CN219250088U - Drawer type dish washer of fixed apron in area - Google Patents

Abstract

The utility model discloses a drawer type dish-washing machine with a fixed cover plate, and relates to the field of dish-washing machines. At present, the problem of hidden danger of water leakage commonly existing in drawer type dish washing machines is urgently needed to be solved. The utility model comprises a dishwasher box body, a dishwasher liner component capable of moving back and forth, a cover plate component and a water inlet component for water inlet, wherein the dishwasher liner component is provided with a dishwasher cavity; the cover plate component can cover the opening of the dish washing cavity, the water inlet component comprises a water inlet pipe communicated with the dish washing cavity, and the opening of the dish washing cavity is upward; the cover plate component is transversely arranged, and when the dish washer inner container component is in a push-in state, the cover plate component seals the dish washing cavity; the cover plate component is fixed at the top of the inner cavity of the dishwasher box body through a fixing piece; the middle part of the cover plate component is provided with a water inlet pipe hole, the water inlet pipe is inserted into the water inlet pipe hole, and the water inlet pipe is fixedly connected with the cover plate component. In this technical scheme, the apron adopts fixed mode, and the inlet tube is fixed on the apron subassembly, need not remove again, avoids not hard up, has solved the problem of leaking.

Description

Drawer type dish washer of fixed apron in area

Technical Field

The utility model relates to the field of dish washers, in particular to a drawer type dish washer with a fixed cover plate.

Background

The water inlet of the existing drawer type dish washer moves back and forth along with the liner, the water inlet pipe connected with the water inlet also needs to move along with the liner, and the water inlet pipe is pulled to cause looseness between the water inlet pipe and the connector and damage of the water inlet pipe, even the water pipe falls off, the looseness and damage can cause water leakage phenomenon, and the current urgent need is to solve the common hidden danger of water leakage of the drawer type dish washer.

Disclosure of Invention

The utility model aims to solve the technical problems and provide the technical task of perfecting and improving the prior art scheme and providing the drawer type dish washer with the fixed cover plate so as to achieve the purpose of avoiding loosening of the water pipe. For this purpose, the present utility model adopts the following technical scheme.

A drawer type dish-washing machine with a fixed cover plate comprises a dish-washing machine box body, a dish-washing machine liner component capable of moving back and forth, a cover plate component and a water inlet component for water inlet, wherein the dish-washing machine liner component is provided with a dish-washing cavity; the cover plate component can cover the opening of the dish washing cavity, the water inlet component comprises a water inlet pipe communicated with the dish washing cavity, and the opening of the dish washing cavity is upward; the cover plate component is transversely arranged, and when the dish washer liner component is in a push-in state, the cover plate component seals the dish washing cavity; the cover plate component is fixed at the top of the inner cavity of the dishwasher box body through a fixing piece; the middle part of the cover plate component is provided with a water inlet pipe hole, the water inlet pipe is inserted into the water inlet pipe hole, and the water inlet pipe is fixedly connected with the cover plate component. In this technical scheme, the apron adopts fixed mode, and the inlet tube is fixed on the apron subassembly, need not remove again, avoids not hard up, has solved the problem of leaking.

As a preferable technical means: the inner walls of the upper parts of the left side, the right side and the front side of the inner container assembly of the dish washer are respectively provided with a first slot matched with the cover plate assembly, and the left side, the right side and the front side of the cover plate assembly are embedded into the first slots when the inner container assembly of the dish washer is in a pushing-in state. The cover plate assembly is fixed, the dish washer inner container assembly is pushed into the dish washer box body in a translational backward mode, the left side edge and the right side edge of the cover plate assembly are gradually inserted into the first slot in the process that the dish washer inner container assembly is pushed into the dish washer inner container assembly, the front side edge of the cover plate assembly is inserted into the first slot on the front side of the dish washer inner container assembly, the dish washer inner container assembly and the cover plate assembly are in an inserting mode, after the cover plate assembly is inserted into the first slot, although a gap is reserved between the cover plate assembly and the first slot, a channel formed by the gap is roundabout, and water outflow can be avoided.

As a preferable technical means: the cover plate assembly comprises a first cover plate, a first sealing piece and a second sealing piece which are arranged on the first cover plate, wherein the first sealing piece and the second sealing piece are elastic pieces; the first sealing piece surrounds the left side edge, the front side edge and the left side edge of the first cover plate to form a U-shaped semi-enclosed sealing ring; the second sealing piece is positioned at the rear side of the first cover plate; the first sealing piece and the second sealing piece are matched to reduce gaps between the first sealing piece and the dish washer inner container assembly, so that sealing between the cover plate assembly and the dish washer inner container assembly is achieved. The first sealing element is matched with the second sealing element to form an omnibearing seal on the first cover plate, so that the fit clearance between the cover plate assembly and the dish washer liner assembly is effectively reduced, water is further prevented from flowing out, the steam outflow amount can be reduced, the heat loss is reduced, the humidity in the box body is reduced, and the breeding of bacteria is reduced.

As a preferable technical means: one side of the first sealing element is provided with a second slot matched with the side edge of the first cover plate, and the first sealing element clamps the edges of the left side, the front side and the right side of the first cover plate through the second slot and is adhered with the first cover plate; the middle part of first sealing member is offered and is followed length direction and link up the deformation hole, and the periphery of first sealing member is equipped with many protruding muscle along length direction. The first sealing element clamps the edge of the first cover plate through the second slot, is convenient to assemble, is firmly combined, protects the edge comprehensively, is not only arranged below and outside the first cover plate, but also is sealed above the first cover plate, and improves the effectiveness and reliability of sealing. The first sealing element is provided with a deformation hole, is used for providing a deformation space, can store energy and provide a rebound force, so that the outer side of the first sealing element can be reliably abutted against the wall of the first slot, the tightness is improved, the first sealing element is provided with the deformation hole and has the characteristic of easy deformation, the resistance of relative movement of the cover plate assembly and the dish washer liner assembly is effectively reduced, and the occurrence of the conditions of blocking and the like is avoided; the convex ribs can reduce the contact surface of the first sealing piece and the first slot, and further reduce the resistance of relative movement; the convex ribs are in contact with the groove wall, and the sealing effect can be further improved by arranging a plurality of barriers, so that the sealing performance is effectively improved, and meanwhile, the pressure intensity when the convex ribs are in contact with the groove wall is high.

As a preferable technical means: the second sealing piece is provided with a front barrier strip, a rear barrier strip parallel to the front barrier strip and a connecting strip for connecting the front barrier strip and the rear barrier strip. The second sealing piece is provided with a plurality of blocking strips, so that the sealing of the rear side is realized.

As a preferable technical means: the lower edge of the front barrier strip is lower than the rear barrier strip, and the rear side surface of the front barrier strip is matched with the upper opening of the rear side inner wall of the dish washer inner container assembly; the bottom of the rear barrier strip can be contacted with the top surface of the rear side of the dish washer inner container assembly. The innermost side edge strip, namely the front barrier strip, is longer, just flushes with the liner surface frame in the closed state, can prevent water flow from directly spraying into the joint gap, reduces the rear side top surface of water and steam entering the dish washer liner assembly, and cooperates the back barrier strip again, can prevent water or steam that enters the rear side top surface of dish washer liner assembly from overflowing.

As a preferable technical means: a middle baffle strip is arranged below the connecting strip, and the cross section of the middle baffle strip is in a downward convex arc shape; the bottom of the middle baffle strip can be contacted with the top surface of the rear side of the dish washer inner container assembly. The middle baffle strip is in a downward convex arc shape, a large deformation space is reserved between the connecting strip and the middle baffle strip, so that the bottom of the middle baffle strip can reliably contact with the top surface of the rear side of the dish washer inner container assembly, the contact surface with the inner container surface frame is increased on the middle arc edge, and the sealing effect is improved. Water or steam located on the rear top surface of the dishwasher liner assembly is blocked from escaping outwardly.

As a preferable technical means: the upper end of the front barrier strip exceeds the connecting strip and extends backwards to form a first pressing strip, the upper end of the rear barrier strip exceeds the connecting strip and extends backwards and forwards to form a second pressing strip, an inverted T-shaped pressing groove cavity is formed by the first pressing strip, the connecting strip and the second pressing strip, a positioning strip is arranged in the pressing groove cavity, the cross section of the positioning strip is in a convex shape matched with the pressing groove cavity, and the lower part of the positioning strip is embedded into the pressing groove cavity; the locating strip is provided with a plurality of connecting holes, the screw penetrates through the first cover plate from top to bottom and is connected with the connecting holes of the locating strip, the first pressing strip and the second pressing strip are clamped between the first cover plate and the locating strip, and the second sealing piece is hoisted on the first cover plate through the locating strip. Reliable connection and convenient assembly. The locating strip may be rust-proof metallic, plastic, etc.

As a preferable technical means: a plurality of positioning columns protruding upwards are arranged on the positioning strip, and the connecting holes are formed in the positioning columns; the first cover plate is provided with a positioning hole matched with the positioning column; after the locating column on the locating strip passes through the locating hole of the first cover plate upwards, the screw is screwed into the connecting hole from top to bottom. The connection is convenient, and the positioning is reliable; the head of the screw is large in size and the diameter of the positioning hole is large, so that the positioning strip is lifted.

As a preferable technical means: the cover plate assembly also comprises a second cover plate, the second cover plate is positioned below the first cover plate, the second sealing piece is attached to the rear side face of the second cover plate, and a plurality of diversion trenches are formed in the lower bottom face of the second cover plate. The spray arm of drawer type dish washer also can strike the apron when moving, the water is upwards washed bowl dish and other articles, can produce the impact sound then, and the guiding gutter can guide the rivers direction, makes water rebound towards the direction that sets for, is favorable to improving the cleaning performance, and the guiding gutter weakens buffering water velocity simultaneously, reduces the impact sound of water, can play the amortization effect.

The first cover plate is a glass plate, and the second cover plate is a plastic plate; the first cover plate and the second cover plate are respectively provided with a connecting hole for penetrating a screw for fixing the second cover plate on the first cover plate; the top surface of the second cover plate is provided with a groove corresponding to the diversion trench, and a bonding layer is arranged between the upper surface of the second cover plate and the lower surface of the first cover plate. The corresponding grooves are arranged to enable the wall thickness of the second cover plate to be basically the same, the grooves are arranged on the corresponding upper surfaces, and the grooves are arranged on the corresponding lower surfaces, so that the protrusions are arranged on the upper surfaces, the materials, the weight and the deformation amount during use can be reduced, the deformation during processing is reduced, and the generated flatness is improved. The bonding layer can be glass cement and the like, and has the effects of bonding and silencing. If the first cover plate and the second cover plate adopt an integral injection molding structure, the single plastic plate can be sprayed by hot water due to the material relation, and the plastic plate can be deformed after being added with gravity for a long time. The plastic plate is combined with the glass, and the plastic plate is integrally fixed by virtue of the flatness and the hardness of the glass, so that the plastic plate is ensured not to deform, and the change of the water flow direction caused by the change of the angle of the diversion groove is avoided, and the cleaning effect is influenced; the deformation-free characteristic of the glass plate can ensure the smoothness of drawer drawing and the phenomena of clamping and the like caused by deformation can not occur.

As a preferable technical means: the cross section of the diversion trench is triangular, and a plurality of diversion trenches are continuously arranged to form a diversion surface. The triangular diversion trench has the function of gathering water, reduces the water quantity which is sputtered to the edge along the top surface, and is more beneficial to improving the cleaning effect by centralizing rebound water.

As a preferable technical means: the diversion trenches are linear diversion trenches, and are arranged side by side continuously to form square diversion surfaces. And the second cover plate is convenient to process.

As a preferable technical means: the guide grooves are annular, and are concentrically arranged to form a circular guide surface. The ejection surface of the rebound water is concentrated in a circular area, so that the rebound water is more concentrated, and the cleaning effect is facilitated.

As a preferable technical means: the cross section of the diversion trench is isosceles triangle, the angle of the vertex angle is A, wherein A is more than or equal to 60 degrees and less than or equal to 100 degrees. The ejection surface of rebound water is effectively controlled, and the cleaning effect is improved while water is prevented from overflowing.

As a preferable technical means: the dish washer inner container assembly comprises an inner container and an inner container surface frame fixedly connected to the upper part of the inner container, wherein the inner container surface frame is square and is formed by surrounding a left frame edge, a front frame edge, a right frame edge and a rear frame edge; the back frame edge of the liner surface frame is lower than the left frame edge, the front frame edge and the right frame edge, the inner side walls of the left frame edge, the front frame edge and the right frame edge are provided with first slots matched with the cover plate component, the bottom surface of each first slot is higher than the back frame edge, and when the liner component of the dish washer translates backwards, the left side edge, the right side edge and the front side edge of the cover plate component are gradually embedded into the first slots. The dish washer inner bag subassembly includes inner bag and rigid coupling inner bag face frame on inner bag upper portion, and inner bag, inner bag face frame are split structure, and inner bag, inner bag face frame can be different materials, and convenient processing especially the seting up of first slot, and the inner bag face frame adopts the working of plastics, on the basis of reducing processing cost, can have the first slot of relatively dark, increase the parcel face to the apron subassembly, improve sealed effect.

The beneficial effects are that: in this technical scheme, the apron adopts fixed mode, and the inlet tube is fixed on the apron subassembly, need not remove again, avoids not hard up, has solved the problem of leaking.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of an assembly structure of the water intake assembly of the present utility model.

Fig. 3 is a schematic view of a structure of a dishwasher container assembly of the present utility model in a pushed-in state.

Fig. 4 is a schematic view of the structure of the dishwasher container assembly of the present utility model in a pulled-out state.

Fig. 5 is a schematic view showing an assembled structure of the first sealing member of the dishwasher container assembly of the present utility model in a pushed-in state.

Fig. 6 is an enlarged view of a portion a of fig. 5.

Fig. 7 is a schematic view of an assembled structure of the second seal (7) of the dishwasher container assembly of the present utility model in a pushed-in state.

Fig. 8 is an enlarged view of a portion B of fig. 7.

Fig. 9 is a schematic view of an exploded construction of a deck assembly of the present utility model.

Fig. 10 is a schematic structural view of the cover plate assembly of the present utility model.

FIG. 11 is a schematic cross-sectional structural view of the cover plate assembly of the present utility model.

Fig. 12 is an enlarged schematic view of a structure of a portion C of fig. 11.

Fig. 13 is an enlarged schematic view of another structure of the portion C of fig. 11.

Fig. 14 is a schematic structural view of a second cover plate of the present utility model.

Fig. 15 is a schematic view of an exploded construction of a dishwasher liner assembly of the present utility model.

In the figure: 1. a dishwasher cabinet; 2. a cover plate assembly; 3. a dishwasher liner assembly; 301. a dishwashing cavity; 302. a first slot; 4. a water inlet pipe; 5. a first cover plate; 6. a first seal; 601. a second slot; 602. a deformation hole; 603. convex ribs; 7. a second seal; 701. A front barrier strip; 702. a rear barrier strip; 703. a connecting strip; 704. a middle barrier strip; 705. a first batten; 706. a second pressing bar; 8. A positioning strip; 801. positioning columns; 9. a second cover plate; 901. a diversion trench; 902. a groove; 10. a bonding layer; 11. an inner container; 12. a liner frame; 121. a left frame edge; 122. a front frame edge; 123. a right frame edge; 124. a rear frame edge; 13. and (5) hoisting the frame.

Detailed Description

The technical scheme of the utility model is further described in detail below with reference to the attached drawings.

Embodiment one:

as shown in fig. 1 and 2, the utility model comprises a dishwasher box body 1, a dishwasher liner assembly 3 capable of moving back and forth and provided with a dishwasher cavity 301, a cover plate assembly 2 for sealing an opening of the dishwasher cavity 301 and a water inlet assembly for feeding water into the dishwasher liner cavity, wherein the water inlet assembly comprises a water inlet pipe 4 communicated with the dishwasher cavity 301; the dishwashing cavity 301 is opened upwards; the cover plate component 2 is transversely arranged, and when the dish washer inner container component 3 is in a pushing-in state, the cover plate component 2 seals the dish washing cavity 301; the cover plate component 2 is fixed on the top of the inner cavity of the dishwasher box 1 through a fixing piece; the middle part of the cover plate component 2 is provided with a water inlet pipe hole, a water inlet pipe 4 is inserted into the water inlet pipe hole, and the water inlet pipe 4 is fixedly connected with the cover plate component 2. In this technical scheme, the apron adopts fixed mode, and inlet tube 4 is fixed on apron subassembly 2, need not remove again, avoids not hard up, has solved the problem of leaking.

Embodiment two:

as shown in fig. 3 and 4, the same parts as those of the first embodiment will not be described again, except that: in order to improve the sealing effect, the inner walls of the upper parts of the left side, the right side and the front side of the dish washer inner container assembly 3 are respectively provided with a first slot 302 matched with the cover plate assembly 2, and the left side, the right side and the front side of the cover plate assembly 2 are embedded into the first slots 302 when the dish washer inner container assembly 3 is in a pushing-in state. The cover plate assembly 2 is fixed, the dish washer inner container assembly 3 is pushed into the dish washer box 1 in a translational backward mode, the left side edge and the right side edge of the cover plate assembly 2 are gradually inserted into the first slot 302 in the pushing process of the dish washer inner container assembly 3, the front side edge of the cover plate assembly 2 is finally inserted into the first slot 302 on the front side of the dish washer inner container assembly 3, the dish washer inner container assembly 3 and the cover plate assembly 2 are in an inserting mode, after the cover plate assembly 2 is inserted into the first slot 302, although a gap is reserved between the cover plate assembly 2 and the first slot 302, a channel formed by the gap is roundabout, and water outflow can be avoided.

In order to further improve the tightness, the cover plate assembly 2 comprises a first cover plate 5, a first sealing piece 6 and a second sealing piece 7 which are arranged on the first cover plate 5, wherein the first sealing piece 6 and the second sealing piece 7 are elastic pieces; the first sealing piece 6 surrounds the left side edge, the front side edge and the left side edge of the first cover plate 5 to form a U-shaped semi-enclosed sealing ring; the second seal 7 is located on the rear side of the first cover plate 5; the first sealing piece 6 and the second sealing piece 7 are matched to reduce the gap between the first sealing piece and the dish washer inner container assembly 3, so that the sealing between the cover plate assembly 2 and the dish washer inner container assembly 3 is realized. The first sealing piece 6 cooperates with the second sealing piece 7 to form an omnibearing seal on the first cover plate 5, so that the fit clearance between the cover plate assembly 2 and the dish washer liner assembly 3 is effectively reduced, water is further prevented from flowing out, the steam outflow amount can be reduced, the heat loss is reduced, the humidity in the box body is reduced, and the breeding of bacteria is reduced.

To achieve the fixation of the cover plate assembly 2, in this embodiment two parallel lifting frames 13 are used fixed to the inner top surface of the dishwasher cabinet 1.

Embodiment III:

as shown in fig. 5 and 6, the same points as the embodiment will not be described in detail, except that: a second slot 601 matched with the side edge of the first cover plate 5 is formed in one side of the first sealing piece 6, and the first sealing piece 6 clamps the edges of the left side, the front side and the right side of the first cover plate 5 through the second slot 601 and is adhered with the first cover plate 5; the middle part of the first sealing member 6 is provided with a deformation hole 602 penetrating along the length direction, and the periphery of the first sealing member 6 is provided with a plurality of convex ribs 603 along the length direction. The first sealing piece 6 clamps the edge of the first cover plate 5 through the second slot 601, is convenient to assemble, is firm in combination, protects the edge comprehensively, is not only arranged below and outside the first cover plate 5, but also is sealed above the first cover plate 5, and improves the effectiveness and reliability of sealing. The first sealing element 6 is provided with the deformation hole 602, which is used for providing a deformation space, accumulating capacity and providing a rebound force, so that the outer side of the first sealing element 6 can be reliably abutted against the wall of the first slot 302, the sealing performance is improved, the first sealing element 6 has the characteristic of easy deformation after being provided with the deformation hole 602, the resistance of the relative movement of the cover plate assembly 2 and the dishwasher liner assembly 3 is effectively reduced, and the occurrence of the conditions of blocking and the like is avoided; the convex ribs 603 can reduce the contact surface between the first sealing piece 6 and the first slot 302, and further reduce the resistance to relative movement; the convex ribs 603 are abutted against the groove walls, which is equivalent to arranging a plurality of barriers, so that the tightness is effectively improved, and meanwhile, the pressure intensity when the convex ribs 603 are abutted against the groove walls is high, so that the sealing effect can be further improved.

Embodiment four:

as shown in fig. 7 and 8, the same points as the embodiment are not described in detail, and the difference is that: the second seal 7 is provided with a front barrier 701, a rear barrier 702 parallel to the front barrier 701, and a connecting bar 703 connecting the front barrier 701 and the rear barrier 702. The second sealing element 7 is provided with a plurality of barrier strips, so that the sealing of the rear side is realized.

Wherein, the lower edge of the front barrier strip 701 is lower than the rear barrier strip 702, the rear side surface of the front barrier strip 701 is matched with the upper opening of the rear side inner wall of the dishwasher liner assembly 3; the bottom of the rear barrier rib 702 can contact the rear top surface of the dishwasher container assembly 3. The innermost side edge strip, namely the front barrier strip 701 is longer and just flush with the liner surface frame 12 in a closed state, so that water flow can be prevented from being directly sprayed into a joint gap, water and steam can be reduced from entering the rear top surface of the liner assembly 3 of the dish washer, and water or steam entering the rear top surface of the liner assembly 3 of the dish washer can be prevented from overflowing by being matched with the rear barrier strip 702.

In order to further improve the sealing effect of the second sealing element 7, a middle baffle strip 704 is arranged below the connecting strip 703, and the cross section of the middle baffle strip 704 is in a downward convex arc shape; the bottom of the middle barrier rib 704 can contact the rear top surface of the dishwasher inner assembly 3. The middle baffle strip 704 is in a downward convex arc shape, and a large deformation space is formed between the connecting strip 703 and the middle baffle strip 704, so that the bottom of the middle baffle strip 704 can reliably contact with the top surface of the rear side of the dish washer liner assembly 3, the contact surface with the liner surface frame 12 is increased on the middle arc edge, and the sealing effect is improved. Water or steam located at the rear top surface of the dishwasher inner assembly 3 is blocked from overflowing outwards.

In order to enable the second sealing member 7 to be reliably fixed, the upper end of the front barrier strip 701 extends beyond the connecting strip 703 and backwards to form a first pressing strip 705, the upper end of the rear barrier strip 702 extends beyond the connecting strip 703 and backwards and forwards to form a second pressing strip 706, the first pressing strip 705, the connecting strip 703 and the second pressing strip 706 form an inverted T-shaped pressing groove cavity, a positioning strip 8 is arranged in the pressing groove cavity, the cross section of the positioning strip 8 is in a convex shape matched with the pressing groove cavity, and the lower part of the positioning strip 8 is embedded into the pressing groove cavity; the positioning strip 8 is provided with a plurality of connecting holes, the screw penetrates through the first cover plate 5 from top to bottom and is connected with the connecting holes of the positioning strip 8, the first pressing strip 705 and the second pressing strip 706 are clamped between the first cover plate 5 and the positioning strip 8, and the second sealing element 7 is hung on the first cover plate 5 through the positioning strip 8. Reliable connection and convenient assembly. The positioning strip 8 can be made of rust-proof metal, plastic and the like, so that the second sealing element 7 can be effectively prevented from falling and being damaged due to loose fixation in the moving process.

In order to realize accurate positioning of the second sealing element 7, a plurality of positioning columns 801 protruding upwards are arranged on the positioning strip 8, and connecting holes are formed in the positioning columns 801; the first cover plate 5 is provided with a positioning hole matched with the positioning column 801; after the positioning posts 801 on the positioning strips 8 pass through the positioning holes of the first cover plate 5 upwards, the screws are screwed into the connecting holes from top to bottom. The connection is convenient, and the positioning is reliable; the head of the screw is large in size and the diameter of the positioning hole is large, so that the positioning strip 8 is hoisted.

Fifth embodiment:

the same parts as those of the embodiment will not be described in detail, and the difference is that: as shown in fig. 9, 10, 11 and 12, in order to reduce the collision noise, the cover assembly 2 further includes a second cover plate 9, the second cover plate 9 is located below the first cover plate 5, the second sealing member 7 abuts against the rear side surface of the second cover plate 9, and a plurality of diversion trenches 901 are provided on the lower bottom surface of the second cover plate 9. The spray arm of drawer type dish washer also can strike the apron when moving, the water is upwards washed bowl dish and other articles, can produce the impact sound then, and guiding gutter 901 can guide the rivers direction, makes water rebound towards the direction that sets for, is favorable to improving the cleaning performance, and guiding gutter 901 weakens buffering water velocity simultaneously, reduces the impact sound of water, can play the amortization effect.

In order to ensure flatness and reduce deformation, the first cover plate 5 is a glass plate, and the second cover plate 9 is a plastic plate; the first cover plate 5 and the second cover plate 9 are provided with connecting holes for penetrating screws for fixing the second cover plate 9 on the first cover plate 5. If the first cover plate 5 and the second cover plate 9 are of an integral injection molding structure, the single plastic plate can be sprayed by hot water due to the material relation, and the plastic plate can be deformed after a long time due to the gravity. In the embodiment, a mode of combining a plastic plate with glass is adopted, and the plastic plate is integrally fixed by virtue of the flatness and the hardness of the glass, so that the plastic plate is ensured not to deform, and the change of the water flow direction caused by the change of the angle of the diversion trench 901 is avoided, and the cleaning effect is influenced; the deformation-free characteristic of the glass plate can ensure the smoothness of drawer drawing and the phenomena of clamping and the like caused by deformation can not occur.

As shown in fig. 13, in order to reduce the material and weight, the top surface of the second cover plate 9 is provided with a groove 902 corresponding to the diversion trench 901, and an adhesive layer 10 is provided between the upper surface of the second cover plate 9 and the lower surface of the first cover plate 5. The grooves 902 corresponding to the diversion trenches 901 are arranged to enable the wall thickness of the second cover plate 9 to be basically the same, the grooves 902 are arranged on the upper surface of the second cover plate, and the grooves 901 are arranged on the lower surface of the second cover plate. The bonding layer 10 can be glass cement, and has the functions of bonding and silencing.

The cross section of the diversion trench 901 can be in a horn shape, a trapezoid shape and the like, in the embodiment, the cross section of the diversion trench 901 is in an isosceles triangle shape, the vertex angle A of the isosceles triangle is 84 degrees, the triangular diversion trench 901 has a furling effect on water, the water quantity sputtered to the edge along the top surface is reduced, the concentrated rebound water is more conducive to improving the cleaning effect, the angle effectively controls the ejection surface of the rebound water, and the cleaning effect is improved while the water is prevented from overflowing.

The arrangement of the diversion trenches 901 can have various modes, for example, in fig. 10, the diversion trenches 901 are linear diversion trenches 901, and the diversion trenches 901 are arranged side by side continuously to form square diversion surfaces. The second cover plate 9 is conveniently machined. Or as shown in fig. 10, the diversion trench 901 is an annular diversion trench 901, and the diversion trenches 901 are concentrically arranged to form a circular diversion surface. The ejection surface of the rebound water is concentrated in a circular area, so that the rebound water is more concentrated, and the cleaning effect is facilitated.

Example six:

as shown in fig. 15, the same points as those of the first embodiment are not described again, and the difference is that: the dish washer inner container assembly 3 comprises an inner container 11 and an inner container surface frame 12 fixedly connected to the upper part of the inner container 11, wherein the inner container surface frame 12 is square, and is formed by surrounding a left frame edge 121, a front frame edge 122, a right frame edge 123 and a rear frame edge 124; the rear frame edge 124 of the liner panel frame 12 is lower than the left frame edge 121, the front frame edge 122 and the right frame edge 123, the inner side walls of the left frame edge 121, the front frame edge 122 and the right frame edge 123 are provided with a first slot 302 matched with the cover plate assembly 2, the bottom surface of the first slot 302 is higher than the rear frame edge 124, and when the liner assembly 3 of the dish washer translates backwards, the left side edge, the right side edge and the front side edge of the cover plate assembly 2 are gradually embedded into the first slot 302. The dish washer inner bag subassembly 3 includes inner bag 11 and rigid coupling inner bag face frame 12 on inner bag 11 upper portion, and inner bag, inner bag face frame 12 are split type structure, and inner bag, inner bag face frame 12 can be different materials, and convenient processing especially the seting up of first slot 302, and inner bag face frame 12 adopts the working of plastics, on the basis of reducing processing cost, can have darker first slot 302, increase the parcel face to apron subassembly 2, improves sealed effect.

The dishwasher may be integrated in a sink or integrated in an integrated kitchen.

The drawer dishwasher with a fixed cover plate shown in fig. 1-15 is a specific embodiment of the present utility model, has already demonstrated the essential features and improvements of the present utility model, and can be modified in terms of shape, structure, etc. according to practical use requirements, in the light of the present utility model, all of which are within the scope of protection of the present utility model.

Claims (16)

1. A drawer type dish-washing machine with a fixed cover plate comprises a dish-washing machine box body (1), a dish-washing machine liner component (3) capable of moving back and forth, a cover plate component (2) and a water inlet component for water inlet, wherein the dish-washing machine liner component (3) is provided with a dish-washing cavity (301); the cover plate component (2) can cover the opening of the dish washing cavity (301), and the water inlet component comprises a water inlet pipe (4) communicated with the dish washing cavity (301), and is characterized in that: the opening of the bowl washing cavity (301) is upward; the cover plate component (2) is transversely arranged, and when the dish washer inner container component (3) is in a pushing-in state, the cover plate component (2) covers the dish washing cavity (301); the cover plate component (2) is fixed on the top of the inner cavity of the dish-washing machine box body (1) through a fixing piece; the middle part of the cover plate component (2) is provided with a water inlet pipe hole, the water inlet pipe (4) is inserted into the water inlet pipe hole, and the water inlet pipe (4) is fixedly connected with the cover plate component (2).

2. The drawer dishwasher with a stationary cover as in claim 1, wherein: the inner walls of the upper parts of the left side, the right side and the front side of the dish washer inner container assembly (3) are respectively provided with a first slot (302) matched with the cover plate assembly (2), and the left side edge, the right side edge and the front side edge of the cover plate assembly (2) are embedded into the first slots (302) when the dish washer inner container assembly (3) is in a pushing-in state.

3. A drawer dishwasher with a fixed cover as claimed in claim 2, wherein: the cover plate assembly (2) comprises a first cover plate (5), a first sealing element (6) and a second sealing element (7) which are arranged on the first cover plate (5), wherein the first sealing element (6) and the second sealing element (7) are elastic elements; the first sealing piece (6) surrounds the left side edge, the front side edge and the left side edge of the first cover plate (5) to form a U-shaped semi-enclosed sealing ring; the second sealing piece (7) is positioned at the rear side of the first cover plate (5); the first sealing piece (6) and the second sealing piece (7) are matched to reduce the gap between the first sealing piece and the dish washer inner container assembly (3), so that the sealing between the cover plate assembly (2) and the dish washer inner container assembly (3) is realized.

4. A drawer dishwasher with a fixed cover as claimed in claim 3, wherein: a second slot (601) matched with the side edge of the first cover plate (5) is formed in one side of the first sealing piece (6), and the first sealing piece (6) clamps the edges of the left side, the front side and the right side of the first cover plate (5) through the second slot (601) and is adhered to the first cover plate (5); the middle part of first sealing member (6) is offered along the deformation hole (602) that length direction link up, and the periphery of first sealing member (6) is equipped with many protruding muscle (603) along length direction.

5. A drawer dishwasher with a fixed cover as claimed in claim 3, wherein: the second sealing piece (7) is provided with a front barrier strip (701), a rear barrier strip (702) parallel to the front barrier strip (701) and a connecting strip (703) for connecting the front barrier strip (701) and the rear barrier strip (702).

6. The drawer dishwasher with a stationary cover as in claim 5, wherein: the lower edge of the front barrier strip (701) is lower than the rear barrier strip (702), and the rear side surface of the front barrier strip (701) is matched with the upper opening of the rear side inner wall of the dishwasher liner assembly (3); the bottom of the rear barrier strip (702) can be contacted with the top surface of the rear side of the dish washer inner container assembly (3).

7. The drawer dishwasher with a stationary cover as in claim 6, wherein: a middle baffle strip (704) is arranged below the connecting strip (703), and the cross section of the middle baffle strip (704) is in a downward convex arc shape; the bottom of the middle baffle strip (704) can be contacted with the top surface of the rear side of the dish washer inner container assembly (3).

8. The drawer dishwasher with a stationary cover as in claim 5, wherein: the upper end of the front barrier strip (701) exceeds the connecting strip (703) and extends backwards to form a first pressing strip (705), the upper end of the rear barrier strip (702) exceeds the connecting strip (703) and extends backwards and forwards to form a second pressing strip (706), an inverted T-shaped pressing groove cavity is formed by the first pressing strip (705), the connecting strip (703) and the second pressing strip (706), a positioning strip (8) is arranged in the pressing groove cavity, the cross section of the positioning strip (8) is in a convex shape matched with the pressing groove cavity, and the lower part of the positioning strip (8) is embedded into the pressing groove cavity; the locating strip (8) is provided with a plurality of connecting holes, the screw penetrates through the first cover plate (5) from top to bottom and is connected with the connecting holes of the locating strip (8), the first pressing strip (705) and the second pressing strip (706) are clamped between the first cover plate (5) and the locating strip (8), and the second sealing piece (7) is hoisted on the first cover plate (5) through the locating strip (8).

9. The drawer dishwasher with a stationary cover as in claim 8, wherein: a plurality of positioning columns (801) protruding upwards are arranged on the positioning strips (8), and the connecting holes are formed in the positioning columns (801); a positioning hole matched with the positioning column (801) is formed in the first cover plate (5); after the positioning column (801) on the positioning strip (8) passes through the positioning hole of the first cover plate (5) upwards, the screw is screwed into the connecting hole from top to bottom.

10. A drawer dishwasher with a fixed cover as claimed in claim 3, wherein: the cover plate assembly (2) further comprises a second cover plate (9), the second cover plate (9) is located below the first cover plate (5), the second sealing piece (7) is attached to the rear side face of the second cover plate (9), and a plurality of diversion trenches (901) are formed in the lower bottom face of the second cover plate (9).

11. The drawer dishwasher with a stationary cover as in claim 10, wherein: the first cover plate (5) is a glass plate, and the second cover plate (9) is a plastic plate; the first cover plate (5) and the second cover plate (9) are respectively provided with a connecting hole for penetrating a screw used for fixing the second cover plate (9) on the first cover plate (5); the top surface of the second cover plate (9) is provided with a groove (902) corresponding to the diversion trench (901), and a bonding layer (10) is arranged between the upper surface of the second cover plate (9) and the lower surface of the first cover plate (5).

12. The drawer dishwasher with a stationary cover as in claim 10, wherein: the cross section of the diversion trench (901) is triangular, and a plurality of diversion trenches (901) are continuously arranged to form a diversion surface.

13. The drawer dishwasher with a stationary cover as in claim 11, wherein: the diversion trenches (901) are linear diversion trenches (901), and the diversion trenches (901) are arranged side by side continuously to form square diversion surfaces.

14. The drawer dishwasher with a stationary cover as in claim 11, wherein: the diversion trench (901) is annular diversion trench (901), and the diversion trench (901) is concentrically arranged to form a circular diversion surface.

15. The drawer dishwasher with a stationary cover as in claim 11, wherein: the cross section of the diversion trench (901) is isosceles triangle, the angle of the vertex angle is A, wherein A is more than or equal to 60 degrees and less than or equal to 100 degrees.

16. The drawer dishwasher with a stationary cover as in claim 1, wherein: the dish washer inner container assembly (3) comprises an inner container (11) and an inner container surface frame (12) fixedly connected to the upper part of the inner container (11), wherein the inner container surface frame (12) is square, and is formed by surrounding a left frame edge (121), a front frame edge (122), a right frame edge (123) and a rear frame edge (124); the back frame edge (124) of the liner surface frame (12) is lower than the left frame edge (121), the front frame edge (122) and the right frame edge (123), the inner side wall of the left frame edge (121), the front frame edge (122) and the right frame edge (123) is provided with a first slot (302) matched with the cover plate assembly (2), the bottom surface of the first slot (302) is higher than the back frame edge (124), and when the dish washer liner assembly (3) translates backwards, the left side edge, the right side edge and the front side edge of the cover plate assembly (2) are gradually embedded into the first slot (302).

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