CN208706537U - A kind of high current two-phase dual probe temperature controller - Google Patents

Abstract

The utility model relates to temperature controller technical fields, refer in particular to a kind of high current two-phase dual probe temperature controller, including pedestal and kick box, the side of kick box is connect with pedestal, the other side of kick box is connected with capillary probe one and capillary probe two, the temperature module and push rod are equipped with inside kick box, capillary probe one is correspondingly arranged with the temperature module respectively with capillary probe two, Electricity Federation connected components and release link are equipped in pedestal, one end of push rod contacts on the temperature module, the other end of push rod is correspondingly connected with release link, release link can control the circuit communication of Electricity Federation connected components and circuit to disconnect by push rod.The utility model is using such structure setting, it can be achieved that the overheating protection of high-power electric appliance equipment, can be realized primary open or closed two phase electricity; can also realizing dual probe, temperature control or one of probe temperature control can also simultaneously; synchronism is good, big by electric current, and use scope is extensive.

Description

A kind of high current two-phase dual probe temperature controller

Technical field

The utility model relates to temperature controller technical fields, refer in particular to a kind of high current two-phase dual probe temperature controller.

Background technique

In switch internal physical deformation occurs for temperature controller according to the temperature change of working environment, thus generate it is certain special Effect generates a series of Automatic Control Components for being switched on or off movement, also cries temperature detect switch (TDS), temperature protector, temperature control Device processed, abbreviation temperature controller.Or temperature is passed to by temperature controller by temperature protector, temperature controller issues switch life It enables, to control the operation of equipment to reach ideal temperature and energy-saving effect, application range is very extensive, according to not of the same race The temperature controller of class is applied in numerous products such as household electrical appliances, motor, refrigeration or heating, and current temperature controller synchronism is poor, performance It is not very reliable, smaller using electric current, connecting terminal is exposed, and use scope is also not very extensively.

Utility model content

In view of the above problems, the utility model provides a kind of high current two-phase dual probe temperature controller, it can be achieved that high-power The overheating protection of electrical equipment can be realized primary open or closed two phase electricity, can also realize dual probe simultaneously temperature control or One of probe temperature control can also, synchronism is good, and big by electric current, use scope is extensive.

To achieve the goals above, the technical solution of the utility model application is as follows:

A kind of high current two-phase dual probe temperature controller, including pedestal and kick box, the side of kick box are connect with pedestal, are dashed forward The other side for jumping box is connected with capillary probe one and capillary probe two, is equipped with the temperature module and push rod, hair inside kick box Tubule probe one is correspondingly arranged with the temperature module respectively with capillary probe two, and Electricity Federation connected components and release link are equipped in pedestal, One end of push rod contacts on the temperature module, and the other end and the release link of push rod are correspondingly connected with, and release link is controllable by push rod The circuit communication and circuit of Electricity Federation connected components disconnect.

Furthermore, kick box cover, and kick box top and kick have been bolted at the top of the kick box Cavity one is equipped between box cover, kick cassette bottom portion has been bolted kick box lower cover, and kick cassette bottom portion and kick box It is equipped with cavity two between lower cover, partition is equipped between cavity one and cavity two, the temperature module is set in cavity two, one end of push rod The temperature module is contacted at, the other end of push rod is through at cavity one, and is correspondingly arranged with the release link in pedestal.

Furthermore, the temperature module includes diaphragm, and diaphragm is popped one's head in capillary, and one, capillary probe two is corresponding to be set It sets.

Furthermore, the capillary probe one is positioned at the side of kick box lower cover by buckle one, and capillary is visited First two are positioned at the other side of kick box lower cover by buckle two.

Furthermore, the kick box cover is equipped with the perforation one that push rod can be made to pass through, and partition, which is equipped with, can make to push away The perforation two that bar passes through, push rod are equipped with boss, the limited block of limit corresponding with boss are equipped in perforation two.

Furthermore, the base bottom is equipped with through-hole one, and the other end of push rod is through at cavity one, and passes through through-hole One is correspondingly arranged with the release link in pedestal.

Furthermore, it is fixed with pedestal upper cover at the top of the pedestal, is equipped with cavity between pedestal upper cover at the top of pedestal Three, cavity three is interior to be equipped with two groups of Electricity Federation connected components, and Electricity Federation connected components include the static contact and movable contact spring in cavity three, stationary contact Piece is fixed in base bottom by rivet, and static contact one end is equipped with stationary contact, and the other end of static contact is equipped with connecting terminal, and The exposed setting of connecting terminal, movable contact spring are equipped with the movable contact being correspondingly connected with stationary contact, and movable contact spring is positioned in release link, move Spring is equipped between contact and pedestal upper cover.

Furthermore, the elastic force of the spring is less than the elastic force of diaphragm.

Furthermore, lid is equipped with the through-hole two that release link can be made to pass through on the pedestal.

The utility model the utility model has the advantages that

The utility model is using such structure setting, it can be achieved that the overheating protection of high-power electric appliance equipment, can be realized Primary open or closed two phase electricity, can also realize dual probe simultaneously temperature control or one of probe temperature control can also, synchronism Good, big by electric current, use scope is extensive.

Detailed description of the invention

Fig. 1 is the utility model of the whole structure diagram；

Fig. 2 is Fig. 1 top view；

Fig. 3 is Fig. 1 bottom view；

Fig. 4 is kick box cross-sectional view；

Fig. 5 is pedestal cross-sectional view.

1. capillary probe one；10. buckle one；2. capillary probe two；20. buckle two；3. pedestal；30. connecting terminal； 31. through-hole one；32. cavity three；4. kick box；40. partition；41. cavity one；42. cavity two；43. perforation two；5. on kick box Lid；50. perforation one；6. kick box lower cover；7. bolt；8. push rod；80. boss；9. diaphragm；11. limited block；12. pedestal upper cover； 13. rivet；14. stationary contact；15. static contact；16. release link；17. movable contact spring；18. spring；19. movable contact；21. through-hole two.

Specific embodiment

The technical solution of the utility model is illustrated with embodiment with reference to the accompanying drawing.

As shown in Figures 1 to 5, a kind of high current two-phase dual probe temperature controller described in the utility model, including pedestal 3 and prominent Box 4 is jumped, the side of kick box 4 is connect with pedestal 3, and the other side of kick box 4 is connected with capillary probe 1 and pops one's head in capillary 22, be equipped with the temperature module and push rod 8 inside kick box 4, capillary probe 1 and capillary probe 22 respectively with the temperature module It is correspondingly arranged, Electricity Federation connected components and release link 16 is equipped in pedestal 3, one end of push rod 8 contacts on the temperature module, push rod 8 The other end is correspondingly connected with release link 16, and release link 16 can control the circuit communication of Electricity Federation connected components and circuit disconnected by push rod 8 It opens.The above constitutes the utility model basic structure.

The utility model uses such structure setting, and working principle: temperature controller is connect with two-phase electric heater, capillary Pipe probe 1 is contacted at two electric heater thermometrics respectively with capillary probe 22, temperature is preset, when one of them Or the temperature at two electric heater thermometrics, when reaching set temperature, 4 inside of kick box is visited with capillary probe 1, capillary The first 22 the temperature module moments being correspondingly arranged raised upward, to the push rod 8 contacted on the temperature module be jacked up, 8 band of push rod Release link 16 is moved together with the movable contact spring 17 being positioned in release link 16, is made on the movable contact 19 and static contact 15 on movable contact spring 17 Stationary contact 14 separates, and two are synchronised disconnections, with electric heater power loss, stops heating；Temperature is low at two electric heater thermometrics When preset temperature, release link 16 will not automatically reset, and need to be manually pressed by release link 16, to drive dynamic on movable contact spring 17 Contact 19 couples again with the stationary contact 14 on static contact 15, while pushing push rod 8 by the temperature module top extremely to recessed, i.e., will Each member reset, circuit connection again at this time, with electric heater work once electrified.Using such structure setting, it can be achieved that big function The overheating protection of rate electrical equipment can be realized primary open or closed two phase electricity, can also realize dual probe simultaneously temperature control or The one of probe temperature control of person can also, synchronism is good, and big by electric current, use scope is extensive.

More specifically, kick box cover 5 is fixed with by bolt 7 at the top of the kick box 4, and 4 top of kick box with Cavity 1 is equipped between kick box cover 5,4 bottom of kick box is fixed with kick box lower cover 6, and 4 bottom of kick box by bolt 7 It is equipped with cavity 2 42 between portion and kick box lower cover 6, partition 40 is equipped between cavity 1 and cavity 2 42, the temperature module is set to In cavity 2 42, one end of push rod 8 contacts at the temperature module, and the other end of push rod 8 is through at cavity 1, and in pedestal 3 Release link 16 is correspondingly arranged.Using such structure setting, the temperature module is limited in the cavity 2 42 of kick box 4, and with Push rod 8 is corresponding to contradict setting.

More specifically, the temperature module includes diaphragm 9, and diaphragm 9 and capillary probe 1, capillary are popped one's head in 22 pairs It should be arranged.Using such structure setting, felt by capillary probe 1, capillary 22 pairs of two-phase electric heaters of popping one's head in Temperature is then secondly transferred to diaphragm 9, effectively prevents diaphragm and contacts with the direct of two-phase electric heater, improves the use of diaphragm 9 Service life.

More specifically, the capillary probe 1 is positioned at the side of kick box lower cover 6, capillary by buckle 1 Pipe probe 22 is positioned at the other side of kick box lower cover 6 by buckle 2 20.Using such structure setting, by buckle side Formula positions capillary probe, and convenient for the installation between two-phase electric heater, while it is any to can avoid capillary probe It swings, causes temperature sense error.

More specifically, the kick box cover 5 is equipped with the perforation 1 that push rod 8 can be made to pass through, and partition 40 is equipped with The perforation 2 43 that push rod 8 can be made to pass through, push rod 8 are equipped with boss 80, the limit of limit corresponding with boss 80 are equipped in perforation 2 43 Position block 11.Using such structure setting, realized to push rod 8 by boss 80 and 11 corresponding relationship of limited block when jacking up moment Limit, can avoid push rod 8 and go out kick box 4, meanwhile, perforation one 50 plays the role of guide and limit, make push rod 8 can only on move down It moves without tilting.

More specifically, 3 bottom of pedestal is equipped with through-hole 1, and the other end of push rod 8 is through at cavity 1, and leads to Through-hole 1 is crossed to be correspondingly arranged with the release link 16 in pedestal 3.Using such structure setting, make to push away by the realization of through-hole 1 Being correspondingly connected between bar 8 and release link 16.

More specifically, it is fixed with pedestal upper cover 12 at the top of the pedestal 3, is set between 3 top of pedestal and pedestal upper cover 12 There is cavity 3 32, two groups of Electricity Federation connected components are equipped in cavity 3 32, Electricity Federation connected components include the static contact in cavity 3 32 15 are fixed on 3 bottom of pedestal with movable contact spring 17, static contact 15 by rivet 13, and 15 one end of static contact is equipped with stationary contact 14, quiet The other end of contact 15 is equipped with connecting terminal 30, and the exposed setting of connecting terminal 30, and movable contact spring 17 is equipped with right with stationary contact 14 The movable contact 19 that should be connected, movable contact spring 17 are positioned in release link 16, and spring 18 is equipped between movable contact spring 17 and pedestal upper cover 12. Using such structure setting, the connection through and off realized between movable contact spring 17 and static contact 15 are moved up and down by release link 16 Open, the effect of spring 18 be release link 16 reset after, since release link 16 does not stress, by elastic force keep movable contact spring 17 with Connection between static contact 15.

More specifically, the elastic force of the spring 18 is less than the elastic force of diaphragm 9.Using such structure setting, when diaphragm 9 When bouncing, release link 16 can drive movable contact spring 17 to separate with static contact 15, only after the reset of release link 16, the elastic force of diaphragm 9 When withdrawal, the elastic force of spring 18 is kept for coupling between movable contact spring 17 and static contact 15.I.e. the elastic force of spring 18 can only cause film The slight drag of the elastic force of piece 9, and can not cause diaphragm 9 that can not bounce.

More specifically, the pedestal upper cover 12 is equipped with the through-hole 2 21 that release link 16 can be made to pass through.Using such Structure setting, can be exposed by through-hole 2 21 when release link 16 jacks up, and presses convenient for hand-reset.

The embodiments of the present invention are described in conjunction with attached drawing above, but the utility model be not limited to it is above-mentioned Specific embodiment, the above mentioned embodiment is only schematical, rather than restrictive, the common skill of this field Art personnel are not departing from the utility model aims and scope of the claimed protection situation under the enlightenment of the utility model Under, many forms can be also made, these are belonged within the protection scope of the utility model.

Claims (9)

1. a kind of high current two-phase dual probe temperature controller, it is characterised in that: including pedestal (3) and kick box (4), the kick box (4) side is connect with pedestal (3), and the other side of the kick box (4) is connected with capillary one (1) of probe and capillary is popped one's head in Two (2), the kick box (4) is internal to be equipped with the temperature module and push rod (8), described capillary one (1) of probe and capillary probe Two (2) are correspondingly arranged with the temperature module respectively, and Electricity Federation connected components and release link (16), the push rod are equipped in the pedestal (3) (8) one end contacts on the temperature module, and the other end and the release link (16) of the push rod (8) are correspondingly connected with, the release link (16) circuit communication of Electricity Federation connected components and circuit can control to disconnect by push rod (8).

2. a kind of high current two-phase dual probe temperature controller according to claim 1, it is characterised in that: kick box (4) top Portion is fixed with kick box cover (5) by bolt (7), and is equipped with cavity one at the top of kick box (4) between kick box cover (5) (41), kick box (4) bottom is fixed with kick box lower cover (6), and kick box (4) bottom and kick box by bolt (7) It is equipped with cavity two (42) between lower cover (6), is equipped with partition (40) between the cavity one (41) and cavity two (42), the temperature-sensitive Component is set in cavity two (42), and one end of the push rod (8) contacts at the temperature module, and the other end of the push rod (8) is through at Cavity one (41), and be correspondingly arranged with the release link (16) in pedestal (3).

3. a kind of high current two-phase dual probe temperature controller according to claim 2, it is characterised in that: the temperature module includes Diaphragm (9), the diaphragm (9) are correspondingly arranged with one (1) of capillary probe, two (2) of capillary probe.

4. a kind of high current two-phase dual probe temperature controller according to claim 3, it is characterised in that: the capillary probe one (1) side for being positioned at kick box lower cover (6) by buckling one (10), the capillary pop one's head in two (2) by buckling two (20) It is positioned at the other side of kick box lower cover (6).

5. a kind of high current two-phase dual probe temperature controller according to claim 2, it is characterised in that: the kick box cover (5) it is equipped with the perforation one (50) that push rod (8) can be made to pass through, the partition (40) is equipped with the perforation that push rod (8) can be made to pass through Two (43), the push rod (8) are equipped with boss (80), and the limit of limit corresponding with boss (80) is equipped in two (43) of the perforation Block (11).

6. a kind of high current two-phase dual probe temperature controller according to claim 2, it is characterised in that: pedestal (3) bottom It is equipped with through-hole one (31), the other end of the push rod (8) is through at cavity one (41), and passes through through-hole one (31) and pedestal (3) Interior release link (16) is correspondingly arranged.

7. a kind of high current two-phase dual probe temperature controller according to claim 6, it is characterised in that: at the top of the pedestal (3) It is fixed with pedestal upper cover (12), is equipped with cavity three (32), the cavity three at the top of the pedestal (3) between pedestal upper cover (12) (32) two groups of Electricity Federation connected components are equipped in, the Electricity Federation connected components include static contact (15) and dynamic touching in cavity three (32) Piece (17), the static contact (15) are fixed on pedestal (3) bottom by rivet (13), and described static contact (15) one end is equipped with quiet The other end of contact (14), the static contact (15) is equipped with connecting terminal (30), and connecting terminal (30) exposed setting, described dynamic Contact (17) is equipped with the movable contact (19) being correspondingly connected with stationary contact (14), and the movable contact spring (17) is positioned at release link (16) On, spring (18) are equipped between the movable contact spring (17) and pedestal upper cover (12).

8. a kind of high current two-phase dual probe temperature controller according to claim 7, it is characterised in that: the bullet of the spring (18) Power is less than the elastic force of diaphragm (9).

9. a kind of high current two-phase dual probe temperature controller according to claim 7, it is characterised in that: the pedestal upper cover (12) It is equipped with the through-hole two (21) that release link (16) can be made to pass through.