CN207016277U - I-beam wheel - Google Patents
I-beam wheel Download PDFInfo
- Publication number
- CN207016277U CN207016277U CN201720723721.4U CN201720723721U CN207016277U CN 207016277 U CN207016277 U CN 207016277U CN 201720723721 U CN201720723721 U CN 201720723721U CN 207016277 U CN207016277 U CN 207016277U
- Authority
- CN
- China
- Prior art keywords
- flange
- beam wheel
- link slot
- assistant reinforcement
- stack shell
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Rod-Shaped Construction Members (AREA)
Abstract
The utility model discloses a kind of I-beam wheel, including stack shell and main flange, the stack shell is in cylindrical, link slot is respectively formed with the outer circumference surface at stack shell both ends, the link slot surround stack shell one week, the main flange is in a ring, the inner ring side of the main flange is fixedly installed in link slot, the assistant reinforcement flange of annular is fixedly installed in the lateral surface of the main flange, the outer annular edge of the assistant reinforcement flange is fixedly connected with the lateral surface of main flange, the inner ring side of the assistant reinforcement flange is fixedly connected in the link slot of stack shell end, the lateral surface of the assistant reinforcement flange is fixedly installed driving circle;The utility model solves the problems, such as that original old-fashioned I-beam wheel causes that I-beam wheel deflection during take-up is excessive, take-up amount is few because of insufficient strength, position degree precision on the inside of the end flanges of I-beam wheel two is improved simultaneously, reduces that take-up that I-beam wheel occurs during take-up is bad and other product correlated quality problems.
Description
Technical field
A kind of I-beam wheel is the utility model is related to, belongs to metal H-wheel product technique field.
Background technology
I-beam wheel is for winding a kind of instrument used in wire or steel wire rope, original old-fashioned I-beam wheel stack shell thickness
Relatively thin, insufficient strength, I-beam wheel deflection is excessive during take-up, and take-up amount is few, and original old-fashioned I-beam wheel is manufacturing
During, turnery processing, the method at I-beam wheel both ends are not carried out on the inside of the flange to I-beam wheel both ends after spool welding shaping
The position degree precision of blue inner side is poor, and I-beam wheel is during take-up, because the position degree precision of the end flanges of I-beam wheel two is inadequate
And cause to occur that take-up is bad and other product correlated quality problems.
The content of the invention
To solve the deficiencies in the prior art, the utility model provides a kind of I-beam wheel, solves original old-fashioned I-beam wheel because strong
Degree not enough causes I-beam wheel deflection during take-up is excessive, take-up amount is few the problem of, while improves the hold-carrying of I-beam wheel two
The position degree precision of blue inner side, reduces that take-up that I-beam wheel occurs during take-up is bad and other product correlated qualities
Problem.
Technical scheme is used by the utility model:
I-beam wheel, including stack shell and main flange, the stack shell are in cylindrical, are divided on the outer circumference surface at stack shell both ends
Stack shell is not surround formed with link slot, the link slot one week, the main flange in a ring, fix by the inner ring side of the main flange
It is arranged in link slot, the assistant reinforcement flange of annular, the assistant reinforcement is fixedly installed in the lateral surface of the main flange
The outer annular edge of flange is fixedly connected with the lateral surface of main flange, and the inner ring side of the assistant reinforcement flange is fixedly connected on stack shell end
In the link slot in portion, the lateral surface of the assistant reinforcement flange is fixedly installed driving circle.
As it is of the present utility model further preferably, the inner ring side of the main flange bends 90 degree of shapes to main flange medial surface
Into connection ring, the main flange is fixedly installed in link slot by connection ring.
Thickness as of the present utility model further preferred, described main flange is equal to the depth of link slot.
Company is fixed by girth welding mode with link slot as of the present utility model further preferred, described connection ring
Connect.
As it is of the present utility model further preferably, the outer annular edge end of described main flange is bent to main flange lateral surface
360 degree.
As it is of the present utility model further preferably, formed with several lug bosses, institute on described assistant reinforcement flange
Several lug boss uniform rings are stated around the center of circle of assistant reinforcement flange one week.
As it is of the present utility model further preferably, the extreme ends of the link slot on the stack shell form oriented main flange
The arc portion of lateral surface bending, the inner ring side of the assistant reinforcement flange is formed with the arc that matching is bonded with link slot arc portion
Side, the arc portion of the link slot and assistant reinforcement flange inner ring while arc while be bonded after rivet or be welded to connect.
Outer annular edge and the lateral surface of main flange as of the present utility model further preferred, described assistant reinforcement flange
It is fixedly connected by welding manner.
As it is of the present utility model further preferably, described driving circle is at least provided with two.
Pass through assistant reinforcement as line between the center of circle of two of the present utility model further preferred, described driving circles
The center of circle of flange, and described driving circle is fixedly installed on by welding manner on the lateral surface of assistant reinforcement flange.
The beneficial effects of the utility model are:By setting main flange and assistant reinforcement flange, I-beam wheel is improved
Intensity, the intensity of I-beam wheel is obviously improved, increases the take-up amount of I-beam wheel, effectively solve original old-fashioned I-beam wheel because of intensity not
It is enough and cause I-beam wheel deflection during take-up is excessive, take-up amount is few the problem of;Meanwhile the utility model is in manufacturing process
In or after use, it is allowed to turnery processing is carried out to the medial surface of main flange, to improve the position on the inside of the end flanges of I-beam wheel two
Degree of putting precision, reduces that the take-up that occurs during take-up of I-beam wheel is bad and other product correlated quality problems.
Brief description of the drawings:
Fig. 1 is the utility model axial section structural representation;
Fig. 2 is the enlarged drawing in C portions in Fig. 1;
Fig. 3 is the structural representation of the utility model I-beam wheel end face of flange;
Main Reference Numerals implication is as follows in figure:
1- stack shells, the main flanges of 2-, 3- link slots, 4- assistant reinforcement flanges, 5- driving circles, 6- connection rings, the main flanges of 7-
Outer annular edge end, 8- lug bosses, 9- arc portions, 10- assistant reinforcement flange inner ring while arc while.
Embodiment:
Specific introduction is done to the utility model with reference to the accompanying drawings and examples.
As Figure 1-3:The present embodiment is a kind of I-beam wheel, including stack shell 1 and main flange 2, stack shell 1 are in cylindrical tube
Shape, link slot 3 is respectively formed with the outer circumference surface at the both ends of stack shell 1, link slot 3 surround stack shell 1 one weeks, and main flange 2 is in ring
Shape, the inner ring side of main flange 2 are fixedly installed in link slot 3, and the auxiliary that annular is fixedly installed in the lateral surface of main flange 2 adds
Strong flange 4, the outer annular edge of assistant reinforcement flange 4 are fixedly connected with the lateral surface of main flange 2, the inner ring side of assistant reinforcement flange 4
It is fixedly connected in the link slot 3 of the end of stack shell 1, the lateral surface of assistant reinforcement flange 4 is fixedly installed driving circle 5.
As Figure 1-3, the inner ring side of main flange 2 bends 90 degree to the main medial surface of flange 2 and forms connection in the present embodiment
Ring 6, main flange 2 are fixedly installed in link slot 3 by connection ring 6, and the thickness of main flange 2 is equal to the depth of link slot 3, connection
Ring 6 is fixedly connected with link slot 3 by girth welding mode;The outer annular edge end 7 of main flange is bent to the main lateral surface of flange 2
360 degree.
It is as shown in figure 3, equal formed with eight lug bosses 8, eight lug bosses 8 on assistant reinforcement flange 4 in the present embodiment
The center of circle of even circular assistant reinforcement flange 4 one week.
As illustrated in fig. 1 and 2, the extreme ends of link slot 3 of the present embodiment on stack shell 1 form the oriented outside of main flange 2
The arc portion 9 of face bending, the inner ring of assistant reinforcement flange 4 is while formed with the arc that matching is bonded with the arc portion 9 of link slot 3, even
The arc portion 9 of access slot 3 and assistant reinforcement flange inner ring while arc while 10 be bonded after be welded to connect, during practical application, can also lead to
Riveting method is crossed to be fixedly connected;The outer annular edge of assistant reinforcement flange 4 and the lateral surface of main flange 2 pass through welding side in the present embodiment
Formula is fixedly connected;The assistant reinforcement flange 4 of wherein the present embodiment is that the link slot 3 that set is attached on stack shell 1 uses mould pressure later
System makes the extreme ends of the link slot 3 on stack shell 1 form the arc portion 9 of the oriented lateral surface of main flange 2 bending, will be connected with reaching
The arc portion 9 of groove 3 and assistant reinforcement flange inner ring while arc while 10 be bonded after be welded to connect.
Driving circle 5 in the present embodiment is provided with two, and line passes through assistant reinforcement method between the center of circle of two driving circles 5
The center of circle of orchid 4, and the driving circle 5 in the present embodiment is fixedly installed on by welding manner on the lateral surface of assistant reinforcement flange 4;
During practical application, multiple driving circles 5 can also be set, for driving I-beam wheel to rotate.
Original old-fashioned I-beam wheel stack shell thinner thickness, stack shell deflection is big after take-up, I-beam wheel stack shell of the present utility model
For the older I-beam wheel stack shell thickness of thickness compared to can at least thicken one times or so, stack shell intensity strengthens more than one times, reduces and receives
Correlated quality problem caused by the take-up caused by stack shell deforms is bad in line process;I-beam wheel of the present utility model is by original
One, one side form of flanges come, change into two flanges on one side, i.e. a main flange and an assistant reinforcement form of flanges, method
Orchid ability of resistance to deformation during take-up greatly improves, also because take-up caused by flange distortion is bad during reduction take-up
Caused by correlated quality problem, I-beam wheel adds the form of the double flanges in both sides using monotubular is thickeied, and bulk strength is obviously improved, removed
It can reduce because intensity is only outside caused correlated quality problem, take-up amount was than originally adding 50%, wheel usage quantity
And related packing charge traffic expense also reduced 50%, replacement frequency also reduced client in use;The utility model is permitted
Perhaps turnery processing is carried out to the medial surface of main flange, change after original old-fashioned spool welding on the inside of flange without turning
Process, the more original old-fashioned I-beam wheel of position degree precision on the inside of two main flanges of the utility model improves a lot, and also reduces and receives
In line process caused by not caused enough the take-up of position degree precision is bad correlated quality problem;The utility model is integrally strong
Degree is obviously improved, and adds recycling number, greatly reduces the input quantity of I-beam wheel, has saved being produced into for client
This.
The utility model improves the intensity of I-beam wheel, makes I-beam wheel by setting main flange and assistant reinforcement flange
Intensity is obviously improved, and increases the take-up amount of I-beam wheel, and effectively solve original old-fashioned I-beam wheel causes I-beam wheel because of insufficient strength
Deflection during take-up is excessive, take-up amount is few the problem of;Meanwhile the utility model is in the fabrication process or after use,
Allow to carry out turnery processing to the medial surface of main flange, to improve the position degree precision on the inside of the end flanges of I-beam wheel two, reduce
The take-up that I-beam wheel occurs during take-up is bad and other product correlated quality problems.
Described above is only the preferred embodiment of the utility model patent, it is noted that for the general of the art
For logical technical staff, on the premise of the utility model patent principle is not departed from, some improvements and modifications can also be made, this
A little improvements and modifications also should be regarded as the protection domain of the utility model patent.
Claims (10)
1. I-beam wheel, it is characterised in that:Including stack shell and main flange, the stack shell is in cylindrical, in the outer of stack shell both ends
Be respectively formed with link slot on periphery, the link slot around stack shell one week, the main flange in a ring, the main flange
Inner ring side is fixedly installed in link slot, and the assistant reinforcement flange of annular, institute are fixedly installed in the lateral surface of the main flange
The outer annular edge for stating assistant reinforcement flange is fixedly connected with the lateral surface of main flange, and the inner ring side of the assistant reinforcement flange, which is fixed, to be connected
It is connected in the link slot of stack shell end, the lateral surface of the assistant reinforcement flange is fixedly installed driving circle.
2. I-beam wheel according to claim 1, it is characterised in that the inner ring side of the main flange is curved to main flange medial surface
90 degree of folding forms connection ring, and the main flange is fixedly installed in link slot by connection ring.
3. I-beam wheel according to claim 2, it is characterised in that the thickness of described main flange is equal to the depth of link slot
Degree.
4. I-beam wheel according to claim 2, it is characterised in that described connection ring passes through girth welding side with link slot
Formula is fixedly connected.
5. I-beam wheel according to claim 1 or 2, it is characterised in that the outer annular edge end of described main flange is to main method
Blue lateral surface bends 360 degree.
6. I-beam wheel according to claim 1, it is characterised in that convex formed with several on described assistant reinforcement flange
The portion of rising, several described lug boss uniform rings were around the center of circle of assistant reinforcement flange one week.
7. I-beam wheel according to claim 1, it is characterised in that the extreme ends of the link slot on the stack shell formed with
The arc portion bent to main flange lateral surface, the inner ring side of the assistant reinforcement flange with link slot arc portion formed with being bonded
The arc side matched somebody with somebody, the arc portion of the link slot and assistant reinforcement flange inner ring while arc while be bonded after rivet or be welded to connect.
8. I-beam wheel according to claim 1, it is characterised in that the outer annular edge of described assistant reinforcement flange and main flange
Lateral surface be fixedly connected by welding manner.
9. I-beam wheel according to claim 1, it is characterised in that described driving circle is at least provided with two.
10. I-beam wheel according to claim 9, it is characterised in that line passes through between the center of circle of two described driving circles
The center of circle of assistant reinforcement flange is crossed, and described driving circle is fixedly installed on the lateral surface of assistant reinforcement flange by welding manner
On.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720723721.4U CN207016277U (en) | 2017-06-21 | 2017-06-21 | I-beam wheel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720723721.4U CN207016277U (en) | 2017-06-21 | 2017-06-21 | I-beam wheel |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207016277U true CN207016277U (en) | 2018-02-16 |
Family
ID=61486533
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720723721.4U Expired - Fee Related CN207016277U (en) | 2017-06-21 | 2017-06-21 | I-beam wheel |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207016277U (en) |
-
2017
- 2017-06-21 CN CN201720723721.4U patent/CN207016277U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP5285675B2 (en) | Can end having reinforced side walls and apparatus and method for making the same | |
CN105383227A (en) | Rectangular cross-section steel wire for radial tire and method for manufacturing steel wire ring thereof | |
CN207016277U (en) | I-beam wheel | |
US9630279B2 (en) | Method of manufacturing wheel disc | |
CN205183447U (en) | Copper strapping band making machine | |
CN102941446A (en) | Production method for equal-strength symmetrical weld joint steel plate elbow | |
CN206914060U (en) | Bilateral spinning aluminium alloy wheel hub | |
CN106825189B (en) | The manufacturing method of automobile three-way tailpipe | |
JP4557198B2 (en) | Manufacturing method of metal welded pipe | |
US1748577A (en) | Method of forming tank ends | |
CN206439235U (en) | Exempt from the wind wheel of cooking-fume exhauster axle sleeve of rivet installation | |
CN106111871B (en) | A kind of convex recessed swage block of circular arc dentation | |
CN204300233U (en) | The seamed lining of chain | |
CN206206863U (en) | A kind of riveted construction of automobile-used hose assembly | |
CN217458307U (en) | Novel spool structure | |
CN217671962U (en) | Novel two-piece type rim | |
CN209716132U (en) | Welding Thick Pipe roll | |
CN210600402U (en) | Tubular valve hand wheel | |
US20160375513A1 (en) | Cutting tool and method for producing such a cutting tool | |
CN207772773U (en) | A kind of aluminum-alloy wheel low pressure casting blank with weight loss effect | |
CN217671961U (en) | Wheel rim | |
CN102873516A (en) | Aluminum alloy hand wheel manufacturing method | |
CN214450100U (en) | Thrust rod | |
CN107244187A (en) | Bilateral spinning aluminium alloy wheel hub | |
CN201306568Y (en) | Elbow with symmetric longitudinal seam |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
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: 20180216 Termination date: 20190621 |