CN101802534A

CN101802534A - Cooling device having a holder for a temperature sensor

Info

Publication number: CN101802534A
Application number: CN200880107323A
Authority: CN
Inventors: C·海因; M·科尔敦; U·施兰德
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2007-09-17
Filing date: 2008-09-04
Publication date: 2010-08-11
Anticipated expiration: 2028-09-04
Also published as: RU2010109340A; RU2477826C2; DE102007044231A1; EP2191217A1; CN101802534B; WO2009037129A1; EP2191217B1

Abstract

The invention relates to a cooling device (1) having a coolant circuit system (11), comprising a coolant compressor (12), a condenser (13), an evaporator (14) having an evaporator circuit board (10) for transmitting thermal energy from a cooling compartment (8, 9) of the cooling device (1) into the coolant circuit system (11), and having a temperature sensor (15) for determining the temperature of the evaporator circuit board (10) via a sensor surface (17) of the temperature sensor (15), which is connected to the evaporator circuit board (10) by means of a holder (16). In order to be able to better determine the temperature of an evaporator circuit board (10), according to the invention the holder (16) is configured such that the sensor surface (17) of the temperature sensor (15) directly abuts the evaporator circuit board (10).

Description

Cooling device with the keeper that is used for temperature sensor

Technical field

The present invention relates to a kind of cooling device, it has the coolant circuit system, comprise compressor for cooling fluid, condenser, evaporimeter, evaporation apparatus is useful in the future, and the thermal energy transfer of the cooling chamber of self-cooling set arrives the intrasystem evaporator plate of coolant circuit, and having the temperature sensor that is used for determining the temperature of evaporator plate via the sensor surface of temperature sensor, described temperature sensor links to each other with evaporator plate by keeper.

Background technology

At US 1,886, the refrigerator with automatic temperature-adjusting control has been described in 042.Evaporimeter in this equipment has the spirality coolant line, and wherein the coupling part of metallic support directly is connected on the described coolant line by welding or riveted joint.Two anchor clamps that are used for temperature sensor are arranged on metallic support, and are opposite with the coupling part on being rigidly attached to coolant line.Anchor clamps are embodied in the cylindrical housings that clamps temperature sensor fully.For temperature sensor is held in place, described sensor is especially rigidly connected by welding and anchor clamps.Heat by heat conduction from coolant line, be passed to temperature sensor via the core of support.In order to change thermal conductivity, the core of metallic support has a plurality of holes.

US 2,419, and 376 disclose a kind of and above similar metallic support of prior art that temperature sensor is linked to each other with the cooler pipeline of being used to.The metal that illustrates therein keeps support to be in particular in several sections, and comprises identical shaped double housing of two phases that is fixed together by screw.The feature of each half housing is the flute profile part that is connected with each other side by side by mutually.Sensor housing or coolant line are clamped between per two relative channel-shaped portion branches.Screw passes between sensor housing and coolant line, makes that because these two component locations are separated, the metal parts that heat can only be formed via these two many parts specially obtains transmitting.

The arrangement of temperature sensor on the evaporator plate of the refrigerator of cooling unit of thermostat described in DE-OS 17 51 713.For temperature sensor is linked to each other with evaporator plate, be provided with the main body that is made of plastics.This plastic body has blind hole, and the tubulose temperature sensor can insert in the described blind hole under strain.Plastic body has one or two longitudinal fluting that extends along its long limit, wherein plastic body is crushed on the evaporator plate via described groove, force (positive) or optional cooperation to form, make the marginal portion of evaporator plate be bonded in the longitudinal fluting.Since evaporator plate and temperature sensor by plastic body each other in certain distance be fixed, therefore can make turning cold of evaporator plate be associated only ad hoc via the transmission of plastic body generation heat from the evaporator plate to the temperature sensor with temperature sensor with delaying time.

DE 91 12 478 U1 disclose a kind of for example device of the internal temperature of refrigerator of cooling device that is used to measure.Temperature sensor is fixed on the base of bracket component.Bracket component has two relative horizontal processus hyoideus, they be pulled to carrier frame plate the hook-type keeper below.Carrier frame plate is connected internal face again on the inboard of the inwall of refrigerator shell and the vestibule between the outer wall.Carrier frame plate is molded in the vestibule with bracket component and temperature sensor by foamed polyurethane.

Known a kind of refrigerator with temperature sensor from EP 190 793 A1, wherein the surface temperature of evaporator plate can be determined by temperature sensor.Temperature sensor is pulled to the evaporator plate place via pipe.Described pipe is arranged in the rear side of inwall of refrigerator until evaporimeter, and is connected on the evaporimeter in this position.For pipe is connected on the evaporator plate, pipe obtains connecting by the clamping part that is embodied in the plastics keeper.Heat directly is passed to temperature sensor via the pipe that is pressed against on the evaporator plate from evaporator plate.

Summary of the invention

The objective of the invention is more effectively to determine the temperature of evaporator plate.

The cooling device of the feature by having claim 1 can be realized this purpose.

Because keeper is used to make the sensor surface of temperature sensor directly to be resisted against evaporator plate, therefore can measures the temperature of evaporator plate, and can not produce any loss or delay by the sensor surface of temperature sensor.Because sensor directly is resisted against on the evaporimeter, therefore can accurately measure temperature.If can determine temperature more accurately, then compare with known before sensor connector, can greatly reduce sensor surface.Because the littler evaporator surface of manufacturing needs material still less, so manufacturing cost is reduced.On the other hand, can obtain than required, with the corresponding bigger evaporator surface of bigger cooling capacity.

For refrigerator and cooling unit, adopt inner evaporator to remove heat especially.In order to reduce the energy consumption of article,, also adopt another sensor measurement evaporator temperature except being used to measure the sensor of internal temperature.Be used to measure another sensor of evaporator temperature to a certain extent also as the defrosting sensor.Because the manufacturing situation, evaporator plate especially has cooling unit, and it moves to its tram after device keeper foam-filled.This means that when foam-filled, the position after the evaporator plate is still uncertain.Therefore, the sensor that is used for measuring evaporator temperature is not to be fixed on the recess of arranging in advance, because it has the evaporator plate of loading foam.For the evaporimeter of loading foam, the position of evaporator plate obtains limiting in advance, makes the sensor of measuring evaporator temperature can insert in the recess with deviation of expansion, afterwards recess utilize sealant for example the butyl sealant obtain sealing.Yet, the accurate position that in this recess, can not guarantee sensor.Therefore, can not determine that under such situation measurement temperature that sensor receives is directly to contact with evaporator plate or only via the heat conducting result of air.Be based on the recognition, the present invention is arranged for the sensor of measuring evaporator temperature and directly is connected on the evaporator plate by keeper, makes and always can guarantee that the sensor surface of temperature sensor directly is resisted against on the evaporator plate.Under such situation, though evaporator plate make or assembling process in deflection is installed or is in its accurate position, keeper can be guaranteed direct contact the between sensor and the evaporator plate.

Keeper can have supporting member, and it has the otch that is used for the non-inductive surface of temperature sensor, and it is fixed on preassembled temperature sensor on the keeper.Basically, can be provided with the different supporting member of design by keeper.Yet supporting member should be fixed on temperature sensor on the one hand and limit position or place, thus the shape that supporting member should adaptive temperature sensor.On the other hand, the sensor surface of temperature sensor should form directly with the surface of evaporator plate, forever contact with inner, supporting member can not sealed temperature sensor fully thus, but make crucial sensor surface keep free at least, thereby allow evaporator plate to be resisted against on the sensor surface.

In this case, supporting member can have the flute profile design of mating with the cross-sectional form of temperature sensor, and for the pre-assembling of temperature sensor is fixed on the keeper, it can seal temperature sensor greater than 180 ° of ground.This variation is preferably based on temperature sensor and has columniform basically design.In this case, supporting member should need not supporting member closure casing fully simultaneously as the housing of guard shield pattern around temperature sensor.On the contrary, only need on the most parts of its circumference, seal temperature sensor, can make it can not fluff for the otch of temperature sensor breech lock so that on supporting member, form.The degree that supporting member is sealed temperature sensor depends on material properties substantially, especially the elasticity of supporting member or keeper material therefor.The robustness of temperature sensor or sensitivity also have important function.Keeper of the present invention is made of plastics.

On the other hand, supporting member can sealed temperature sensor to form otch less than 360 ° of ground.Supporting member can be embodied in 360 ° of ground and seal fully, and the otch that separates with supporting member can be set.Yet, if having, supporting member makes up the otch of function separately, supporting member should sealed temperature sensor to form otch less than 360 ° of ground.Otch thus by the bag of supporting member close temperature sensor and do not have mutually against the free space of end formed.Like this, supporting member can be made into locking on it plastic components of temperature sensor.In this case, supporting member constitutes the part of sensor keeper.Just make advantageously, temperature sensor can be installed on the keeper in advance.Subsequently, keeper links together with the temperature sensor that is installed on the evaporator plate in advance.Another advantage is, can replace defective temperature sensor with plain mode by pulling down defective sensor from supporting member and sensor new, that work fully being clamped on supporting member with reviewing.

In another embodiment of the present invention, keeper can have positioner, and it interacts in the installation site of keeper and the relative positioning device of evaporator plate.Positioner and relative positioner are used to locate and being connected of partial correction keeper and evaporator plate.Keeper can also be connected the position outside the evaporator plate, for example is connected on the housing of cooling device.Yet, this situation only can guarantee to be only under accurate, the constant situation of distance between keeper and the evaporator plate practicable.Keeper is the safest and the most reliable method with direct connection of evaporator plate.The advantage that this point also has is that even after keeper and temperature sensor have obtained being connected, the position of evaporator plate still can change, and does not exist the sensor surface of temperature sensor to lose the danger that it closely is resisted against the position on the evaporator plate.In order to reorientate evaporator plate, keeper is with the same moved further of temperature sensor, keeping accurate contact the between sensor surface and the evaporator plate thus.

Can constitute positioner by at least one web that is connected on the keeper, described at least one web is in assembling position is bonded on corresponding groove as the relative positioning device on the evaporator plate.Web and groove have been scheduled to mounting direction.Preferably, be provided with two webs and the corresponding groove that extends in parallel.Thereby keeper can be pushed in the guide rail on the longitudinal length direction of web on evaporator plate.In addition, can retainer be set on the keeper or on the evaporator plate, wherein the keeper of Cha Ruing is positioned at its correct installation site at described retainer place.Retainer prevents that keeper from further being promoted to surpass correct installation site.

Keeper especially can have locking devicen, and its locking devicen relative with evaporator plate interacts so that keeper is connected on the evaporator plate.Locking devicen makes keeper keep constraining on the evaporator plate.This point is favourable in the manufacture process of cooling device especially.Thereby keeper especially can be installed on the evaporator plate in advance with temperature sensor.Can avoid the keeper on the evaporator plate that will make up of labor intensive to be installed in the cooling device like this.Realize simple the installation by the keeper that can be assembled in advance on the loose evaporator plate, can freely contact described evaporator plate from all sides in the cooling device outside.Locking devicen prevents when evaporator plate is installed on the cooling device that especially the keeper assembled in advance from throwing off.

For this reason, locking devicen can be made of the breech lock projection that is connected on the keeper, and it is in the installation site is locked in the through hole of evaporator plate.Form the elasticity of locking devicen by the resilient property of the keeper that is made of plastics.Therefore, elasticity is propped up in the locking devicen on the spring and breech lock projection and is arranged on the keeper or preferably makes one with keeper in plastic injection-moulded process.Because the breech lock projection is implemented on the keeper, therefore provide evaporator plate with simple through hole, the breech lock projection is bonded in the described through hole.

Through hole especially is embodied in relative positioner and can need not to cut especially by carry out the groove that punching is made on evaporator plate.Simplified manufacturing like this.Thereby, only need punching on the evaporator plate of plate material, this step especially can with the punching identical operations of the general outline of evaporator plate in finish.On the other hand, the breech lock projection of the relative part of web and increase material can form with the plastics keeper by plain mode.Can determine position after keeper or temperature sensor are on evaporator plate with plain mode to the simple punching of groove and through hole.Especially, this position can change in the quantity-produced framework, and just the position of keeper or temperature sensor can change in the quantity-produced process.In the punch process of for example evaporator plate, can change the position of keeper or temperature sensor by simple shifting chute and through hole.If the initial structurally preposition of temperature sensor is proved to be in the functional check process of first calibrator do not meet the demands, then need the very little power of expense that described position is moved on evaporator plate.

Especially, have two opening parallel slots at interval between and can be arranged on the evaporator plate through hole of layout edge closure between them.The breech lock projection of guaranteeing keeper like this is positively locked in the through hole.Keeper can also be designed such that for reasons of safety that it only can be removed from evaporator plate by means of instrument.

Description of drawings

With reference to the cooling device shown in the mode by way of example in the accompanying drawings, wherein a kind of embodiment of the present invention is described.Other general features of the present invention and advantage are to this concrete illustrative embodiments more detailed description.

Accompanying drawing illustrates:

Fig. 1 is the perspective view with cooling device of evaporator plate;

Fig. 2 is the perspective view of keeper of the present invention;

Fig. 3 a is the fragmentary, perspective view of evaporator plate before assembling that the present invention shown in Figure 2 has keeper;

Fig. 3 b is the fragmentary, perspective view that the evaporator plate with keeper shown in Figure 2 is in its assembling position.

The specific embodiment

Have the double-walled housing 2 that is filled with insulating foams according to cooling device shown in Figure 11, it has formed can be by the following refrigerating chamber 4 of first 3 sealing and can be by the refrigerating chamber 6 of second 5 independent sealing.Refrigerating chamber is divided into refrigerating chamber 8 and following cooling chamber 9 by dividing plate 7.Cooling chamber 9 is operated under the temperature more than 0 ° degree centigrade and preferably is used to make the article that rot easily for example vegetables and romaine lettuce keep fresh.Refrigerating chamber 8 is operated under about 8 ° to 6 ° degrees centigrade temperature, and is used to storage residue chilled food.Shown in cooling device 1 in, evaporator plate 10 mode by way of example is illustrated as being on the back inwall of cooling chamber 9.In Fig. 1, in order to simplify view, evaporator plate 10 is illustrated does not have any other parts on it, and the cooling chamber drawer is removed.Cooling device 1 can be operated by coolant circuit system 11.For this reason, coolant circuit system 11 has compressor for cooling fluid 12, condenser 13 and evaporimeter 14 substantially, and wherein this evaporimeter 14 links to each other with evaporator plate 10 in order to carry out heat to transmit and is used in the future that the thermal energy transfer of the refrigerating chamber of self-cooling set 1 arrives in the coolant circuit system 11.The temperature of evaporator plate 10 is to be comprised in to be used for one of parameter of controlling or regulating via controller 11a coolant circuit system 11.Temperature sensor 15 can be used to determine to be connected by keeper 16 temperature of the evaporator plate 10 on the cooling device 1, makes its sensor surface 17 can detect the temperature of evaporator plate 10.

Keeper of the present invention 16 is shown in Figure 2.Keeper 16 has the straight main body 18 of rectangle, and it abuts against its top edge by supporting member 19.Supporting member 19 is designed to have flute profile, and extends into the top edge that its symmetrical center line 20 is parallel to main body 18.For this reason, supporting member 19 has C shape cross section.The two ends of the C arm of Xing Chenging have

rounded edges

19a and 19b separately like this.

Rounded edges

19a and 19b extend on the entire longitudinal length of supporting member 19.

Rounded edges

19a and 19b make temperature sensor 15 can be designed to be substantially cylindrical with snapping in the radial direction in the supporting member 19 in symmetrical center line 20.In the hasp process, recessed bearing, spare 19 is expanded to the diameter place of temperature sensor 15, makes temperature sensor 15 can be pressed in the supporting member 19.After this since recessed bearing, spare 19 again hypoelasticity narrow down, so the end of recessed bearing, spare 19 clamps temperature sensor 15.Supporting chamfering 19c is housed at least one in the opposite ends on the axial length of recessed bearing, spare 19, and it makes the inward flange rounding of C shape supporting member 19.As alternative to what radially insert, make like this temperature sensor 15 also in the axial direction (just on the direction of symmetrical center line 20) be pushed in the supporting member 19.

Because recessed bearing, spare 19 is not embodied in the pipe of complete closed, but is sealing the scope less than 360 °, therefore form otch 21 by the zone that stays open.Otch 21 can directly be resisted against on the evaporator plate 10 sensor surface 17 when temperature sensor 15 is in rigging position in the supporting member 19.Otch 21 is towards a side opening of main body 18, and two

web

22a, 22b wherein constituting positioner 22 are connected on the described

main body.Web

22a and 22b are arranged on the opposite side edges of main body 18.Each

web

22a, 22b have L shaped cross section, and simultaneously fixed arm 22.1a and 22.1b give prominence to from the plane of main body 18 with meeting at right angles, and free arm 22.2a and 22.2b outwards extend on the plane of the length that is parallel to main body 18 mutually away from each other.In each case, the upper end of free arm 22.2a and 22.2b all has chamfered part 23a, 23b.Chamfered

part

23a and 23b make assembling easier, because servicing unit is inserted in their representatives, keeper 16 can be pushed on the evaporator plate 10 by this servicing unit.Retainer 24 is arranged in the lower end of main body 18, and wherein the contour edge of evaporator plate is resisted against on the retainer 24 in the correct installation site of keeper.Retainer 24 frontal plane from main body 18 in a step jumps, and preferably extends to the fixed arm 22.1b of web 22b from the fixed arm 22.1a of web 22a.Locking devicen 25 is arranged in the center of the frontal plane of main body 18.

Locking devicen 25 comprises the reed part 26 that the zone by main body 18 forms.In order to ensure having elasticity, reed part 26 is separated with main body 18 by having the blocking opening (breakout) 27 of letter U shape.Therefore reed part 26 can be carried out ligule and moves, and can be crooked backward.In this case, reed part 26 in the zone of blocking the two ends that opening 27 extends with the letter U shape around its fixed connection point bending.The free top end of reed part 26 is supporting breech lock projection 28.Breech lock projection 28 is designed to the circular sector shape substantially, and 22a and 22b are outstanding forward from the frontal plane of main body 18 as the web.The insertion portion 29 of taper is arranged on the side that circular sector breech lock projection 28 is directed upwards towards.Conical inserting portion 29 is extended from the end circle of the circular sector breech lock projection 28 of the frontal plane of main body 18, raises up to the maximum protuberance place of breech lock projection 28 continuously.Conical inserting portion 29 preferably stopped before the diameter that reaches circular sector breech lock projection 28.

Fig. 3 a represents that keeper shown in Figure 2 16 had temperature sensor 15 and a part of evaporator plate 10 of insertion before installing.The sensor surface 17 of temperature sensor 15 surpasses otch (cutout) 21 from 19 projections of recessed bearing, spare.Evaporator plate 10 has two positioners 30 relative with positioner 22, is embodied in groove 30a and 30b.Groove 30a and 30b be open-ended, and corresponding with the web 22a and the 22b of keeper 16.Each

groove

30a, 30b can form two relative ingress edges on the profile of evaporator plate 10, they and corresponding

inlet chamfering

31a, 31b is angled.Inlet chamfering 31a, 31b make and can easier the fixed arm 22.1a of keeper 16 and the top edge of 22.1b be imported in the

groove

30a and 30b of evaporator plate 10.Center at the protuberance 32 of the evaporator plate 10 that is formed by two

groove

30a and 30b forms through hole 33a.The design of through hole 33a is corresponding with the breech lock projection 28 that especially is circular keeper 16.Through hole 33a has formed the supporting locking devicen 33 that is used for locking devicen 25.In order to make keeper reach the erecting device shown in Fig. 3 b from the position shown in Fig. 3 a, keeper is elevated to the lower limb of evaporator plate 10 from the below, in the upper end of

web

22a and 22b insertion groove 30a and 30b.Except the inlet chamfering 31a of

groove

30a and 30b, outside the 31b, the angled part 23a of

web

22a and 22b and 23b also help to insert operation.Thereby keeper can be aligned in the vertical plane of two qualifications with respect to evaporator plate 10.After arranging, keeper 16 is pushed upwardly, and is resisted against on the ladder retainer 24 of keeper 16 until the free outward flange 34 of protuberance 32.In this position, breech lock projection 28 is locked in the through hole 33a.Before in breech lock projection 28 is locked in through hole 33a, breech lock projection 28 moves from its slack position in the insertion moving process of keeper 16, because the free outward flange 34 of protuberance 32 moves to the prestressing force position on angled intake section 29, can be pushed forward in the installation site at this position keeper 16.In this case, reed part 26 deflection backward, to spring back to its initial position on the installation site of keeper 16, wherein in this position, breech lock projection 28 also locks onto in the through hole 33a of evaporator plate 10 subsequently.

Claims

1. a cooling device has coolant circuit system (11), and it comprises compressor for cooling fluid (12), condenser (13), evaporimeter (14); This evaporimeter has evaporator plate (10) and is used for the cooling chamber (8 of self-cooling set (1) in the future, 9) thermal energy transfer is in coolant circuit system (11), and having the temperature that temperature sensor (15) is used for determining via the sensor surface (17) of temperature sensor (15) evaporator plate (10), described temperature sensor (15) is connected on the evaporator plate (10) by keeper (16); Wherein, keeper (16) directly abuts against the sensor surface (17) of temperature sensor (15) on evaporator plate (10).

2. cooling device as claimed in claim 1, it is characterized in that, keeper (16) has supporting member (19), and this supporting member has the otch (21) of the sensor surface (17) that is used for temperature sensor (15), and it is fixed on temperature sensor (15) on the keeper (16) in pre-installation site.

3. cooling device as claimed in claim 2, it is characterized in that, supporting member (19) has the shape of design, especially flute profile that the cross-sectional form with temperature sensor (15) is complementary, and is used for the supporting member (19) that temperature sensor (15) is fixed on the keeper is in advance surpassed 180 ° of ground round temperature sensor (15).

4. cooling device as claimed in claim 3 is characterized in that, supporting member (19) is being sealed temperature sensor (15) to form described otch (21) less than 360 ° of ground.

5. as a described cooling device among the claim 1-4, it is characterized in that keeper (16) has positioner (22), it interacts at the installed position of keeper (16) and the relative positioning device (30) of evaporator plate (10).

6. cooling device as claimed in claim 5, it is characterized in that, positioner (22) is made of at least one web (22a, 22b) that is connected on the keeper (16), described web installed position be bonded on respective grooves as the relative positioning device (30) on the evaporator plate (10) (30a, 30b) in.

7. as claim 5 or 6 described cooling devices, it is characterized in that keeper (16) has locking devicen (25), it interacts so that keeper (16) is connected on the evaporator plate (10) with the relative locking devicen (33) of evaporator plate (10).

8. cooling device as claimed in claim 7 is characterized in that, locking devicen (25) is made of the breech lock projection (28) that is connected on the keeper (16), and described breech lock projection is in installed position is locked in the through hole (33a) of evaporator plate (10).

9. cooling device as claimed in claim 8 is characterized in that, through hole (33a) and preferably be embodied in groove (30a, relative positioning device (30) 30b) be need not cutting metal ground, especially by evaporator plate (10) is carried out die-cut the manufacturing.

10. cooling device as claimed in claim 9, it is characterized in that, (30a 30b) is arranged on the evaporator plate (10), wherein is furnished with the through hole (33a) of band closed edge between two open ended slot with becoming certain distance each other for two open ended slot that extend in parallel.