CN104495237B - A kind of cylinder - Google Patents

Abstract

The cylinder that the present invention relates to, is the splicing block of arc-shaped including barrel and shaft core, multiple spheroid and polylith lateral surface, and wherein splicing block is located at the two ends of barrel, and is connected by friction tight mode with barrel；The two ends of described barrel are respectively arranged with chamfering, are used for accommodating described splicing block；Described barrel symmetry on the fillet surface of its end offers multiple hemispherical groove A, the hemispherical groove B for mating described barrel upper half bulbous recess A it is provided with on the medial surface of described splicing block, wherein said hemispherical groove A and hemispherical groove B cooperatively forms one for housing the cavity of spheroid, make this cylinder in use, by spheroid, barrel is carried out spacing with splicing block.Cylinder application provided by the present invention on the conveying structure time, the effect identical with replacing whole cylinder can be served by the splicing block that displacement is worn, which not only reduces maintenance cost, and easy to operate, meet people's use demand to cylinder.

Description

A kind of cylinder

The present invention relates to automated machine drive technology field, be specifically related to a kind of cylinder.

Background technology

Cylinder is an important component part of mechanical transmission mechanism, and its application is put on the transfer mechanism In the lower section of conveyer belt and contacted with conveyer belt, for providing the power of conveyer belt shuttling movement back and forth. At present, cylinder of the prior art cylindrically structure, the contact area between its conveyer belt is to fix not Become, and between conveyer belt and cylinder, the transmission of power is to be come in fact by the frictional force between cylinder and conveyer belt Existing power.In use, its position relationship by transmission object placed on a moving belt has connecting gear Body affects the active force that cylinder bears required for its each position when driving conveyer belt to rotate.Can To understand, in use, the power born required for the two ends of cylinder is greater than this cylinder remainder to cylinder Required for the active force that bears, the most As time goes on, application cylinder on the transfer mechanism its two The surface degree of being worn of end to be far longer than the abrasion of this cylinder remainder, and particularly load is bigger Time, the almost only 2 years life-span of cylinder, it is necessary to displacement cylinder.Simultaneously because cylinder and conveyer belt Between fit tightly, so just seem particularly problematic, no the cylinder of connecting gear is replaced People's use demand to cylinder can be met well.

Summary of the invention

It is an object of the invention to provide a kind of cylinder for solving above-mentioned technical problem.

A kind of cylinder, including barrel and shaft core, wherein said shaft core axially penetrates through in barrel, and Two ends of this shaft core are placed in the outside of barrel, are used for driving barrel to rotate；This cylinder enters One step includes that multiple spheroid and polylith lateral surface are the splicing block of arc-shaped, and wherein said splicing block is located at The two ends of barrel, and be connected by friction tight mode with barrel；The two ends of described barrel are respectively It is provided with chamfering, is used for accommodating described splicing block；Described barrel symmetry on the fillet surface of its end is opened It is provided with multiple hemispherical groove A, the medial surface of described splicing block is provided with for mating described barrel The hemispherical groove B of upper half bulbous recess A, wherein said hemispherical groove A join with hemispherical groove B Close and form one for housing the cavity of spheroid so that this cylinder in use, is realized rolling by spheroid Cylinder carries out spacing with splicing block.

Preferably, the external diameter of described splicing block is equal to the diameter of described barrel.

Preferably, this cylinder includes 4 pieces of splicing blocks, and it is arranged on two ends of barrel two-by-two.

Preferably, described splicing block is semi-circular structure.

Preferably, the medial surface of described splicing block offers at least one hemispherical groove B.

Preferably, the medial surface of described splicing block offers two hemispherical groove B, two of which Hemispherical groove B

Between line be parallel to the center line of this splicing block.

Preferably, the medial surface of described splicing block is coated with one layer of rubber.

Preferably, described barrel and shaft core are set to integral structure.

Preferably, described barrel, shaft core and splicing block are all made up of stainless steel.

A kind of cylinder, including barrel and shaft core, wherein said shaft core axially penetrates through in barrel, and Two ends of this shaft core are placed in the outside of barrel, are used for driving barrel to rotate；This cylinder enters One step includes multiple spheroid and the splicing block of 4 pieces of semi-circular structure, and wherein said splicing block is located at barrel Two ends, and this splicing block is connected by friction tight mode with barrel, and carries out spacing with spheroid； The two ends of described barrel are respectively arranged with chamfering, are used for accommodating described splicing block；Described barrel is at it On the fillet surface of end, symmetry offers multiple hemispherical groove A, and the medial surface of described splicing block is arranged There is the hemispherical groove B for mating described barrel upper half bulbous recess A, wherein said hemispherical recessed Groove A and hemispherical groove B cooperatively forms one for housing the cavity of spheroid.

Due to the utilization of technique scheme, the present invention compared with prior art has the advantage that

Cylinder provided by the present invention, ties by the two of this barrel ends are arranged to reassembling type Structure, specifically, two ends of this barrel are wrapped up by splicing block, wherein splicing block and barrel Between connected by friction tight mode, and carry out spacing with spheroid.This cylinder application is made to transmit knot Time on structure, contacting between its two ends with transmission band is variable, specifically can be regulated by splicing block； It can be served and the identical effect replacing whole cylinder by the splicing block that displacement is worn in use Really, which not only reduces maintenance cost, and easy to operate, and meeting people needs the use of cylinder Ask.

Accompanying drawing explanation

Fig. 1 is the structural representation of the cylinder that present pre-ferred embodiments is provided；

Fig. 2 is the exploded view of the cylinder that present pre-ferred embodiments is provided.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention of greater clarity, below in conjunction with concrete real Executing mode referring to the drawings, the present invention is described in more detail.It should be understood that these descriptions are simply shown Example, and it is not intended to limit the scope of the present invention.Additionally, in the following description, eliminate known Structure and the description of technology, to avoid unnecessarily obscuring idea of the invention.

Refer to Fig. 1, Fig. 2, the cylinder 31 that present pre-ferred embodiments is provided, including barrel 311, Shaft core 312, splicing block 313 and spheroid 314.

Described barrel 311 is rigid cylinder body, is made up of hard material, it is preferable that described cylinder Body is made up of stainless steel material.Being appreciated that described barrel 311 cylindrically, it is applied and is transmitting Time in mechanism, its outer surface fits tightly with the surface of conveyer belt (not shown), and passes through cylinder Frictional force between body 311 and conveyer belt drives conveyer belt.The rolling being appreciated that in the present embodiment It is attached by friction tight mode between cylinder 311 and splicing block 313, this is because cylinder 31 in use, and the lateral surface of this cylinder 31 is to be transmitted band wrapping tightly, i.e. splicing block 313 Barrel 311 is had a downward pressure, thus achieves and splicing block 313 is fixedly secured to Effect on barrel 311.Wherein, the rotation of barrel 311, is to be carried out specifically by shaft core 312 Drive.Specifically, described shaft core 312 axially penetrates through in barrel 311, and this shaft core 312 Two ends are exposed at the outside of barrel 311, in order to chain connects, and play driving barrel 311 and enter The effect that row rotates.Barrel 311 and the shaft core 312 of the present embodiment are set to integral structure.

Described splicing block 313 is for wrapping the two of barrel 311 ends so that this cylinder 31 When applying on the transfer mechanism, two ends of its cylinder 31 are connected with transmission band by splicing block 313 Touch.Wherein the present embodiment is also coated with one layer of rubber at splicing block 313 for the side contacting barrel 311 Glue, for buffering the abutting power between splicing block 313 and barrel 311.The cylinder 31 of the present embodiment has Body includes 4 pieces of splicing blocks 313, and it is arranged on two ends of barrel 311 two-by-two, it is preferable that Splicing block 313 is in semi-circular structure.

Its lateral surface of splicing block 313 being appreciated that the present embodiment is arc-shaped, in order to by this spelling When connecing the two ends that block 313 is assembled to barrel 311, the annulus of its lateral surface and this barrel 311 towards Flush.Splicing block 313 in the present embodiment preferably selects stainless steel to make.

Specifically, two of described barrel 311 are respectively arranged with chamfering, are used for accommodating described splicing Block 313, wherein the length and width of chamfering is to be equal with the length and width of splicing block 313. It is appreciated that when this splicing block 313 is mounted connected on barrel 311, the inner side of its splicing block 313 Face fits tightly under the effect of transmission band with the fillet surface of barrel 311, i.e. achieves this splicing Connection between block 313 and barrel 311.

From the foregoing, it will be observed that by the tight fit between splicing block 313 and barrel 311, it is at this cylinder 31 The when of rotation, it also occur that relatively slide between two groups.To this end, the present invention is specially provided with ball Splicing block 313 and barrel 311 are carried out spacing by body 314, for splicing block 313 and barrel 311 carry out spacing.Specifically, described barrel 311 symmetry on the fillet surface of its end offers many Individual hemispherical groove A315, the medial surface of described splicing block 313 is provided with for mating described barrel The hemispherical groove B316 of 311 upper half bulbous recess A315, wherein said hemispherical groove A315 and half Bulbous recess B316 combination defines one just for housing the cavity of spheroid 314, i.e. spheroid 314 Diameter and the diameter of hemispherical groove A315, and the diameter of hemispherical groove B316 is the most equal.So When spheroid 314 being placed in the cavity being made up of hemispherical groove A315 and hemispherical groove B316, Splicing block 313 and barrel 311 are just carried out spacing by it, make can not carry out between the two relative shifting Dynamic.

In order to improve the bonding strength between splicing block 313 and barrel 311, the present embodiment further In carried out spacing by two spheroids 314 between every piece of splicing block 313 and barrel 311, be wherein opened in On splicing block 313 medial surface, the line between two hemispherical groove B316 is parallel to this splicing block 313 Center line.

In sum, cylinder application provided by the present invention on the conveying structure time, its two ends and biography Contact area between dynamic band is variable, specifically can be adjusted by splicing block.It in use, can The splicing block being worn by displacement serves and replaces the same effect of whole cylinder, which not only reduces Maintenance cost, and easy to operate, meet people's use demand to cylinder.

The foregoing is only presently preferred embodiments of the present invention, be not limited to the present invention, all Within the spirit and principles in the present invention, any modification, equivalent substitution and improvement etc. done, all should include Within the scope of protection of the invention.

Claims (10)

1. a cylinder, including barrel and shaft core, wherein said shaft core axially penetrates through in rolling Cylinder, and two ends of this shaft core are placed in the outside of barrel, are used for driving barrel to carry out Rotate；It is characterized in that: this cylinder farther includes multiple spheroid and polylith lateral surface is circular arc The splicing block of shape, wherein said splicing block is located at the two ends of barrel, and is passed through with barrel Friction tight mode connects；The two ends of described barrel are respectively arranged with chamfering, are used for accommodating institute State splicing block；Described barrel symmetry on the fillet surface of its end offers multiple hemispherical recessed Groove A, the medial surface of described splicing block is provided with for mating described barrel upper half spherical recessed The hemispherical groove B of groove A, wherein said hemispherical groove A coordinate shape with hemispherical groove B Become one for housing the cavity of spheroid so that this cylinder in use, is come cylinder by spheroid Body carries out spacing with splicing block.

Cylinder the most according to claim 1, it is characterised in that: outside described splicing block Footpath is equal to the diameter of described barrel.

Cylinder the most according to claim 1, it is characterised in that: this cylinder includes 4 Block splicing block, it is arranged on two ends of barrel two-by-two.

Cylinder the most according to claim 3, it is characterised in that: described splicing block is in half Circle structure.

Cylinder the most according to claim 1, it is characterised in that: described splicing block interior At least one hemispherical groove B is offered on side.

Cylinder the most according to claim 5, it is characterised in that: described splicing block interior Two hemispherical groove B, the line between two of which hemispherical groove B is offered on side It is parallel to the center line of this splicing block.

Cylinder the most according to claim 5, it is characterised in that: described splicing block interior One layer of rubber it is coated with on side.

Cylinder the most according to claim 1, it is characterised in that: described barrel and axle Core is set to integral structure.

Cylinder the most according to claim 1, it is characterised in that: described barrel, axle Core and splicing block are all made up of stainless steel.

10. a cylinder, including barrel and shaft core, wherein said shaft core axially penetrates through in rolling Cylinder, and two ends of this shaft core are placed in the outside of barrel, are used for driving barrel to carry out Rotate；It is characterized in that: this cylinder farther includes multiple spheroid and the spelling of 4 pieces of semi-circular structure Connecing block, wherein said splicing block is located at the two ends of barrel, and this splicing block leads to barrel Cross friction tight mode to connect, and carry out spacing with spheroid；The two ends of described barrel set respectively It is equipped with chamfering, is used for accommodating described splicing block；Described barrel is right on the fillet surface of its end Claim to offer multiple hemispherical groove A, the medial surface of described splicing block is provided with for mating The hemispherical groove B of described barrel upper half bulbous recess A, wherein said hemispherical groove A One is cooperatively formed for housing the cavity of spheroid with hemispherical groove B.