CN204902350U - Ice producing machine - Google Patents

Abstract

The utility model discloses an ice producing machine, this ice producing machine is provided with the apron that is used for sealing or opening the cavity including the casing that is formed with the cavity on, and the apron rotates with the casing to be connected, be provided with at least one rotatable system ice tray in the cavity of casing, the rotation axis of system ice tray is perpendicular with the rotation axis of apron, the apron is connected with drive mechanism with making between the ice tray, upset torsion transmission that drive mechanism will lap is to make the ice tray on to drive the upset of system ice tray. The utility model discloses ice producing machine has the advantage of conveniently getting ice, and the complete machine surface structure is more succinct, and the wholeness is better.

Description

Ice machine

Technical field

The utility model relates to ice machine technical field, particularly relates to a kind of ice machine.

Background technology

Traditional ice machine mainly comprises casing, be arranged on the ice box in casing and to be arranged on casing and with the knob of ice box synchronous axial system.Wherein each tank of ice box is interior for loading former water, after forming ice cube at low temperatures, just can control ice box upset by rotating knob, making the notch of its each tank make ice cube freely drop down, thus realize getting ice, there is advantage that is simple, easily handled easily.But the ice machine of this structure owing to installing knob on casing, such that the outward appearance of whole ice machine is wordy, globality is poor.

Utility model content

Main purpose of the present utility model is to provide a kind of ice machine, is intended to the overall appearance improving ice machine.

For achieving the above object, the utility model provides a kind of ice machine, and this ice machine comprises the housing being formed with cavity, and described housing is provided with the cover plate for closing or open described cavity, described cover plate is connected with described housing into rotation; At least one rotating ice box is provided with in the cavity of described housing; The pivot center of described ice box is vertical with the pivot center of described cover plate; Be connected with transmission mechanism between described cover plate and described ice box, described transmission mechanism, by the upset torque transmission of described cover plate to described ice box, overturns to drive described ice box.

Preferably, described transmission mechanism comprises turning cylinder, the first spur gear, the second spur gear, the first bevel gear and the second bevel gear, and described turning cylinder rotates to be located on described housing; Described first spur gear is located on described cover plate, and with described cover plate synchronous axial system; Described first bevel gear is located on described ice box, and with described ice box synchronous axial system; Described second spur gear and the second bevel gear are socketed on described turning cylinder respectively, and described second spur gear engages adaptation with described first spur gear; Described second bevel gear engages adaptation with described first bevel gear.

Preferably, described transmission mechanism comprises the 3rd spur gear, the 4th spur gear, worm screw and the 5th spur gear, and described 3rd spur gear is located on described cover plate, and with described cover plate synchronous axial system; Described 4th spur gear is located on described ice box, and with described ice box synchronous axial system; Described worm screw is rotated and is located in described cavity, and described 5th spur gear is located on described worm screw, described 5th spur gear and described worm screw synchronous axial system, and described 5th spur gear engages adaptation with described 3rd spur gear; Described worm screw engages adaptation with described 4th spur gear.

Preferably, be provided with ice bank in the cavity of described housing, described ice bank is positioned at immediately below described ice box; Described housing is provided with the opening being communicated with described cavity, and described ice bank is from cavity described in described opening slip entry/exit.

Preferably, framework is provided with in the cavity of described housing; Described ice box is provided with the first rotating shaft in the face of the side of described cover plate, and the side of described ice box described cover plate is dorsad provided with the second rotating shaft; Described ice box is located in described framework, and the position of corresponding described first rotating shaft of described framework is provided with the first axis hole with described first axis of rotation adaptation; The position of corresponding described second rotating shaft of described framework is provided with the second axis hole with described second axis of rotation adaptation.

Preferably, described framework is provided with the breach snapping in described first axis hole for described first rotating shaft.

Preferably, described cover plate and described framework are rotationally connected; The both sides of the corresponding described cover plate of described framework are respectively equipped with the 3rd rotating shaft, and on described cover plate, the position of corresponding described 3rd rotating shaft is provided with the axle bed with described 3rd axis of rotation adaptation.

Preferably, described second rotating shaft is provided with elastic component, when external force to put on described cover plate and makes described cover plate overturn, described elastic component elastic deformation; When cancelling the external force put on described cover plate, described elastic component elasticity is recovered, and drives described ice box to turn to initial position.

Preferably, in described framework, the position of corresponding described second axis hole is provided with a fixed head, and described fixed head is provided with fixing hole; Described elastic component comprises the spring with the first fixing feet and the second fixing feet, and described second fixing feet is with the crotch of opening towards described spring; Described spring housing is connected in described second rotating shaft, and described first fixing feet inserts described fixing hole, and the bottom in described ice box linked up with by the crotch of described second fixing feet.

Preferably, described first spur gear is fan-shaped, is fixed on the centre position of described cover plate medial surface, coordinates to drive described turning cylinder to rotate with described second spur gear being arranged on described turning cylinder centre position.

The utility model is by closing or opening the cover plate of described cavity with the housing of cavity is provided with, and described cover plate is connected with described housing into rotation; At least one rotating ice box is provided with in the cavity of described housing; The pivot center of described ice box is vertical with the pivot center of described cover plate; Transmission mechanism is connected with between described cover plate and described ice box, described transmission mechanism by the upset torque transmission of described cover plate on described ice box, to drive described ice box overturn, and this ice box overturn put in place time, ice cube freely drops from ice box, thus realizes getting ice; Be understandable that, the ice machine good integrity of this structure, avoid and knob is set on housing and the problem making ice machine globality poor.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the utility model ice machine one embodiment;

The assembling explosive view that Fig. 2 is the ice machine shown in Fig. 1;

Another visual angle figure that Fig. 3 is the ice machine shown in Fig. 1;

Fig. 4 is the magnifying state figure of local A in the ice machine shown in Fig. 3;

Fig. 5 is the magnifying state figure of local B in the ice machine shown in Fig. 3;

Fig. 6 is the cross-sectional view along C1-C1 in the ice machine shown in Fig. 3;

Fig. 7 is the cross-sectional view along C2-C2 in the ice machine shown in Fig. 3;

Fig. 8 is the cross-sectional view along C3-C3 in the ice machine shown in Fig. 3;

Fig. 9 is the syndeton schematic diagram of turning cylinder and the second spur gear and the second bevel gear in the ice machine shown in Fig. 2;

Figure 10 is the structural representation of the ice machine Elastic part shown in Fig. 2.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of ice machine.

Referring to figs. 1 through Fig. 5, in one embodiment, described ice machine comprises the housing 10 with cavity 101, described housing 10 is provided with the cover plate 20 for closing or open described cavity 101, and described cover plate 20 is rotationally connected with described housing 10; At least one rotating ice box 30 is provided with in the cavity 101 of described housing 10; The pivot center of described ice box 30 is vertical with the pivot center of described cover plate 20; Be connected with transmission mechanism between described cover plate 20 and described ice box 30, described transmission mechanism, by the upset torque transmission of described cover plate 20 to described ice box 30, overturns to drive described ice box 30.

Should be understood that, ice box 30 can be one, also can be multiple, and when ice box 30 is multiple, each ice box 30 is set up in parallel, namely the trip shaft of each ice box 30 is to parallel, and reserved certain upset gap between two adjacent ice boxes 30, overturn for ice box 30.Wherein, the top of each ice box 30 has tank, and for contain fluid, time at low temperatures, the liquid of tank will form ice cube.Wherein, it should be noted that, when cover plate 20 is when closing described cavity 101, described ice box 30 is in initial position, and the liquid that now can hold tank carries out K cryogenic treatment and forms ice cube; After making ice, upset cover plate 20 to certain angle, and when driving the upset of described ice box 30 to put in place, ice cube just freely drops from ice box 30, and realizes getting ice, and whole operating process is very simple, only need overturn cover plate 20; When taking ice, reverse promotion cover plate 20, cover plate 20 is made to be returned to initial position and to be closed by cavity 101, this ensure that the integrality of whole ice machine, and due to without the need to as prior art on the housing 10 providing holes position install for knob, and then make housing 10 moulding process simpler and easy.

In the present embodiment, described transmission mechanism can adopt following structure to realize: with reference to Fig. 4 composition graphs 6 and Fig. 9, described transmission mechanism comprises turning cylinder 41, first spur gear 42, second spur gear 43, first bevel gear 44 and the second bevel gear 45, and described turning cylinder 41 rotates to be located on described housing 10; Described first spur gear 42 is located on described cover plate 20, and with described cover plate 20 synchronous axial system, namely the central shaft of the first spur gear 42 overlaps substantially with the rotating shaft of cover plate 20; Described first bevel gear 44 is located on described ice box 30, and with described ice box 30 synchronous axial system; Described second spur gear 43 and the second bevel gear 45 are socketed on described turning cylinder 41 respectively, and described second spur gear 43 engages adaptation with described first spur gear 42; Described second bevel gear 45 engages adaptation with described first bevel gear 44.Be understandable that, when ice got by needs, upset cover plate 20, the first spur gear 42 on cover plate 20 is made to overturn along with cover plate 20 and drive the second spur gear 43 to rotate, when second spur gear 43 rotates, turning cylinder 41 and on the second bevel gear 45 and this second spur gear 43 synchronous axial system, drive the first bevel gear 44 to rotate by the second bevel gear 45, and ice box 30 overturn.

When the first spur gear 42 and the gearratio between the second spur gear 43, second bevel gear 45 and the first bevel gear 44 are determined, flip angle by cover plate 20 determines by the flip angle of ice box 30, when the flip angle of cover plate 20 is larger, the flip angle of ice box 30 is also corresponding larger, otherwise, as the same; During in order to ensure upset cover plate 20, can ensure that ice box 30 upset puts in place and realizes getting ice, can be ensured by the flip angle setting cover plate 20 that ice box 30 upset puts in place.

Wherein, described first spur gear 42 can be arranged in fan-shaped, semicircle or circular, and as shown in Figure 6, in the present embodiment, the first spur gear 42 is fan-shaped, is directly fixed on the centre position of cover plate 20 medial surface, conveniently installs and saves space.This first spur gear 42 coordinates to drive turning cylinder 41 to rotate with the second spur gear 43 being arranged on turning cylinder 41 centre position.It should be noted that, in the present embodiment, when arranging multiple ice box 30, can the gear corresponding with ice box 30 be set on same turning cylinder 41 and carries out transmission, therefore, only need a turning cylinder 41 can to realize the upset torque transmission of cover plate 20, on each ice box 30, decreasing the setting of parts, making structure simpler.

Be understandable that, in the present embodiment, above-mentioned transmission mechanism can also adopt following structure to replace realizing: described transmission mechanism comprises the 3rd spur gear and (schemes not shown, can with reference to the structure of the first spur gear 42), the 4th spur gear (scheming not shown), worm screw (scheming not shown) and the 5th spur gear (scheming not shown), described 3rd spur gear is located on described cover plate 20, and with described cover plate 20 synchronous axial system; Described 4th spur gear is located on described ice box 30, and with described ice box 30 synchronous axial system; Described worm screw is rotated and is located in described cavity 101, and described 5th spur gear is located at described 5th spur gear and described worm screw synchronous axial system on described worm screw, and described 5th spur gear engages adaptation with described 3rd spur gear; Described worm screw engages adaptation with described 4th spur gear.Be understandable that, when ice got by needs, upset cover plate 20, the 3rd spur gear on cover plate 20 is made to overturn along with cover plate 20 and drive the 4th spur gear to rotate, when 4th spur gear rotates, worm screw and on the second bevel gear 45 and this second spur gear 43 synchronous axial system, drive the first bevel gear 44 to rotate by the second bevel gear 45, and ice box 30 overturn.Same as the previously described embodiments, in this embodiment, the flip angle of ice box 30, is determined by the flip angle of cover plate 20 equally, and when the flip angle of cover plate 20 is larger, the flip angle of ice box 30 is also corresponding comparatively large, otherwise, as the same; During in order to ensure upset cover plate 20, can ensure that ice box 30 upset puts in place and realizes getting ice, can be ensured by the flip angle setting cover plate 20 that ice box 30 upset puts in place.Wherein, described 3rd spur gear is fan-shaped or semicircle setting, thus can be easily installed on cover plate 20.

In the present embodiment, ice box 30 can be direct and housing 10 is rotationally connected, also can be realize being rotationally connected with housing 10 by miscellaneous part, the present embodiment preferably adopts rear a kind of embodiment, particularly, composition graphs 2 and Fig. 7, realize ice box 30 and housing 10 to be rotationally connected by arranging a dismountable framework 50 in the cavity 101 of housing 10; Wherein, framework 50 is provided with contiguous block 51, on described housing 10, the position of corresponding described contiguous block 51 is provided with and holds adaptive draw-in groove 102 with described contiguous block 51, when described contiguous block 51 is fastened in draw-in groove 102, realizes framework 50 to be fixed on housing 10; Wherein, this draw-in groove 102 can be arranged to chute 102 form, with when assembling, only the contiguous block 51 in framework 50 need be inserted chute 102, then promoting framework 50, and makes cover plate 20 closed cavity simply can realize assembling; Further, ice box 30 is provided with the first rotating shaft 31 in the face of the side of described cover plate 20, and the side of described ice box 30 described cover plate 20 is dorsad provided with the second rotating shaft 32; Described ice box 30 is located in described framework 50, and the position of corresponding described first rotating shaft 31 of described framework 50 is provided with the first axis hole (scheming not shown) rotating adaptation with described first rotating shaft 31; The position of corresponding described second rotating shaft 32 of described framework 50 is provided with rotates the second adaptive axis hole 52 with described second rotating shaft 32; When the first axis hole is inserted in the first rotating shaft 31 on ice box 30, and the second rotating shaft 32 is when inserting the second axis hole 52, ice box 30 just can be made to rotate be located in framework 50, and after framework 50 and housing 10 are installed, just achieve and ice box 30 rotation is located in cavity 101.Wherein, for convenience of installing the first rotating shaft 31, the breach snapping in described first axis hole for described first rotating shaft 31 can also be set in described framework 50.During installation, only the first rotating shaft 31 need be snapped in the first axis hole from this breach, very convenient.It should be noted that, based on this embodiment, the first bevel gear 44 in above-described embodiment or the 3rd spur gear are located in the first rotating shaft 31, and coaxially arrange with the first rotating shaft 31.In addition, in the embodiment of this framework 50, above-mentioned turning cylinder 41 or worm screw and described framework 50 are rotationally connected.

Be understandable that, above-mentioned cover plate 20 also can not arrange framework 50 and directly and housing 10 be rotationally connected, or realize being rotationally connected with housing 10 by other drive disk assemblies, based on the embodiment of above-mentioned framework 50, described cover plate 20 can be rotationally connected, so that the installation of cover plate 20 with described framework 50 in this preferred embodiment; Wherein, the concrete structure that cover plate 20 and described framework 50 are rotationally connected is, the both sides of the corresponding described cover plate 20 of described framework 50 are respectively equipped with the 3rd rotating shaft 54, and on described cover plate 20, the position of corresponding described 3rd rotating shaft 54 is provided with the axle bed 21 be rotationally connected with described 3rd rotating shaft 54, as Fig. 8; During installation, utilize the plastic cement deformability of cover plate 20, the 3rd rotating shaft 54 in framework 50 is connected with the axle bed 21 of the both sides of cover plate 20 respectively, realizes being rotationally connected between cover plate 20 and framework 50.

To sum up, the ice machine that the utility model provides is by closing or opening the cover plate 20 of described cavity 101 with the housing 10 of cavity 101 is provided with, and described cover plate 20 is rotationally connected with described housing 10; At least one rotating ice box 30 is provided with in the cavity 101 of described housing 10; The pivot center of described ice box 30 is vertical with the pivot center of described cover plate 20; Transmission mechanism is connected with between described cover plate 20 and described ice box 30, described transmission mechanism is by the upset torque transmission of described cover plate 20 to described ice box 30, overturn to drive described ice box 30, and when the upset of this ice box 30 puts in place, ice cube freely drops from ice box 30, thus realizes getting ice; Be understandable that, the ice machine good integrity of this structure, avoid and knob is set on the housing 10 and the problem making ice machine globality poor.

Based on above-described embodiment, in embodiment further, in the cavity 101 of described housing 10, be provided with ice bank 60, as Fig. 2 and Fig. 6, described ice bank 60 is positioned at immediately below described ice box 30, with when ice box 30 upset puts in place, catches the ice cube that ice box 30 drops; In addition, described housing 10 is provided with the opening being communicated with described cavity 101, and described ice bank 60, from cavity 101 described in described opening slip entry/exit, takes out ice bank 60 to facilitate.It should be noted that, when in the cavity 101 that ice bank 60 is placed in housing 10, ice bank 60 is adaptive with described closure of openings, to ensure the globality of whole ice machine.

Based on above-described embodiment, in embodiment further, composition graphs 2 and Figure 10, described second rotating shaft 32 is provided with elastic component 70, utilize the elastic restoring force of this elastic component 70, make ice box 30 after ice is got in upset, make it return back to initial position, when external force to put on described cover plate 20 and makes described cover plate 20 overturn, the elastic deformation of described elastic component 70; When cancelling the external force put on described cover plate 20, described elastic component 70 elasticity is recovered, and drives described ice box 30 to turn to initial position.

Particularly, described elastic component 70 comprises the spring 73 with the first fixing feet 71 and the second fixing feet 72, and described second fixing feet 72 is with the crotch of opening towards described spring 73; Further, in described framework 50, the position of corresponding described second axis hole 52 is provided with a fixed head 55, and described fixed head 55 is provided with fixing hole 56; During installation, described spring 73 is socketed in described second rotating shaft 32, and described first fixing feet 71 inserts described fixing hole 56, and the bottom in described ice box 30 linked up with by the crotch of described second fixing feet 72; Wherein, when ice box 30 overturns, spring 73 is connected with ice box 30 due to the second fixing feet 72, ice box 30 can be followed rotate and produce deformation, after external force on cover plate 20 is cancelled, ice box 30 will be subject to the reaction force (elastic restoring force) of spring 73 and reverse flip, returns initial position, can start ice making again.

Referring to figs. 1 through Figure 10 and in conjunction with above-mentioned whole embodiment, the integrally-built assembling process of the utility model ice machine is described in detail:

During installation, first the first bevel gear 44 is fixed in the first rotating shaft 31, and the spring 73 of elastic component 70 is socketed in the second rotating shaft 32, then by external force, the first rotating shaft 31 is snapped in the first axis hole from breach, and the second rotating shaft 32 is inserted in the second axis hole, and make ice box 30 be installed in framework, now also need the first fixing feet 71 of elastic component 70 to be inserted in fixing hole 56, the bottom in described ice box 30 linked up with by the crotch of the second fixing feet 72.

After ice box 30 and framework 50 are assembled mutually, again transmission mechanism, cover plate 20 are connected with framework 50 successively, particularly, first the second spur gear 43 and the second bevel gear 45 are pre-installed on turning cylinder 41, first spur gear 42 is pre-installed on cover plate 20, is then installed in framework 50 by turning cylinder 41; And the first spur gear 42 is engaged with the second spur gear 43, the second bevel gear 45 engages with the first bevel gear 44; Again cover plate 20 is connected with framework 50, particularly, first by three rotating shaft 54 contraposition of the axle bed of two on cover plate 20 21 with framework 50 both sides, then by the deformation of two axle beds 21, the 3rd rotating shaft 54 of framework 50 both sides is connected respectively with corresponding axle bed 21, to make can mutually rotate between cover plate 20 and framework 50; After ice box 30, cover plate 20 are assembled mutually with framework 50, can this framework 50 framework 50 be loaded in the cavity 101 of housing 10, during mounting frame 50, the contiguous block 51 in framework 50 is utilized to coordinate realization to be in place with draw-in groove 102, then ice bank 60 is pushed in cavity from opening part, ice bank 60 is positioned at immediately below ice box 30, thus realizes the assembling of whole ice box 30.The ice box 30 of this structure assembles up comparatively simple, is all the assembling completing all parts outside housing 10, then is installed in housing by whole parts, operate more convenient; Meanwhile, due to complete machine housing not arranging miscellaneous part, outward appearance is relatively more succinct, globality is better.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. an ice machine, is characterized in that, comprises the housing being formed with cavity, and described housing is provided with the cover plate for closing or open described cavity, described cover plate is connected with described housing into rotation; At least one rotating ice box is provided with in the cavity of described housing; The pivot center of described ice box is vertical with the pivot center of described cover plate; Be connected with transmission mechanism between described cover plate and described ice box, described transmission mechanism, by the upset torque transmission of described cover plate to described ice box, overturns to drive described ice box.

2. ice machine as claimed in claim 1, it is characterized in that, described transmission mechanism comprises turning cylinder, the first spur gear, the second spur gear, the first bevel gear and the second bevel gear, and described turning cylinder rotates to be located on described housing; Described first spur gear is located on described cover plate, and with described cover plate synchronous axial system; Described first bevel gear is located on described ice box, and with described ice box synchronous axial system; Described second spur gear and the second bevel gear are socketed on described turning cylinder respectively, and described second spur gear engages adaptation with described first spur gear; Described second bevel gear engages adaptation with described first bevel gear.

3. ice machine as claimed in claim 1, it is characterized in that, described transmission mechanism comprises the 3rd spur gear, the 4th spur gear, worm screw and the 5th spur gear, and described 3rd spur gear is located on described cover plate, and with described cover plate synchronous axial system; Described 4th spur gear is located on described ice box, and with described ice box synchronous axial system; Described worm screw is rotated and is located in described cavity, and described 5th spur gear is located on described worm screw, described 5th spur gear and described worm screw synchronous axial system, and described 5th spur gear engages adaptation with described 3rd spur gear; Described worm screw engages adaptation with described 4th spur gear.

4. the ice machine as described in any one of claim 1-3, is characterized in that, is provided with ice bank in the cavity of described housing, and described ice bank is positioned at immediately below described ice box; Described housing is provided with the opening being communicated with described cavity, and described ice bank is from cavity described in described opening slip entry/exit.

5. ice machine as claimed in claim 1, is characterized in that, be provided with framework in the cavity of described housing; Described ice box is provided with the first rotating shaft in the face of the side of described cover plate, and the side of described ice box described cover plate is dorsad provided with the second rotating shaft; Described ice box is located in described framework, and the position of corresponding described first rotating shaft of described framework is provided with the first axis hole with described first axis of rotation adaptation; The position of corresponding described second rotating shaft of described framework is provided with the second axis hole with described second axis of rotation adaptation.

6. ice machine as claimed in claim 5, is characterized in that, described framework is provided with the breach snapping in described first axis hole for described first rotating shaft.

7. ice machine as claimed in claim 5, it is characterized in that, described cover plate and described framework are rotationally connected; The both sides of the corresponding described cover plate of described framework are respectively equipped with the 3rd rotating shaft, and on described cover plate, the position of corresponding described 3rd rotating shaft is provided with the axle bed with described 3rd axis of rotation adaptation.

8. ice machine as claimed in claim 5, is characterized in that, described second rotating shaft is provided with elastic component, when external force to put on described cover plate and makes described cover plate overturn, and described elastic component elastic deformation; When cancelling the external force put on described cover plate, described elastic component elasticity is recovered, and drives described ice box to turn to initial position.

9. ice machine as claimed in claim 8, is characterized in that, in described framework, the position of corresponding described second axis hole is provided with a fixed head, and described fixed head is provided with fixing hole; Described elastic component comprises the spring with the first fixing feet and the second fixing feet, and described second fixing feet is with the crotch of opening towards described spring; Described spring housing is connected in described second rotating shaft, and described first fixing feet inserts described fixing hole, and the bottom in described ice box linked up with by the crotch of described second fixing feet.

10. ice machine as claimed in claim 2, it is characterized in that, described first spur gear is fan-shaped, is fixed on the centre position of described cover plate medial surface, coordinates to drive described turning cylinder to rotate with described second spur gear being arranged on described turning cylinder centre position.