CN201819579U - Second-generation double-tee glass condenser - Google Patents

Abstract

The utility model discloses a second-generation double-tee glass condenser which is invented for solving the problems of poor effects of condensing and extracting water-free smoke fog and the like. The second-generation double-tee glass condenser comprises a water segregator, a filter, a refrigeration box, a first condenser and a second condenser, wherein a first spiral pipe, a second spiral pipe, a first straight pipe and a second straight pipe are arranged in housings of the condensers and respectively communicated with a first separator and a second separator, a first inlet, a second inlet, a first outlet and a second outlet are arranged at the tops of the housings, and a first drainage port and a second drainage port are arranged at the bottoms of the housings. A smoke exhaust port of the water segregator outside the refrigeration box is connected with the first inlet of the first condenser, and an inlet and an outlet of the filter are respectively connected with the first outlet and the second inlet of the first condenser. The smoke fog passes through the spiral pipes continuously for two times of quick cooling, and condensed water drips in the air from water dripping pipes in the separators and is drained respectively from the drainage ports. Smoke conveying port pipes are respectively arranged in the second condenser and the second separator for conveying smoke in the air, thereby preventing the water on the inner walls of the separators from entering into the straight pipes and realizing short condensation time and high efficiency; and water vapor in the smoke fog is condensed into water which is drained from the drainage ports, thereby extracting the water-free smoke fog, and being used for continuous monitoring of an instrument.

Description

The two threeway glass condensers of the second generation

Technical field

The utility model relates to a kind of two threeway glass condensers of the second generation that are used for purifying the steam of smog.

Background technology

Be mainly used in the smog of the smokestack discharging of units such as industrial and mining enterprises, filter dust out with pony pump continuous drawing part smog, increase temperature 180 degrees centigrade to 200 degrees centigrade, cool off fast continuously by the two threeway glass condensers of the different second generation of two structures of the present utility model, be reduced to 2-3 degree centigrade rapidly from high temperature, steam contained in the smog is condensed into water, all extract and separate, reach no moisture smog standard, carry the supply analysis instrument to use continuously with oil-free small-sized pump again with the harmful substance of carrying out in the continuous monitoring smog.

The moisture of original pair of first and second separator inwall of threeway glass condenser easily enters first and second straight tube, and is relatively poor to extracting no moisture haze effect.

The bottom of original glass trap is flat shape, easy ponding, and result of use is relatively poor.

Original second filter glass outer cover internal thread suitable for reading is relatively poor, does not have circumferential step in mouthful, can't add rubber cushion sealing leakiness smog.

The utility model content

In order to overcome above-mentioned defective, the purpose of this utility model be to provide a kind of high temperature resistant, corrosion-resistant, performance is good, cooling velocity is further accelerated, transparently be convenient to observe, different two threeway glass condensers of the second generation of two structures that volume is little.First and second separator internal upper part of the two threeway glass condensers of described first second generation is provided with short type weep pipe separately and is communicated with separately with first and second helix tube.Weep pipe is positioned at the first semicircle spheroid separator rear portion in first separator of the two threeway glass condensers of described first second generation, and it is anterior that weep pipe is positioned at the second semicircle spheroid separator in second separator, is communicated with separately with first and second helix tube.First and second separator internal upper part of the two threeway glass condensers of described second second generation is provided with microscler weep pipe separately and is communicated with separately with first and second helix tube; Described weep pipe drips in the air, at described first and second separator inner top defeated mouth pipe is set separately and is communicated with separately with first and second straight tube; Described defeated mouth pipe carries out defeated cigarette in the air, controls the moisture of first and second separator inwall and avoids entering first and second straight tube, has reached the no moisture smog acceptable quality level of extraction.

In order to achieve the above object, the two threeway glass condensers of the second generation of the present utility model comprise the small-sized refrigerating case, are installed in two structure differences of described small-sized refrigerating case inside, interconnective first and second two threeway glass condenser of the second generation.The described glass trap that is installed in small-sized refrigerating case outside, described glass trap advances mouth and is connected with the outlet of extracting smog pipeline and the heater and first filter, and described glass trap upper right exhaust opening enters the mouth with first of first second generation pair threeway glass condenser wherein and is connected; The described second filter glass outer cover that is installed in small-sized refrigerating case outside is covered with import and outlet on the described second filter glass outer cover, and the import of described second filter is connected with first outlet of the two threeway glass condensers of first second generation; The outlet of described second filter is connected with second inlet of the two threeway glass condensers of first second generation; Two threeway glass condenser second outlets of described first second generation are connected with two threeway glass condenser first inlets of described second second generation.

Particularly, the two threeway glass condensers of described first and second second generation include:

Shell, first and second helix tubes, first and second straight tubes, first and second separators, first and second weep pipes, the first and second defeated mouth pipes, thermal detector sleeve pipe, screw thread mouth joint are round tube, make by the high-boron-silicon glass material.

Described first and second two threeway glass condenser of the second generation, be separately positioned on first and second helix tubes, first and second straight tubes in the described shell, the upper end is upwards corresponding respectively to be provided with first inlet, second inlet, first outlet, second outlet of stretching out described cover top portion; Seal the anti-icing fluid that is filled with-25 ℃～-30 ℃ between described enclosure and described first helix tube, second helix tube, first straight tube, second straight tube, first separator and second separator.

Inside is respectively arranged with first separator and second separator at the bottom of the shell of described first and second the two threeway glass condensers of the second generation, described first separator and second separator are semicircle spheroid, wherein first separator is communicated with first helix tube and first straight tube, and described second separator is communicated with second helix tube and second straight tube; Corresponding respectively downwards first discharge outlet and second discharge outlet of stretching out described outer casing bottom that be provided with of described first separator and second separator; First helix tube and second helix tube are corresponding respectively to be provided with weep pipe to described first separator and the extension of the second separator internal upper part.

Wherein, the cover top portion center of the two threeway glass condensers of described second second generation is provided with circular thermal detector sleeve pipe, described thermal detector sleeve pipe is positioned at the middle and upper part, space of the shell first and second helix tube coaxial surrounding, described thermal detector sleeve bottom is circular, in being communicated with the thermal detector sleeve pipe for the round tube upper shed that stretch out at the cover top portion center of the two threeway glass condensers of described second second generation.

Further, described first first helix tube with the two threeway glass condensers of second second generation is identical with the second helix tube coaxial surrounding diameter.Described first straight tube and second straight tube all be arranged on described first helix tube and second helix tube jointly around the space in, described weep pipe lower end lays respectively at middle and upper part in described first, second separator, described weep pipe lower ending opening is domatic, and described slop shape port position tilts slightly to the center separately with in described first, second separator.

Wherein, described first helix tube is identical with the staggered coaxial surrounding diameter of the second helix tube two-way, is convenient to the unification of appearance and size.

Wherein, described cover top portion first inlet, second inlet, first outlet, second outlet and outer casing bottom first discharge outlet, second discharge outlet are respectively arranged with round tube screw thread mouth joint.

Particularly, first and second separators of second two threeway glass condenser of the second generation are semicircle spheroid, described semicircle spheroid separator top is provided with import, described first helix tube and second helix tube correspondence respectively penetrate described first separator and the second separator upper inlet position is provided with the connection weep pipe, and described weep pipe length is greater than 1/2 of defeated mouth length of tube; Described semicircle spheroid separator top is provided with outlet, described first straight tube and second straight tube correspondence respectively stretch into described first separator and the second separator top exit position and are provided with and are communicated with defeated mouth pipe, and described defeated mouth length of tube is less than 1/2 of weep pipe length; The delivery port of described semicircle spheroid first separator and second separator is corresponding respectively to be communicated with separately with described outer casing bottom first discharge outlet and second discharge outlet.The top and the bottom of the two threeway glass condenser shells of the described second generation are flat shape, and described shell, first and second helix tubes, first and second straight tubes, screw thread mouth joint are round tube.

Further, described screw thread mouth joint is made by the high-boron-silicon glass material.

The described glass trap that is installed in small-sized refrigerating case outside comprises shell, interior straight tube, screw thread mouth joint.Described glass trap cover top portion is flat shape, and outer casing bottom is that circle is difficult for ponding.It is corresponding with described discharge outlet that described interior straight tube under shed is domatic, advances certainly in interior straight tube of mouth connection and the shell to be communicated with exhaust opening.Described interior straight tube advances mouth with cover top portion and is communicated with, and described glass trap cover top portion is stretched out and is provided with into mouth, and the shell upper right side is stretched out and is provided with exhaust opening, and outer casing bottom stretches out and is provided with discharge outlet.Describedly advance mouth, exhaust opening, discharge outlet and be provided with the screw thread mouth joint.Described glass trap shell, interior straight tube, screw thread mouth joint are round tube, make by the high-boron-silicon glass material.Described glass trap advances mouth and is connected with the outlet of extracting smog pipeline and the heater and first filter.Described glass trap exhaust opening is connected with two threeway glass condenser first inlets of described first second generation.

Further, described glass trap advances mouth, exhaust opening and the discharge outlet protruding round tube screw thread mouth joint that is provided with from cover top portion, bottom and upper right side respectively.

The described outside second filter glass outer cover of small-sized refrigerating case that is installed in, the described second filter glass outer cover comprise that shell, inner thread mouth, a mouthful inner periphery step are round tube, make by the high-boron-silicon glass material.The described second filter glass outer cover is that upper shed is provided with internal thread; mouth internal thread bottom is provided with circumferential step; for adding the rubber cushion sealing; mouth wall thickness center, limit is provided with the refractory metal ring and position suitable for reading glass sealing is made; add a cover for the inner thread mouth of anticorrosion and the reinforcement protection second filter glass outer cover and to tighten not fragilely, described second filter glass outer cover bottom is rounded.The loam cake of the described second filter glass outer cover inner thread mouth is provided with import and outlet, smog is carried out the second time filter, further dust out.The loam cake import of the described second filter glass outer cover is connected with first outlet of the two threeway glass condensers of described first second generation, the upper cover outlet of the described second filter glass outer cover is connected with second inlet of the two threeway glass condensers of first second generation, and second outlet of the two threeway glass condensers of described first second generation is connected with first inlet of the two threeway glass condensers of second second generation.

The two threeway glass condensers of the second generation of the present utility model are taked to install two structures different first and second second generation pair threeway glass condenser and are connected use in a small-sized refrigerating case, further improve cooling velocity.With pony pump continuous drawing part smog dust out after filtration, increase temperature 180-200 degree centigrade, interconnect continuously by the two threeway glass condensers of the different second generation of two structures and to cool off fast, being reduced to 2-3 degree centigrade rapidly becomes water all to extract the steam rapid condensation contained in the smog and separates, reach no moisture smog standard, the harmful substance that the supply analysis instrument is carried out in the continuous monitoring smog is used.

The two threeway glass condensers of the second generation that described two structures are different mainly solve the steam that will contain in the smog and all extract and separate, concrete operation principle is: with pony pump continuous drawing part smog, filter dust out, increase temperature 180 degrees centigrade to 200 degrees centigrade, enter cover top portion first inlet in proper order by the two threeway glass condensers of this first second generation, being communicated with first helix tube cools off fast, smog is communicated with the cover top portion first outlet output from first straight tube, entering the second inlet connection, second helix tube again cools off continuously fast, smog is communicated with the top second outlet output from second straight tube, enter first inlet of the two threeway glass condensers of second second generation again, being communicated with first helix tube cools off continuously fast, smog is communicated with the cover top portion first outlet output from first straight tube, enter the second inlet connection, second helix tube again and cool off fast continuously, smog is communicated with the top second outlet output from second straight tube.Extracted the no moisture smog of acceptable quality level, carried the different types of harmful substance of supplying with in the 1-2 platform analysis meter continuous monitoring simultaneously smog of 1-2 item to use continuously with oil-free small-sized pump.

The center is provided with the thermal detector sleeve pipe in the top of the two threeway glass condensers of described second second generation, and described thermal detector sleeve pipe is arranged in the space of the first and second helix tube coaxial surrounding.Described thermal detector sleeve pipe is a round tube, and the bottom is rounded, protrudes upward the round tube upper shed from the cover top portion center, in order to carry out accurate thermometric and A.T.C.

The overall diameter of described first and second the two threeway glass condenser shells of the second generation carries out the rounding glossing, reaches the related process standard, and the metal sleeve inner periphery space of packing into is less, passes the fast effect of speed of cooling to reach.

By the two threeway glass condensers of the different second generation of two structures of the utility model with the part smog of continuous drawing respectively by first, two helix tubes are each twice cooling fast continuously, cooling effectiveness is higher, water vapor condensation Cheng Shuijing weep pipe in the smog drips respectively separately in first separator and second separator respectively moisture is all extracted and separates, discharge separately from described outer casing bottom first discharge outlet and second discharge outlet, smog is exported from first outlet through first straight tube, be communicated with second helix tube from second inlet again and cool off fast continuously, the no moisture smog that purifies is exported output from second of second straight tube connection; Described weep pipe is controlled the moisture of first separator and the second separator inwall, enters first and second straight tubes to avoid moisture.

Description of drawings

Fig. 1 is a glass trap specific embodiment structural representation of the present utility model.

Fig. 2 is the two threeway glass condenser master TV structure schematic diagrames of first second generation of the present utility model.

Fig. 3 is the plan structure schematic diagram of Fig. 2.

Fig. 4 looks and right TV structure schematic diagram for the separator left side of the two threeway glass condensers of first second generation of Fig. 2.

Fig. 5 is the two threeway glass condenser master TV structure schematic diagrames of second second generation of the present utility model.

Fig. 6 is the plan structure schematic diagram of Fig. 5.

Fig. 7 is the second filter glass cover structure schematic diagram of the present utility model.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is described in further detail.

Shown in Fig. 1-7, the two threeway glass condensers of the second generation of the present utility model, comprise the small-sized refrigerating case, be arranged on two structure differences of described small-sized refrigerating case inside, the two threeway glass condensers of interconnective first and second second generation, and the glass trap and the second filter glass outer cover that are arranged on described small-sized refrigerating case outside.Wherein, the two threeway glass condensers of the second generation are made by the high-boron-silicon glass material, comprise: shell 1, be separately positioned in the described shell, upwards corresponding respectively first inlet, 210, second inlet 220, first that stretches out described cover top portion that is provided with of first helix tube 21, second helix tube 22, first straight tube 11 and second straight tube 12, upper end exports 110, second outlet 120; Wherein, described first inlet, 210, second inlet, 220, first outlet, 110, second outlet 120 is positioned at described shell 1 outer top, shown in Fig. 2, Fig. 5.Inside is respectively arranged with and is communicated with described first separator 10 and is communicated with described first helix tube and first straight tube, described second separator 20 and described second helix tube of connection and second straight tube at the bottom of described shell.Described first separator and second separator are corresponding respectively downwards to be provided with first discharge outlet 40 and second discharge outlet 50 of stretching out described outer casing bottom, and described first discharge outlet 40 and second discharge outlet 50 are positioned at described shell 1 outer bottom; First helix tube of the two threeway glass condensers of described first second generation and second helix tube are corresponding respectively to be provided with short type weep pipe 100 to described first separator and the extension of the second separator internal upper part import position, and described first straight tube and second straight tube are communicated with separately with described first separator and the second separator top exit position respectively; First separator that first helix tube of the two threeway glass condensers of described second second generation and second helix tube are communicated with and the second separator internal upper part extend respectively and are provided with elongated weep pipe 100, described first separator and the second separator inner top are respectively arranged with defeated mouth pipe 200, are communicated with separately with first straight tube 11 and second straight tube 12; The length of described weep pipe is greater than 1/2 of defeated mouth length of tube, the weep pipe end opening is positioned at defeated mouth pipe lower end, described thermal detector sleeve pipe 16 is arranged on middle and upper part in the two threeway glass condensers of described second second generation, be positioned at first and second helix tube coaxial surrounding space, stretch out the round tube upper shed from the cover top portion center.

The anti-icing fluid that is filled with-25 ℃～-30 ℃ in the seal cavity between described enclosure first helix tube, second helix tube, first straight tube, second straight tube, first separator and the second separator outer wall and the described outer casing inner wall is for passing cold use.

Wherein, described first first helix tube with the two threeway glass condensers of second second generation is identical around diameter with the coaxial setting of second helix tube.Described first straight tube and second straight tube be arranged on described first helix tube and second helix tube jointly around the space in, described weep pipe end opening lays respectively in described first separator and second separator middle and upper part and to the center inclination is arranged slightly from top to bottom along upper wall in it, and described weep pipe lower ending opening is domatic.Wherein, described shell, first helix tube, second helix tube, first straight tube, second straight tube, screw thread mouth joint are round tube.

The above-mentioned structure that is provided with is further accelerated cooling velocity, improves condensation efficiency, and the shell space availability ratio of inner is further improved, and it is littler to make that the volume of shell is provided with, and the installation site is more flexible, and is very easy to use.

Wherein, first helix tube is identical around diameter with second helix tube.In the specific embodiment of the utility model, first helix tube and second helix tube are around the identical unification of being convenient to appearance and size of diameter, and enclosure space utilization efficient is higher, and it is more accurate that performance parameter is calculated.

Is connected with the two threeway glass condensers of second second generation are convenient for described first further, described first inlet, second inlet, first outlet, second exports and first discharge outlet, second discharge outlet are respectively arranged with screw thread mouth joint 30.

First separator 10 and second separator 20 are semicircle spheroid in described first and the two threeway glass condenser shells of second second generation, described first separator upper inlet 101 and outlet 102, described second separator upper inlet 201 and outlet 202, described first, two separator bottom delivery ports 103 and 203, described first helix tube 21 is arranged on the first separator upper inlet 101 and is communicated with cover top portion first inlet 210, described second helix tube 22 is arranged on the second separator upper inlet 201 and is communicated with cover top portion second inlet 220, described first straight tube 11 is arranged on the first separator top exit 102 and is communicated with cover top portion first outlet 110, and described second straight tube 12 is arranged on the second separator top exit 202 and is communicated with cover top portion second outlet 120.The described first separator bottom delivery port 103 is communicated with described first discharge outlet 40, and the described second separator bottom delivery port 203 is communicated with described second discharge outlet 50.Described first and second defeated mouth pipe 200 is communicated with separately with first and second straight tube of the two threeway glass condensers of described second second generation, and described first and second weep pipe 100 is communicated with separately with described first and second helix tube.

First of described first and second the two threeway glass condenser inside of the second generation, the weep pipe that two semicircle spheroid separator internal upper part import positions are provided with separately is corresponding respectively to be communicated with separately with first helix tube and second helix tube, weep pipe in first separator and the weep pipe in second separator drip in first separator He in second separator separately in the air, the moisture that has separated is from first, the delivery port of the second separator bottom be communicated with separately first, second discharge outlet is discharged, control the moisture of the first and second separator inwalls, avoid entering first and second straight tubes; First, second separator inner top outlet position of the two threeway glass condensers of described second second generation is provided with defeated mouth pipe separately, the defeated mouth pipe that is communicated with in first and second separator carries out defeated cigarette separately in the air, be communicated with first, second straight tube from first, second defeated mouth pipe and export separately, further control the moisture of the first and second separator inwalls and avoid entering first and second straight tubes.

Described glass trap advances mouth and is connected with the outlet of extracting smog pipeline and the heater and first filter, described glass trap upper right exhaust opening is connected with first inlet of the two threeway glass condensers of first second generation wherein, described glass trap comprises shell 6, interior straight tube 60, the top is provided with into mouth 61, the bottom is provided with discharge outlet 62, and upper right is provided with exhaust opening 63 and advances mouth and be communicated with.It is corresponding with described discharge outlet that described interior straight tube under shed is domatic, advances mouth certainly along being communicated with exhaust opening in the described glass trap shell.Described cover top portion is flat shape, and the bottom is rounded.Straight tube extends to its bottom discharge mouth top in described.Advance mouth, exhaust opening and the discharge outlet of institute-state are stretched out in described glass trap shell outside respectively and are provided with the screw thread mouth joint.

The import of the described second filter glass outer cover loam cake is connected with first outlet of the two threeway glass condensers of first second generation, the outlet of the described second filter glass outer cover loam cake is connected with second inlet of the two threeway glass condensers of described first second generation, be provided with internal thread 70 in the described second filter glass outer cover 7 is suitable for reading, be provided with circumferential step 71 in mouthful, upper brim wall thickness center is provided with refractory metal ring 72 and makes with position suitable for reading glass sealing.

Above-mentioned structure, the glass trap of part smog through being installed in small-sized refrigerating case outside of continuous drawing advanced straight tube in the mouth connection, smog is discharged from shell upper right side exhaust opening, with smog from the outside a part of water to indoor conveying discharge from the outer casing bottom discharge outlet.

Described glass trap exhaust opening is connected with first inlet of the two threeway glass condensers of first second generation, once cool off fast continuously through first helix tube, the smog of condensation exports the import that enters second filter through first of first straight tube, carrying out the second time filters, smog is from the outlet output of second filter, enter two threeway glass condenser second inlets of first second generation, through second helix tube smog being carried out secondary continuously again cools off fast, export through second outlet by second straight tube, enter first inlet that connects the two threeway glass condensers of second second generation again, repeat above-mentioned steps, carry out four fast coolings continuously, the no moisture smog that has reached acceptable quality level from the continuous output of second outlet of the two threeway glass condensers of second second generation is carried the different types of harmful substance use of supplying with the 1-2 platform analysis meter continuous monitoring simultaneously smog of 1-2 item continuously with oil-free small-sized pump.

The utility model is not limited to above-mentioned embodiment, no matter do any variation on its shape or structure, every to utilize the two threeway glass condensers of the above-mentioned second generation all be a kind of distortion of the present utility model, all should think and drop within the utility model protection domain.

Claims (11)

1. two threeway glass condensers of the second generation, it is characterized in that: comprise the small-sized refrigerating case, be installed in two structure differences of described small-sized refrigerating case inside, interconnective first and second two threeway glass condenser of the second generation, the described mouth that advances that is installed in the glass trap of small-sized refrigerating case outside is connected with the extraction smog pipeline and first filter outlet, the exhaust opening of described glass trap is connected with first inlet of the two threeway glass condensers of first second generation, the described loam cake import that is installed in the second filter glass outer cover of small-sized refrigerating case outside is connected with first outlet of the two threeway glass condensers of first second generation, the upper cover outlet of the described second filter glass outer cover is connected with second inlet of the two threeway glass condensers of first second generation, and second outlet of described first two threeway glass condenser is connected with first inlet of described second two threeway glass condenser.

2. the two threeway glass condensers of the second generation as claimed in claim 1 is characterized in that: described first and second second generation pair threeway glass condenser include:

Shell is made by the high-boron-silicon glass material; Be separately positioned on first helix tube, second helix tube, first straight tube and second straight tube made by the high-boron-silicon glass material in the described shell; The upper end is upwards corresponding respectively to be provided with first inlet, second inlet, first outlet, second outlet of stretching out described cover top portion; Seal the anti-icing fluid that is filled with-25 ℃～-30 ℃ between described enclosure and described first helix tube, second helix tube, first straight tube, second straight tube, first separator and second separator.

3. the two threeway glass condensers of the second generation as claimed in claim 2, it is characterized in that: inside is respectively arranged with first separator, second separator, described first separator and second separator and is semicircle spheroid at the bottom of the shell of described first and second the two threeway glass condensers of the second generation, and wherein first separator is communicated with first helix tube and first straight tube; Described second separator is communicated with second helix tube and second straight tube; The bottom of described first separator and second separator is provided with corresponding respectively first discharge outlet and second discharge outlet of stretching out described outer casing bottom that be provided with of delivery port downwards; First helix tube and second helix tube are corresponding respectively to be provided with weep pipe to described first separator and the extension of the second separator internal upper part, and the cover top portion and the bottom of described first and second the two threeway glass condensers of the second generation are flat shape.

4. the two threeway glass condensers of the second generation as claimed in claim 3 is characterized in that: first straight tube of the two threeway glass condensers of described second second generation and second straight tube are corresponding respectively to be provided with defeated mouth pipe to described first separator and the extension of the second separator inner top; The length of the defeated relatively mouth pipe of wherein said weep pipe length is greater than 1/2; The cover top portion center of the two threeway glass condensers of described second second generation is provided with circular thermal detector sleeve pipe, and described thermal detector sleeve pipe is positioned at the middle and upper part, space of the shell first and second helix tube coaxial surrounding; Described thermal detector sleeve bottom is circular, and it is upper shed that described thermal detector sleeve pipe stretches out round tube from the cover top portion center of the two threeway glass condensers of second second generation.

5. the two threeway glass condensers of the second generation as claimed in claim 4, it is characterized in that: described first first helix tube with the two threeway glass condensers of second second generation is identical with the second helix tube coaxial surrounding diameter, described first straight tube and second straight tube all be arranged on described first helix tube and second helix tube jointly around the space in, described weep pipe lower end lays respectively at middle and upper part in described first, second separator, described weep pipe lower ending opening is domatic, and described slop shape port position tilts to the center slightly with described first, second separator inwall separately.

6. the two threeway glass condensers of the second generation as claimed in claim 5, it is characterized in that: cover top portion first inlet, second inlet, first outlet, second outlet of described first and the two threeway glass condensers of second second generation, and outer casing bottom first discharge outlet, second discharge outlet are respectively arranged with round tube screw thread mouth joint.

7. the two threeway glass condensers of the second generation as claimed in claim 6, it is characterized in that: first separator and second separator of the two threeway glass condensers of described second second generation are semicircle spheroid, described semicircle spheroid separator top is provided with import, described first helix tube and second helix tube correspondence respectively penetrate described first and second separator upper inlet position and are provided with the connection weep pipe, and described weep pipe length is greater than 1/2 of defeated mouth length of tube; Described semicircle spheroid separator top is provided with outlet, and described first straight tube and second straight tube correspondence respectively stretch into described first and second separator top exit position and be provided with and be communicated with defeated mouth pipe, and described defeated mouth length of tube is less than 1/2 of weep pipe length; Described semicircle spheroid separator bottom is provided with delivery port, and the delivery port of described first and second separator is corresponding respectively to be communicated with separately with described outer casing bottom first discharge outlet and second discharge outlet; Described shell, first and second helix tube, first and second straight tube, the screw thread mouth joint is round tube.

8. the two threeway glass condensers of the second generation as claimed in claim 7, it is characterized in that: the shell of first and second the two threeway glass condensers of the second generation that described two structures are different, first and second helix tube, first and second straight tube, semicircle spheroid separator, weep pipe, defeated mouth pipe, thermal detector sleeve pipe, screw thread mouth joint are round tube, make by the high-boron-silicon glass material.

9. the two threeway glass condensers of the second generation as claimed in claim 8, it is characterized in that: the overall diameter of described first and second the two threeway glass condenser shells of the second generation carries out the rounding glossing, the metal sleeve inner periphery space of packing into is less, passes the fast effect of speed of cooling to reach.

10. the two threeway glass condensers of the second generation as claimed in claim 9, it is characterized in that: the glass trap that is installed in small-sized refrigerating case outside, be provided with interior straight tube in the described glass trap shell, the straight tube under shed is that domatic is corresponding with the outer casing bottom discharge outlet in described, described glass trap cover top portion is flat shape, the bottom is rounded, stretches out from cover top portion to be provided with into that mouth is communicated with interior straight tube, described interior straight tube and shell is interior is communicated with exhaust opening; Described outer casing bottom stretches out and is provided with discharge outlet, and described shell upper right side is stretched out and is provided with exhaust opening; Advance mouth, discharge outlet, the exhaust opening of described glass trap are provided with the screw thread mouth joint separately; Described glass trap comprises that shell, interior straight tube, screw thread mouth joint are round tube, make by the high-boron-silicon glass material.

11. the two threeway glass condensers of the second generation as claimed in claim 10, it is characterized in that: the second filter glass outer cover that is installed in small-sized refrigerating case outside, the described second filter glass outer cover is that upper shed is provided with internal thread, a mouthful internal thread bottom is provided with circumferential step, and a mouthful wall thickness center, limit is provided with the refractory metal ring and position suitable for reading glass sealing is made; Be covered with import and outlet on the described second filter glass outer cover inner thread mouth, separately with the second filter glass outer cover internal communication; The described second filter glass outer cover comprises that shell, inner thread mouth, inner periphery step, becket, outer cover bottom are rounded, is round tube, makes by the high-boron-silicon glass material.

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