CN106042236A - Uncross-linked rubber tape cooling device - Google Patents

Abstract

The invention provides an uncross-linked rubber tape cooling device which can avoid long and large size of a water tank, maintain the production speed of products over the conventional production speed, and can reliably cool the uncross-linked rubber tape in a short term without applying a load on the uncross-linked rubber tape cooling device. The uncross-linked rubber tape cooling device (100) includes a mesh-shaped cylindrical roller (105) which is configured to be soaked in a cooling agent (103) of a water tank (102), rotate freely and rotate with the conveying speed of the uncross-linked rubber tape (101), and in this way, the uncross-linked rubber tape (101) is wound on the outer peripheral surface of the cylindrical roller and is conveyed, and is soaked in the cooling agent (103) to be continuously cooled by the cooling agent (103).

Description

Uncrosslinked rubber strip chiller

Technical field

The present invention relates to be supplied to processing via uncrosslinked rubber strip obtained by compounding procedure and forming process For carrying out the uncrosslinked rubber strip chiller cooled down continuously before operation.

Background technology

To extruder etc. thus manufacturing procedure will be supplied to via uncrosslinked rubber supply obtained by compounding procedure Time, needing beforehand through forming process is that coccoid, tape measure shape etc. is suitable to extrusion by uncrosslinked rubber molding The shape of the supply such as machine.It is especially uncrosslinked rubber strip obtained by tape measure shape uncrosslinked rubber molding will be made Supply to extruder etc., in order to keep the quality of product, maintain uncrosslinked the most regularly The sectional area of rubber strip is while supply is to extruder etc..

But, the uncrosslinked rubber strip high temperature after just shaping and softness, it is easily deformed, therefore will not The compression stress of uncrosslinked rubber strip, tensile stress is put on excessive when crosslinking rubber strip supply is to extruder etc. In the case of, uncrosslinked rubber strip deforms and the sectional area of uncrosslinked rubber strip can not be maintained to supply To extruder etc..Therefore, when by the supply of uncrosslinked rubber strip to extruder etc., need to transport not with constant speed Crosslinking rubber brings to alleviate and puts on the compression stress of uncrosslinked rubber strip, tensile stress, and needs to pass through Rapidly and uniformly cool down uncrosslinked rubber and bring suppression uncrosslinked rubber strip deformation.

The method such as water-cooled, air cooling is had, although every kind of method tool as the method cooling down uncrosslinked rubber strip is known Have a respective feature, but uncrosslinked rubber strip be impregnated in the method for the water-cooled etc. of cold-producing medium than air cooling etc. other Method efficiency high., in the case of uncrosslinked rubber strip be impregnated in cold-producing medium, in order to reduce not Crosslinking rubber strip and the chance of the abnormal contact being mixed into cold-producing medium, need regularly to clean to be placed with cold-producing medium Tank, change cold-producing medium termly.

Prior art literature

Patent documentation

Patent documentation 1: Japanese Unexamined Patent Publication 2014-073589 publication

Patent documentation 2: Japanese Unexamined Patent Publication 11-058497 publication

Summary of the invention

In the past, when uncrosslinked rubber strip be impregnated in cold-producing medium, cancellous conveyer belt transport not Crosslinking rubber strip is while being passed to be placed with the tank of cold-producing medium thus cooling down (example from Omnibearing even As, with reference to patent documentation 1,2), but uncrosslinked rubber strip impregnated in the time of cold-producing medium, the most uncrosslinked rubber Depend on the total length of the tank passed through for uncrosslinked rubber strip the cool time of adhesive tape.Therefore, to fully Guarantee the cool time of uncrosslinked rubber strip, then to avoid tank, the growing up of conveyer belt, need the biggest Equipment investment, and produce equipment setting area and become big problem.

It addition, avoiding tank, the growing up of conveyer belt to make the total length of tank terminate in the situation of a certain degree Under, need the speed of production making the speed of the uncrosslinked rubber strip of conveyance, i.e. product to reduce and guarantee uncrosslinked rubber The cool time of adhesive tape.In this case, by using the coldest for many uncrosslinked rubber strips But multirow processes, it is possible to the reduction of the speed of production of compensation product, but needs for shaping many not simultaneously The complicated device of crosslinking rubber strip, the adjustment being additionally useful for changing the bandwidth of uncrosslinked rubber strip is the most multiple Miscellaneous.

Further, in the case of the proportion of uncrosslinked rubber strip is less than cold-producing medium, there is uncrosslinked rubber strip and float Play the hidden danger making cooling effectiveness reduce to the liquid level of cold-producing medium, it is therefore desirable to add uncrosslinked button for rubber strap Press and make it be sunken to the mechanism bottom cold-producing medium, there is cleaning and become complicated, make uncrosslinked rubber because of pressurization The risk of band deformation.

Therefore, it is an object of the invention to provide uncrosslinked rubber strip chiller, it is possible to avoiding tank While growing up, the speed of production of product is maintained more than in the past, and uncrosslinked rubber strip is not applied Uncrosslinked rubber strip just can be cooled down by burden reliably in a short time.

The present invention is a kind of uncrosslinked rubber strip chiller, and it possesses cancellous cylindrical drum, this circle Tubular cylinder is arranged to impregnated in puts into the cold-producing medium of tank and rotatable, and coordinates conveyance uncrosslinked The speed of rubber strip and rotate, thus above-mentioned uncrosslinked rubber strip is wound in outside this cylindrical drum Side face is while being transported, and impregnated in above-mentioned cold-producing medium and cooled down continuously.

Above-mentioned cylindrical drum is preferably bent by cancellous metal lath and processes.

The present invention has the effect that.

In accordance with the invention it is possible to provide uncrosslinked rubber strip chiller, it is possible in the growing up avoiding tank While the speed of production of product maintained more than in the past, and uncrosslinked rubber strip is not applied burden just Uncrosslinked rubber strip can be cooled down reliably in a short time.

Accompanying drawing explanation

Fig. 1 is the side view of the uncrosslinked rubber strip chiller representing the present invention.

Fig. 2 is the front view of the uncrosslinked rubber strip chiller representing the present invention.

Fig. 3 is the enlarged drawing representing cancellous metal lath.

Fig. 4 is the synoptic diagram manufacturing device of the uncrosslinked rubber strip representing that embodiment used.

In figure: 100 uncrosslinked rubber strip chillers, 101 uncrosslinked rubber strips, 102 tanks, 103 cold-producing mediums, 104 outer peripheral faces, 105 cylindrical drums, 106 metal laths, 107 deflector rolls, 401 open roll mixing rolls, 402 aqueous separating medium grooves, 403 stowage devices, 404 containers.

Detailed description of the invention

Hereinafter, with reference to the accompanying drawings embodiments of the present invention are illustrated.

As shown in Figure 1 and Figure 2, the uncrosslinked rubber strip chiller 100 of embodiments of the present invention E.g. will be supplied to manufacturing procedure through rubber strip 101 uncrosslinked obtained by compounding procedure and forming process Before for carrying out the device cooled down continuously.

Uncrosslinked rubber strip chiller 100 possesses cancellous cylindrical drum 105, this cancellous circle Tubular cylinder 105 impregnated in be put into the cold-producing medium 103 of tank 102 and rotatably arranges and coordinate and remove Send the speed of uncrosslinked rubber strip 101 to rotate, thus uncrosslinked rubber strip 101 is wound in periphery Face 104 is while being transported, and impregnated in cold-producing medium 103 and cooled down continuously.

Cylindrical drum 105 has the uncrosslinked rubber strip 101 of confession and throughout enclose the land is wound at outer peripheral face 104 more The width of multiple row degree.Thereby, it is possible to adjust uncrosslinked rubber strip 101 to be wound in cylindrical drum 105 The number of turns of outer peripheral face 104 freely change cool time of uncrosslinked rubber strip 101.Therefore, even if Accelerate the speed of production of product, it is also possible to be wound in cylindrical drum by increasing uncrosslinked rubber strip 101 The number of turns of the outer peripheral face 104 of 105, guarantees the cool time of uncrosslinked rubber strip 101 fully.

It addition, as it is shown on figure 3, cylindrical drum 105 preferably by cancellous metal lath 106 through curved Song processes.Thereby, it is possible to reduce uncrosslinked rubber strip 101 and the contact area of cylindrical drum 105 And uncrosslinked rubber strip 101 and the contact area of cold-producing medium 103 can be increased, therefore, it is possible to from comprehensive Cool down uncrosslinked rubber strip 101 equably.It addition, uncrosslinked rubber strip 101 and cylindrical drum can be made The contact area of 105 reduces and keeps uncrosslinked rubber strip 101 not from the degree of circle flechette-type cylinder 105 landing Frictional force, therefore, it is possible to prevent uncrosslinked rubber strip 101 to be pasted on cylindrical drum 105 and cause not The crosslinking damage of rubber strip 101, destruction, and stably supported uncrosslinked rubber strip by cylindrical drum 105 101。

Additionally, as cylindrical drum 105, although plain weave, the screen cloth of twill, punching gold can also be used Belong to, if but use the meticulous material of mesh, then foreign body is easily accessible mesh, it is difficult to remove foreign body.It addition, The outer peripheral face 104 of cylindrical drum 105 is even surface, the uncrosslinked easy landing of rubber strip 101, the most not The motion of crosslinking rubber strip 101 is unstable, it is possible to become the reason of uncrosslinked rubber strip 101 deformation.

It is therefoie, for example, to width be more than 40mm below 100mm degree and thickness is 5mm When the uncrosslinked rubber strip 101 of above below 20mm degree cools down, by the SW that widened the view in short side it is More than 20mm below 60mm degree and the long side LW that widens the view is more than 50mm below 150mm degree The bending machining such as cancellous metal lath and form cylindrical drum 105, thus to uncrosslinked rubber strip 101 apply suitable grip, the acquisition having stable behavior of uncrosslinked rubber strip 101.

Referring again to Fig. 1 and Fig. 2, uncrosslinked rubber strip chiller 100 has multiple deflector roll 107, It is arranged at cylindrical drum 105 and is wound in outside cylindrical drum 105 at uncrosslinked rubber strip 101 Prevent adjacent uncrosslinked rubber strip 101 from contacting with each other during side face 104.Thus, though uncrosslinked rubber strip 101 are wound into multiple row at the outer peripheral face 104 of cylindrical drum 105 throughout enclosing the land more, it is also possible to avoid adjacent Uncrosslinked rubber strip 101 is inter-adhesive and the situation that makes production stop.

As it has been described above, according to uncrosslinked rubber strip chiller 100, utilize cylindrical drum 105 to make not hand over Connection rubber strip 101 impregnated in cold-producing medium 103, even if the most not making growing up of tank 102 also be able to fully Guarantee the cool time of uncrosslinked rubber strip 101, and uncrosslinked rubber strip 101 will not be applied burden.

It addition, according to uncrosslinked rubber strip chiller 100, by making uncrosslinked rubber strip 101 be wound in The number of turns of the outer peripheral face 104 of cylindrical drum 105 increases such that it is able to maintaining the speed of production of product Cool down uncrosslinked rubber strip 101 reliably in a short time simultaneously.

That is, uncrosslinked rubber strip chiller 100 can save equipment investment, equipment setting area, arranges The restriction in place is less, it is possible to contribute to the shortening of manufacturing time.Further, since only use one is uncrosslinked Rubber strip 101, therefore can use in the shaping of uncrosslinked rubber strip 101 can be by cutter from open roll Mixing roll such as cuts out at the method adjusting width, thickness simply.

Even if it addition, the proportion of uncrosslinked rubber strip 101 is less than cold-producing medium 103, it is also possible to make uncrosslinked rubber Adhesive tape 101 is sunken to bottom cold-producing medium 103, therefore need not add special mechanism.Further, uncrosslinked rubber Adhesive tape chiller 100 simple in construction, clean easily, therefore, it is possible to inexpensively and simply cool down uncrosslinked rubber Adhesive tape 101.

It is thus possible according to the invention to provide uncrosslinked rubber strip chiller 100, avoiding tank 102 Growing up while the speed of production of product can be maintained more than in the past, and not to uncrosslinked rubber Band 101 applying burden just can cool down uncrosslinked rubber strip 101 reliably in a short time.

Embodiment

It follows that the concrete example of the explanation present invention.

As shown in Figure 4, to there is variable speed motor and cutting out open roll mixing roll 401 (the roller footpath 18 of cutter Inch) put into uncrosslinked chloroprene rubber mixture and adjust roller interval and cut out width while cutting Go out into tape measure shape and make uncrosslinked rubber strip 101 (thickness 10mm, width 60mm) shape.

Afterwards, use the metal lath 106 of stainless steel (short side widen the view 40mm, long side widen the view 100mm) The cylindrical drum 105 (external diameter: 796mm, width: 1219mm) of bending machining, to tank 102 (volumes: about 2m²) put into cooling water (capacity: 1m as cold-producing medium 103²), by uncrosslinked rubber Adhesive tape 101 is enclosed the land throughout 6 at the outer peripheral face 104 of cylindrical drum 105 and is wound into multiple row, not hand over The speed that connection rubber strip 101 is transported becomes to be about the mode of 10m/min and adjusts open roll mixing roll 401 The drum rotation speed of roller rotating speed and cylindrical drum 105 cools down on one side continuously.

Further, make the uncrosslinked rubber strip 101 after cooling by aqueous separating medium (type) groove 402 Implement Anti-adhesive, hereafter, by stowage device 403, uncrosslinked rubber strip 101 is laminated in appearance Device 404.

By above operation is processed continuously with the quality of about 80kg, it is possible to stably obtain band The uncrosslinked rubber strip of high-quality that a length of 100mm, thickness are 10 ± 2mm, width is 60 ± 3mm 101。

Claims (2)

1. a uncrosslinked rubber strip chiller, it is characterised in that

Possessing cancellous cylindrical drum, this cylindrical drum is arranged to impregnated in the refrigeration putting into tank Agent and rotatable, and coordinate and transport the speed of uncrosslinked rubber strip and rotate, thus above-mentioned uncrosslinked rubber Adhesive tape is wound in the outer peripheral face of this cylindrical drum while being transported, and impregnated in above-mentioned cold-producing medium And cooled down continuously.

Uncrosslinked rubber strip chiller the most according to claim 1, it is characterised in that

Above-mentioned cylindrical drum is bent by cancellous metal lath and processes.