CN208946518U - A kind of liquid seal can with cooling structure - Google Patents

Abstract

A kind of liquid seal can with cooling structure, including liquid seal can ontology, inlet, visor, cooling coil, coolant return line, coolant liquid outlet tube, coil pipe return pipe and coil pipe outlet tube.It is constantly recycled in the application liquid seal can by being filled with quantitative coolant liquid, since coolant liquid can heat up after other components that cool, therefore cooling coil is provided in liquid seal can ontology to cool down to the coolant liquid in liquid seal can, while in order to guarantee that coolant liquid is smoothly discharged in liquid seal can ontology, in the upper end of liquid seal can, air inlet pipe is set, increase the gas pressure in liquid seal can, coolant liquid in pushed at high pressure liquid seal can is constantly discharged from bottom, and flow to other component positions, in order to guarantee using safe, prevent gas pressure is excessive from liquid seal being caused to damage, in the upper end of liquid seal can, setting can safety valve, the gas pressure in liquid seal can be adjusted, gas pressure in liquid seal can is in the range of liquid seal can bears.

Description

A kind of liquid seal can with cooling structure

Technical field

The utility model belongs to emulsion foaming machine technical field, and in particular, to a kind of liquid seal can with cooling structure.

Background technique

There are two types of the manufacturing methods of latex foam.One is Deng Lu law popularization, also known as machinery is got blisters method or slow gel method, this It is using earliest and most common sponge technique.Its process characteristic is that a certain amount of foaming agent is added in latex, utilizes machinery Stirring blistering, is then added slow gelling agent.Another method is Ta Lelaifa, also known as vacuum foam method.Its process characteristic is It is foamed with Mechanical Method low power, then metering injection closed mould, vacuumizing, which makes latex foam completely, is full of model, after freeze setting It is passed through carbon dioxide gas gel.

In Deng Lupu latex production technology, latex need to be foamed by foaming machine, and latex is the high speed rotation the case where Under, a certain amount of air is injected, latex blisters after mixing with air and carries out curing molding by the effect of curing agent and thermal energy, Emulsion foaming machine is most basic, most important machinery in latex foaming product manufacturing machine, and the quality of emulsion foaming machine is directly closed It is the superiority and inferiority to product quality.The proportion of strict control latex, auxiliary material and air inlet, ability are wanted during emulsion foaming Guarantee that latex reaches the required quality of production.

In process of production, how it is related to all multi-parts and needs to carry out cooling down, such as frothing head, stirring-head etc. It can need to carry out cooling down according to each position, while can be suitable for foaming machine structure is asking for the application solution Topic.

Utility model content

Purpose of utility model: the purpose of the utility model is to provide a kind of liquid seal cans with cooling structure, solve hair Cooling the technical issues of guaranteeing is provided in bubble machine production process for each part position.

Technical solution: the utility model provides a kind of liquid seal can with cooling structure, including liquid seal can ontology, feed liquor Mouth, visor, cooling coil, coolant return line, coolant liquid outlet tube, coil pipe return pipe and coil pipe outlet tube, the cooler pan Pipe is arranged in liquid seal can body interior, and the upper end of liquid seal can ontology is arranged in the inlet, and the visor is arranged in fluid-tight On the side wall of tank ontology, the coolant return line and coolant liquid outlet tube are arranged at the lower end of liquid seal can ontology, and Coolant return line and coolant liquid outlet tube are connected to liquid seal can body interior, the coil pipe return pipe and coil pipe outlet tube difference It is connect with two ends of cooling coil, and coil pipe return pipe and coil pipe outlet tube are stretched from the lower end of liquid seal can ontology Out.The liquid seal can with cooling structure of the utility model, pours coolant liquid in liquid seal can ontology, passes through coolant return line It is constantly carried out with coolant liquid outlet tube, the flowing of the iterative cycles of coolant liquid, it is cold that coolant liquid by coolant liquid outlet tube flow to needs But position, then through coolant return line in back to liquid seal can this subject, since coolant liquid is constantly recycled, temperature Degree rise is high, in order to solve this problem, cooling coil is arranged in liquid seal can ontology, constantly carries out fluid-tight by cooling coil The cooling of the coolant liquid stored in tank ontology, cooling coil are constantly filled with the cold of circulation by coil pipe return pipe and coil pipe outlet tube But liquid is able to maintain coolant liquid in cooling coil and constantly updates, keep the temperature of cooling coil, provides for the cooling of liquid seal can ontology Guarantee, the visor of setting is transparent glass window construction, convenient for check coolant liquid in liquid seal can ontology number.

Further, the above-mentioned liquid seal can with cooling structure, the liquid seal can ontology are cylinder barrel shaped, the fluid-tight The upper end of tank ontology is equipped with upper capping, and the lower end of the liquid seal can ontology is equipped with lower cover, the upper capping and lower cover Section be arc.It is easy to process by the liquid seal can ontology of split-type design, save production cost.

Further, the middle position of the above-mentioned liquid seal can with cooling structure, the lower cover is equipped with sewage pipe, institute Sewage pipe is stated equipped with manual switch valve.The intrinsic coolant liquid of liquid seal can is constantly recycled, inevitable in liquid seal can ontology The particles such as dust impurity are mixed into, impurity excessively will lead to cooling effect decline, and due to gravity, impurity can be deposited on liquid seal can The bottommost of ontology is arranged sewage pipe in the lowest position of arc section lower cover, is convenient for the intrinsic impurity of liquid seal can Discharge.

Further, the above-mentioned liquid seal can with cooling structure, the side wall of the liquid seal can ontology are equipped with fixed connect Fishplate bar.The fixed connecting plate of setting is convenient for the fixed installation of liquid seal can ontology, and liquid seal can ontology is made to keep vertical position.

Further, the above-mentioned liquid seal can with cooling structure, the inlet are equipped with safety valve, the inlet Between safety valve be equipped with washer, the inlet be equipped with slotted nut, the slotted nut safety valve can be fixed on into On liquid mouth.The safety valve of setting can guarantee that gas pressure keeps in a certain range, avoiding liquid seal can ontology in liquid seal can ontology The excessive risk for causing liquid seal can ontology to burst of interior pressure, while being also avoided that in liquid seal can ontology that pressure is too small, causes to cool down Liquid discharge rate reduces.

Further, the above-mentioned liquid seal can with cooling structure, the cooling coil are set in the shape of a spiral along the vertical direction It sets, and the axis of cooling coil is overlapped with the axis of liquid seal can ontology.The cooling coil being vertically arranged in the shape of a spiral is cylindrical in shape It is arranged in liquid seal can ontology, can effectively carries out the cooling of coolant liquid in liquid seal can ontology.

Further, the above-mentioned liquid seal can with cooling structure, settable funnel on the inlet.When with using Between be continuously increased, the coolant liquid of this quantifi-cation of liquid seal can lose a part, be observed in liquid seal can ontology by visor When coolant liquid is lower than visor position, safety valve can be unloaded, in the position of inlet, insertion funnel is added into liquid seal can ontology Coolant liquid keeps coolant liquid in liquid seal can ontology to be in a certain amount of.

Further, the above-mentioned liquid seal can with cooling structure, the upper capping are equipped with air inlet pipe.Air inlet pipe it is another One end is connect with air pump, is constantly filled with certain gas into liquid seal can ontology by air pump, is increased the intrinsic pressure of liquid seal can Power, can increase coolant liquid goes out liquid speed degree, while the safety valve that cooperation is arranged in upper capping, can guarantee gas in liquid seal can Body pressure is in setting value, ensure that the safety of liquid seal can use process.

Further, the side wall of the above-mentioned liquid seal can with cooling structure, the liquid seal can ontology is equipped with drain pipe, The drain pipe is equipped with solenoid valve.The drain pipe of setting can adjust coolant liquid in liquid seal can ontology number, it is extra to be discharged Coolant liquid.

Further, the above-mentioned liquid seal can with cooling structure, radially section is circle, the row to the lower cover The center of lower cover is arranged in dirty pipe, and the coolant return line and coolant liquid outlet tube are symmetricly set on sewage pipe two Side, the coil pipe return pipe and coil pipe outlet tube are symmetricly set on sewage pipe two sides, and the coolant return line is in liquid seal can sheet Intracorporal upper-end part of driving is more than cooling coil.By sewage pipe, coolant return line, coolant liquid outlet tube, coil pipe return pipe and Coil pipe outlet tube is arranged on lower cover, and structure is neat, while coolant liquid outlet tube and coil pipe outlet tube are arranged in lower cover It is upper to be flowed out convenient for liquid, it is higher than cooling coil upper end for what coolant return line protruded into the intrinsic end setting of liquid seal can, The upper end for falling in liquid seal can first convenient for the used coolant liquid of cooling (coolant temperature is higher at this time), with from liquid seal can The discharge of the coolant liquid of bottom outflow.Top coolant liquid constantly declines, and cooling coil is passed through during decline, reduces liquid seal can The temperature of coolant liquid in ontology has reached the lower temperature of coolant liquid when coolant liquid is moved to coolant liquid outlet tube, can Effectively carry out the cooling of components.

Above-mentioned technical proposal can be seen that the utility model has the following beneficial effects: described in the utility model have The liquid seal can of cooling structure, reasonable in design, easy to use, application cost is low, and adaptability is good, by being filled in this liquid seal can Quantitative coolant liquid is constantly recycled, since coolant liquid can heat up after other components that cool, It is provided with cooling coil in liquid seal can ontology to cool down to the coolant liquid in liquid seal can, while in order to guarantee in liquid seal can ontology Coolant liquid is smoothly discharged, and air inlet pipe is arranged in the upper end of liquid seal can, increases the gas pressure in liquid seal can, pushed at high pressure liquid Coolant liquid in sealed cans is constantly discharged from bottom, and flows to other component positions, in order to guarantee to prevent gas using safe Pressure is excessive to cause liquid seal can to damage, liquid seal can upper end setting can safety valve, the gas pressure in liquid seal can be adjusted Power is in the gas pressure in liquid seal can in the range of liquid seal can bears, while keeping the high pressure in liquid seal can, will Coolant liquid discharge, this liquid seal can stable structure is safe and reliable, has a large promotion value.

Detailed description of the invention

Fig. 1 is the explosive view of the liquid seal can described in the utility model with cooling structure；

Fig. 2 is the schematic diagram of internal structure of the liquid seal can described in the utility model with cooling structure；

Fig. 3 is the bottom view of the liquid seal can described in the utility model with cooling structure.

In figure: liquid seal can ontology 1, air inlet pipe 111, lower cover 12, sewage pipe 13, manual switch valve 14, is consolidated at upper capping 11 Determine connecting plate 15, drain pipe 16, solenoid valve 17, inlet 2, safety valve 21, washer 22, slotted nut 23, funnel 24, visor 3, Cooling coil 4, coolant return line 5, coolant liquid outlet tube 6, coil pipe return pipe 7, coil pipe outlet tube 8.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of Describe the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, It is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.In the description of the present invention, unless otherwise indicated, the meaning of " multiple " It is two or more, unless otherwise restricted clearly.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood as the case may be Concrete meaning in the present invention.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it "lower" may include that the first and second features directly contact, and also may include that the first and second features are not direct contacts but lead to Cross the other characterisation contact between them.Moreover, fisrt feature includes above the second feature " above ", " above " and " above " One feature is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.First is special Sign is directly below and diagonally below the second feature including fisrt feature under the second feature " below ", " below " and " below ", or only Indicate that first feature horizontal height is less than second feature.

Embodiment

Liquid seal can with cooling structure as shown in Figure 1, including liquid seal can ontology 1, inlet 2, visor 3, cooler pan Pipe 4, coolant return line 5, coolant liquid outlet tube 6, coil pipe return pipe 7 and coil pipe outlet tube 8, the setting of cooling coil 4 exist Inside liquid seal can ontology 1, the upper end of liquid seal can ontology 1 is arranged in the inlet 2, and the visor 3 is arranged in liquid seal can sheet On the side wall of body 1, the coolant return line 5 and coolant liquid outlet tube 6 are arranged at the lower end of liquid seal can ontology 1, and It is connected to inside coolant return line 5 and coolant liquid outlet tube 6 and liquid seal can ontology 1, the coil pipe return pipe 7 and coil pipe outlet tube 8 connect with two ends of cooling coil 4 respectively, and coil pipe return pipe 7 and coil pipe outlet tube 8 are from liquid seal can ontology 1 Lower end is stretched out.The application's needs cooling position to foaming machine by the way that quantitative coolant liquid is arranged in liquid seal can ontology 1 It cools down, the coolant liquid flowed out out of liquid seal can ontology 1 temperature after using can increase, in order to reduce liquid seal can sheet Cooling coil 4 is arranged in the temperature of coolant liquid in body 1 in liquid seal can ontology 1, and cooling coil 4 passes through 7 He of coil pipe return pipe The constantly circulation of coil pipe outlet tube 8, which pours, is discharged new coolant liquid, and cooling coil 4 is kept to be in lower temperature always.Wherein, such as Cooling coil 4 shown in Fig. 2 is arranged in the shape of a spiral along the vertical direction, and the axis of the axis of cooling coil 4 and liquid seal can ontology 1 Line is overlapped.Cooling coil 4 formed tubular construction, can will in 4 circumference of cooling coil and circumference outside liquid seal can ontology 1 in it is cold But liquid cools down simultaneously.In addition, liquid seal can ontology 1 is cylinder barrel shaped, the upper end of the liquid seal can ontology 1 is equipped with upper capping 11, the lower end of the liquid seal can ontology 1 is equipped with lower cover 12, and the section of the upper capping 11 and lower cover 12 is arc. By the liquid seal can of sectional design, convenient for being arranged cooling coil 4 in liquid seal can, while difficulty of processing is reduced, thus Reduce production cost.Again, it since the coolant liquid in liquid seal can ontology 1 constantly flows in foaming machine component, may mix Enter dust or other impurities, under the effect of gravity due to particulate matter, is necessarily deposited on the lowest part of liquid seal can ontology 1, therefore It is equipped with sewage pipe 13 in the middle position of lower cover 12, the sewage pipe 13 is equipped with manual switch valve 14.What is be arranged opens manually Closing valve 14 can periodically open, and impurity is discharged.For the ease of cylindric liquid seal can ontology 1 to be fixed on foaming machine, in fluid-tight The side wall of tank ontology 1 is equipped with fixed connecting plate 15.When coolant liquid is higher than setting value in liquid seal can ontology 1 in liquid seal can ontology 1 When, it needs for coolant liquid to be discharged, drain pipe 16 is equipped on the side wall of liquid seal can ontology 1, the drain pipe 16 is equipped with electromagnetism Valve 17 can carry out the discharge of coolant liquid.

In addition, the application needs the longer path of coolant flow, therefore cold in order to guarantee during cooling foaming machine But liquid smoothly flows in foaming machine, needs high pressure that coolant liquid is released liquid seal can ontology 1, and pushes coolant liquid mobile, therefore It is equipped with air inlet pipe 111 in upper capping 11, air inlet pipe 111 is connect with air pump, a certain amount of gas is filled with into liquid seal can ontology 1, The high pressure in liquid seal can ontology 1 is kept, so that coolant flow is pushed, due to being filled with gas by air inlet pipe 111, with fluid-tight Coolant liquid loopy moving in tank ontology 1 can cause stable gas pressure in liquid seal can ontology 1, therefore safety valve is equipped on inlet 2 21, washer 22 is equipped between the inlet 2 and safety valve 21, the inlet 2 is equipped with slotted nut 23, the fluting spiral shell Safety valve 21 can be fixed on inlet 2 by mother 23.The safety valve 21 of setting can prevent in liquid seal can ontology 1 air pressure excessive or mistake It is small, by the safety valve 21 that slotted nut 23 is fixed, it is convenient for dismantling, after safety valve 21 is removed, can be set on inlet 2 Set funnel 24.Coolant liquid is added into liquid seal can ontology 1 by funnel 24.

Radially section is circle to lower cover 12 as shown in Figure 3, and the center of lower cover 12 is arranged in the sewage pipe 13 Position, the coolant return line 5 and coolant liquid outlet tube 6 are symmetricly set on 13 two sides of sewage pipe, 7 He of coil pipe return pipe Coil pipe outlet tube 8 is symmetricly set on 13 two sides of sewage pipe, upper-end part of driving of the coolant return line 5 in liquid seal can ontology 1 In 4 or more cooling coil.Sewage pipe 13 is arranged in the center of lowest part, is deposited convenient for impurity.Coil pipe return pipe 7 with it is cold But the lower end connection of coil pipe 4, coil pipe outlet tube 8 are connect with the upper end of cooling coil 4, the cooling in such cooling coil 4 Liquid is by down toward upper flowing.The position that coolant return line 5 is arranged is higher than the upper end of cooling coil 4, by the temperature used The top that higher coolant liquid is back to liquid seal can ontology 1 first is spent, with the constantly discharge coolant liquid of coolant liquid outlet tube 6, liquid Top coolant liquid moves down in sealed cans ontology 1, while by there is the coolant liquid flowed from bottom to top in cooling coil 4, cooling The coolant liquid that coolant liquid cooling first in coil pipe 4 will be discharged from coolant liquid outlet tube 6, then cools down on liquid seal can ontology 1 The coolant liquid of side, final cooling coil 4 are flowed out from the coil pipe outlet tube 8 of top, and the coolant liquid in liquid seal can ontology 1 is from top to bottom Mobile, the coolant liquid in cooling coil 4 moves from the bottom to top, and reversed movement ensure that the coolant liquid from liquid seal can ontology 1 goes out The temperature for the coolant liquid that liquid pipe 6 is discharged reaches requirement, and cooling effect is good.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without departing from the principle of this utility model, several improvement can also be made, these improvement also should be regarded as The protection scope of the utility model.

Claims (10)

1. a kind of liquid seal can with cooling structure, it is characterised in that: including liquid seal can ontology (1), inlet (2), visor (3), cooling coil (4), coolant return line (5), coolant liquid outlet tube (6), coil pipe return pipe (7) and coil pipe outlet tube (8), Cooling coil (4) setting is internal in liquid seal can ontology (1), upper end of inlet (2) setting in liquid seal can ontology (1) Portion, the visor (3) are arranged on the side wall of liquid seal can ontology (1), the coolant return line (5) and coolant liquid outlet tube (6) lower end of liquid seal can ontology (1), and coolant return line (5) and coolant liquid outlet tube (6) and liquid seal can are arranged at Connection inside ontology (1), the coil pipe return pipe (7) and coil pipe outlet tube (8) connect with two ends of cooling coil (4) respectively It connects, and coil pipe return pipe (7) and coil pipe outlet tube (8) are stretched out from the lower end of liquid seal can ontology (1).

2. the liquid seal can according to claim 1 with cooling structure, it is characterised in that: the liquid seal can ontology (1) is The upper end of cylinder barrel shaped, the liquid seal can ontology (1) is equipped with upper capping (11), and the lower end of the liquid seal can ontology (1) is set Have lower cover (12), the section of the upper capping (11) and lower cover (12) is arc.

3. the liquid seal can according to claim 2 with cooling structure, it is characterised in that: the centre of the lower cover (12) Position is equipped with sewage pipe (13), and the sewage pipe (13) is equipped with manual switch valve (14).

4. the liquid seal can according to claim 1 with cooling structure, it is characterised in that: the liquid seal can ontology (1) Side wall is equipped with fixed connecting plate (15).

5. the liquid seal can according to claim 1 with cooling structure, it is characterised in that: the inlet (2) is equipped with Safety valve (21) is equipped with washer (22) between the inlet (2) and safety valve (21), and the inlet (2) is equipped with fluting Safety valve (21) can be fixed on inlet (2) by nut (23), the slotted nut (23).

6. the liquid seal can according to claim 1 with cooling structure, it is characterised in that: the cooling coil (4) is along perpendicular Histogram to being arranged in the shape of a spiral, and the axis of cooling coil (4) is overlapped with the axis of liquid seal can ontology (1).

7. the liquid seal can according to claim 1 with cooling structure, it is characterised in that: can be set on the inlet (2) Set funnel (24).

8. the liquid seal can according to claim 2 with cooling structure, it is characterised in that: the upper capping (11) is equipped with Air inlet pipe (111).

9. the liquid seal can according to claim 8 with cooling structure, it is characterised in that: the liquid seal can ontology (1) Side wall is equipped with drain pipe (16), and the drain pipe (16) is equipped with solenoid valve (17).

10. the liquid seal can according to claim 3 with cooling structure, it is characterised in that: the lower cover (12) is along diameter It is circle to section, the sewage pipe (13) setting is in the center of lower cover (12), the coolant return line (5) and cold But liquid outlet tube (6) is symmetricly set on sewage pipe (13) two sides, and the coil pipe return pipe (7) and coil pipe outlet tube (8) are symmetrically set It sets in sewage pipe (13) two sides, upper-end part of driving of the coolant return line (5) in liquid seal can ontology (1) is in cooling coil (4) more than.