947552B
CN105947552B CN201610486839.XA CN201610486839A CN105947552B CN 105947552 B CN105947552 B CN 105947552B CN 201610486839 A CN201610486839 A CN 201610486839A CN 105947552 B CN105947552 B CN 105947552B
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CN
China
Prior art keywords
conveying
locking piece
ring shell
port
conveying track
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CN201610486839.XA
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Chinese (zh)
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CN105947552A (en
Inventor
陈文杰
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Fujian Nan'an Guangwei Fire Fighting Equipment Co ltd
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Fujian Nan'an Guangwei Fire Fighting Equipment Co ltd
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Priority to CN201610486839.XA priority Critical patent/CN105947552B/en
Publication of CN105947552A publication Critical patent/CN105947552A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G27/00Jigging conveyors
    • B65G27/02Jigging conveyors comprising helical or spiral channels or conduits for elevation of materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G27/00Jigging conveyors
    • B65G27/34Jigging conveyors comprising a series of co-operating units

Abstract

An automatic feeding device for a fire nozzle locking piece is characterized in that the locking piece is conveyed to a first conveying track by a vibrating discharge disc in a vibrating mode and conveyed to a first discharge port to push a transverse section, when a sunken groove of the locking piece faces forwards, the end portion of the transverse section is inserted into the sunken groove and drives the locking piece to move away from the first discharge port under the pushing of the locking piece, when a steel bar drives the locking piece to move back towards the first discharge port, the locking piece is gradually separated from the transverse section under the action of gravity, when the locking piece abuts against a second feed port, the locking piece can be separated from the transverse section to enter a second conveying pipeline, and the steel bar continues to move towards the first discharge port, so that the locking piece always keeps the backward conveying direction of the sunken groove in the second conveying pipeline; when the concave spherical surface of the locking piece is forward, the end part of the transverse section cannot be inserted into the concave spherical surface, the locking piece is pushed by the locking piece to be separated from the first discharging port, and the steel bar moves towards the first discharging port and pushes against the first discharging port to screen the next locking piece.

Description

Automatic feeding device for locking and fixing part of fire-fighting nozzle
Technical Field
The invention relates to a feeding device, in particular to an automatic feeding device for a locking piece of a fire nozzle.
Background
In the fire-fighting automatic fire extinguishing system, a fire-fighting nozzle is used as one of people's life and property guarding spirit, is used for monitoring fire and extinguishing fire, and is mainly applied to light and medium-risk places and commercial places, such as banks, hotels, shopping centers and the like. There are many types of existing fire fighting spray heads, and glass tube spray heads and fusible element spray heads are classified according to heat sensitive elements.
The glass tube sprinkling nozzle comprises a nozzle, a nozzle seat, a glass tube, a splashing disc, a sealing piece, a locking piece and the like, wherein the locking piece, the glass tube and the sealing piece are supported and arranged on the nozzle seat in an up-and-down jacking manner to form a supporting balance body; the glass tube is filled with organic solution with high thermal expansion coefficient, the outer shell of the glass tube can bear certain supporting force at normal temperature to ensure the sealing performance of the spray head, when a fire disaster happens, the temperature of the organic solution rises and expands until the glass tube body is broken, and the sealing element is washed away by water flow after losing the support, so that water spraying and fire extinguishing are started; however, since the glass tube has a rounded tip combined with the locking member and a pointed tip combined with the sealing member, and both end surfaces of the locking member are respectively formed with a concave spherical surface combined with the rounded tip of the glass tube and a concave groove for inserting a screwdriver, the sealing member has a groove combined with the pointed tip of the glass tube; in order to ensure the tight assembly of the glass tube, the locking member and the sealing member, the glass tube and the locking member need to be well oriented before assembly, for example: the groove of the sealing element is arranged upwards, the tip of the glass tube is pressed downwards in the groove, the round head of the glass tube is upwards, the concave spherical surface of the locking piece is downwards and combined with the round head of the glass tube, and the sunk groove of the locking piece is upwards for a screwdriver to insert and lock the locking piece; therefore, the assembly direction relation of all the parts of the fire-fighting nozzle can not realize mechanization, and the parts can only be assembled manually, so that the working process is complicated, and time and labor are wasted.
In view of the above, the present inventors have made extensive studies and research on various defects and inconveniences caused by the imperfect design of the fire sprinkler head in terms of assembly.
Disclosure of Invention
The invention aims to provide an automatic feeding device for a fire nozzle locking piece, which can automatically convey the locking piece and automatically screen the conveying direction of the locking piece without manually screening the direction of the locking piece, and improves the working efficiency.
In order to achieve the above purpose, the solution of the invention is:
an automatic feeding device for a fire-fighting nozzle locking piece is characterized in that a concave spherical surface combined with a round head of a glass tube and a sinking groove for a screwdriver to insert are respectively formed on two end faces of the locking piece, and the automatic feeding device comprises a vibration discharging disc for vibrating and discharging materials, a conveying mechanism for conveying the locking piece to a nozzle seat and a screening mechanism for screening the conveying direction of the locking piece;
the vibrating discharge disc comprises an outer ring shell, an inner ring shell and an annular conveying track, the outer ring shell is positioned on the outer ring of the inner ring shell, the bottom surfaces of the outer ring shell and the inner ring shell are closed ends, the top surfaces of the outer ring shell and the inner ring shell are open ends, and a vibrating platform is arranged at the bottom end of the inner ring shell; the annular conveying track is arranged on the inner wall of the inner annular shell and extends from the bottom end of the inner annular shell to the top end of the inner annular shell in a spiral manner;
the conveying mechanism comprises a first conveying track and a second conveying pipeline, wherein the first conveying track and the second conveying pipeline are used for arranging and advancing single locking pieces, and the first conveying track is provided with a first feeding port and a first discharging port; the second conveying pipeline is provided with a second feeding port and a second discharging port; the annular conveying track is provided with a third feeding port and a third discharging port, and the third discharging port is connected with the first feeding port;
the screening mechanism is arranged between the first discharging port and the second feeding port, the first discharging port and the second feeding port are arranged in the same vertical direction, and the screening mechanism comprises a stand column arranged at an interval with the first discharging port, a movable shaft vertically arranged on the stand column and a steel bar which is arranged on the movable shaft in a penetrating way and can swing by taking the movable shaft as a shaft; the steel bar is sequentially bent to form a vertical section, a bending section and a transverse section, the end portion of the vertical section is fixed on the movable shaft, the bending section and the transverse section face the first discharging port, and the end portion of the transverse section is abutted against the first discharging port.
Set up the baffle of a restriction billet to the motion of first discharge port direction on the stand, baffle parallel arrangement in the loose axle below, the bending segment supports and leans on in the baffle lateral wall.
The upright post is provided with a slot for the movable shaft to move up and down, and the movable shaft penetrates through the slot and is respectively locked with nuts on the movable shafts at two sides of the slot.
The bottom side of the inner ring shell is provided with a through hole communicated with the inside of the inner ring shell, and the through hole is provided with a blocking piece extending to the inner wall of the outer ring shell from a through hole notch.
The annular conveying track and the first conveying track are connected with a fourth conveying track, the fourth conveying track is provided with a wide conveying section connected with the annular conveying track and a narrow conveying section connected with the first conveying track, the width of a conveying surface of the wide conveying section is larger than that of the narrow conveying section, and the width of the conveying surface of the narrow conveying section is larger than the diameter of the locking piece.
The narrow conveying section is provided with a material stirring sheet, and the distance between the material stirring sheet and the narrow conveying section is smaller than the length of the locking piece.
The endless conveying track extends upward while expanding outward.
The first conveying track is provided with a cover plate for preventing the locking piece from falling off the first conveying track, the cover plate is connected with one side wall of the first conveying track and has a first distance with the other side wall, and the first distance is smaller than the diameter of the locking piece.
The first conveying track is located between the outer ring shell and the inner ring shell and is a spiral track, and the second conveying pipeline penetrates through the side wall of the outer ring shell and extends out of the outer ring shell.
The first conveying track and the second conveying pipeline are arranged in a downward inclined mode.
After the structure is adopted, the locking pieces are placed in the vibration discharging disc, when the vibration platform starts to vibrate, all the locking pieces generate spiral lifting force, so that the locking pieces rotate on the vibration platform and are conveyed upwards to the third discharging port along the annular conveying track, and the aim of automatically feeding the locking pieces can be fulfilled; the locking piece is conveyed to the first conveying track by the vibrating discharge disc in a vibrating mode, conveyed to the first discharge port and pushed to the transverse section, when the sinking groove of the locking piece faces forwards, the end portion of the transverse section of the steel bar is inserted into the sinking groove and drives the locking piece to move away from the first discharge port under the pushing of the locking piece, when the locking piece is driven to return towards the first discharge port by the steel bar after swinging to a certain position, the locking piece is gradually separated from the transverse section under the action of gravity, when the locking piece abuts against the second feed port, the locking piece is separated from the transverse section and enters the second conveying pipeline, and the steel bar continues to move towards the first discharge port, so that the locking piece always keeps the backward conveying direction of the sinking groove in the second conveying pipeline; when the concave spherical surface of the locking piece faces forwards, the end part of the transverse section of the steel bar cannot be inserted on the concave spherical surface, the locking piece is pushed by the locking piece to be separated from the first discharging port, and the steel bar moves towards the first discharging port and pushes against the first discharging port to screen the next locking piece; therefore, all the locking pieces enter the second conveying pipeline in a forward mode through the concave spherical surface and are conveyed to the spray head seat, and the locking pieces can be conveniently locked in a follow-up mode; the automatic feeding device for the fire nozzle locking pieces can automatically convey the locking pieces and automatically screen the conveying direction of the locking pieces, the direction of the locking pieces does not need to be screened manually, and the working efficiency is improved.
Drawings
FIG. 1 is a schematic view of a locking member of a fire sprinkler;
FIG. 2 is a schematic structural view of an automatic feeding device of the locking member of the fire sprinkler according to the present invention;
fig. 3 is an enlarged schematic view of a screening mechanism of the automatic feeding device of the fire sprinkler locking member of the present invention.
Description of the symbols
Concave spherical surface 201 of locking part 20
Sink 202 conveying mechanism 1
First conveying track 11 of screening mechanism 2
Second transfer line 12 first feed port 111
First outlet port 112 and second inlet port 121
Second outlet port 122 upright post 21
Movable shaft 22 steel bar 23
Vertical segment 231 and bent segment 232
Transverse segment 233 baffle 24
Slotted 211 nut 212
Outer ring shell 41 of vibration discharging plate 4
Inner ring shell 42 annular conveying track 43
Vibrating platform 44 through hole 45
Fourth conveying track 14 with baffle 46
Wide conveying section 141 and narrow conveying section 142
The plectrum sheet 3 covers the plate 113.
Detailed Description
In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.
Referring to fig. 1 to 3, the present invention discloses an automatic feeding device for a fire nozzle fastener, wherein two end surfaces of the fastener 20 are respectively formed with a concave spherical surface 201 combined with a round head of a glass tube and a sinking groove 202 for inserting a screwdriver; the automatic feeding device comprises a vibration discharging disc 4 for vibration discharging, a conveying mechanism 1 for conveying the locking piece 20 to the spray head seat, and a screening mechanism 2 for screening the conveying direction of the locking piece 20;
the vibrating discharging disc 4 comprises an outer ring shell 41, an inner ring shell 42 and an annular conveying track 43, the outer ring shell 41 is positioned on the outer ring of the inner ring shell 42, the bottom surfaces of the outer ring shell 41 and the inner ring shell 42 are closed ends, the top surfaces of the outer ring shell 41 and the inner ring shell 42 are open ends, and the bottom end of the inner ring shell 42 is provided with a vibrating platform 44; the annular conveying track 43 is arranged on the inner wall of the inner annular shell 42 and extends spirally from the bottom end of the inner annular shell 42 to the top end of the inner annular shell 42;
the conveying mechanism 1 comprises a first conveying track 11 and a second conveying pipeline 12, wherein the single locking piece 20 is arranged and advanced, and the first conveying track 11 is provided with a first feeding port 111 and a first discharging port 112; the second delivery line 12 has a second inlet port 121, a second outlet port 122; the annular conveying track 43 is provided with a third feeding port 431 and a third discharging port 432, and the third discharging port 432 is connected with the first feeding port 111;
the screening mechanism 2 is arranged between the first discharging port 112 and the second feeding port 121, the first discharging port 112 and the second feeding port 121 are arranged in the same vertical direction, and the screening mechanism 2 comprises a vertical column 21 arranged at an interval with the first discharging port 121, a movable shaft 22 vertically arranged on the vertical column 21, and a steel bar 23 which is arranged in the movable shaft 22 in a penetrating manner and can swing by taking the movable shaft 22 as a shaft; the steel bar 23 is sequentially bent to form a vertical section 231, a bent section 232 and a transverse section 233, the end of the vertical section 231 is fixed on the movable shaft 22, the bent section 232 and the transverse section 233 face the first discharging port 121, and the end of the transverse section 233 is abutted against the first discharging port 121.
The locking pieces 20 are placed in the vibrating discharge disc 4, when the vibrating platform 44 starts to vibrate, all the locking pieces 20 generate spiral lifting force, so that the locking pieces 20 rotate on the vibrating platform 44 and are conveyed upwards to the third discharge port 431 along the annular conveying track 43, and the aim of automatically feeding the locking pieces 20 can be fulfilled; the locking piece 20 is conveyed to the first conveying rail 11 by the vibrating discharging disc 4 in a vibrating manner, the locking piece 20 is pushed to push the transverse section 233 to the first discharging port 112, when the sinking groove 202 of the locking piece 20 faces forward, the end of the transverse section 233 of the steel bar 23 is inserted into the sinking groove 202 and drives the locking piece 20 to move away from the first discharging port 112 under the pushing of the locking piece 20, when the locking piece 20 swings to a certain position and then the steel bar 23 drives the locking piece 20 to move back towards the first discharging port 112, the locking piece 20 is gradually separated from the transverse section 233 under the action of gravity, when the locking piece 20 abuts against the second discharging port 121, the locking piece 20 is separated from the transverse section 233 to enter the second conveying pipeline 12, and the steel bar 23 continues to move towards the first discharging port 112, so that the locking piece 20 always keeps the backward conveying direction of the sinking groove 202 in the second conveying pipeline 23; when the concave spherical surface 201 of the locking piece 20 faces forward, the end of the transverse section 233 of the steel bar 23 cannot be inserted on the concave spherical surface 201, the locking piece 20 is pushed by the locking piece 20 to be separated from the first discharging port 112, and the steel bar 23 moves towards the first discharging port 112 and pushes against the first discharging port 112 to screen the next locking piece 20; therefore, all the locking pieces 20 enter the second conveying pipeline 12 forward through the concave spherical surface 201 and are conveyed to the nozzle base, so that the locking pieces 20 can be conveniently locked in a subsequent process; the automatic feeding device for the fire nozzle locking pieces can automatically convey the locking pieces 20 and automatically screen the conveying direction of the locking pieces 20, the direction of the locking pieces 20 does not need to be manually screened, and the working efficiency is improved.
According to the invention, the upright post 21 is provided with a baffle plate 24 for limiting the steel bar 23 to move towards the first discharge port 112, the baffle plate 24 is arranged below the movable shaft 22 in parallel, and the bending section 232 abuts against the side wall of the baffle plate 24; when the steel bar 23 is forced to move towards the first discharging port 112, the transverse section 233 of the steel bar 23 is prevented from moving forward beyond the first discharging port 112, so that the transverse section 112 cannot be abutted against the first discharging port 112, and the screening work in the direction of the locking member 20 cannot be performed.
The upright post 21 of the invention is provided with a slot 211 for the movable shaft 22 to move up and down, the movable shaft 22 passes through the slot 211 and nuts 212 are respectively locked on the movable shaft 22 at the two sides of the slot 211, so that the movable shaft 22 can be fixed on the upright post 21; the present invention can accomplish the purpose of adjusting the movable shaft 22 by loosening the nut 212, moving the movable shaft 22 up and down, and then tightening the nut 212.
The sinking groove 202 of the locking member 20 of the present invention has an inner hexagonal shape, and the transverse section 233 of the steel bar 23 has an outer hexagonal shape.
The side surface of the bottom end of the inner ring shell 42 is provided with a through hole 45 communicated with the inside of the inner ring shell 42, and the through hole 45 is provided with a baffle plate 46 extending from the notch of the through hole 45 to the inner wall of the outer ring shell 41; when the locking piece 20 falls off the first conveying track 11 and falls into the space between the inner ring shell 42 and the outer ring shell 42, the locking piece 20 can return into the inner ring shell 42 through the through hole 45, and is vibrated by the vibrating discharge plate 4 and conveyed upwards again by the annular conveying track 43, so that the locking piece 20 falling off the first conveying track 11 can be conveniently collected.
A fourth conveying track 14 is connected between the annular conveying track 43 and the first conveying track 11, the fourth conveying track 14 has a wide conveying section 141 connected with the annular conveying track 43 and a narrow conveying section 142 connected with the first conveying track 11, the width of the conveying surface of the wide conveying section 141 is greater than that of the narrow conveying section 142, and the width of the conveying surface of the narrow conveying section 142 is slightly greater than the diameter of the locking piece 20, so that the narrow conveying section 142 is only used for the locking piece 20 to pass through, and the locking pieces 20 are sequentially conveyed to the first conveying track 11; and a material stirring sheet 3 is arranged on the narrow conveying section, the distance between the material stirring sheet 3 and the narrow conveying section is smaller than the length of the locking piece 20, and the locking piece 20 standing on the narrow conveying section can be stirred down, so that the locking piece 20 is conveyed to the first conveying track 11 in a laid-down manner.
The endless conveying rail 43 of the present invention extends upward while expanding outward; the fastener 20 is more smoothly conveyed upward.
The first conveying track 11 of the present invention is provided with a cover plate 113 for preventing the locking member 20 from falling off the first conveying track 11, the cover plate 113 is connected to one side wall of the first conveying track 11 and has a first distance with the other side wall, and the first distance is smaller than the diameter of the locking member 20; when the transverse section 233 of the steel bar 23 abuts against the first discharging port 112, that is, an abutting force is applied to the locking member 20 on the first conveying track 11, if the cover plate 113 is not provided, the locking member 20 may be directly pushed by the transverse section 233 to be separated from the first conveying track 11, which is not favorable for conveying and screening the locking member 20.
The first conveying track 11 and the third conveying track 14 of the present invention are located between the outer annular shell 41 and the inner annular shell 42 and are in spiral tracks, and the second conveying pipeline 12 passes through the side wall of the outer annular shell 41 and extends out of the outer annular shell 41. When the locking member 20 is disengaged from the first conveying track 11, the locking member 20 may directly fall into the space between the inner ring casing 42 and the outer ring casing 41, so that the locking member 20 enters the inner ring casing 42 through the through hole 45; and the second conveying pipeline 12 is a circular pipe, the locking piece 20 can only enter from the second inlet port 121 and discharge from the second outlet port 122, and cannot fall off midway in the second conveying pipeline 12, so that the locking piece 20 can be conveyed to an assembly platform, and the subsequent locking of the locking piece 20 is facilitated.
The first conveying rail 11 and the second conveying pipeline 12 of the invention are arranged in a downward inclination manner.
In the present invention, a plurality of supporting members for supporting the first conveying rail 11 are provided between the first conveying rail 11 and the inner ring casing 42, so that the first conveying rail 11 can be firmly fixed and supported.
The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (5)

1. The utility model provides an automatic feeding of fire control shower nozzle locking part, this locking part both ends face is formed with respectively sunken sphere that combines with the glass pipe button head and the heavy groove that supplies the screwdriver to plant which characterized in that: the device comprises a vibration discharging disc for vibration discharging, a conveying mechanism for conveying locking pieces to a spray head seat, and a screening mechanism for screening the conveying direction of the locking pieces;
the vibrating discharge disc comprises an outer ring shell, an inner ring shell and an annular conveying track, the outer ring shell is positioned on the outer ring of the inner ring shell, the bottom surfaces of the outer ring shell and the inner ring shell are closed ends, the top surfaces of the outer ring shell and the inner ring shell are open ends, and a vibrating platform is arranged at the bottom end of the inner ring shell; the annular conveying track is arranged on the inner wall of the inner annular shell and extends from the bottom end of the inner annular shell to the top end of the inner annular shell in a spiral manner;
the conveying mechanism comprises a first conveying track and a second conveying pipeline, wherein the first conveying track and the second conveying pipeline are used for arranging and advancing single locking pieces, and the first conveying track is provided with a first feeding port and a first discharging port; the second conveying pipeline is provided with a second feeding port and a second discharging port; the annular conveying track is provided with a third feeding port and a third discharging port, and the third discharging port is connected with the first feeding port;
the screening mechanism is arranged between the first discharging port and the second feeding port, the first discharging port and the second feeding port are arranged in the same vertical direction, and the screening mechanism comprises a stand column arranged at an interval with the first discharging port, a movable shaft vertically arranged on the stand column and a steel bar which is arranged on the movable shaft in a penetrating way and can swing by taking the movable shaft as a shaft; the steel bar is sequentially bent to form a vertical section, a bending section and a transverse section, the end part of the vertical section is fixed on the movable shaft, the bending section and the transverse section face the first discharging port, and the end part of the transverse section is propped against the first discharging port; the upright post is provided with a baffle plate for limiting the steel bar to move towards the direction of the first discharge port, the baffle plate is arranged below the movable shaft in parallel, and the bending section is abutted against the side wall of the baffle plate; the upright post is provided with a slot for the movable shaft to move up and down, the movable shaft penetrates through the slot and nuts are respectively locked on the movable shafts positioned at two sides of the slot; the side surface of the bottom end of the inner ring shell is provided with a through hole communicated with the inside of the inner ring shell, and the through hole is provided with a baffle sheet extending from a through hole notch to the inner wall of the outer ring shell; a fourth conveying track is connected between the annular conveying track and the first conveying track, the fourth conveying track is provided with a wide conveying section connected with the annular conveying track and a narrow conveying section connected with the first conveying track, the width of a conveying surface of the wide conveying section is larger than that of the narrow conveying section, and the width of a conveying surface of the narrow conveying section is larger than the diameter of the locking piece; a material stirring sheet is arranged on the narrow conveying section, and the distance between the material stirring sheet and the narrow conveying section is smaller than the length of the locking piece;
when the sinking groove of the locking piece faces forwards, the end part of the transverse section of the steel bar is inserted into the sinking groove and drives the locking piece to move away from the first discharging port under the pushing of the locking piece; when the locking piece is pushed after the locking piece is separated from the steel bar after swinging to a certain position, the steel bar drives the locking piece to do return motion towards the first discharging port, and the locking piece is gradually separated from the transverse section under the action of gravity; when the locking piece is abutted against the second feeding port, the locking piece is separated from the transverse section and enters the second conveying pipeline, the steel bar continues to move towards the first discharging port, and the locking piece keeps the backward conveying direction of the sinking groove in the second conveying pipeline.
2. The automatic feeding device for the locking piece of the fire sprinkler according to claim 1, wherein: the endless conveying track extends upward while expanding outward.
3. The automatic feeding device for the locking piece of the fire sprinkler according to claim 1, wherein: the first conveying track is provided with a cover plate for preventing the locking piece from falling off the first conveying track, the cover plate is connected with one side wall of the first conveying track and has a first distance with the other side wall, and the first distance is smaller than the diameter of the locking piece.
4. The automatic feeding device for the locking piece of the fire sprinkler according to claim 1, wherein: the first conveying track is located between the outer ring shell and the inner ring shell and is a spiral track, and the second conveying pipeline penetrates through the side wall of the outer ring shell and extends out of the outer ring shell.
5. The automatic feeding device for the locking piece of the fire sprinkler according to claim 1, wherein: the first conveying track and the second conveying pipeline are both arranged in a downward inclined mode.
CN201610486839.XA 2016-06-28 2016-06-28 Automatic feeding device for locking and fixing part of fire-fighting nozzle Active CN105947552B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201610486839.XA CN105947552B (en) 2016-06-28 2016-06-28 Automatic feeding device for locking and fixing part of fire-fighting nozzle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201610486839.XA CN105947552B (en) 2016-06-28 2016-06-28 Automatic feeding device for locking and fixing part of fire-fighting nozzle

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CN105947552A CN105947552A (en) 2016-09-21
CN105947552B true CN105947552B (en) 2020-05-12

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105947552B (en) * 2016-06-28 2020-05-12 福建省南安市广威消防器材有限公司 Automatic feeding device for locking and fixing part of fire-fighting nozzle

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CN204896697U (en) * 2015-08-31 2015-12-23 韩广德 Automatic feeding and feeder equipment are in a confused state of mind expected to round bar
CN105947552A (en) * 2016-06-28 2016-09-21 福建省南安市广威消防器材有限公司 Automatic feeding device for firefighting nozzle locking fasteners

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CN201485035U (en) * 2009-06-19 2010-05-26 苏锦波 Ceramic chip vibration collator of tap valve core
CN201737437U (en) * 2010-07-13 2011-02-09 杭州正强万向节有限公司 Automatic feeding device of automatic detection machine
CN201882563U (en) * 2010-10-29 2011-06-29 苏州工业园区高登威科技有限公司 Vibration feeding device
CN203439662U (en) * 2013-07-24 2014-02-19 中山品高电子材料有限公司 High-speed automatic feeder of lead frame
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CN204896697U (en) * 2015-08-31 2015-12-23 韩广德 Automatic feeding and feeder equipment are in a confused state of mind expected to round bar
CN105083879A (en) * 2015-09-18 2015-11-25 烟台凯博机械自动化设备有限公司 Automatic directional feeding machine of silica gel cap
CN105947552A (en) * 2016-06-28 2016-09-21 福建省南安市广威消防器材有限公司 Automatic feeding device for firefighting nozzle locking fasteners

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