FI61412B - THERMOSTATSTYRD BLANDARE FOER TVAO VAETSKOR - Google Patents

Description

ESär ^ l M (H) MOON, LUTUSJLAKA, SU 61412

JggJä lJ UTLÄGGNINGSSKRIFT U

(51) Kv.ik? /Int.ci.3 B 01 P 15/00 // P 16 K 19/00 FINLAND — FINLAND (11) Pat «nttlhtk« miM - PatantanatMcning 771950 (22) Hakamltpilvi - Anaöknlngadag 22.06.77 (23) Alkuptivi — Clltl | hatsdag 22.06.77 (41) Interpreters for Public - Bllvlt offantllg 2t.12.77

Patent · j »Registry Managed * (44) NihavUulf-non |. HEADSIDE Date, approx

Patent- och ragistarstyralsan Anekin published and published 30.04. 82 (32) (33) (31) Requested atuolkaua — Sagird priorities 2 3. θ6.76

Sweden-Sverige (SE) 7607185-1 (71) Aktiebolaget Vargarda Armaturfabrik, Box 69, S — UO 20 Vargarda, Sweden-Sverige (SE) (72) Voldemar Riis, Vargarda, Sweden-Sverige (SE) (71 *) Antti Impola (5 * 0 Thermostatically controlled mixer for two liquids - Termostatstyrd blandare för tvä vätskor

The invention relates to a thermostatically controlled mixer for two liquids, e.g. hot and cold water, which mixer is of the quality with an elongate housing with an outlet and inlets for each liquid, the first being adapted to control the amount of liquid flowing out and the second to is adapted to control the temperature of the fluid by a heat sensitive body disposed in the control sleeve such that a change in the axial dimension of the heat sensitive body results in an axial displacement of the control sleeve in the housing to provide a changed ratio of fluid inflow areas.

Until now, it has been necessary to make such thermostatic mixers large and space-consuming to accommodate the necessary components. Hot and cold water is supplied to the heat-sensitive body through cast channels in the elongate housing. Casting and machining such a nest is relatively complex and expensive, in addition to which the consumption of raw material is high.

The object of the invention is to provide a thermostatically controlled mixer with a simple and compact structure, which requires a former 2,61412 less space, and which can be manufactured cheaper than previously known thermostatic mixers.

This task is solved by having said adjusting sleeve displaceably mounted around the end of the feed extending away from the inlet opening, and that the adjusting sleeve is a sleeve-like member displacing axially in the housing, and having a partition between the feed passage outlet and the heat-sensitive body, Arranged with a plurality of holes for a first fluid flowing towards the adjusting sleeve, wherein mixing with the second fluid is arranged to take place in front of and / or around the heat-sensitive body.

The invention will be explained in more detail below on the basis of some embodiments shown in the accompanying drawings.

Figure 1 shows a section of a first embodiment of a mixer according to the invention.

Fig. 2 shows a section of the adjusting sleeve of the embodiment shown in Fig. 1.

Figure 3 shows a section taken at line III-III in Figure 2.

Fig. 4 shows a section taken at the line IV-IV in Fig. 2.

Figure 5 shows a section of another embodiment of a mixer according to the invention.

Fig. 6 shows a section of the adjusting sleeve of the embodiment shown in Fig. 3.

Fig. 7 shows a section taken at line VII-VII in Fig. 6.

Figure 8 shows a section taken at line VIII-VIII in Figure 6.

Figure 9 shows a section of yet another embodiment of a mixer according to the invention.

According to the embodiments shown in Figures 1 to 8, the thermostatic mixer has an elongate housing 10, at one end of which an inlet 11 for hot water is arranged, e.g. An outlet 13 for mixed heated water is arranged in the central part of the housing 10. The amount of flowing water is controlled by the first control member 14, and the water temperature is controlled by the second control member 15.

A second medium, e.g. hot water, is fed to the mixer from the outlet 11, after which this medium flows through a tubular feed channel, which is arranged centrally in the housing 10 and is resiliently mounted in the axial direction. The terminal 18 of the housing 10 acts as a support surface for the spring 17. The end of the supply duct 16 away from the inlet 11 is mounted on the control sleeve 19 · Hot water flows from the supply duct 16 to the control sleeve 19, where it mixes with cold water, after which the mixed water flows around the wax-filled heat-sensitive body 20 before the water -protect 13.

The inlet openings 11, 12 and the outlet opening 13 are shown for the sake of clarity in the same direction, although in reality they are most often located on different sides of the housing 10, depending on the local conditions.

The control sleeve 19 is, in the embodiment shown in Figures 1 to 4, an axially displaceable sleeve having a partition 21 having a plurality of small holes 22 along the upper half of the circumference. Warm water flows from these holes in the partition 21 into the first chamber in the control sleeve 19, Where the front of the heat-sensitive body 20 fits. Cold water flows from the inlet 12 through a second chamber 24 fitted to the control sleeve 19 to the first chamber 23 through small holes 23 in the annular flange 26 inside the control sleeve 19. These holes are located opposite the holes 22 in the partition wall 21. The hot and cold water mix in the first chamber 23, and the mixed water flows at the same time around the heat-sensitive body 20, and then through the outlet 27 in the control sleeve 19, which is diametrically opposite the holes 22, after which the water continues to flow towards the outlet 13 ·

At the outlet opening 13 there is a sleeve-like body 28 arranged in the housing 10, which is arranged in the longitudinal direction of the housing 10 to surround the supply channel 16. This sleeve-like body 28 is shaped so that its outer edge presses tightly against the inner wall of the housing 10. bypass channel 29 in connection with the opening 13 · This channel 29 communicates through the opening 30 in the circumferential channel 31 »formed between the supply channel 16 and the sleeve-like body 28. Water flows into the channel 31 And through the opening 30 into the channel 29 And further out of the outlet 13. The opening 30 can be closed by a valve body 32, which is moved towards the opening 30 and away from this opening by means of a first control member 14.

4,61412 The adjusting sleeve 19 can be moved axially in the housing 10 by means of a second adjusting member 15 And by means of a spindle 33, the free end of which is threaded into the sleeve 34-. be free.

The rear end of the heat-sensitive body 20 presses against the transverse partition 36 of the sleeve 34, and the circumferential flange near the center of the heat-sensitive body 20 presses on its front end against the annular flange 26 of the , In which case the hot water supply is reduced. At the same time, the supply of cold water increases as the distance between the end of the adjusting sleeve 19 towards the cold water inlet 12 and the tubular member 37 wound onto the housing 10 increases. The sleeve 34- is movably mounted and the mandrel 33 is rotatably mounted on this member 37. The temperature of the mixed water is raised in a corresponding manner by moving the adjusting sleeve 19 downwards in the figure.

As the temperature of the mixed water rises above the set value, the heat-sensitive body 20 expands longitudinally, as a result of which the control sleeve 19 moves upwards in the figure And causes the water temperature to fall to the set value. Correspondingly, as the temperature of the mixed water decreases, the heat-sensitive body 20 shortens, as a result of which the control sleeve 19 moves downwards in the figure under the action of the spring 35 and causes the water temperature to rise.

In the embodiment shown in Figures 5 to 8, the adjusting sleeve 19 is shaped in a slightly different way. Cold water is supplied in this case from the inlet 12 and through the axial channels 38 arranged in the control sleeve 19 to the space between the partition 21 and the outlet of the supply duct 16, where the cold water mixes with warm water, after which the mixed water flows through several holes 39 in the partition 21 into the first chamber 23. it flows around the heat-sensitive body 20 And then flows through a plurality of radial openings 40 in the control sleeve 19 towards the outlet opening 13. In contrast to the embodiment shown in Figures 1 to 4, hot and cold water are thus mixed outside the first chamber 23.

In the embodiment shown in Fig. 9, the outlet opening 13 and the inlet opening 12 have changed position so that the liquid coming from the inlet opening 12 flows outside the control sleeve 19 And further in front of the partition wall 21 where it mixes with the liquid coming from the supply channel 16. The partition 5 61412 21 acts in this embodiment as the second end of the adjusting sleeve 19, the tubular member 57 extending approximately up to the wall 21, so that only a narrow gap is formed between this partition 21 and the front end of the member 57. The width of the gap changes as the adjusting sleeve 19 moves axially, whereby the amount of liquid flowing from the inlet 12 becomes adjusted and at the same time the distance between the partition wall 21 and the outlet of the supply channel 16 changes to adjust the amount of liquid flowing from the inlet 11.

The axial notch of the tubular member 57 is wider at the front end of this member 57 facing the adjusting sleeve 19, and a heat-sensitive body 20 fits into this relaxed portion of the notch, the front end of which presses against the in the same way as explained above.

The mixed water flows into the target opening 15 through an opening 41 in the tubular member 57, which opening can be closed by means of a valve body 52.

Claims (4)

6 61412 ΡΑΖΕΕΓ0? ΤΐνΑΑΤΙΚϋΚ5ΕΤ A thermostatically controlled mixer for two liquids, e.g. hot and cold water, of the quality having an elongate housing (10) with an outlet (13) and inlets (11, 12) for each liquid, wherein the first control member (14 ·) is adapted to adjust the amount of liquid flowing out, and the second control member (15) is adapted to control the temperature of the liquid by means of a heat-sensitive body (20) placed in the adjusting sleeve (19) so that a change in axial dimension of the heat-sensitive body (20) for axial displacement of the control sleeve (19) in the housing (10) to provide a changed ratio of fluid inflow areas, the second fluid supply to the control sleeve (19) being arranged through a tubular supply channel (16) centrally located in the housing (10), characterized in that the supply channel (16) around the end remote from the inlet (11), said adjusting sleeve (19) is movably mounted, and that the adjusting sleeve (19) is h an upper member which is axially displaceable in the housing (10) and has a partition (21) between the outlet of the supply duct (16) and the heat-sensitive body (20), into which a plurality of holes (22, 39) are fitted, the first adjusting sleeve (19) for a fluid flowing towards it, wherein the mixing with the second liquid is arranged to take place in front of and / or around the heat-sensitive body (20). 2. A bracket according to claim 1, which comprises the adjustable ring (19) and is provided with a ring-shaped flange (26), the stem being centrally mounted and having an engaging color ring (20), and the ring (19) having a key. ) »Flanges (26) and Värmekänselkroppens (20) främre del är bildat en chamber (23)» i vilken är anordnat minst en utloppsöppning (27 »40) Mixer according to Claim 1, characterized in that the adjusting sleeve (19) has an inner annular flange (26) in the central opening of which the front part of the heat-sensitive body (20) is fitted, and that the adjusting sleeve (19) has a partition wall (21). a chamber (23) formed between the flange (26) and the front of the heat-sensitive body (20), in which at least one outlet opening (27, 40) is arranged. 3 · Blandare enligt patentkravet 2, kännetecknad d ä rav, att den andra vätskan för blandning med den första vordkan är anordnad att tillföras kammaren (23) via häl (25) i den ring--formade flänsen (26), vilka häl är anordnade mitt For the purposes of the ring (22) and the screen (21), the genome of the chamber (23) can be used as a finishing step (27), which is not diametrically different from the screen (22). Mixer according to claim 2, characterized in that the second liquid to be mixed with the first liquid is arranged to be fed into the chamber (23) through holes (25) made in the annular flange (2b), which holes are arranged opposite the holes (22) in the partition (21). , and that the mixed liquid flows from the chamber (23) through an outlet (27) diametrically opposite the holes in the partition. Agitator according to claim 2, characterized in that the control sleeve (19) is provided with a plurality of axial channels (Jö) through which a second liquid is arranged to flow from the inlet 614 12 7 (12) to the partition (21) and the outlet of the supply duct (16). to a space where the second liquid mixes with the first liquid, and that the mixed liquid is adapted to flow into the chamber (23) through holes (39) in the intermediate wall (21). Mixer according to claim 1, characterized in that the partition (21) acts as a second end of the control sleeve (19), that the front end surface of the heat-sensitive body (20) is adapted to press into this partition and that the second liquid flows from the inlet (1) to the control sleeve (19) past the outside of this sleeve in front of the partition wall (21) to mix with the first liquid. Agitator according to one of the preceding claims, characterized in that the feed channel (16) is resiliently mounted axially in the housing (10). 8 61412 1.Termostatstyrd blandare för tvA vätskor t.ex. sure- and high-wattage and detergent, with the best and most suitable holes (10), with a light on the end (13) and with a different end (11, 12) for the vehicle, colors for the maneuver (14) ) does not comply with the rules of operation of the control body, but also with the maneuvering body (13) does not require the use of temperature control measures (20) with the control of the control body (19) (20) axles for use in the field of control (19) and axles for use in the field of transport and air conditioning in the territory of the country of origin, colors for use in the field of regulation (19) i huset (10) centrally placerad rörformig tillförselkanal (16), kännetecknad därav, att kring tillförselkanalens (16) frän inloppet (11) vända ände är förskjut-Bart lagrad sagda regullerkägla (19) »och att reglerkäglan (19) utl organ axiellt förskjutbart i huset (10) and accessories for use in the field (21) for the use of channels (16) for the use of means of transport (20), and for use in the manufacture of paints (22, 39) for use in the field (19) instruments, colors and blending with the other means is not provided with a frame and / or a double color (20). 4. A bracket according to claim 2, which comprises the adjusting device (19) and the utensils of the antelope channel (38), the genome being a single and a negative device.