CN201295759Y - Intrusive type water gap clamping device - Google Patents

Abstract

The utility model relates to an intrusive type water gap clamping device which comprises two sets of clamping subassemblies which are oppositely arranged, wherein each set of clamping subassemblies comprises a base, and a supporting slide strip which can rotate around a supporting shaft fixed on the base, the clamping end of the supporting slide strip is clamped on the clamping surface of an intrusive type water gap, a stress end which is arranged on the supporting slide strip and corresponds to the clamping end bears the downward pressure of a compressing mechanism fixed on the base, the compressing mechanism comprises an elastic assembly and a press cover arranged between the elastic assembly and the stress end of the supporting slide strip, a columnar bulge is molded on a contact position of one of the press cover and the supporting slide strip, an axial line of the columnar bulge is parallel to the extending direction of the supporting shaft, and the lower end surface of the press cover is in liner contact with the supporting slide strip through the columnar bulge. The utility model has the advantages of durable pressure of a spring, little possibility of deformation and long service life.

Description

A kind of immersion device for clamping water inlet

Technical field

The utility model relates to the metallurgical continuous casting field, specifically a kind of immersion device for clamping water inlet.

Background technology

In continuous casting process, in order to prevent molten steel oxidation, adopt submersed nozzle to carry out totally-enclosed pouring molten steel, to avoid molten steel and air to come in contact, make molten steel directly enter in the crystallizer by submersed nozzle from tundish, thereby the raising steel quality guarantees that continuous casting carries out smoothly, we can say that the result of use of submersed nozzle has directly influenced casting efficiency and slab quality.Submersed nozzle is fixed in the bottom of filling pipe end by immersion device for clamping water inlet, and immersion device for clamping water inlet comprises a spring compression mechanism that submersed nozzle and filling pipe end are closely contacted, to prevent the bleed-out accident.Casting efficiency and production safety have directly been influenced the service life that is to say spring compression mechanism.Because the operating ambient temperature of spring compression mechanism is very high, the elasticity of spring is easy to temperature influence and reduces, and guarantees at present that therefore the technological improvement in spring compression mechanism service life all is the operating ambient temperature that reduces spring as much as possible.As Chinese patent literature CN2560456Y, a kind of tundish slide gate mechanism with the mouth of a river under the quick replacing immersion is disclosed, comprise that an air cooling system reduces the operating ambient temperature of groups of springs with cold wind; Chinese patent literature CN2558484Y and for example discloses a kind of steel ladle sliding water gap mechanism, wherein by heat insulation backplate is set spring compression mechanism and high-temperature region is isolated, to keep relatively low operating ambient temperature.But, high temperature only is to influence a spring aspect in service life, prior art has all been ignored because immersion device for clamping water inlet compresses submersed nozzle and filling pipe end by lever principle, therefore the pressure that the both sides (i.e. a side of close submersed nozzle and away from a side of submersed nozzle) that are sleeved on the spring on the guide post are subjected to gland is uneven, this unbalance stress, make the deformation length difference of these both sides of spring, the easy like this spring integral body that causes deforms, the performance of flexible member is played a role fully, also influence simultaneously the service life of flexible member, it is inevitable stressed uneven more after spring integral body deforms, will cause insufficient pressure between submersed nozzle and the filling pipe end like this, cause the mouth of a river out of control, not only cause device damage easily, security incident more likely takes place.

The utility model content

For this reason, technical problem to be solved in the utility model be to provide a kind of spring pressure lastingly, the immersion device for clamping water inlet of not yielding, long service life.

For solving the problems of the technologies described above, the utility model is achieved through the following technical solutions:

A kind of immersion device for clamping water inlet, comprise the clamp assemblies that two covers are oppositely arranged, the described clamp assemblies of every cover comprises pedestal and the support draw runner that can rotate around the back shaft that is fixed on the described pedestal, the bare terminal end of described support draw runner is clamped on the clamping face of submersed nozzle, the force side relative with described bare terminal end is subjected to from the downward pressure of hold-down mechanism that is fixed on the described pedestal on the described support draw runner, described hold-down mechanism comprises elastomeric element, be arranged on the gland between the described force side of described elastomeric element and described support draw runner, contact site at one of described gland and described support draw runner forms columnar projections, the axis of described columnar projections is parallel with the bearing of trend of described bolster, and the lower surface by the described gland of described columnar projections contacts with described support draw runner line.

In the above-mentioned immersion device for clamping water inlet, the contact wire of described columnar projections and described support draw runner is by the center of described lower surface.

In the above-mentioned immersion device for clamping water inlet, described columnar projections is molded on the described lower surface of described gland, and the contact-making surface of described support draw runner and described columnar projections is the plane, and described columnar projections is an arcwall face near a side of described support draw runner.

In the above-mentioned immersion device for clamping water inlet, described hold-down mechanism comprises that is further stretched out a guide post that is fixed on the described pedestal straight down, and described elastomeric element is the spring that is sleeved on the described guide post.

In the above-mentioned immersion device for clamping water inlet, described spring is one group of disk spring.

In the above-mentioned immersion device for clamping water inlet, be provided with in the described force side of described support draw runner one on described guide post, be used to regulate the pressure adjusting nut of described elastomeric element pressure.

In the above-mentioned immersion device for clamping water inlet, also comprise the air-cooling chamber that is used to make described hold-down mechanism cooling.

Technique scheme of the present utility model has the following advantages compared to existing technology: immersion device for clamping water inlet 1. of the present utility model, form columnar projections in gland and the contact site that supports one of draw runner, the axis of columnar projections is parallel with the bearing of trend of bolster, lower surface by the columnar projections gland contacts with support draw runner line, particularly the contact wire of columnar projections and support draw runner is by the center of lower surface, so, no matter support draw runner and whether supporting submersed nozzle, this support draw runner all concentrates on one by on the straight line at center, lower surface to the gland applied pressure, and the upper surface of gland is that face contacts with elastomeric element, the power that conduction by power concentrates on the contact wire is distributed on the whole upper surface equably, and then impose on whole elastomeric element, make each position of elastomeric element all evenly stressed, make elastomeric element deformation unanimity, thereby thoroughly solved the particularly long-term unbalance stress of spring of elastomeric element, yielding shortcoming, guarantee the service life of elastomeric element, and then guarantee the service life of immersion device for clamping water inlet; 2. immersion device for clamping water inlet of the present utility model, also be provided with the air-cooling chamber that is used to make the hold-down mechanism cooling, constantly, further guarantee the operate as normal of elastomeric element, guarantee the service life of hold-down mechanism for being in the elastomeric element cooling under the hot operation condition; 3. immersion device for clamping water inlet of the present utility model, the elastomeric element in the hold-down mechanism is selected disk spring for use, utilizes big, the little characteristics that take up room of disk spring elasticity, further guarantees the service life of immersion device for clamping water inlet; 4. immersion device for clamping water inlet of the present utility model, the force side of supporting draw runner is provided with a pressure adjusting nut that is attached on the guide post, with the pressure of adjusting elastomeric element, and then guarantee that the bare terminal end of support draw runner and the clamping face of submersed nozzle fit tightly, and guarantee to produce and carry out smoothly; 5. immersion device for clamping water inlet of the present utility model is provided with the guiding draw runner, in case its generation wearing and tearing are conveniently replaced, both handled easily also saves production cost like this; 6. immersion device for clamping water inlet of the present utility model, columnar projections is molded on the described lower surface of gland, the contact-making surface that supports draw runner and columnar projections is the plane, columnar projections is an arcwall face near a side that supports draw runner, contact form is the line contact, frictional resistance is little, is easy to realize making all even stressed goal of the invention in each position of elastomeric element.

Description of drawings

For the easier quilt of content of the present utility model is clearly understood, according to specific embodiment of the utility model also in conjunction with the accompanying drawings, the utility model is described in further detail, wherein below

Fig. 1 is the main cutaway view of the utility model preferred embodiment;

Fig. 2 is the front view of gland in the utility model preferred embodiment;

Fig. 3 is the vertical view of gland in the utility model preferred embodiment;

Fig. 4 is the schematic perspective view of gland in the utility model preferred embodiment.

Reference numeral is expressed as among the figure: the 1-pedestal, and the 2-back shaft, 3-supports draw runner, 4-bare terminal end, 5-submersed nozzle, the 6-force side, 7-gland, 8-columnar projections, 9-guide post, 10-disk spring, 11-pressure adjusting nut, the 12-draw runner that leads, 13-air-cooling chamber, 14-top cover

The specific embodiment

As shown in Figure 1, it is a preferred embodiment of the utility model immersion device for clamping water inlet, described immersion device for clamping water inlet comprises two clamp assemblies that are oppositely arranged of cover, and the described clamp assemblies of every cover comprises: pedestal 1, the support draw runner 3 and the air-cooling chamber 13 that can rotate around the back shaft 2 that is fixed on the described pedestal 1.Described pedestal 1 is fastening with guiding draw runner 12 by bolt, and the bare terminal end 4 of described support draw runner 3 is clamped on the clamping face of submersed nozzle 5.Force side 6 relative with described bare terminal end 4 on the described support draw runner 3 is provided with pressure adjusting nut 11, and described force side 6 is subjected to from the downward pressure of hold-down mechanism that is fixed on the described pedestal 1.Described hold-down mechanism comprises: the gland 7 between the described force side 6 that elastomeric element, stretch out the guide post 9 that is fixed on the described pedestal 1 straight down, be arranged on described elastomeric element and described support draw runner 3, and be sleeved on the described guide post 9, be arranged on the top cover 14 between described pedestal 1 and the described elastomeric element.In the present embodiment, described elastomeric element is the one group of disk spring 10 that is sleeved on the described guide post 9.

Extremely shown in Figure 4 as Fig. 2, on the lower surface of described gland 7, form columnar projections 8, the axis of described columnar projections 8 is parallel with the bearing of trend of described bolster 2, described support draw runner 3 is the plane with the contact-making surface of described columnar projections 8, described columnar projections 8 is an arcwall face near a side of described support draw runner 3, described lower surface by described columnar projections 8 described glands 7 contacts with described support draw runner 3 lines, the contact wire of described columnar projections 8 and described support draw runner 3 is by the center of described lower surface, to guarantee described disk spring 10 each position stress balances.

The described pressure adjusting nut 11 of the described force side 6 of described support draw runner 3 is screwed onto on the described guide post 9, be used to regulate the pressure of described disk spring 10.Described air-cooling chamber 13 is used to described disk spring 10 coolings, makes described hold-down mechanism cooling.

The use of the described immersion device for clamping water inlet that the utility model provides is described in detail in detail below:

In the process of the described submersed nozzle 5 of described immersion device for clamping water inlet clamping, described bare terminal end 4 is descending by original initial position, because the leverage of described support draw runner 3, the described force side 6 of described support draw runner 3 is up by original initial position, 6 pairs of described gland 7 applied pressures in the described force side of described support draw runner 3 concentrate on the described contact wire of described columnar projections 8 and described support draw runner 3, conduction by power, the power that concentrates on the described contact wire is distributed on the upper surface of whole described gland 7 equably, and then impose on whole described disk spring 10, described disk spring 10 by compression, simultaneously because described force side 6 is subjected to the reaction force from described disk spring 10, make the described bare terminal end 4 and the described clamping face of described submersed nozzle 5 fit tightly, clamp described submersed nozzle 5 securely.

The described lower surface of described gland 7 contacts with described support draw runner 3 lines by described columnar projections 8, the contact wire of described columnar projections 8 and described support draw runner 3 is by the center of described lower surface, so, no matter whether described support draw runner 3 is supporting described submersed nozzle 5,3 pairs of described gland 7 applied pressures of described support draw runner all concentrate on one by on the straight line at center, described lower surface, and the upper surface of described gland 7 is that face contacts with described disk spring 10, the power that conduction by power concentrates on the described contact wire is distributed on the whole described upper surface equably, and then impose on whole described disk spring 10, make each position of described disk spring 10 all evenly stressed, make described disk spring 10 deformation unanimities, thereby described disk spring 10 long-term unbalance stress have thoroughly been solved, yielding shortcoming, guarantee the service life of described disk spring 10, and then guarantee the service life of described immersion device for clamping water inlet.Described top cover 14 can make spring more firm in the course of the work, firm.Described air-cooling chamber 13 can further be guaranteed the operate as normal of described disk spring 10 constantly for being in described disk spring 10 coolings under the hot operation condition, guarantees the service life of described hold-down mechanism.In the present embodiment, the elastomeric element in the described hold-down mechanism is selected disk spring for use, and this is to have utilized disk spring self elasticity big, and the little characteristics that take up room further guarantee service life of described immersion device for clamping water inlet.And wearing and tearing are in case take place and be easy to change in the described guiding draw runner in the utility model 12, and both handled easily also saves production cost like this.

Certainly in other embodiments, the described contact wire of described columnar projections 8 and described support draw runner 3 does not pass through the center of described lower surface, and is provided with or is arranged on other positions slightly partially, as long as can realize making described elastomeric element stress balance purpose.

In other embodiments, can form columnar projections in the contact site of described support draw runner 3 and described gland 7, contact with described support draw runner 3 lines by described columnar projections 8 with the lower surface that guarantees described gland 7, can realize goal of the invention of the present utility model.

In other embodiments, described elastomeric element also can be selected this area other flexible members commonly used for use.Described top cover 14 can be set according to circumstances yet.

Obviously, the foregoing description only is for example clearly is described, and is not the qualification to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here need not also can't give exhaustive to all embodiments.And conspicuous variation of being extended out thus or change still are among the protection domain of the utility model creation.

Claims (7)

1. immersion device for clamping water inlet, comprise the clamp assemblies that two covers are oppositely arranged, the described clamp assemblies of every cover comprises pedestal and the support draw runner that can rotate around the back shaft that is fixed on the described pedestal, the bare terminal end of described support draw runner is clamped on the clamping face of submersed nozzle, the force side relative with described bare terminal end is subjected to from the downward pressure of hold-down mechanism that is fixed on the described pedestal on the described support draw runner, described hold-down mechanism comprises elastomeric element, be arranged on the gland between the described force side of described elastomeric element and described support draw runner, it is characterized in that: the contact site at one of described gland and described support draw runner forms columnar projections, the axis of described columnar projections is parallel with the bearing of trend of described bolster, and the lower surface by the described gland of described columnar projections contacts with described support draw runner line.

2. immersion device for clamping water inlet according to claim 1 is characterized in that: the contact wire of described columnar projections and described support draw runner is by the center of described lower surface.

3. immersion device for clamping water inlet according to claim 2, it is characterized in that: described columnar projections is molded on the described lower surface of described gland, the contact-making surface of described support draw runner and described columnar projections is the plane, and described columnar projections is an arcwall face near a side of described support draw runner.

4. according to any described immersion device for clamping water inlet of claim 1 to 3, it is characterized in that: described hold-down mechanism comprises that is further stretched out a guide post that is fixed on the described pedestal straight down, and described elastomeric element is the spring that is sleeved on the described guide post.

5. immersion device for clamping water inlet according to claim 4 is characterized in that: described spring is one group of disk spring.

6. immersion device for clamping water inlet according to claim 4 is characterized in that: be provided with in the described force side of described support draw runner one on described guide post, be used to regulate the pressure adjusting nut of described elastomeric element pressure.

7. according to any described immersion device for clamping water inlet of claim 1-3, it is characterized in that: also comprise the air-cooling chamber that is used to make described hold-down mechanism cooling.

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