CN208585758U - A kind of parts presenter - Google Patents
A kind of parts presenter Download PDFInfo
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- CN208585758U CN208585758U CN201820861324.8U CN201820861324U CN208585758U CN 208585758 U CN208585758 U CN 208585758U CN 201820861324 U CN201820861324 U CN 201820861324U CN 208585758 U CN208585758 U CN 208585758U
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- roller
- transport mechanism
- magnet
- horizontal feed
- support plate
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Abstract
The utility model discloses a kind of conveying devices, belong to apparatus for production line technical field.The conveying device includes the first transport mechanism, the second transport mechanism, first transmission mechanism is horizontally disposed, for conveying ferromagnetic part, second transport mechanism includes vertical transport portion and horizontal feed portion, the transmission end of first transport mechanism is connected with the transmission head end in vertical transport portion, and the surface in vertical transport portion and horizontal feed portion all has magnetic the ferromagnetic part transmitted from the first transport mechanism is sucked.Ferromagnetic part is conveyed horizontally at the vertical transport portion of the second transport mechanism by the first transport mechanism first, i.e. when ferromagnetic part is sucked in vertical transport portion, just it is transported in horizontal feed portion, horizontal feed of the ferromagnetic part respectively through the first transport mechanism, behind vertical transport portion and the conveying of horizontal feed portion, 90 degree of overturnings to ferromagnetic part are realized.The parts presenter simplifies the design of production line, has saved production cost, improves production efficiency.
Description
Technical field
The utility model relates to apparatus for production line technical field more particularly to a kind of parts presenters.
Background technique
At present on shop production line, the combination for generally requiring many steps for the processing of metal parts can be just processed into
Final product is processed including to the multiple faces of a metal parts or part, it is made to have multiple functions.
When processing to a metal parts different piece, common way is that metal parts is placed on conveyer belt
On transported, when needing the part to metal parts to process, then metal parts is overturn using manipulator, makes it not
Processing or it is semi-finished be partially toward at process equipment etc. it is to be processed, using the cooperation of manipulator and conveyer belt by metal parts
Alignment process equipment in part to be processed, but this method, need the precise match of manipulator and conveyer belt, such as metal parts
The phenomenon that error occurs between transmission and manipulator overturning, then may cause metal parts transmission in the past but be not reversed, causes
The problem of metal parts is not machined into a part by multiple processing and other parts, and using the cost of manipulator compared with
Height increases the cost of the entire production line.
Therefore, a kind of conveying device is needed, it is above-mentioned to solve the problems, such as.
Utility model content
The purpose of this utility model is to provide a kind of parts presenters, by being filled using the conveying with turn over function
It sets and realizes that the overturning to metal parts to be processed has saved production cost instead of manipulator in the prior art, simplify simultaneously
Production line.
As above design, the technical scheme adopted by the utility model is
A kind of parts presenter, comprising:
First transport mechanism is horizontally disposed with, for conveying ferromagnetic part;
Second transport mechanism comprising vertical transport portion and horizontal feed portion, the transmission end of first transport mechanism
It is connected with the transmission head end in the vertical transport portion;
The surface in the vertical transport portion and the horizontal feed portion all has magnetism to be sucked from first conveyer
The ferromagnetic part of structure transmission.
Further, second transport mechanism further includes conveyer belt and transfer assembly, and the transfer assembly includes roller
And driving element, the driving element can drive the roller to rotate, the conveyer belt is sheathed on the roller.
Further, the roller has magnetism.
Further, the transfer assembly further includes the first roller, and first roller is set under the vertical transport portion
Side, the conveyer belt are sheathed on first roller.
Further, the horizontal feed portion and the vertical transport portion are tangent with the circumferential surface of the roller respectively.
Further, the horizontal feed portion further includes the first support plate, is provided with muti-piece below first support plate
Magnet is additionally provided with resistance magnetic sheet between magnet described in muti-piece, for separating magnet described in muti-piece.
Further, the vertical transport portion further includes the second support plate, and second support plate is provided with muti-piece
Magnet is additionally provided with the second resistance magnetic sheet between magnet described in muti-piece, for separating magnet described in muti-piece.
Further, second transport mechanism further includes storage rack, and first support plate and the magnet are set to
In the storage rack, adjusting component is additionally provided in the storage rack, the lower section for adjusting component and being set to the magnet is used
Angle between adjusting first support plate and the vertical transport portion.
Further, second transport mechanism further includes end cap, and the end cap offers waist-shaped hole, first roller
Shaft is slidingly arranged in the waist-shaped hole.
Further, the transfer assembly further includes at least two resistance magnet rings, and the resistance magnet ring is sheathed on the roller
On circumferential surface.
The utility model has the following beneficial effects:
The utility model proposes a kind of parts presenter, including the first transport mechanism, the second transport mechanism, first passes
Motivation structure is horizontally disposed, and for conveying ferromagnetic part, the second transport mechanism includes vertical transport portion and horizontal feed portion, and first passes
The transmission end of mechanism is sent to be connected with the transmission head end in vertical transport portion, the surface in vertical transport portion and horizontal feed portion all has
Magnetism is to be sucked the ferromagnetic part transmitted from the first transport mechanism.The utility model passes through the first transport mechanism for ferromagnetic zero first
Part is conveyed horizontally at the vertical transport portion of the second transport mechanism, and the second transport mechanism is in running order at this time, i.e., when vertical
It when ferromagnetic part is sucked in delivery section, is then just transported in horizontal feed portion, ferromagnetic part is respectively through the first transport mechanism
After horizontal feed, the vertical transport portion of the second transport mechanism and the conveying of horizontal feed portion, realizes and 90 degree of ferromagnetic part are turned over
Turn.Compared with prior art, which simplifies the design of production line, has saved production cost, improves production
Efficiency.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of parts presenter provided by the utility model;
Fig. 2 is the explosive view of parts presenter part-structure provided by the utility model;
Fig. 3 is the structural schematic diagram of parts presenter part-structure provided by the utility model.
In figure:
1, the first transport mechanism;2, the second transport mechanism;3, transfer assembly;4, conveyer belt;5, end cap;6, ferromagnetic part;
7, support frame;8, storage rack;9, regulation handle;
21, horizontal feed portion;22, vertical transport portion;31, roller;32, magnet ring is hindered;33, the first roller;34, the second roller;35,
Third roller;36, four-roller;37, bearing block;38, retarder;39, driving element;51, waist-shaped hole;
211, the first support plate;212, magnetic sheet is hindered;213, magnet;221, the second support plate;331, shaft.
Specific embodiment
The technical issues of to solve the utility model, the technical solution of use and the technical effect that reaches are clearer,
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.It is understood that
Specific embodiment described herein is used only for explaining the utility model, rather than the restriction to the utility model.In addition it also needs
It is noted that illustrating only part relevant to the utility model for ease of description, in attached drawing and not all.
At present on shop production line, when processing to part, the position different to part is needed to process, at this point,
It needs to overturn part, common technological means is to install manipulator additional in the production line, carries out part using manipulator
Overturning, to meet the needs of next process is for processing, but the higher cost of manipulator, significantly improves whole production
Cost also makes production line more complicated in design.
A kind of parts presenter is present embodiments provided, can be with the effective solution above problem, while reducing and being produced into
This, simplifies Design of Production Line.It is as shown in Figure 1 the structural schematic diagram of parts presenter provided in this embodiment, including first
Transport mechanism 1 and the second transport mechanism 2, wherein the first transport mechanism 1 be it is horizontal positioned, can transmit ferromagnetic part 6, second
Transport mechanism 2 includes vertical transport portion 22 and horizontal feed portion 21, the transmission end and vertical transport portion 22 of the first transport mechanism 1
Transmission head end be connected, the surface in vertical transport portion 22 and horizontal feed portion 21 all have magnetism to be sucked from the first transport mechanism
The ferromagnetic part 6 of 1 transmission.Ferromagnetic part 6 is conveyed horizontally to by hanging down for the second transport mechanism 2 by the first transport mechanism 1 first
At straight delivery section 22, the second transport mechanism 2 is in running order at this time, i.e., when ferromagnetic part 6 is sucked in vertical transport portion 22, with
It is just transported in horizontal feed portion 21 afterwards, horizontal feed of the ferromagnetic part 6 respectively through the first transport mechanism 1, the second conveyer
After the vertical transport portion 22 of structure 2 and horizontal feed portion 21 convey, 90 degree of overturnings to ferromagnetic part 6 are realized.It is as subsequent
The processing of ferromagnetic part 6 provides good working environment.
First transport mechanism 1 is common horizontal conveying belt in the present embodiment, can be used to convey metal parts, first passes
Mechanism 1 and the vertical transfer portions of the second transport mechanism 2 is sent to abut, and vertical transfer portions have magnetism, when ferromagnetic part 6 is transmitted
When to vertical transfer portions, ferromagnetic part 6 is sucked in vertical transfer portions, 213 part of magnet is continued through horizontal convey portion it is defeated
It send.
Specifically, transfer assembly 3 includes inside as shown in Fig. 2, the second transport mechanism 2 includes transfer assembly and conveyer belt 4
Roller 31 with magnetic element, i.e. roller 31 are magnetic pulley, the opposite one end in horizontal feed portion 21 and vertical transport portion 22
It is abutted with the circumferential surface of roller 31, i.e. the intersection that horizontal feed portion 21 and vertical transport portion 22 are set of the rotation of roller 31, rolling
Cylinder 31 is as the transmission hinge between vertical transport portion 22 and horizontal feed portion 21, and conveyer belt 4 is set in the outside of roller 31,
It is delivered up under the action of after vertical transport portion 22 draws ferromagnetic part 6 in conveyer belt 4, ferromagnetic part 6 is then by roller
31 are sucked, and since roller 31 is in rotation status, therefore under the action of roller 31, ferromagnetic part 6 is rotated into horizontal feed portion
On 21, continuation conveys in horizontal feed portion 21 under the action of conveyer belt 4.Wherein, transfer assembly 3 further includes driving element
39, driving element 39 is able to drive the rotation of roller 31.
Second transport mechanism 2 further includes end cap 5, and 5 quantity of end cap in the present embodiment is two, is separately positioned on the second biography
The two sides for sending mechanism 2 offer waist-shaped hole 51 on end cap 5, the first roller 33 are equipped between two waist-shaped holes 51, specifically,
A shaft 331 is respectively set in first roller, 33 both ends, and shaft 331 can be sliding along the length direction of waist-shaped hole 51 in waist-shaped hole 51
It is dynamic, it is slided up and down in the present embodiment, and the lower section of roller 31 is arranged in the first roller 33, is arranged with biography on the outer wall of the first roller 33
Band 4 is sent, i.e., conveyer belt 4 can be tensed or be loosened by the position of mobile first roller 33, also set up at shaft 331
There is retaining mechanism, after adjusting the elasticity of conveyer belt 4, the first roller 33 can be fixed by retaining mechanism, obtain its position
To fixation, that is, ensure that the tightness of conveyer belt 4 is constant in the process of work.
In addition, another effect of the first roller 33 is, when roller 31 drives conveyer belt 4 to rotate, conveyer belt 4 then drives the
The rotation of one roller 33, there are certain gaps the purpose is to making between conveyer belt 4 and the second support plate 221, and conveyer belt 4 can be made to exist
It is slided on the surface of second support plate 221, to realize mistake of the ferromagnetic part 6 through 221 to the first support plate 211 of the second support plate
It crosses.
As shown in Fig. 2, transfer assembly 3 further includes the second roller 34, third roller 34 and four-roller 36, conveyer belt 4 successively passes through
First roller 33, the second roller 34, third roller 34 and four-roller 36, in order to conveyer belt 4 can be limited, be increased simultaneously
The tension of transmission belt, keeps it more stable when transporting ferromagnetic part 6.
In the present embodiment, horizontal feed portion 21 includes the first support plate 211, and vertical transport portion 22 includes the second support plate
221, the first support plate 211 is vertically arranged with the second support plate 221, one end of the first support plate 211 and the second support plate 221
One end is concordant with the circumferential surface of roller 31 respectively to be arranged, and conveyer belt 4 is sheathed on the first support plate 211, the second support plate 221 and roller
31 outside, roller 31 drive conveyer belt 4 to slide in the first support plate 211 and the second support plate 221.I.e. ferromagnetic part 6 passes through
The conveying of second support plate 221 is sucked by roller 31, is then transported again by the first support plate 211 by overturning, during this
Ferromagnetic part 6, which is located on conveyer belt 4, to be transported.
In order to make vertical transport portion 22 that there is magnetism, the position close to the second support plate is provided with muti-piece magnet 213, and
It is provided with the second resistance magnetic sheet between muti-piece magnet 213, muti-piece magnet 213 can be separated, prevents between magnet 213 mutually
Interference.
Specifically, ferromagnetic part 6 is transported at the second support plate 221 by the first transport mechanism 1, ferromagnetic part 6 is then rolled
After cylinder 31 is sucked, after roller 31 is rotated by 90 °, ferromagnetic part 6 is transported on the conveyer belt 4 above the first support plate 211, is realized
Overturning to ferromagnetic part 6.
As shown in figure 3, parts presenter further includes storage rack 8 and support frame 7, the first support is covered in storage rack 8
Plate 211, is equipped with magnet 213 and resistance magnetic sheet 212 below the first support plate 211, and magnet 213 is set to the first support plate 211
Lower section, and the quantity of magnet 213 is muti-piece, be provided with resistance magnetic sheet 212 between magnet 213, resistance magnetic sheet 212 by magnet 213 every
It opens.When ferromagnetic part 6 is transported to the first 211 top of support plate by conveyer belt 4, ferromagnetic part 6 can be then sucked by magnet 213,
The position of ferromagnetic part 6 is fixed, continues to move with conveyer belt 4, ferromagnetic part 6 continues to be fed forward.The present embodiment
In, the first support plate 211 is made of metal material, and the first support plate 211, which is placed on muti-piece magnet 213, can make magnet 213
Magnetism it is more uniform be distributed in the first support plate 211, to make ferromagnetic part 6 is stronger reliably to follow conveyer belt
4 move together.And can be separated muti-piece magnet 213 using resistance magnetic sheet 212, it prevents mutually dry between adjacent magnet 213
It disturbs.
In addition, being additionally provided with adjusting component on a store shelf, adjusting component includes regulation handle 9, is adjusted by moving up and down
Save the angle between the adjustable horizontal feed portion 21 of handle 9 and vertical transport portion 22, it can horizontal feed portion 21 is separate
One end of roller 31 is raised upwards, can be prepared for subsequent delivery to higher position.
As shown in figure 3, being also arranged at least two resistance magnet rings 32 on the outer wall of roller 31, magnet ring 32 is hindered in the present embodiment
Quantity be it is a, a resistance magnet ring 32 is respectively arranged in the centre of roller 31 and end positions, since roller 31 has itself
Magnetism can inevitably attract other ferromagnetic parts 6 or material in the production line, and roller 31 is at work in contorted
State, the ferromagnetic part 6 or material being attracted may be in contact with roller 31, cause some danger.Hindering magnet ring 32 then can be with
By the magnetic locking of roller 31 in roller 31, unnecessary problem caused by due to the magnetism of roller 31 is effectively avoided.
In addition, further including bearing block 37 in the second transport mechanism 2, bearing block 37 is fixed on end cap 5, and roller 31 is rotationally
It is set on bearing block 37, is rotated due to roller 31 in working condition, therefore bearing is needed to be fixed on bearing block 37,
In order to the rotation of roller 31.
Likewise, the second transport mechanism 2 further includes retarder 38, retarder 38 is connected to driving element 39, in driving member
It is provided with retarder 38 between part 39 and roller 31, the revolving speed of roller 31 can be effectively reduced, can also be driven by adjusting
The revolving speed of element 39 adjusts the revolving speed of roller 31.
The working process of this embodiment is as follows;Part 6 ferromagnetic first is transported in the first transport mechanism 1, the first conveyer
Structure 1 is abutted with vertical transport portion 22, and when ferromagnetic part 6 is transported near vertical transport portion 22, ferromagnetic part 6 can then be hung down
The magnetism of straight delivery section 22 is sucked, and since roller 31 drives conveyer belt 4 to be kept in motion, the ferromagnetic part 6 being sucked is through rolling
It is sucked after 31 90 ° of overturning of cylinder by the first support plate 211 abutted against with roller 31, the conveyer belt 4 in the first support plate 211
Under effect, ferromagnetic part 6 is further transported, and the ferromagnetic part 6 of whole process is reversed 90 °, so that the different portions of ferromagnetic part 6
Position is arranged upward, and subsequent processing is facilitated to process it.
Embodiment of above only elaborates the basic principles and features of the present invention, and the utility model is not by above-mentioned reality
The mode of applying limits, and on the premise of not departing from the spirit and scope of the utility model, the present invention has various changes and changes,
These changes and changes fall within the scope of the claimed invention.The utility model requires protection scope is by appended
Claims and its equivalent thereof.
Claims (10)
1. a kind of parts presenter characterized by comprising
First transport mechanism (1) is horizontally disposed with, for conveying ferromagnetic part (6);
Second transport mechanism (2) comprising vertical transport portion (22) and horizontal feed portion (21), first transport mechanism (1)
Transmission end be connected with the transmission head end of the vertical transport portion (22);
The surface in the vertical transport portion (22) and the horizontal feed portion (21) all has magnetic to be sucked from first biography
The ferromagnetic part (6) for sending mechanism (1) to transmit.
2. parts presenter according to claim 1, which is characterized in that second transport mechanism (2) further includes passing
Band (4) and transfer assembly (3) are sent, the transfer assembly (3) includes roller (31) and driving element (39), the driving element
(39) roller (31) can be driven to rotate, the conveyer belt (4) is sheathed on the roller (31).
3. parts presenter according to claim 2, which is characterized in that the roller (31) has magnetism.
4. parts presenter according to claim 2, which is characterized in that the transfer assembly (3) further includes the first roller
(33), first roller (33) is set to the lower section of the vertical transport portion (22), and the conveyer belt (4) is sheathed on described first
On roller (33).
5. parts presenter according to claim 2, which is characterized in that the horizontal feed portion (21) and described vertical
Delivery section (22) is tangent with the circumferential surface of the roller (31) respectively.
6. parts presenter according to claim 1, which is characterized in that the horizontal feed portion (21) further includes first
Support plate (211), the first support plate (211) lower section is provided with muti-piece magnet (213), between magnet (213) described in muti-piece
It is additionally provided with resistance magnetic sheet (212), for separating magnet described in muti-piece (213).
7. parts presenter according to claim 6, which is characterized in that the vertical transport portion (22) further includes second
Support plate (221) is provided with muti-piece magnet (213), between magnet (213) described in muti-piece close to second support plate (221)
It is additionally provided with the second resistance magnetic sheet, for separating magnet described in muti-piece (213).
8. parts presenter according to claim 6, which is characterized in that second transport mechanism (2) further includes depositing
It stores up frame (8), first support plate (211) and the magnet (213) are set on the storage rack (8), the storage rack (8)
On be additionally provided with adjusting component, the lower section for adjusting component and being set to the magnet (213), for adjusting first support
Angle between plate (211) and the vertical transport portion (22).
9. parts presenter according to claim 4, which is characterized in that second transport mechanism (2) further includes end
It covers (5), the end cap (5) offers waist-shaped hole (51), and the shaft (331) of first roller (33) is slidingly arranged at the waist
In type hole (51).
10. parts presenter according to claim 2, which is characterized in that the transfer assembly (3) further includes at least two
A resistance magnet ring (32), the resistance magnet ring (32) are sheathed on the circumferential surface of the roller (31).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820861324.8U CN208585758U (en) | 2018-06-05 | 2018-06-05 | A kind of parts presenter |
Applications Claiming Priority (1)
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CN201820861324.8U CN208585758U (en) | 2018-06-05 | 2018-06-05 | A kind of parts presenter |
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Publication Number | Publication Date |
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CN208585758U true CN208585758U (en) | 2019-03-08 |
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CN201820861324.8U Active CN208585758U (en) | 2018-06-05 | 2018-06-05 | A kind of parts presenter |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108545442A (en) * | 2018-06-05 | 2018-09-18 | 武汉联航机电有限公司 | A kind of parts presenter |
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2018
- 2018-06-05 CN CN201820861324.8U patent/CN208585758U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108545442A (en) * | 2018-06-05 | 2018-09-18 | 武汉联航机电有限公司 | A kind of parts presenter |
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