CN203769540U - Showering door component with continuous-adjustment function - Google Patents

Abstract

The utility model provides a showering door component with a continuous-adjustment function. The showering door component comprises a fixed frame, a movable frame and at least two adjusting components positioned between the fixed frame and the movable frame, wherein each adjusting component comprises an adjusting device and a locking device for locking an adjusting element; the adjusting device comprises the adjusting element and a bearing element for bearing the adjusting element; and the adjusting element is provided with smooth side surfaces which are exposed outside. The showering door component provided by the utility model has the advantages that the locking device can lock the adjusting element along any position of the surface of the adjusting element in the adjusting device, so that the relative distance between the fixed frame and the movable frame can be continuously adjusted.

Description

There is the shower doors assembly of continuous regulatory function

Technical field

The utility model relates to shower doors, is specifically related to the adjusting part in shower doors, and this adjusting part can be realized continuous adjusting, thereby improves degree of regulation.

Background technology

The installation of shower doors is carried out against wall conventionally, and to keep door after installation in vertical state.But, for example, due to conventionally not completely vertically (outwards/certain angle slopes inwardly) of the wall of building, if installed along wall completely, can affect the folding of door.Therefore, need when installation the upper and lower end of adjustment doors and the distance of between the walls to ensure that door is in vertical position.

For realizing this adjusting, door assembly generally includes the mobile frame that will be fixed to the fixed border of metope and for example, be connected with door face board (face glass).When installation, fixed border is fixed against wall, then by close to fixed border mobile frame, and regulate the two ends up and down of mobile frame and the distance of fixed border to make mobile frame in vertical position (thereby door face board is also in vertical position), finally boring fastening them together with screw etc. on mobile frame and fixed border.

But on the one hand, boring needs at least two people to coordinate just and can complete, and need to expend the long period.On the other hand, boring easily damages frame (being conventionally made up of aluminium) surface, affects the outward appearance of product, even causes product rejection, increases user's loss.

For addressing this problem, prior art provides some can realize the scheme of installation without boring, but in these schemes, for the adjusting of the relative position of mobile frame and fixed border, normally by changing, meshing relation between soldered tooth realizes, the interval between adjacent bond tooth is depended in the minimal adjustment unit of both relative positions, therefore sometimes cannot meet the more needs of fine adjustments.In addition, these schemes also need to form soldered tooth on multiple parts, cause manufacturing process to become complicated.

Utility model content

In view of this, the utility model provides a kind of shower doors assembly that can regulate continuously, and it does not need boring can realize installation on the one hand, can realize on the other hand the continuous adjusting between fixed border and mobile frame.

In one embodiment, the shower doors assembly that can regulate continuously that the utility model provides comprises fixed border, mobile frame and at least two adjusting parts between fixed border and mobile frame, each described adjusting part comprises adjusting device and for locking the locking device of regulating element, wherein said adjusting device comprises the load-carrying unit of regulating element and carrying regulating element, described regulating element has smooth side, outside described side is exposed to.

In one embodiment, described regulating element has end face and slit, and described slit extends to another relative end face from an end face, and described load-carrying unit has fixed-wing and is connected to the bearing frame of fixed-wing.

In one embodiment, described load-carrying unit also comprises front apron, and described front apron is connected to the free end of bearing frame, to prevent that described regulating element from moving and departing from described load-carrying unit along described bearing frame.

In one embodiment, the length of described regulating element is equal to or less than the length of described slit.

In one embodiment, described locking device comprises locking element and guiding device, and described locking element coordinates to lock described regulating element with described guiding device.

In one embodiment, described locking element comprises tight lock part and is positioned at the lower tight lock part of below with respect to described upper locking portion, wherein go up each second perforation that includes the first perforation and be communicated with the first perforation of tight lock part and lower tight lock part, the size of described the first perforation is more than or equal to the size of the end face of described regulating element, and described biperforate size is less than the size of the end face of described regulating element.Described locking element also comprises the upper fixed part that is positioned at tight lock part and the lower fixed part that is positioned at lower tight lock part; And drive rod and tightening member, described drive rod is through fixed portion, and described tightening member is through described lower fixed part.

In one embodiment, described upper tight lock part and described lower tight lock part are one-body molded is a single-piece.In another embodiment, described upper tight lock part and described lower tight lock part removably link together by Connection Element.

In one embodiment, described guiding device comprises that guide member and relative upper guide member are positioned at the lower guide member of below.Described upper guide member comprises the first guide groove, and described locking element can slide along described the first guide groove; Support platform, for supporting drive rod; The first cavity, for the described regulating element of of at least two adjusting parts described in holding; And carrying platform, for carrying the upper fixed part of described locking element.

Described lower guide member comprises the second guide groove, and described locking element can slide along described the second guide groove; The second cavity, for another described regulating element of at least two adjusting parts described in holding; Flexible member, thereby for contacting elastic acting force is provided with lower fixed part; And the 3rd cavity, described the 3rd cavity is positioned at below with respect to the second cavity, and described flexible member is positioned at described the 3rd cavity.Described tightening member also passes described flexible member through described lower fixed part and then is fixed to the upper wall of described the 3rd cavity.

In one embodiment, described locking element also comprises one or more middle tight lock parts, the second perforation that each described middle tight lock part comprises the first perforation and is communicated with the first perforation, the size of described the first perforation is more than or equal to the size of the end face of described regulating element, and described biperforate size is less than the size of the end face of described regulating element.Accordingly, described guiding device also comprises one or more middle guide members, and described middle guide member preferably has identical structure with upper guide member.

In one embodiment, for upper tight lock part, lower tight lock part and possible middle tight lock part, eachly also comprise the 3rd perforation, described the 3rd perforation is communicated with described the first perforation, and with described second bore a hole and bore a hole and be symmetric about described first.The size of described the 3rd perforation is less than the size of the end face of described regulating element.Described the 3rd perforation preferably has identical size with the second perforation.

The shower doors assembly that can regulate continuously that the utility model provides, locking device can be locked described regulating element along surperficial any position of regulating element in adjusting device, thereby can regulate continuously the relative distance between fixed border and mobile frame.

Brief description of the drawings

Fig. 1 is the decomposing schematic representation of the adjusting device of an embodiment of the present utility model.

Fig. 2 is the assembled state figure of the adjusting device shown in Fig. 1.

Fig. 3 is the adjusting device of an embodiment of the present utility model and the assembling schematic diagram of exemplary mobile frame.

Fig. 4 is the decomposing schematic representation of the locking device of an embodiment of the present utility model, for for purpose of brevity, has omitted part parts in figure.

Fig. 5 is the schematic diagram of the upper guide member of an embodiment of the present utility model.

Fig. 6 is the rear elevation of the upper guide member shown in Fig. 5.

Fig. 7 is the schematic diagram of the lower guide member of an embodiment of the present utility model.

Fig. 8 is the rear elevation of the lower guide member shown in Fig. 7.

Fig. 9 is the schematic diagram of the fixed border of an embodiment of the present utility model.

Figure 10 is the schematic diagram of the locking element of another embodiment of the present utility model.

Figure 11 is the adjusting device of an embodiment of the present utility model and the assembling schematic diagram of locking device, and wherein adjusting device is unlocked.

Figure 12 is the adjusting device of an embodiment of the present utility model and the assembling schematic diagram of locking device, and wherein adjusting device is in locking state.

Figure 13 is the adjusting device of another embodiment of the present utility model and the assembling schematic diagram of locking device, and wherein adjusting device is unlocked.

Figure 14 is the adjusting device of another embodiment of the present utility model and the assembling schematic diagram of locking device, and wherein adjusting device is in locking state.

Figure 15 is the adjusting device of another embodiment of the present utility model and the assembling schematic diagram of locking device, and wherein adjusting device is unlocked.

Figure 16 is the adjusting device of another embodiment of the present utility model and the assembling schematic diagram of locking device, and wherein adjusting device is in locking state.

Figure 17 is the schematic diagram of the upper guide member of another embodiment of the present utility model.

Figure 18 is the schematic diagram of the lower guide member of another embodiment of the present utility model.

Figure 19 is the schematic diagram of the fixed border of another embodiment of the present utility model.

In figure, omit the miscellaneous part irrelevant with the utility model design main points.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further details.

With reference to figure 1, it has shown according to the schematic diagram of the adjusting device of an embodiment of the present utility model.This adjusting device comprises the load-carrying unit 20 of regulating element 10 and carrying regulating element 10, and regulating element 10 has smooth side 104, after being assemblied on load-carrying unit 20, outside side 104 is exposed to.

Regulating element 10 has slit 18, and this slit 18 extends to another relative end face 102 from an end face 102 of regulating element 10.In this embodiment, this slit 18 extends to another relative end face 102 and passes this another end face 102 from an end face 102, thereby forms the slit 108 that runs through regulating element 10, and now the length of regulating element 10 equals the length of slit 18.In other embodiments, slit 18 also can not extend through this another end face 102, and now the length of regulating element 10 is greater than the length of slit 18.

Load-carrying unit 20 comprises fixed-wing 12, for being connected to mobile frame 50(Fig. 3); And the bearing frame 13 being connected with fixed-wing 12, this bearing frame 13 has the shape matching with slit 18, thereby can insert slit 18 and be contained in slit 18.

In this embodiment, load-carrying unit 20 also comprises front apron 15, and front apron 15 is positioned at the free end of bearing frame 13, to prevent that regulating element 10 from moving and causing coming off along bearing frame 13.In the time that regulating element 10 is positioned on bearing frame 13, an end face 102 of regulating element 10 contacts front apron 15.In other embodiments, front apron 15 also can not exist.

With reference to figure 2, it shows the state after the regulating element 10 shown in Fig. 1 and load-carrying unit 20 assemblings.As seen from the figure, in the time that regulating element 10 is assemblied on load-carrying unit 20, outside relative two sides 104, end face 106 and the bottom surface (not shown) of regulating element 10 is exposed to.End face 102 prop up front apron 15(if any), another relative end face 102 contacts with load-carrying unit 20.This adjusting device can be made by for example double-shot moulding technique in actual production.

Fig. 3 has shown the assembling schematic diagram of adjusting device and an exemplary mobile frame 50.In mobile frame 50, be provided with holding tank 51, thereby the fixed-wing 12 of load-carrying unit 20 can be inserted into and in holding tank 51, whole adjusting device is connected to mobile frame 50 and can slides along holding tank 51.

Fig. 4 has shown according to the schematic diagram of the locking device of an embodiment of the present utility model, has wherein omitted part parts.This locking device comprises locking element 30 and guiding device 31,32, and locking element 30 coordinates to lock regulating element 10 with guiding device 31,32.

In this embodiment, locking element 30 comprises tight lock part 35 and is positioned at the lower tight lock part 36 of below with respect to upper tight lock part 35, each that wherein goes up tight lock part 35 and lower tight lock part 36 include the first perforation 351,361 and with the first perforation 351,361 the second perforation 352,362 that are communicated with.The size of the first perforation 351,361 is more than or equal to the size of the end face 102 of regulating element 10, and the size of the second perforation 352,362 is less than the size of the end face 102 of regulating element 10.Therefore the regulating element 10, being positioned on load-carrying unit 20 can cannot bore a hole 352,362 through second through the first perforation 351,361.

Locking element 30 also comprises the upper fixed part 354 that is positioned at tight lock part 35 and the lower fixed part 364 that is positioned at lower tight lock part 36; And drive rod 40(Figure 11) and tightening member 329(Fig. 8), drive rod 40 is through upper fixed part 354, and described tightening member 329 is through described lower fixed part 364.

In the present embodiment, upper tight lock part 35 and lower tight lock part 36 removably link together by Connection Element 33.Described removably connection can realize by multiple known way.In this embodiment, in upper tight lock part 35, be provided with connecting hole 356, be provided with connecting hole 366 in lower tight lock part, Connection Element 33 is respectively provided with hook portion 331 at two ends, itself and connecting hole 356, thus 366 connect upper and lower tight lock part 35,36 is linked together.

In other embodiments, upper tight lock part 35 is one-body molded with lower tight lock part 36 is a single-piece, as shown in figure 10.In this embodiment, without the Connection Element 33 providing in above-described embodiment.

Referring to Fig. 4, guiding device comprises that guide member 31 and relative upper guide member 31 are positioned at the lower guide member 32 of below.As Fig. 5 to Fig. 6 shows in detail, upper guide member 31 comprises the first guide groove 314, and locking element 30 can slide along described the first guide groove 314; Support platform 313, for supporting drive rod 40; The first cavity 312, for the regulating element 10 of of at least two adjusting parts described in holding; And carrying platform 319, for carrying the upper fixed part 354 of locking element 30.

In this embodiment, the first guide groove 314 interrupts between support platform 313 and carrying platform 319.In other embodiments, the first guide groove 314 can be continuous, passes and be against the passage on support platform 313 as long as guide member has for drive rod.

In this embodiment, referring to Fig. 7 and Fig. 8, lower guide member 32 comprises the second guide groove 324, and locking element 30 can slide and enter in the second guide groove 324 and therein along the first guide groove 314 and slide; The second cavity 322, for another regulating element 10 of at least two adjusting parts described in holding; Flexible member 321, thereby for contacting elastic acting force is provided with lower fixed part 364; And the 3rd cavity 323, the three cavitys 323 be positioned at below with respect to the second cavity 322, and flexible member 321 is positioned at the 3rd cavity 323.Tightening member 329 also passes flexible member 321 through lower fixed part 364 and then is fixed to the upper wall 325 of the 3rd cavity.In this embodiment, this flexible member 321 is spring.

Upper guide member 31 and lower guide member 32 are fixedly attached to fixed border by suitable mode respectively.In this embodiment, referring to Fig. 5-8, upper and lower guide member 31,32 has respectively Connection Element 316,318 and 326,328, fixed border 60 has multiple screws on base, wherein screw 62 and upper and lower guide member 31,32 Connection Element (for example 316,318) correspondence, thus upper and lower guide member 31,32 can be fixedly attached in the space 63 of fixed border by screw.

In another embodiment, with reference to figure 17-19, upper guide member 31 has extension 310, be provided with at least one screens 311 at extension 310, and between extension 310 and carrying platform 319 and in support platform 313, be formed with draw-in groove 315, wherein screens 311 is close to the path at draw-in groove 315 places.Similarly, lower guide member 32 has extension 320, is also provided with at least one screens 327 on extension 320, and is provided with draw-in groove 380 on lower guide member 32, and wherein screens 327 is close to the path at draw-in groove 380 places.Fixed border 60 is provided with the guide groove 66 being made up of two ridges 65, and described two ridges can be inserted into respectively draw-in groove 315,380, thereby upper and lower guide member 31,32 can be slided along fixed border 60.In the time sliding into appropriate location, utilize instrument (as screwdriver) to aim at screens 311,327 by pressure ridge 65, can there is deformation and be extruded in corresponding screens in ridge 65, thereby stop the slip of upper and lower guide member 31,32, thereby upper and lower guide member 31,32 has been fixedly attached to fixed border 60.

Fixed border can be fixed to suitable surface (for example wall) by suitable mode.In this embodiment, fixed border 60 is provided with screw 61 on base, thereby can fixed border be for example fixed on wall by screw.Those skilled in the art also can be fixed to fixed border 60 on suitable surface by other known ways.

Referring again to Fig. 4 and Figure 10, in this embodiment, locking element 30 also comprises one or more middle tight lock parts 34, the second perforation 342 that in the middle of each, tight lock part 34 comprises the first perforation 341 and is communicated with the first perforation 341, the size of described the first perforation 341 is more than or equal to the size of the end face 102 of described regulating element 10, and the size of the second perforation 342 is less than the size of the end face 102 of regulating element 10.

Accordingly, guiding device also comprises one or more middle guide members 37, and middle guide member 37 preferably has identical structure with upper guide member 31.

For making parts Standardization, for upper tight lock part 35, lower tight lock part 36 and the middle tight lock part 34 that may exist, eachly also comprise the 3rd perforation 353,343 and 363, the three perforation 353,343,363 respectively with the first perforation 351,341,361 be communicated with, and with the second perforation 352,342,362 about the first perforation 351,341, and 361 are symmetric.The size of the 3rd perforation 353,343,363 is less than the size of the end face 102 of regulating element 10.The 3rd perforation 353,343,363 preferably has identical size with the second perforation 352,342,362.

In this embodiment, upper guide member 31 also has pillar 317, its between support platform 313 and carrying platform 319, thereby match with the height of locking element 30 with the 3rd perforation.

Figure 11 has shown the assembling schematic diagram of an adjusting device and upper tight lock part 35, upper guide member 31.Under this state, adjusting device is passed the first perforation 351 of upper tight lock part 35 and is entered the first cavity 312 of guide member 31.Upper tight lock part 35 is inserted in the first guide groove 314, in this embodiment of drive rod 40(for screw rod) through the through hole 316 of the carrying platform 319 of upper fixed part 354 and upper guide member 31 and prop up support platform 313.Now, adjusting device can freely be passed through the first perforation 351 and the first cavity 312, thereby can move relative to fixed border 60 free adjustment position and the angle of frame 50.

Figure 12 has shown the assembling schematic diagram of an adjusting device and upper tight lock part 35, upper guide member 31, thereby wherein adjusting device is folded in the second perforation 352 and is locked.Specifically, when after the relative position of adjusting under state shown in Figure 11 between mobile frame 50 and fixed border 60, turn drive rod 40, because one end of drive rod 40 props up support platform 313, it cannot move down, and by reaction force, in drive, tight lock part 35 moves up, and adjusting device is positioned at the first cavity 312 and cannot moves up, cause adjusting device to be forced in the second perforation 352 of tight lock part 35.In the utility model, for example, because the material of regulating element 10 is made (rubber, PU or modification PU) by soft material conventionally, and locking device for example, is made up of hard material (engineering plastics (polyformaldehyde or nylon 66) or kirsite) conventionally, therefore regulating element 10 can be clamp-oned in the second narrower perforation 352 under external force, thereby adjusting device cannot be moved in the axial direction, therefore fixed the relative position between mobile frame 50 and fixed border 60.

Figure 13 and 14 and shown respectively an adjusting device and the assembling schematic diagram of middle tight lock part 34, middle guide member 37, identical with shown in Figure 11 and Figure 12 of its locking principle, just, tight lock part 34 does not need extra drive rod 40, but by Connection Element 33 or due to one-body molded and driven and move up by upper tight lock part 35 with upper tight lock part 35.

Figure 15 and Figure 16 have shown the assembling schematic diagram of an adjusting device and lower tight lock part 36, lower guide member 32.In Figure 15, adjusting device can freely be passed through the first perforation 361 and the second cavity 322, thereby can move relative to fixed border 60 free adjustment position and the angle of frame 50.Now, flexible member 321 is in state lax or that compress a little.Identical with shown in Figure 11 and Figure 12 of its locking principle, just lower tight lock part 36 does not need extra drive rod 40, but by Connection Element 33 or due to one-body molded and driven by upper tight lock part 35 and move up with upper tight lock part 35, now flexible member 321 can be due to moving up of lower tight lock part 36 in compressive state.

When need to adjust between mobile frame 50 and fixed border 60 relative position time, only need reverse turn drive rod 40, now promote the trend of lower tight lock part 36 downwards due to flexible member 321, whole locking device is moved down along the first guide groove 314 and the second guide groove 324, thereby makes adjusting device depart from the second perforation 352,342,362 enter the first perforation 351, in 341,361, because of and can realize and moving freely.

Locking device is above only a kind of exemplary embodiment, and those skilled in the art can adopt other known locking devices to lock with the regulating element to adjusting device.For example, in one embodiment, the suitable clamping device that above-mentioned locking device can be had cam mechanism replaces, and is realized the clamping to regulating element or is loosened by the curved profile of cam mechanism.

It should be noted that, these are only preferred embodiment of the present utility model, but design concept of the present utility model is not limited to this, all insubstantial modifications of utilizing this design to make the utility model, within also all falling into protection domain of the present utility model.

Claims (10)

1. one kind has the shower doors assembly of continuous regulatory function, comprise fixed border, mobile frame and the adjusting part between fixed border and mobile frame, described adjusting part comprises at least two adjusting devices and for locking the locking device of regulating element, it is characterized in that, described adjusting device comprises the load-carrying unit of regulating element and carrying regulating element, described regulating element has smooth side, outside described side is exposed to.

2. shower doors assembly according to claim 1, it is characterized in that, described regulating element has end face and slit, and described slit extends to another relative end face from an end face, and described load-carrying unit has fixed-wing and is connected to the bearing frame of fixed-wing.

3. shower doors assembly according to claim 1, is characterized in that, described load-carrying unit also comprises front apron, and described front apron is connected to the free end of bearing frame.

4. shower doors assembly according to claim 2, is characterized in that, described bearing frame has the shape of mating with described slit.

5. shower doors assembly according to claim 1, is characterized in that, described locking device comprises locking element and guiding device, and described locking element coordinates to lock described regulating element with described guiding device.

6. shower doors assembly according to claim 5, it is characterized in that, described locking element comprises tight lock part and is positioned at the lower tight lock part of below with respect to described upper locking portion, wherein go up each second perforation that includes the first perforation and be communicated with the first perforation of tight lock part and lower tight lock part, the size of described the first perforation is more than or equal to the size of the end face of described regulating element, described biperforate size is less than the size of the end face of described regulating element, and described locking element also comprises

Be positioned at the upper fixed part of tight lock part;

Be positioned at the lower fixed part of lower tight lock part; And

Drive rod and tightening member,

Wherein said drive rod is through fixed portion, and described tightening member is through described lower fixed part.

7. shower doors assembly according to claim 6, is characterized in that, described upper tight lock part and described lower tight lock part are one-body molded is a single-piece, or described upper tight lock part and described lower tight lock part removably link together by Connection Element.

8. shower doors assembly according to claim 5, is characterized in that, described guiding device comprises that guide member and relative upper guide member are positioned at the lower guide member of below, and wherein said upper guide member comprises:

The first guide groove, described locking element can slide along described the first guide groove;

Support platform, for supporting drive rod;

The first cavity, for the described regulating element of of at least two adjusting parts described in holding; And

Carrying platform, for carrying the upper fixed part of described locking element;

Wherein said lower guide member comprises:

The second guide groove, described locking element can slide along described the second guide groove;

The second cavity, for another described regulating element of at least two adjusting parts described in holding;

Flexible member, thereby for contacting elastic acting force is provided with lower fixed part; And

The 3rd cavity, described the 3rd cavity is positioned at below with respect to the second cavity, and described flexible member is positioned at described the 3rd cavity, and described tightening member is through described lower fixed part and through described flexible member and then be fixed to the upper wall of described the 3rd cavity.

9. shower doors assembly according to claim 6, it is characterized in that, described locking element also comprises one or more middle tight lock parts, the second perforation that each described middle tight lock part comprises the first perforation and is communicated with the first perforation, the size of described the first perforation is more than or equal to the size of the end face of described regulating element, described biperforate size is less than the size of the end face of described regulating element, accordingly, described guiding device also comprises one or more middle guide members, guide member in the middle of described, has identical structure with upper guide member.

10. shower doors assembly according to claim 6, it is characterized in that, for upper tight lock part and lower tight lock part, eachly also comprise the 3rd perforation, described the 3rd perforation is communicated with described the first perforation, and be symmetric about described the first perforation with described the second perforation, the size of described the 3rd perforation is less than the size of the end face of described regulating element.