A kind of handle piece fixed structure
Technical field
The utility model relates to a kind of handle piece fixed structure, relates in particular to a kind of handle piece fixed structure of refrigerator.
Background technology
In the existing refrigerator, most of pull handle arrangement all is directly handle to be fixed on the body by screw, and this fixed form exists many defectives: need default nut piece on the relevant position of foaming doors body, it is very accurate that the installation site need to require, be slightly offset or crooked, will make the screw misalignment and cause assembling to do over again, make installation effectiveness reduce.
The utility model content
The purpose of this utility model is to overcome deficiency of the prior art, and a kind of easy for installation, handle piece fixed structure that reliability is high is provided.
For achieving the above object, the technical solution of the utility model is: a kind of handle piece fixed structure, comprise and be located at the handle on the door shell and be located at the interior foaming layer of door shell, also comprise with the deck that is connected of handle and be located at door shell and foaming layer between reinforcement iron, this deck passes the through hole be located on the door shell and is clasped with strengthening iron, and this strengthens ferropexy in foaming layer.
This reinforcement iron comprises self-locking spring slice and deck via hole, and this self-locking spring slice is pressed into deck and be clamped in the deck via hole.
This self-locking spring slice is a spring steel plate, and this deck via hole comprises big deck via hole and the lesser calorie seat via hole that is connected, and self-locking spring slice is positioned at big deck via hole exit, and the end of self-locking spring slice is concordant with the junction of big deck via hole and lesser calorie seat via hole.This self-locking spring slice adopts the good spring steel plate of elasticity, and the assurance self-locking spring slice slips at deck and keeps better elastic in the process, and self-locking spring slice can effectively compress deck so that handle is in place the back.
Positioning boss hole on this reinforcement Tie Tong crosses positioning boss and is located at door shell cooperates fixing.Door shell leaves through hole and positioning boss hole, is convenient to install and fix reinforcement iron.
The end of this deck and handle is by being threaded.
This deck comprises and the bolt that cooperates of screwed hole of being located at the handle end, and the screens projection of self-locking spring slice clamping matching.
This screens projection is frustum cone structure, and its top is provided with cross recess.The screens projection of frustum cone structure is and the self-locking spring slice respective outer side edges of strengthening on the iron, realizes the function of fixing handle.Cross recess is made at the top, makes things convenient for tool operation.
Be provided with the bonnet of buffer action between this reinforcement iron and the foaming layer.
Compared with prior art, handle piece fixed structure of the present utility model does not need screw, and handle is installed behind the door foaming, it is slipped in the inner reinforcement of the body position, iron hole, realize safe self-locking, improved installation effectiveness greatly, also improved reliability of structure simultaneously.
Description of drawings
Fig. 1 is a cross-sectional view of the present utility model;
Fig. 2 a is the structural representation of handle of the present utility model, and Fig. 2 b is the bottom schematic view of A part among Fig. 2 a;
Fig. 3 a is a side structure schematic diagram of strengthening iron, and Fig. 3 b is a perspective view of strengthening iron, and Fig. 3 c is a structural representation of strengthening iron deck via hole;
Fig. 4 a is the structural representation of door shell, and Fig. 4 b is the enlarged diagram of through hole among Fig. 4 a;
Fig. 5 is the structural representation of deck;
Fig. 6 is deck and handle assembled construction figure;
Fig. 7 a is the cross-sectional view of bonnet, and Fig. 7 b is the perspective view of bonnet;
Fig. 8 is the door body schematic diagram after the utility model is finished assembling.
The specific embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
The utility model is novel handle piece fixed structure, realizes the handle simple installation, and is reliable, keeps exquisite appearance.
As shown in Figure 1, structure of the present utility model comprises the handle of being located on the door shell 12 and is located at the foaming layer of door shell interior 1, also comprise with handle 2 decks that are connected 3 and be located at the interior reinforcement iron 6 of door shell 1, this deck 3 is clasped with strengthening iron 6 by the through hole of being located on the door shell 1 11, and this reinforcement iron 6 is fixed in the foaming layer.Wherein, this deck 3 is connected by threaded engagement with the end of handle 2.Shown in Fig. 2 a and Fig. 2 b, handle piece does not need screw to fix, and handle is installed in door shell 1 foaming back, and it is slipped in reinforcement iron 6 draw-in grooves of door shell 1 inside, realizes safe self-locking.
Shown in Fig. 3 a, 3b and 3c, this reinforcement iron 6 comprises self-locking spring slice 61 and deck via hole 62, and this self-locking spring slice 61 is pressed into deck 3 and is clamped in the deck via hole 62.This self-locking spring slice 61 is a spring steel plate, this deck via hole 62 comprises big deck via hole 63 and the lesser calorie seat via hole 64 that is connected, self-locking spring slice 61 is positioned at big deck via hole 63 exits, and the end of self-locking spring slice 61 is concordant with the junction of big deck via hole 63 and lesser calorie seat via hole 64.
As shown in Figure 4, this reinforcement iron 6 cooperates fixing by positioning boss 65 with positioning boss hole 12 on being located at door shell 1.Door shell 1 leaves through hole 11 and positioning boss hole, is convenient to install and fix reinforcement iron 6.
As shown in Figure 5, this deck 3 comprises that the bolt 31 that cooperates with the screwed hole 21 of being located at handle 2 ends reaches and the screens projection 32 of self-locking spring slice 61 clamping matching.This screens projection 32 is frustum cone structure, cooperates with self-locking spring slice 61 on strengthening iron 6, realizes fixing 2 the function of shaking hands; And its top is provided with cross recess 34, makes things convenient for tool operation.Deck 3 assembles effects as shown in Figure 6 with handle 2.
As shown in Figure 7, be provided with the bonnet 7 of buffer action between this reinforcement iron 6 and the foaming layer.
Assembling process of the present utility model: at first will strengthen iron 6 and align by positioning boss 65 and positioning boss hole 12, and paste fixing with adhesive tape with door shell 1.Self-locking spring slice 61 places that will strengthen iron 6 with bonnet 7 shelter from then.Paste tightly with adhesive tape, prevent that expanded material from touching self-locking spring slice 61 positions.
After the door body is finished foaming, strengthen iron 6 and bonnet 7 and fixed by foamed material.Assembling handle 2 and deck 3: slowly firmly insert in the big deck via hole 63 of strengthening iron 6 the screens projection 32 of deck 3,, strengthen the self-locking spring slice 61 of iron 6 this moment and upspring with to strengthen iron 6 outer surfaces concordant until the bottom surface of the screens projection 32 of deck 3 by the screens projection 32 of deck 3.To shake hands then 2 and deck 3 slide to lesser calorie seat via hole 64 directions, in this process, because better elastic, self-locking spring slice 61 can recover deformation gradually, pushes down the screens projection 32 of deck 3.After sliding into the bottom, self-locking spring slice 61 compresses deck 3, and whole process is finished.Finish assembling back structure as shown in Figure 8.