CN1654870A - Outer case for thermostat valve - Google Patents

Abstract

The invention provides a thermostat valve body outer housing (1) provided with an outer member (2) and an inner member (3) which overlap each other in the axial direction and are nonrotatably connected.People wish to simplify installation of the outer housing. For the purpose, the outer member (2) is internally provided with at least an inner projection (4) equipped with a contact surface and having at least a disconnection point (20) in the tangential line direction and at least a first rotary stop piece (6) which humps inwards, the inner member (3) is internally provided with at least an outer projection (7) which axially runs through the disconnection point (20) and can be moved all along until to the first rotary stop piece (6) through the rotating motion between the inner member (3) and the outer member (2), and the outer member (2) is also provided internally with a safety piece (8) which can overcome force of a reset device (13) to move axially and is provided with a second rotary stop piece (14) for fixing the outer projection (7) in the tangential line direction together with the first rotary stop piece (6), wherein, the safety piece (8) is kept nonrotatably in the outer member (2) at least in case that the second rotary stop piece (15) acts on the outer projection (7) in the tangential line direction.

Description

The shell of thermostat valve

Technical field

The present invention relates to a kind of shell of thermostat valve, have an exterior part and an inner piece, their local at least each other in the axial direction overlapping and mutual antitorque connections.

Background technique

The shell of thermostat valve generally is made from multiple components, and they just should inseparable turning up the soil be mutually permanently connected when proper functioning after installing.Particularly in this shell, thermostatic element can be set.Usually this shell also has base, and the rating value that rotatable handle can be predesignated rotates with respect to it.

For thermostat valve is installed, generally be that each parts in the shell of will packing into are installed in advance, then with exterior part and inner piece extruding up and down in the axial direction, thereby they are interfixed.But its prerequisite is, perhaps parts or at inner piece even have the parts of elastically deformable in two parts outside.Need certain taking up room in addition, so that fixedly the time, can make the fixed block offset movement.

Summary of the invention

The objective of the invention is to, make the installation of this shell obtain simplifying.

This purpose is achieved in a kind of shell of the above-mentioned type thus, promptly in the parts internal projection portion that at least one has surface of contact is set outside, it has at least one cut-off point on tangent direction, and particularly surface of contact the zone at least one first rotary block inwardly protruding, at least one outer lug portion is set in inner piece, pass described cut-off point and on the tangent direction of internal projection portion back, can move to first rotary block always on it is axial by rotatablely moving between inner piece and the exterior part, and in the parts an axially movable safety piece of power that can overcome resetting means is set outside, it has second rotary block, jointly outer lug portion is fixed on the tangent direction with first rotary block, wherein, safety piece acts on antitorque remaining in the exterior part under the outer lug portion situation at second rotary block at least on tangent direction.

Utilize this formation inner piece and exterior part to interconnect by a kind of socket connection that is improved.This connection is simply finished in principle thus, is about to inner piece and inserts in the exterior part, moves axially by one section predetermined distance, and exterior part and inner piece relatively rotate with respect to each other then.The back that arrives internal projection portion is axially gone up by outer lug portion thus, thereby exterior part and inner piece can not separate owing to the pulling force axially.Equally no longer may rotatablely move between exterior part and the inner piece.First rotary block stops outer lug portion to move on its direction.Second rotary block stop outer lug portion on the tangent direction in the opposite direction on motion.Therefore, exterior part and inner piece are antitorque each other fixing." antitorque " meaning in context, when exterior part rotatablely moved, inner piece also was synchronized with the movement.This generation effect from the beginning synchronously.Certainly also allow owing to machining tolerance exist the gap or or even bigger unrestricted motion, and can not depart from basic design of the present invention.Safety piece moves earlier by the outer lug radicals by which characters are arranged in traditional Chinese dictionaries when mounted, thereby outer lug portion can be moved past from internal projection portion is other.If outer lug portion enters in its final position then, safety piece moves in the position that outer lug portion no longer can move on tangent direction automatically by resetting means so.

In a preferred design proposal, inner piece has a locking device, it can by rotatablely move and exterior part interlocking and and internal projection portion and outer lug part from direction on stop axial motion between inner piece and the exterior part.Along with rotatablely moving between inner piece and the exterior part, between inner piece and exterior part, form a kind of form fit now and connect, thereby no longer inner piece and exterior part can be moved relative to each other in the axial direction.

Preferred in this case locking device is connected with outer lug portion.Do like this and be easy to processing.For example can be with the inner piece die-casting process, and with locking device die casting outside on the lug boss.Do the stability that has improved locking device like this.

Locking device preferably has one and axially goes up the convex structure that is enclosed internal projection portion by two survey bread.In other words, on two axial sides of internal projection portion, can have outer lug portion on the inner piece.As long as by the above-mentioned effect that rotatablely moves internal projection portion is entered between the outer lug portion, inner piece and exterior part are just immovably mutually positioning in the axial direction.Certainly also allow certain clearance here.

In a kind of additional or selectable scheme, locking device embeds in the gap on the exterior part.Then here also no longer can axial motion between inner piece and the exterior part.

Locking device preferably utilizes one section to embed in the gap, and this section upwards is thinner than outer lug portion in the axial direction and/or directly.The thicker part of outer lug portion plays the effect of restriction angle of rotation in this case.

As to the selection of described locking device or replenish, locking device can have one at the coefficient convex shoulder of axial stop that protrudes on the tangent direction on safety piece and the exterior part.Also can stop moving axially between inner piece and the exterior part in this case.

Safety piece preferably encircles, and this ring has at least one lug boss on its circumferential surface, passes through between two ribs on rotary block and the exterior part inboard.That is to say that this ring is movable in the axial direction or removable, wherein, this lug boss guides between two ribs.Respective rings can axial motion therewith, but no longer rotatablely moves under inner piece inserts the situation of exterior part at the latest.

Preferred lug boss is L shaped and utilizes supporting leg to protrude the section of extending axially that surpasses ring that wherein, supporting leg constitutes second rotary block.Simplified the formation of ring like this.Can the rotation insurance of safety piece is combined with second rotary block.Can reduce thus because the distortion meeting of ring produces the bigger danger that rotatablely moves outside between parts and the inner piece.

Preferred ring has a columniform convex shoulder.Form a space thus in the inside of convex shoulder with level and smooth gauge wall.The functor of thermostat valve can be set in this space then, and can not have they and the afoul danger of parts that is used to be connected inner piece and exterior part.

Resetting means is preferably around the spring of convex shoulder.Therefore convex shoulder also can be protected spring.Spring is arranged in the space between convex shoulder and the exterior part.Therefore spring can push but in fact can not be out of shape.Also can use quite soft spring thus.

Description of drawings

The present invention will be described in conjunction with the accompanying drawings by preferred embodiment below.Wherein:

Fig. 1 illustrates and is used to illustrate the schematic representation that connects between the exterior part of thermostat valve body case and the inner piece;

Fig. 2 illustrates a mode of execution that changes;

Fig. 3 illustrates the 3rd mode of execution;

Fig. 4 illustrates the enlarged view of the thermostat valve body case with principle shown in Figure 3;

Fig. 5 illustrates the 4th mode of execution.

Embodiment

Thermostat valve body case 1 (Fig. 4) has an exterior part 2 and an inner piece 3.Inner piece 3 to small part is inserted in the exterior part 2 under installment state.Exterior part 2 and inner piece 3 antitorque and in the axial direction " inseparably " interconnect.

Now introduce connection in detail by the schematic representation in the accompanying drawing 1.Axially distribute from bottom to top and on the contrary among the accompanying drawing 1-3, tangent direction distributes from left to right and on the contrary.Accompanying drawing 1-3 is with direction shown in radially reproducing.

Exterior part 2 has internal projection portion 4, from exterior part 2 inwardly protruding diametrically.Internal projection portion 4 for example with exterior part 2 integral die-cast.Internal projection portion 4 has surface of contact perpendicular to axial direction 5.

In addition, exterior part 2 has one first rotary block 6, and it can and be arranged in the zone of surface of contact 5 with exterior part 2 integral die-cast equally.In the embodiment of accompanying drawing 1, first rotary block 6 directly is connected on the surface of contact 5.But not necessarily must constitute like this.

The lug boss 7 of a radially outward projection is set on inner piece 3, shown in Fig. 1 c and 1d, it can move past from internal projection portion 4 next doors in the axial direction, so that arrive the back of internal projection portion 4 on the tangent direction and be close on the surface of contact 5 after the next one rotatablely moves.

Have safety piece 8 in addition, its effect is to stop inner piece 3 to rotatablely move with respect to exterior part 2 under installment state to remove from first rotary block 6.

Exterior part 2 has a rib 9 for this reason, with corresponding first rotary block 6 of the length of safety piece 8 on tangent direction apart.Between rib 9 and internal projection portion 4, have window 10, can move in the space 11 that between the rib 9 and first rotary block 6, constitutes by this window safety piece 8.This point illustrates by arrow 12.As long as safety piece 8 is in the space 11 (Fig. 1 b), it just presses to surface of contact 5 in the internal projection portion 4 by spring 13.

For proceeding to install, now inner piece 3 is moved in the exterior part 2 in the axial direction together with its outer lug portion 7.Meanwhile, outer lug portion 7 overcomes defeating in the space 11 (Fig. 1 c) of spring 13 with safety piece 8.As long as outer lug portion 7 is from internal projection portion 4 next door processes, it will be by rotatablely moving in the location, back of internal projection portion 4 between exterior part 2 and the inner piece 3.It contacts with surface of contact 5 in the axial direction then and contacts with first rotary block 6 on tangent direction.Again be pressed towards the direction of surface of contact 5 by the power safety piece 8 of spring 13.Meanwhile, second rotary block 14 that is arranged on the safety piece 8 is on the another side of outer lug portion 7 (on tangent direction).Safety piece 8 moves on tangent direction by rib 9 preventions.Corresponding therewith, outer lug portion 7 is fixing on tangent direction.

Can axial motion on the direction that exterior part 2 and inner piece 3 are separated from each other.Acting in conjunction by outer lug portion 7 and internal projection portion 4 has stoped this motion.

Be fine in principle though inner piece 3 is continued to be pressed into the motion of exterior part 2, this motion can not cause exterior part 2 to separate with inner piece 3.Rotatablely moving between these two parts is suppressed equally, because safety piece 8 is fixed between the rib 9 and first rotary block 6, and corresponding therewith prevention outer lug portion 7 rotatablely moves with respect to internal projection portion 4.Therefore inner piece 3 can not cause the separation of two parts 2,3 yet with respect to the pulling motion of exterior part subsequently.Preferably, setting is right by a plurality of lug bosses that internal projection portion 4 and outer lug portion 7 form on the tangent direction of shell 1.In this case, the space of passing through outer lug portion 7 respectively is set between each internal projection portion 4.

For stoping the axial motion on both direction between exterior part 2 and the inner piece 3, the socket connection shown in Fig. 1 can be changed slightly and has a locking device 15.In pressing the scheme of Fig. 2, locking device 15 has the pin 16 that points to tangent direction outside on the lug boss 7, if exterior part 2 and inner piece 3 rotate relative to one another in its final position, pin embeds in the gap 17 on first rotary block 6.Acting in conjunction by pin 16 and gap 17 has suppressed the axial motion on both direction.In addition, the scheme of the operation of Fig. 2 scheme and Fig. 1 is identical.At this, gap 17 has the face of packing into that is used for lug boss 16, it at least on a scope (relevant axially and/or radially) with exterior part 2 less than outer lug portion 7, thereby outer lug portion 7 can be close on the rotary block 6 as described above like that.Importantly the formation in gap 17 can not enter safety piece 8, but can only move to rotary block 6 always.

For exterior part 2 and inner piece 3 are unclamped each other, in any case need act on safety piece 8 from the outside separately, and can with inner piece 3 with respect to exterior part 2 rotations before, safety piece is overcome spring force pushes back.

Fig. 3 illustrates a kind of mode of execution that changes with respect to Fig. 2, has safty device 15, and wherein, parallel with the first outer lug portion 7 have second an outer lug portion 18.Axial distance between two outer lug portions 7,18 is selected like this, makes internal projection portion 4 in the axial direction exactly from passing through between them.Also can be readily appreciated that by Fig. 3, outer lug portion 7 and internal projection portion 4 shown in the mounting point on no longer can unclamp each other, exactly can not be on tangent direction (from left to right) in the axial direction (from top to bottom) unclamp.

Fig. 4 goes out the shell 1 that constitutes by principle shown in Figure 3.Identical parts adopt identical reference character.

Inner piece 3 axially is being provided with two outer lug portions 7,18 with distance 19 respectively on its circumferential surface continuously.On tangent direction, amount to and have four such groups.

In the corresponding way, exterior part 2 has four internal projection portions 4 (can only see one of them).Between internal projection portion 4, has the space 20 that to pass top outer lug portion 7 respectively.The axial distance of internal projection portion 4 is corresponding with distance 19.

First rotary block 6 extends in the rib 21.Between two ribs 9,21, has space 11.

Safety piece 8 has a ring 22, is distributed on the tangent direction, has four lug bosses 23 on its outer peripheral surface.Lug boss 23 in length on the tangent direction and space 11 length on tangent direction identical, that is to say, be equivalent to the distance between two ribs 9,21.

Lug boss 23 is L shaped.L constitutes second rotary block 14 to the supporting leg of lower convexity.

Safety piece 8 has columniform convex shoulder 24, extends axially on the side relative with second rotary block 14.Convex shoulder 24 is around an inner space 25, and the inside can hold the functor of the thermostat valve that is not shown specifically.In addition, convex shoulder 24 also uses as the guiding element of spring 13.

Shell 1 is installed in the following manner:

The first step is packed spring 13 in the exterior part 2.The excircle of spring 13 is equivalent to the clear width in the available space, inside of exterior part substantially, that is to say, the diameter that constitutes the spring 13 of resetting means is equivalent to relative rib 9 or 21 or the diameter distance between the internal projection portion 4 relatively.

Second goes on foot the safety piece 8 of packing into.Meanwhile convex shoulder 24 enters the inside of spring 13.Lug boss 23 pass window 10 by combination axially and radial motion enter in the space 11 between two ribs 9,21.Therefore safety piece 8 parts 2 internal fixation at first outside.

The 3rd step packed inner piece 3 in the exterior part 2.Meanwhile safety piece 8 overcomes the internal motion of the power continuation of spring 13 to exterior part 2.As long as outer lug portion 7 is process in the axial direction from internal projection portion 4 next doors, inner piece 3 just can rotate with respect to exterior part 2.The assembler for example can grasp this degree of depth thus, and promptly outer lug portion 7 pushes up on the rib 9, and inner piece 3 can also continue motion in exterior part 2.

That is to say, if outer lug portion 7 from internal projection portion 4 next doors process in the axial direction, inner piece 3 just can rotate with respect to exterior part 2.Meanwhile outer lug portion 18 arrives on the another side of internal projection portion 4, thereby exterior part 2 and inner piece 3 no longer can move relative to each other in the axial direction.

As long as outer lug portion 7 contacts with 6 generations of first rotary block on tangent direction, safety piece 8 just is pressed towards the direction of inner piece 3 again by the power of spring 13.Meanwhile second rotary block 14 arrives outer lug portion 7 being seen another side on tangent direction, thereby stops outer lug portion 7 to move on both direction.

Therefore exterior part 2 and inner piece 3 antitorque and inseparable in the axial direction turning up the soil interconnect.

For exterior part 2 is separated with inner piece 3, safety piece 8 must be overcome trying hard to recommend of spring 13 and move.This point has only under the help of instrument externally and just can finish, but is not under " normally " working condition, and promptly shell 1 is fixed on the heating unit and for adjusting rating value and rotates.

The advantage of this scheme is that exterior part 2 and inner piece 3 can separate each other, and need not to destroy parts.This point is tangible advantage from the angle of utilizing again.

Fig. 5 illustrates with schematic diagram can be by the another kind of possibility of " plug-in type lock " formation into connecting exterior part 2 and inner piece 3.

Basically be equivalent to shown in Figure 3 on this principle of compositionality.But outer lug portion 7 has the convex shoulder 26 of outstanding safety piece 8 on tangent direction on the side away from rotary block 6, if inner piece 3 is connected with exterior part 2, this convex shoulder contacts with block 27.Block 27 for example can constitute by the lower end surface of rib 9.Axial distance between rib 9 and the internal projection portion 4 is equivalent to the axial thickness of outer lug portion 7.Therefore outer lug portion 7 the back of internal projection portion 4 axially on motion, contact with block 27 until it.After this, inner piece 3 utilizes its supporting leg 29 to lower convexity to be entrapped in the gap 28 that constitutes in the outer lug portion 7 with respect to exterior part 2 rotations until safety piece 8.

These connections shown in the utilization for example are the purpose of overtemperature protection can equally constitute the axial motion between inner piece 3 and the exterior part 2 as described above.

Claims (11)

1. the shell of thermostat valve, have an exterior part and an inner piece, their local at least each other in the axial direction overlapping and mutual antitorque connections, it is characterized in that, the internal projection portion (4) that at least one has surface of contact is set in the parts (2) outside, it has at least one cut-off point (20) on tangent direction, and at least one first rotary block (6) inwardly protruding, at least one outer lug portion (7) is set in inner piece (3), pass described cut-off point (20) and on the tangent direction of internal projection portion (4) back, can move to first rotary block (6) always on it is axial by rotatablely moving between inner piece (3) and the exterior part (2), and in the parts (2) an axially movable safety piece of power (8) that can overcome resetting means (13) is set outside, it has second rotary block (14), jointly outer lug portion (7) is fixed on the tangent direction with first rotary block (6), wherein, safety piece (8) acts on antitorque remaining in the exterior part (2) under outer lug portion (7) situation at second rotary block (14) at least on tangent direction.

2. by the described shell of claim 1, it is characterized in that, inner piece (3) has a locking device (15), it can by rotatablely move with exterior part (2) interlocking and with direction that internal projection portion (4) and outer lug portion (7) separate on stop axial motion between inner piece (3) and the exterior part (2).

3. by the described shell of claim 2, it is characterized in that locking device (16,18) is connected with outer lug portion (7).

4. by claim 2 or 3 described shells, it is characterized in that locking device (18) has one and axially goes up the convex structure that is surrounded internal projection portion (4) by two sides.

5. by one of claim 2-4 described shell, it is characterized in that, in the gap (17) on locking device (16) the embedding exterior part (2).

6. by the described shell of claim 5, it is characterized in that locking device (16) utilizes one section to embed in the gap (17), this section upwards is thinner than outer lug portion (7) in the axial direction and/or directly.

7. by one of claim 2-6 described shell, it is characterized in that locking device (15) has one at a coefficient convex shoulder of axial stop that protrudes on the tangent direction on safety piece (8) and the exterior part (2).

8. by the described shell of one of claim 1-7, it is characterized in that safety piece (8) is a ring (22), this ring has at least one lug boss (23) on its circumferential surface, passes through between the rib (9) on rotary block (6) and exterior part (2) inboard.

9. by the described shell of claim 8, it is characterized in that lug boss (23) is L shaped and utilizes supporting leg to protrude the section of extending axially that surpasses rib (22) that wherein, supporting leg constitutes second rotary block (14).

10. by claim 8 or 9 described shells, it is characterized in that rib (22) has a columniform convex shoulder (24).

11., it is characterized in that resetting means (13) is the spring around convex shoulder (24) by the described shell of claim 10.