CN109008875B - Cover plate movement assembly of dish washer - Google Patents

Abstract

The invention relates to the technical field of dish washers, in particular to a cover plate moving assembly of a dish washer. The cover plate moving assembly comprises a cover plate, a pull rod, a buffer spring, a reset spring, a base and a driving mechanism, wherein the cover plate, the pull plate and the pull rod are sequentially connected, the reset spring is arranged between the pull rod and the base, one end of the buffer spring is connected to the pull plate, and the other end of the buffer spring is connected to the pull rod. The invention can solve the problem of poor sealing or failure caused by the problem of the size of parts.

Description

Cover plate movement assembly of dish washer

Technical Field

The invention relates to the technical field of dish washers, in particular to a cover plate moving structure of a dish washer.

Background

In order to prevent water in the inner container from leaking out during the dish washing process of the dish washing machine, an inner container cover plate is usually additionally provided and is provided with a sealing strip for sealing, after washing is finished, the inner container cover plate needs to be separated from the inner container to open or draw out the inner container, and the inner container cover plate needs to move up and down before and after washing so as to realize sealing and separation from the inner container. However, in this patent application, the driving mechanism is usually provided with a fixed movement stroke, and in the actual production process, the position of the part in the liner assembly will be error due to the control of the production size, and then the fixed movement stroke will cause the problem of poor sealing due to the up-down deviation of the sealing size of the sealing cover plate.

Disclosure of Invention

The invention aims to provide a cover plate moving assembly of a dish washer, which aims to solve the problems of poor sealing and the like caused by the vertical deviation of the sealing size of a cover plate in the background technology.

The utility model provides a apron motion subassembly of dish washer, includes apron, pulling device, buffer spring, reset spring and actuating mechanism, the apron is connected gradually with pulling device, pulling device with actuating mechanism connects, actuating mechanism can drive pulling device moves down, reset spring can promote pulling device moves up, pulling device can drive through the arm-tie apron moves up or down, pulling device is in the down or upward movement in-process, can make buffer spring takes place elastic deformation. According to the technical scheme, when the driving structure drives the pulling device to move downwards, the cover plate is contacted with the inner container and forms a seal, however, due to the buffer spring, the pulling device can continuously pull the buffer spring to move downwards (namely, the buffer spring is elastically deformed), and then the preset movement stroke is reached, namely, the downward movement stroke of the pulling device is fixed, but the downward movement stroke of the cover plate is adjusted automatically according to the height of the abutting position of the inner container and the sealing strip (the sealing strip is arranged on the cover plate or the inner container, and the technical characteristic is also disclosed in 201711067956.3 patent application in the background art), so that the sealing caused by deviation of the machining size of the cover plate movement assembly (such as the cover plate, the pulling device and the like) is not tight, and even the cover plate movement assembly is invalid.

Further, the pulling device comprises a pull rod and a pull plate, the cover plate, the pull plate and the pull rod are sequentially connected, one end of the buffer spring is connected to the pull rod, and the other end of the buffer spring is connected to the pull plate. In this technical scheme at the downwardly moving's of pull rod process, can stimulate buffer spring, if the sealing of apron and inner bag is not tight, buffer spring can continue to stimulate the arm-tie, makes the apron can continue the downwardly moving, finally guarantees the sealed effect between apron and the inner bag. Specifically, hooks are arranged at two ends of the buffer spring, an upper hanging part is arranged on the pull plate, a lower hanging part is arranged on the pull rod, one end of the buffer spring is hung on the upper hanging part, and the other end of the buffer spring is hung on the lower hanging part. The upper and lower hanging parts can make the cross shaft or have a hole structure, and of course, the upper and lower hanging parts can have other structures which can be matched with the hanging hooks. In order to make the whole structure compact and ensure the linearity of the movement, further, the pull plate is provided with a spring groove, the buffer spring is accommodated in the spring groove, and the upper end of the pull rod and the blocking connection part of the movement groove are respectively provided with an opening, and the opening is used for the buffer spring to pass through. Therefore, the buffer spring is in linear connection with the pull rod and the pull plate, and the linearity of the up-and-down movement of the whole cover plate assembly can be guaranteed. It will be appreciated by those skilled in the art that the spring slot is longer than the portion of the cushioning spring that is deformable.

Further, a moving groove is formed in the pull plate, the upper portion of the pull rod is arranged in the moving groove, the pull rod can move in the moving groove, a blocking connection portion is arranged at the upper end of the moving groove, and the upper end of the pull rod is in butt connection with the blocking connection portion. In the resetting process of the cover plate assembly, namely in the upward movement process of the cover plate, the reset spring can push the pull rod to move upward, the upper end of the pull rod is abutted with the flange, and therefore the pull rod can push the cover plate to move upward, and the cover plate is separated from the liner. After the liner is separated from the cover plate, a user can withdraw the liner to take out the washed dishes. Furthermore, both sides of the pull rod are provided with sliding grooves, the sliding grooves are clamped at both sides of the pull plate movement groove, and the sliding grooves can slide up and down relative to the pull plate. The sliding groove is clamped at the two sides of the moving groove, so that the vertical linear movement of the pull rod can be ensured, and the limiting effect on the pull rod can be realized. Further, the mounting groove is formed in the moving groove of the pull plate and is used for being clamped into the pull rod, and because the sliding grooves are formed in the two sides of the pull rod, the maximum width of the pull rod is larger than the width of the moving groove, and therefore the mounting groove is independently formed below the moving groove and has a larger width so that the pull rod can be clamped into the mounting groove.

Further, a base is arranged on the driving mechanism, a flange is arranged on the pull rod, one end of the return spring is arranged on the base, and the other end of the return spring is abutted to the flange of the pull rod. The reset spring is arranged between the base and the pull rod, and when the driving mechanism stops working, the reset spring drives the pull rod to move upwards by utilizing elastic potential energy stored in the downward movement process of the pull rod, so that the cover plate is finally separated from the liner.

Further, be equipped with double-deck sleeve on the base, double-deck sleeve includes inboard sleeve and outside sleeve, both ends are open structure about the inboard sleeve, be equipped with the spring mount pad between inboard sleeve and the outside sleeve, reset spring one end butt in the spring mount pad, the other end butt in the flange of pull rod, therefore this technical scheme provides one kind and is used for installing reset spring specific structure. Further, the driving mechanism is connected with the pull rod through a pull rope with a pull block, a limit groove for the pull rope to pass through is formed in the pull rod, the pull block is in contact with the tail end of the limit groove, and the pull rope penetrates through the inner sleeve to be connected with the driving mechanism. In the technical scheme, the driving mechanism can be a driving motor or other mechanical driving mechanisms, and the base can be connected with the driving mechanism in a clamping manner.

The invention also provides a connecting structure between the cover plate and the pulling plate, which can quickly and firmly connect the cover plate and the pulling plate. The pull plate is provided with a first clamping groove, the edge of the cover plate is provided with a cover plate folded edge, the cover plate folded edge is provided with a first clamping hook, the first clamping hook extends rightwards from the cover plate folded edge, and the first clamping hook is matched with the first clamping groove. The first clamping hook is matched with the first clamping groove in a left-right direction.

Further, a second clamping groove is formed in the pulling plate, an L-shaped second clamping hook is arranged on the folding edge of the cover plate, the second clamping hook extends rightwards from the folding edge of the cover plate and then extends upwards, and the second clamping hook is matched with the second clamping groove. The second clamping hook is matched with the second clamping groove in an up-down direction.

Further, the upper end of the pulling plate is provided with a pulling plate folding edge, the pulling plate folding edge is provided with a third clamping hook, the third clamping hook extends downwards from the pulling plate folding edge, the cover plate is provided with a third hooking groove, and the third clamping hook is matched with the third hooking groove. The third clamping hook is matched with the third clamping hook groove in an up-down direction.

Compared with the prior art, the invention has the beneficial effects that:

(1) The buffer spring is arranged in the cover plate moving assembly, so that the problems of poor sealing or failure caused by the manufacturing dimensional errors of parts can be solved.

(2) The buffer spring is arranged in the cover plate, and the return spring is arranged between the pull rod and the base.

(3) The pull plate and the cover plate are clamped from different directions, so that the connection reliability of the pull plate and the cover plate is ensured.

Drawings

FIG. 1 is a schematic view of a lid motion assembly of a dishwasher according to the present invention;

Fig. 2 is an enlarged view of a portion a in fig. 1;

FIG. 3 is a cross-sectional view of a lid motion assembly of a dishwasher in accordance with the present invention;

FIG. 4 is an enlarged view of portion B of FIG. 3;

fig. 5 is an enlarged view of a portion C in fig. 3;

FIG. 6 is a cross-sectional view of a lid moving assembly of a dishwasher according to the present invention installed in the dishwasher (in a state in which the lid is separated from the inner tub);

FIG. 7 is an enlarged view of portion D of FIG. 6;

FIG. 8 is an enlarged view of portion E of FIG. 6;

FIG. 9 is a cross-sectional view of a lid motion assembly of a dishwasher of the present invention installed in the dishwasher (lid and liner sealed state);

FIG. 10 is an enlarged view of section F of FIG. 9;

FIG. 11 is an enlarged view of portion G of FIG. 9;

FIG. 12 is a schematic view of a pulling plate according to the present invention;

FIG. 13 is a schematic view of a pull rod according to the present invention;

FIG. 14 is a schematic view of another view of the tie rod of the present invention;

FIG. 15 is a schematic view of another view of the tie rod of the present invention;

FIG. 16 is a schematic view of the cooperation structure of the pull plate and the pull rod according to the present invention;

FIG. 17 is a schematic view of a base structure according to the present invention;

FIG. 18 is a schematic view of a base in another view of the present invention;

fig. 19 is a schematic structural view of a cover plate in the present invention.

Detailed Description

Referring to fig. 1, the cover moving assembly of the present embodiment includes a motor 1, a base 3, a return spring 4, a pull rod 5, a buffer spring 6, a pull plate 7 and a cover 8, and the pull rod 5 and the pull plate 7 in the present embodiment form a pulling device for driving the cover 8 to move upward or downward, and these components are connected or assembled in sequence. The motor 1 is fixedly arranged on the housing of the dish-washing machine or on a guide rail bracket of the dish-washing machine through a motor bracket 2. The motor 1 is connected with the pull rod 5 through the pull rope 100 with the pull block 101, specifically, a limit groove 505 for the pull rope 100 to pass through is arranged at the lower part of the pull rod 5, the pull block 101 of the pull rope 100 is contacted with the tail end of the limit groove 505 and can pull the pull rod 5 to move, the pull rope 100 passes through the inner sleeve 300 of the base 3 to be connected with the motor 1, and the motor 1 can drive the pull rod 5 to move downwards through the pull rope 100, so the detailed structure is shown in fig. 5, 13 and 17. Referring to fig. 17 and 18, the cross section of the base 3 is approximately T-shaped, the base 3 includes a rectangular base 304, a double-layer sleeve, that is, an inner sleeve 300 and an outer sleeve 302 are arranged on the base 304, the inner sleeve 300 and the outer sleeve 302 are coaxially arranged, the upper end and the lower end of the inner sleeve 302 are of an opening structure, a spring mounting seat 301 is arranged between the inner sleeve 300 and the outer sleeve 302, the spring mounting seat 301 is a plurality of protruding blocks arranged between the inner sleeve 300 and the outer sleeve 302, one end of a return spring 4 is arranged on the spring mounting seat 301 between the inner sleeve 300 and the outer sleeve 302, a clamping hook 303 is arranged on the lower portion of the base 304, and the clamping hook 303 is clamped on the motor bracket 2, so that the fixed connection between the base 3 and the motor 1 is realized. Referring to fig. 12-15, the structure of the pull rod 5 is described, and a flange 500 is provided at the middle portion of the pull rod 5, and the flange 500 is circular in this embodiment, but may be square or other suitable shape. A square groove is provided at the upper end of the pull rod 5, a lower hooking portion is provided in the square groove, the lower hooking portion is a lower transverse shaft 502 in this embodiment, sliding grooves 503 are provided at both sides of the square groove, and an opening 504 is provided at the upper end of the pull rod 5. As described above, one end of the return spring 4 is disposed on the spring mount 301 between the inner sleeve 300 and the outer sleeve 302, and the other end of the return spring 4 is in contact with the flange 500 of the pull rod 5, i.e., the return spring 4 is located between the flange 500 of the pull rod 5 and the spring mount 301. Referring to fig. 12, the pull plate 7 is triangular, a linear movement groove 705 is provided on the pull plate 7, a mounting groove 706 is provided below the movement groove 705, the width of the mounting groove 706 is larger than that of the movement groove 705, and a blocking portion, which is a blocking piece 703 in this embodiment, is provided at the upper end of the movement groove 706. A spring groove 704 is provided right above the moving groove 706, the spring groove 704 coincides with the center line of the moving groove 706, and an upper horizontal shaft 702 is provided at the upper part of the spring groove 704. Referring now to fig. 16, the connection between the pull rod 5 and the pull plate 7 will be described, first, the upper portion of the pull rod 5 (i.e., the end with the sliding groove 503) is snapped into the mounting groove 706 of the pull plate 7, and the sliding groove 503 cooperates with the two side plates of the moving groove 706, i.e., the pull rod 5 can move up and down in the moving groove 706. After the pull rod 5 is put into the moving groove 706, the upper end surface 501 of the pull rod 5 contacts with the baffle 703 of the moving groove 706. The two ends of the buffer spring 6 are provided with hooks, namely an upper hook 600 and a lower hook 601, the lower hook 601 is hung on the lower transverse shaft 502, the upper hook 600 is hung on the upper transverse shaft 702, and openings for the buffer spring 6 to pass through, such as the opening 504 of the pull rod 5, are arranged on the pull rod 5 and the spring groove 704. The upper end of the pull rod 5 is connected with the pull plate 7 through the buffer spring 6, and the lower end is arranged in the inner sleeve 300 of the base 3 or above the inner sleeve 300, that is, the lower end of the pull rod 5 is in a suspended state. Referring to fig. 12 and 19 again, a mounting structure of an upper portion of the pull plate 7 and the cover plate 8 is described, a plurality of first clamping grooves 701 and second clamping grooves 708 are formed in the upper portion of the pull plate 7 along a width direction, the first clamping grooves 701 and the second clamping grooves 708 are arranged at intervals, the first clamping grooves 701 are linear clamping grooves, the second clamping grooves 708 are approximately U-shaped clamping grooves, a pull plate folded edge 707 is formed in an upper edge of the pull plate 7, a third clamping hook 700 is arranged on the pull plate folded edge 707, and the third clamping hook 700 extends downwards from the pull plate folded edge 707. The edge of the cover plate 8 is provided with a cover plate folded edge 804, a first clamping hook 802 is arranged on the cover plate folded edge 804, the first clamping hook 802 extends rightwards from the cover plate folded edge 804, and the first clamping hook 802 is matched with the first clamping groove 701. The first hook 802 is engaged with the first slot 701 in the left-right direction. An L-shaped second clamping hook 803 is arranged on the cover plate folded edge 804, the second clamping hook 803 extends rightwards from the cover plate folded edge 804 and then extends upwards, and the second clamping hook 803 is matched with a second clamping groove 708 of the pull plate 7. The second hooks 803 are engaged with the second grooves 708 in the up-down direction. The cover plate 8 is provided with a third hook groove 801, the third hook 700 of the pull plate 7 is matched with the third hook groove 801, and the third hook 700 is matched with the third hook groove 801 in the up-down direction. The pull plate 7 and the cover plate 8 in this embodiment are clamped from different directions, that is, the first hook 802 and the first clamping groove 701 are matched in the left-right direction, the second hook 803 and the second clamping groove 708 are matched in the up-down direction, and the third hook 700 and the third clamping groove 801 are matched in the up-down direction, so that the reliability of the connection between the pull plate 7 and the cover plate 8 is ensured, and particularly, see fig. 2.

The principle of movement of the cover plate assembly in this embodiment is described below in connection with fig. 3-11. In the inactive state of the dishwasher, the cover plate 8 is in a separated state from the inner container 9, and the user can withdraw the inner container 9 from the dishwasher housing. When the dish washer works, because the spray arm is arranged in the inner container 9 to spray, in order to prevent water flow from exiting the inner container 9, the inner container 9 and the cover plate 8 need to be sealed, the motor 1 starts to work at the moment, the pull rod 5 is pulled downwards through the pull rope 100, the pull rod 5 can drive the pull plate 7 and the cover plate 8 to move downwards, when the initial force of the buffer spring 6 is set to be a larger value, after the sealing strip 800 on the cover plate 8 is contacted with the inner container 9 and forms a seal, the motor 1 can continuously pull the pull rod 5 to move downwards, at the moment, the pull rod 5 can compress the buffer spring 6, namely, the buffer spring 6 can elastically deform until the motor 1 stops working. In this working process, the preset stroke of the motor 1 is fixed, but the downward stroke of the cover plate moving assembly is automatically adjusted by the buffer spring 6 according to the abutting position of the liner 9 and the sealing strip 800, and the return spring 4 is always compressed in the downward movement process of the pull rod 5, that is, the return spring 4 always stores elastic potential energy in the downward movement process of the pull rod 5. The buffer spring 6 is not elastically deformed until the seal 800 of the cover 8 is not in contact with the inner container 9. After the motor 1 stops working, the pull rod 5 can move upwards under the action of the elastic force of the return spring 4, and as the upper end surface 501 of the pull rod 5 is in contact with the baffle 703 of the pull plate 7, the pull rod 5 can push the pull plate 7 upwards, namely the pull plate 7 moves upwards, and finally the cover plate 8 is separated from the liner 9, so that a user can draw out the liner 9 to take out washed dishes. The buffer spring 6 can compensate the problem that the movement position is deviated due to the dimensional errors of parts (such as the pull rod 5 and the pull plate 7), namely the problem that the sealing is not tight or fails due to the dimensional problems can be solved.

The foregoing detailed description of the preferred embodiments and advantages of the invention will be appreciated that the foregoing description is merely illustrative of the presently preferred embodiments of the invention, and that no changes, additions, substitutions and equivalents of those embodiments are intended to be included within the scope of the invention.

Claims (9)

1. The utility model provides a apron motion subassembly of dish washer, its characterized in that includes apron, pulling device, buffer spring, reset spring and actuating mechanism, the apron is connected with pulling device, pulling device with actuating mechanism connects, actuating mechanism can drive pulling device moves down, reset spring can promote pulling device moves up, pulling device can drive the apron moves up or down, pulling device can make in the decurrent or upward motion in-process buffer spring takes place elastic deformation, pulling device includes pull rod and arm-tie, apron, arm-tie and pull rod are connected in proper order, buffer spring one end is connected on the pull rod, and the other end is connected on the arm-tie be equipped with the motion groove on the arm-tie, the upper portion of pull rod sets up in the motion groove, the pull rod can move in the motion groove, the upper end of the motion groove is provided with a blocking connection part, the upper end of the pull rod is in butt joint with the blocking connection part, a base is arranged on the driving mechanism, the pull rod is provided with a flange, one end of a return spring is arranged on the base, the other end of the return spring is in butt joint with the flange of the pull rod, a double-layer sleeve is arranged on the base, the double-layer sleeve comprises an inner sleeve and an outer sleeve, the upper end and the lower end of the inner sleeve are of an opening structure, a spring mounting seat is arranged between the inner sleeve and the outer sleeve, one end of the return spring is in butt joint with the spring mounting seat, the other end of the return spring is in butt joint with the flange of the pull rod, sliding grooves are formed in two sides of the pull plate motion groove and can slide up and down relative to the pull plate.

2. The cover plate movement assembly according to claim 1, wherein hooks are arranged at two ends of the buffer spring, an upper hanging part is arranged on the pull plate, a lower hanging part is arranged on the pull rod, one end hook of the buffer spring is hung on the upper hanging part, and the other end hook of the buffer spring is hung on the lower hanging part.

3. The deck motion assembly of claim 2, wherein a spring slot is provided in the tie plate, the buffer spring being received in the spring slot, the upper catch of the tie plate being disposed in the spring slot.

4. The deck moving assembly of claim 2, wherein openings are provided in both the upper end of the tie rod and the catch of the moving slot, the openings being for the buffer springs to pass through.

5. The cover plate movement assembly according to claim 1, wherein the movement groove of the pull plate is provided with a mounting groove, the width of the mounting groove is larger than that of the movement groove, and the mounting groove is matched with the sliding groove to be clamped into the pull rod.

6. The cover plate movement assembly according to claim 5, wherein the driving mechanism is connected to the pull rod through a pull rope with a pull block, a limit groove for the pull rope to pass through is formed in the pull rod, the pull block is in contact with the tail end of the limit groove, and the pull rope passes through the inner sleeve and is connected to the driving mechanism.

7. The deck motion assembly of any one of claims 1-6, wherein a first slot is provided in the pull plate, a deck flap is provided at an edge of the deck, a first hook is provided on the deck flap, the first hook extends rightward from the deck flap, and the first hook mates with the first slot.

8. The cover plate moving assembly according to claim 7, wherein a second clamping groove is formed in the pull plate, an L-shaped second clamping hook is formed on the cover plate folded edge, the second clamping hook extends rightward from the cover plate folded edge and then extends upward, and the second clamping hook is matched with the second clamping groove.

9. The cover plate moving assembly according to claim 8, wherein a pull plate folded edge is arranged at the upper end of the pull plate, a third clamping hook is arranged on the pull plate folded edge, the third clamping hook extends downwards from the pull plate folded edge, a third hook groove is formed in the cover plate, and the third clamping hook is matched with the third hook groove.