CN106761244B - Door leaf and metallic door - Google Patents
Door leaf and metallic door Download PDFInfo
- Publication number
- CN106761244B CN106761244B CN201611183227.XA CN201611183227A CN106761244B CN 106761244 B CN106761244 B CN 106761244B CN 201611183227 A CN201611183227 A CN 201611183227A CN 106761244 B CN106761244 B CN 106761244B
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- China
- Prior art keywords
- adjustment portion
- proximate matter
- door leaf
- matter substrate
- substrate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B3/00—Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
- E06B3/70—Door leaves
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B3/00—Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
- E06B3/70—Door leaves
- E06B3/7003—Door leaves consisting of several adjacent similar elements, e.g. planks, without outer covering panels
Abstract
A kind of door leaf of present invention offer and metallic door, the metallic door includes doorframe and door leaf, the door leaf includes plate body, wherein, the plate body includes proximate matter substrate and stitching section, at the proximate matter substrate connection or proximate matter substrate and stitching section junction is equipped at least a pair of of adjustment portion, between the proximate matter substrate and/or between the proximate matter substrate and stitching section by the adjustment portion connect and by the adjustment portion adjust between relative position, to realize the adjusting to plate body height and/or width.Using the present invention, the adjusting to door leaf height and/or width can be realized, and be conducive to the high-volume standardized production of door leaf and metallic door, shorten Buying Cycle and production cycle, the reduction production cost of door leaf and metallic door.
Description
Technical field
The present invention relates to door more particularly to a kind of adjustable door leaf and metallic doors.
Background technology
In daily house fitting-up, door is made of doorframe and door leaf two parts, and the purchase of door generally requires equal kitchen and bath's wall
After brick posts, then by measuring door opening size, delivered according to door opening size customized production by producer, technology complex procedures and consumption
When, it is cumbersome, and door purchase and the production cycle it is longer, the door of customization also tends to be difficult to change, and is only applicable to refer to
Determine door opening.In view of above-mentioned condition, it is necessary to which a kind of door that its height and/or width dimensions can be adjusted according to user's demand is provided
Fan and metallic door.
Invention content
The purpose of the present invention is to provide a kind of door leaf and metallic doors, are difficult to change to solve the size of door in the prior art
The problem of.
A kind of door leaf, including plate body, the plate body include one first proximate matter substrate and one second proximate matter substrate, described first
It is equipped at least a pair of of adjustment portion at proximate matter substrate and the second proximate matter substrate connection, passes through between first and second described proximate matter substrate
The adjustment portion connects and by the relative position between adjustment portion adjusting, to realize to plate body height and/or width
Adjusting.
Further, the pair of adjustment portion is respectively arranged at the end of first and second proximate matter substrate.
Further, the pair of adjustment portion includes the first adjustment portion and the second adjustment portion, wherein the first adjustment portion is double
The hollow harden structure of layer has an opening;Second adjustment portion is contained in by the opening in first adjustment portion, and tune is passed through
It saves second adjustment portion and is contained in the length of first adjustment portion to change between first and second described proximate matter substrate
Relative position.
Further, the madial wall of first adjustment portion is equipped with multiple protrusions, and the protrusion is adjusted from described first
The interior lateral opening direction in portion extends, and the lateral wall of second adjustment portion is equipped with matched multiple recessed with the protrusion
Slot is changed by adjusting the cooperation position relationship of the protrusion and the groove between first and second described proximate matter substrate
Relative position.
Further, it is connected using bridging arrangement between the pair of adjustment portion, by being taken between the adjusting adjustment portion
The distance connect adjusts the relative position between first and second described proximate matter substrate.
Further, the first or second proximate matter substrate is equipped with bolt, rivet and/or bolt, the bolt, rivet
And/or bolt is used for the fixation between first and second described proximate matter substrate.
The present invention also provides a kind of door leaf, the door leaf includes plate body, wherein the plate body includes at least one piece of proximate matter base
Plate and at least one stitching section, the proximate matter substrate and stitching section junction are equipped at least a pair of of adjustment portion, the stitching section with
Between the proximate matter substrate by the pair of adjustment portion connect and by the pair of adjustment portion adjust between relative position,
To realize the adjusting to plate body height and/or width.
Further, the pair of adjustment portion is respectively arranged at the end of the proximate matter substrate and stitching section.
Further, the pair of adjustment portion includes the first adjustment portion and the second adjustment portion, wherein the first adjustment portion is double
The hollow harden structure of layer has an opening;Second adjustment portion is contained in by the opening in first adjustment portion, and tune is passed through
It saves second adjustment portion and is contained in the length of first adjustment portion to change the phase between the proximate matter substrate and stitching section
To position.
Further, the madial wall of first adjustment portion is equipped with multiple protrusions, and the protrusion is adjusted from described first
The interior lateral opening direction in portion extends, and the lateral wall of second adjustment portion is equipped with matched multiple recessed with the protrusion
Slot changes the phase between the proximate matter substrate and stitching section by adjusting the protrusion with the cooperation position relationship of the groove
To position.
Further, it is connected using bridging arrangement between the pair of adjustment portion, by being taken between the adjusting adjustment portion
The distance connect adjusts the relative position between the proximate matter substrate and stitching section.
Further, the stitching section or the proximate matter substrate are equipped with bolt, rivet and/or bolt, the bolt, riveting
Nail and/or bolt are for the fixation between the proximate matter substrate and stitching section.
The present invention also provides a kind of metallic door, the metallic door includes doorframe and above-mentioned door leaf, by adjusting door leaf type
Relative position between material substrate realizes the adjusting of door leaf height and/or width.
The present invention also provides a kind of metallic door, the metallic door includes doorframe and above-mentioned door leaf, by adjusting door leaf type
Relative position between material substrate and stitching section realizes the adjusting of door leaf height and/or width.
The door leaf and metallic door of the present invention, is designed by the structure to door leaf, using between proximate matter substrate and/or type
The adjusting to door leaf height and/or width is realized in the adjusting of joint surface bond sizes between material substrate and stitching section, and advantageous
In the high-volume standardized production of door leaf and metallic door, businessman need to can only deliver according to the approximate size that buyer provides, contract
The Buying Cycle and production cycle of short door leaf and metallic door reduce production cost.
Description of the drawings
Fig. 1 is the structural schematic diagram of the door leaf of the metallic door in the first embodiment of the invention.
Fig. 2 is the structural schematic diagram of the door leaf of the metallic door in second of embodiment of the invention.
Fig. 3 is the structural schematic diagram of the door leaf of the metallic door in the third embodiment of the invention.
Fig. 4 is the structural schematic diagram of the door leaf of the metallic door in the 4th kind of embodiment of the invention.
Fig. 5 is the structural schematic diagram of the door leaf of the metallic door in the 5th kind of embodiment of the invention.
Fig. 6 is the structural schematic diagram of the door leaf of the metallic door in the 6th kind of embodiment of the invention.
Fig. 7 is the structural schematic diagram of the door leaf of the metallic door in the 7th kind of embodiment of the invention.
Fig. 8 is the structural schematic diagram of the door leaf of the metallic door in the 8th kind of embodiment of the invention.
Fig. 9 is the structural schematic diagram of the door leaf of the metallic door in the 9th kind of embodiment of the invention.
Figure 10 is the sectional view along the directions X-X of door leaf shown in Fig. 9.
Figure 11 is the partial cross-sectional view of door leaf shown in Figure 10.
Figure 12 is the structure disassembly diagram of door leaf shown in Fig. 9.
Figure 13 is the structural schematic diagram of the door leaf of the metallic door in the tenth kind of embodiment of the invention.
Figure 14 is the structure disassembly diagram of door leaf shown in Figure 13.
Figure 15 is the sectional view along the directions XV-XV of door leaf shown in Figure 13.
Figure 16 is the structural schematic diagram of the door leaf of the metallic door in a kind of the tenth embodiment of the present invention.
Figure 17 is the structure disassembly diagram of door leaf shown in Figure 16.
Figure 18 is the structural schematic diagram of the door leaf of the metallic door in the 12nd kind of embodiment of the invention.
Figure 19 is the structure disassembly diagram of door leaf shown in Figure 16.
Figure 20 is the structural schematic diagram of the door leaf of the metallic door in the 13rd kind of embodiment of the invention.
Figure 21 is the structure disassembly diagram of door leaf shown in Figure 20.
Figure 22 is the structural schematic diagram of the door leaf of the metallic door in the 14th kind of embodiment of the invention.
Figure 23 is the structure disassembly diagram of door leaf shown in Figure 22.
Figure 24 is the structural schematic diagram of the first bridging arrangement used by metallic door door leaf in the embodiment of the present invention.
Figure 25 is the structural schematic diagram of second of bridging arrangement used by metallic door door leaf in the embodiment of the present invention.
Figure 26 is the structural schematic diagram of the third bridging arrangement used by metallic door door leaf in the embodiment of the present invention.
Figure 27 is the structural schematic diagram of nested structure used by metallic door door leaf in the embodiment of the present invention.
Figure 28 is that tooth used by metallic door door leaf nibbles the structural schematic diagram of structure in the embodiment of the present invention.
Specific implementation mode
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the present invention
The normally understood meaning of technical staff is identical.Term as used herein " and/or " include one or more relevant institute's lists
Any and all combinations of purpose.
It is designed by the door leaf bottom to metallic door referring to Fig. 1, Fig. 1 is shown, realizes what door leaf height was adjusted
Embodiment schematic diagram.Metallic door includes door leaf 11 and the doorframe (not shown) mating with it, and the door leaf 11 is a plate body, described
Plate body is made of one or more proximate matter substrate 111, and in present embodiment, door leaf 11 further includes a stitching section 112, the splicing
Portion 112 is set to 111 lower section of proximate matter substrate, and proximate matter substrate 111 is equipped with a pair of of adjustment portion with 112 junction of stitching section, wherein first
Adjustment portion is set to 111 bottom of proximate matter substrate, and the second adjustment portion is set to stitching section 112 close to the side of 111 bottom of proximate matter substrate, the
One and second the modes such as nibbles by overlap joint, nesting or tooth between adjustment portion and connects, by adjusting stitching section 112 relative to proximate matter base
The position of plate 111 realizes that the height of door leaf 11 is adjusted.
It is designed by the door leaf upper end to metallic door referring to Fig. 2, Fig. 2 is shown, realizes what door leaf height was adjusted
Embodiment schematic diagram.Metallic door includes door leaf 12 and the doorframe (not shown) mating with it, and the door leaf 12 is a plate body, described
Plate body is made of one or more proximate matter substrate 121, and in present embodiment, door leaf 12 further includes a stitching section 122, the splicing
Portion 122 is set to 121 top of proximate matter substrate, and proximate matter substrate 111 is equipped with a pair of of adjustment portion with 122 junction of stitching section, wherein first
Adjustment portion is set to 121 upper end of proximate matter substrate, and the second adjustment portion is set to stitching section 122 close to the side of 121 upper end of proximate matter substrate, the
One and second the modes such as nibbles by overlap joint, nesting or tooth between adjustment portion and connects, by adjusting stitching section 122 relative to proximate matter base
The position of plate 121 realizes that the height of door leaf 12 is adjusted.
In a further embodiment, door leaf 12 includes the upper and lower ends that two stitching sections 122 are divided into proximate matter substrate 121.
Referring to Fig. 3, Fig. 3 is shown by being designed in the middle part of the door leaf to metallic door, realize what door leaf height was adjusted
Embodiment schematic diagram.Metallic door includes door leaf 13 and the doorframe (not shown) mating with it, and the door leaf 13 is a plate body, described
Plate body is made of at least two pieces of proximate matter substrates 131, and the two proximate matters substrate 131 is arranged along 13 short transverse of door leaf, two proximate matter bases
131 junction of plate is equipped with a pair of of adjustment portion 132, and the modes such as nibbling by overlap joint, nesting or tooth between two adjustment portions 132 connects, and leads to
The relative position between two proximate matter substrates 131 is overregulated, realizes that the height of door leaf 13 is adjusted.
Referring to Fig. 4, Fig. 4 is shown by being designed in the middle part of the door leaf to metallic door, realize what door leaf height was adjusted
Embodiment schematic diagram.Metallic door includes door leaf 14 and the doorframe (not shown) mating with it, and the door leaf 14 is a plate body, described
Plate body is made of at least two pieces of proximate matter substrates 141, and the two proximate matters substrate 141 is arranged along 14 short transverse of door leaf, this embodiment party
In formula, door leaf 14 further includes a stitching section 142, and the stitching section 142 is set between two pieces of proximate matter substrates 141, each proximate matter
Substrate 141 is respectively provided with a pair of of adjustment portion 1421 with 142 junction of stitching section.Wherein, the first adjustment portion of two pairs of adjustment portions 1421
Set on two proximate matter substrates 141, a side end, the second adjustment portion are set to 142 end of stitching section toward each other, and first and second are adjusted
It the modes such as nibbles by overlap joint, nesting or tooth between portion to connect, passes through the phase adjusted between two proximate matter substrates 141 and stitching section 142
To position, realize that the height of door leaf 14 is adjusted.
Referring to Fig. 5, Fig. 5 is shown by being designed on the right side of the door leaf to metallic door, door leaf width adjusting is realized
Embodiment schematic diagram.Metallic door includes door leaf 21 and the doorframe (not shown) mating with it, and the door leaf 21 is a plate body, described
Plate body is made of one or more proximate matter substrate 211, and in present embodiment, door leaf 21 further includes a stitching section 212, the splicing
Portion 212 is set to 211 right side of proximate matter substrate, and proximate matter substrate 211 is equipped with a pair of of adjustment portion with 212 junction of stitching section.Wherein, first
Adjustment portion is set to the right side of proximate matter substrate 211, and the second adjustment portion is set to stitching section 212 close to 211 side of proximate matter substrate, and first and the
It the modes such as nibbles by overlap joint, nesting or tooth between two adjustment portions to connect, by adjusting stitching section 212 relative to proximate matter substrate 211
Position, realize door leaf 21 width adjusting.
Referring to Fig. 6, Fig. 6 is shown by being designed on the left of the door leaf to metallic door, door leaf width adjusting is realized
Embodiment schematic diagram.Metallic door includes door leaf 22 and the doorframe (not shown) mating with it, and the door leaf 22 is a plate body, described
Plate body is made of one or more proximate matter substrate 221, and in present embodiment, door leaf 22 further includes a stitching section 222, the splicing
Portion 222 is set to 221 left side of proximate matter substrate, and proximate matter substrate 221 is equipped with a pair of of adjustment portion with 222 junction of stitching section.Wherein, first
Adjustment portion is set to the left side of proximate matter substrate 221, and the second adjustment portion is set to stitching section 222 close to 221 side of proximate matter substrate, and first and the
It the modes such as nibbles by overlap joint, nesting or tooth between two adjustment portions to connect, by adjusting stitching section 222 relative to proximate matter substrate 221
Position, realize door leaf 22 width adjusting.
In a further embodiment, the door leaf 22 is divided into proximate matter substrate 221 or so two including two stitching sections 222
Side.
Referring to Fig. 7, Fig. 7 is shown by being designed in the middle part of the door leaf to metallic door, door leaf width adjusting is realized
Embodiment schematic diagram.Metallic door includes door leaf 23 and the doorframe (not shown) mating with it, and the door leaf 23 is a plate body, described
Plate body is made of at least two pieces of proximate matter substrates 231, and the two proximate matters substrate 231 is arranged along 23 width direction of door leaf, two proximate matter bases
231 junction of plate is equipped with a pair of of adjustment portion 232, and the adjustment portion 232 is divided into two proximate matter substrates 231 side toward each other
Portion the modes such as nibbles by overlap joint, nesting or tooth between the adjustment portion 232 and connects, by adjusting between two proximate matter substrates 231
Relative position realizes the width adjusting of door leaf 23.
Referring to Fig. 8, Fig. 8 is shown by being designed in the middle part of the door leaf to metallic door, door leaf width adjusting is realized
Embodiment schematic diagram.Metallic door includes door leaf 24 and the doorframe (not shown) mating with it, and the door leaf 24 is a plate body, described
Plate body is made of at least two pieces of proximate matter substrates 241, and the two proximate matters substrate 241 is arranged along 24 width direction of door leaf, this embodiment party
In formula, door leaf 24 further includes a stitching section 242, and proximate matter substrate 241 is equipped with a pair of of adjustment portion 2421 with 242 junction of stitching section.
Wherein, set on two proximate matter substrates 241, a side end, the second adjustment portion are set the first adjustment portion of two pairs of adjustment portions 2421 toward each other
It the modes such as nibbles by overlap joint, nesting or tooth in 242 end of stitching section, between the first and second adjustment portions to connect, passes through and adjust two
Relative position between proximate matter substrate 241 and stitching section 242 realizes the width adjusting of door leaf 24.
Fig. 9-12 is please referred to, Fig. 9-12 is shown by being designed in the middle part of the door leaf to metallic door, realizes door leaf height
And/or the embodiment schematic diagram of width adjusting.Metallic door includes door leaf 300 and the doorframe (not shown) mating with it, the door
Fan 300 be a plate body, the plate body include four the first proximate matter substrates 31 and two the second proximate matter substrates 32, described two second
Proximate matter substrate 32 is arranged along 300 short transverse of door leaf, and every 1 second proximate matter substrate 32 is set along the both sides of 300 width direction of door leaf
There is one first proximate matter substrate 31.The junction of every 1 first proximate matter substrate 31 and the second adjacent proximate matter substrate 32 is exchanged equipped with one
Section portion, wherein the first adjustment portion 311 is set to the first proximate matter substrate 31 and is adjusted towards the end of adjacent second proximate matter substrate 32, second
Section portion 321 be set to adjacent second proximate matter substrate 32 towards the end of the first proximate matter substrate 31, it is in the present embodiment, described
Respective outer side edges connection is nibbled using tooth between first adjustment portion 311 and the second adjustment portion 321.By adjusting the first proximate matter substrate
31 and the second relative position between proximate matter substrate 32, realize the adjusting to 300 width of door leaf.
In other embodiments, coordinated using bridging arrangement between first adjustment portion, 311 and second adjustment portion 321
Connection is connected using nested structure.
The first proximate matter substrate 31 and the second proximate matter substrate 32 after being adjusted for limitation is each other along 300 short transverse of door leaf
Relative displacement is additionally provided with positioning region 35 on the door leaf 300, and in the present embodiment, the positioning region 35 includes being located at first
The bolt groove 351 of the end of 31 adjacent second proximate matter substrate 32 of proximate matter substrate, and positioned at the second proximate matter substrate 32 adjacent the
The bolt opening 352 of the end of one proximate matter substrate 31, the bolt opening 352, bolt groove 351 match limitation with a bolt
First proximate matter substrate 31 and the second proximate matter substrate 32 are each other along the relative displacement of 300 short transverse of door leaf, according to practical need
After the width for regulating door leaf 300, the bolt opening 352 is aligned with bolt groove 351, and bolt one end is opened by bolt
Mouth 352 is inserted into bolt grooves 351, to fix the first proximate matter substrate 31 and the second proximate matter substrate 32 along 300 height side of door leaf
To displacement.In other embodiments, the position of bolt groove as needed 351 and bolt opening 352 can also intermodulation, i.e.,
Bolt groove 351 is set on the second proximate matter substrate 32, and bolt opening 352 is set on the first proximate matter substrate 31.
In addition to this, in the present embodiment, the door leaf 300 further includes three stitching sections 33, each stitching section 33 with
Two the first proximate matter substrates 31 or two the second proximate matter substrates 32 are arranged along 300 short transverse of door leaf, and are located at two the first types
Between material substrate 31 or two the second proximate matter substrates 32.The stitching section 33 and the first proximate matter substrate 31 or the second proximate matter substrate 32
Between connected by nested mode, 33 both ends of the stitching section are contained in two first proximate matter substrates 31 or two second types respectively
32 end of material substrate is contained in the length of 32 end of the first proximate matter substrate 31 or the second proximate matter substrate by adjusting the stitching section 33
It spends to change the relative position between the first proximate matter substrate 31 or the second proximate matter substrate 32 and stitching section 33, to realize door
The height of fan 300 is adjusted.The door leaf 300 further includes multiple fixed parts 34, and the fixed part 34 is used in stitching section 33 and the
After position between one proximate matter substrate 31 or the second proximate matter substrate 32 is adjusted in place, fixed 33 and first proximate matter substrate 31 of stitching section
Or the second relative position between proximate matter substrate 32.In the present embodiment, each fixed part 34 includes being located at stitching section 33 1
Hold the multiple bolt connecting holes 341 arrange along 300 short transverse of door leaf, positioned at the first proximate matter substrate 31 or the second proximate matter substrate 32
Multiple bolt connecting holes 342 that one end is arranged along 300 short transverse of door leaf and one or more bolts to match.Specifically,
After the height for regulating door leaf 300 according to actual needs, with bolt by 31/ second proximate matter base of stitching section 33 and the first proximate matter substrate
Corresponding two bolt connecting hole 341,342 is fixed on plate 32, to 31/ second proximate matter of fixed 33 and first proximate matter substrate of stitching section
The relative position of substrate 32.The quantity of bolt connecting hole 341,342 is more, and the spacing of two adjacent bolt connecting holes can be shorter,
Door leaf 300 highly adjust it is sized can be finer.
In another embodiment, the first proximate matter substrate 31 and/or 32 end of the second proximate matter are placed in described
In 33 end of stitching section.
In another embodiment, the stitching section 33 and the first proximate matter substrate 31, the second proximate matter substrate 32 are along door leaf
300 width direction arrangement, to realize the width adjusting of door leaf 300.
It should be noted that regulating distance and splicing between the first proximate matter substrate 31, the second proximate matter substrate 32
Behind the distance between portion and the first proximate matter substrate 31, the second proximate matter substrate 32, the first proximate matter substrate 31, the second proximate matter substrate 32 it
Between and stitching section and the first proximate matter substrate 31, the second proximate matter substrate 32 between can be used be bolted, bolt, interference fit etc.
Any one or more mode, and in the present embodiment between the first proximate matter substrate 31, the second proximate matter substrate 32 and stitching section with
Any one for the modes such as overlap joint can be selected in the connection between the first proximate matter substrate 31, the second proximate matter substrate 32, nested or tooth is nibbled
Or various ways.
3-15 is please referred to Fig.1, Figure 13-15 is shown to be designed by the end of the door leaf to metallic door, realizes door leaf
The embodiment schematic diagram of height and width adjusting.In the present embodiment, metallic door includes door leaf 400 and the doorframe mating with it
(not shown), the door leaf 400 are a plate body, and the plate body further includes two including an at least proximate matter substrate 42, the door leaf 400
A stitching section 41, two stitching section 41 are divided into 42 top of proximate matter substrate and right side, and proximate matter substrate 42 and two stitching sections 41 connect
The place of connecing is respectively provided with a pair of of adjustment portion, wherein and the second adjustment portion 411 is set to the stitching section 41 towards 42 end of proximate matter substrate, the
Two adjustment portions 411 are double layer hollow harden structure, have an opening 4111, multiple protrusions are additionally provided on 411 inner wall of the second adjustment portion
4112, the multiple raised 4112 extend from 4111 direction of interior lateral openings of the second adjustment portion 421.First adjustment portion 421 is set
Above the proximate matter substrate 42 and right-hand end, it is formed with and multiple matches with raised 4112 on 421 lateral wall of the first adjustment portion
The groove 4211 of conjunction adjusts the cooperation quantity of protrusion 4112 and groove 4211, changes proximate matter according to the size that metal door leaf needs
Relative position between substrate 42 and stitching section 41, to realize the adjusting to 400 width of door leaf.
In another application mode, second adjustment portion 411 is set to 42 end of proximate matter substrate, first adjustment portion
421 are set to 41 end of stitching section, by adjusting the cooperation quantity of protrusion and groove, to realize the adjusting to 400 width of door leaf.
In other embodiments, also stitching section 41 and corresponding adjustment portion 411 can be set to 42 lower section of proximate matter substrate
With left both side ends, or it is set to the end up and down of proximate matter substrate 42 simultaneously, realizes to the tune of door leaf height and width
Section
6-17 is please referred to Fig.1, Figure 16-17 is shown to be designed by the middle part and end of the door leaf to metallic door, real
The embodiment schematic diagram of existing door leaf height and width adjusting.Metallic door includes door leaf 500 and the doorframe (not shown) mating with it,
The door leaf 500 is a plate body, and the plate body includes at least two proximate matter substrates 51, and the two proximate matters substrate 51 is along door leaf 500
Short transverse arranges, and two proximate matter substrates, 51 junction is equipped with a pair of of adjustment portion 52, and the pair of adjustment portion 52 is divided into two proximate matters
The one end toward each other of substrate 51, is denoted as the first adjustment portion 521 and the second adjustment portion 522, the first adjustment portion 521 and the second adjustment portion
It is connected by the tooth mode of nibbling between 522, by adjusting the relative position between two proximate matter substrates 51, to realize door leaf 500
Height is adjusted.In addition, 500 right side of door leaf is additionally provided with two stitching sections 53, two stitching sections 53 pass through with two proximate matter substrates 51 respectively
Nested mode connects, by adjusting the relative position between stitching section 53 and proximate matter substrate 51, to realize the width of door leaf 500
Degree is adjusted.Appointing in being nibbled by overlap joint, nested or tooth between two proximate matter substrates 51 or between stitching section 53 and proximate matter substrate 51
A kind of mode of anticipating connects.
In another embodiment, stitching section 53 can also be set to 500 left side of door leaf.
In other embodiments, two proximate matter substrates 51 are arranged along 500 width direction of door leaf, and adjustment portion 52 is set to two proximate matters
The one end toward each other of substrate 51, the width for adjusting door leaf 500.Stitching section 53 is set to two proximate matter substrates, 51 upper end or lower end,
Height for adjusting door leaf 500.
8-19 is please referred to Fig.1, Figure 18-19 is shown to be designed by the middle part and end of the door leaf to metallic door, real
The embodiment schematic diagram of existing door leaf height and width adjusting.The door leaf 600 is a plate body, and the plate body includes at least two types
Material substrate 61, the two proximate matters substrate 61 is arranged along 600 short transverse of door leaf, in the present embodiment, between two proximate matter substrates 61
It is additionally provided with a stitching section 62, two proximate matter substrates, 61 end is connect with 62 end of adjustment portion by nested mode, by adjusting proximate matter
Relative position between substrate 61 and stitching section 62, to realize that the height of door leaf 600 is adjusted.In addition, 600 right side of door leaf is also set
There are two stitching section 63, two stitching sections 63 are connect with two proximate matter substrates 61 by way of nested respectively, by adjusting stitching section
Relative position between 63 and proximate matter substrate 61, to realize the width adjusting of door leaf 600.In other application modes, institute
State the mode that nested mode is also alternatively nibbled at overlap joint or tooth.
In another embodiment, stitching section 63 can also be set to 600 left side of door leaf.
In other embodiments, two proximate matter substrates 61 are arranged along 600 width direction of door leaf, and stitching section 62 is set to two proximate matters
Between substrate 61, the width for adjusting door leaf 600.Stitching section 63 is set to two proximate matter substrates, 61 upper end or lower end, for adjusting
The height of door leaf 600.
Figure 20-21 is please referred to, Figure 20-21 is shown by being designed in the middle part of the door leaf to metallic door, realizes door leaf
The embodiment schematic diagram of height and width adjusting.The door leaf 700 is a plate body, and the plate body includes two the first proximate matter substrates
71 and two the second proximate matter substrates 72, two first proximate matter substrates 71 and two second proximate matter substrates 72 are respectively along 700 height side of door leaf
To arrangement, every 1 first proximate matter substrate 71 is arranged with adjacent second proximate matter substrate 72 along 700 width direction of door leaf, two first proximate matters
The opposite end of substrate 71 and the opposite end of two second proximate matter substrates 72 are respectively provided with and are exchanged for adjusting the one of 700 height of door leaf
Section portion 73 is connected by nested mode between each pair of adjustment portion 73, by adjusting between two first proximate matter substrates 71 and two second
Relative position between proximate matter substrate 72, to realize that the height of door leaf 700 is adjusted.In addition to this, every 1 first proximate matter substrate
71 are additionally provided with a pair of of adjustment portion 74 for adjusting 700 width of door leaf with the opposite end of the second adjacent proximate matter substrate 72, often
It is connected by the tooth mode of nibbling between adjustment portion 74, by adjusting the phase between the first proximate matter substrate 71 and the second proximate matter substrate 72
To position, to realize the width adjusting of door leaf 700.It can be used between each pair of adjustment portion 73 or between each pair of adjustment portion 74 and take
It connects, any one mode during nested or tooth is nibbled.
Figure 22-23 is please referred to, Figure 22-23 is shown by being designed in the middle part of the door leaf to metallic door, realizes door leaf
The embodiment schematic diagram of height and width adjusting.The door leaf 800 is a plate body, and the plate body includes two the first proximate matter substrates
81 and two the second proximate matter substrates 82, two first proximate matter substrates 81 and two second proximate matter substrates 82 are respectively along 800 height side of door leaf
To arrangement, every 1 first proximate matter substrate 81 is arranged with adjacent second proximate matter substrate 82 along 800 width direction of door leaf.In this embodiment party
In formula, a stitching section 83, the stitching section 83 are respectively provided between two first proximate matter substrates 81 and between two second proximate matter substrates 82
The end junction of end and the first proximate matter substrate 81 or the second proximate matter substrate 82 is respectively provided with a pair of of adjustment portion, each pair of adjustment portion it
Between connected by nested mode, it is opposite between stitching section 83 and the first proximate matter substrate 81 or the second proximate matter substrate 82 by adjusting
Position, to realize that the height of door leaf 800 is adjusted.In addition to this, every 1 first proximate matter substrate 81 and adjacent second proximate matter substrate
Stitching section 84, the end junction of 84 end of stitching section and the first proximate matter substrate 81 and the second proximate matter substrate 82 are additionally provided between 82
It is respectively provided with another pair adjustment portion, is connected by nested mode between another pair adjustment portion, by adjusting stitching section 84 and the
Relative position between one proximate matter substrate 81 and the second proximate matter substrate 82, to realize the width adjusting of door leaf 800.It answers at other
With in mode, nested mode also alternatively nibbles structure at overlap joint or tooth.
Please refer to Fig.2 4-27.
Figure 24 show the structural schematic diagram of the adjustment portion using bridging arrangement between door leaf sectional material substrate and stitching section.Institute
Show that bridging arrangement includes two proximate matter substrates 912 and a stitching section 91,91 generally rectangular shaped structure of the stitching section, stitching section 91
End be equipped with the second adjustment portion 911, the one end of proximate matter substrate 912 is equipped with that overlapped first with the cooperation of the second adjustment portion 911
Adjustment portion 9121, the proximate matter substrate 912 is substantially of an L-shaped structure.According to actual demand, by adjust the second adjustment portion 911 with
Overlap distance between first adjustment portion 9121 adjusts the relative position between stitching section 91 and proximate matter substrate 912, then passes through
Rivet, bolt, bolt or interference fit mode two adjustment portions are fixed.In a kind of application mode, implementation as shown in Figure 4
Example, 91 end of stitching section overlaps and fixes with along the two proximate matter substrates that door leaf short transverse arranges respectively.Second of application side
In formula, in embodiment as shown in Figure 8,91 end of stitching section is taken with along the two proximate matter base ends that door leaf width direction arranges respectively
It connects and fixes.In the third application mode, as shown in figs9-12 in embodiment, 91 end of stitching section respectively with the first proximate matter base
Plate and/or the second proximate matter base ends are overlapped and are fixed.In the 4th kind of application mode, as depicted in figs. 18-19 in embodiment, spell
91 end of socket part respectively with along door leaf height or width direction arrangement two proximate matter substrates lapping ends and fixation.At the 5th kind
In application mode, as shown in figs. 22-23 in embodiment, 91 end of stitching section respectively with the first proximate matter substrate and/or the second proximate matter
Base ends are overlapped and are fixed.
Figure 25 show the structural schematic diagram of the adjustment portion using bridging arrangement between door leaf sectional material substrate and stitching section.Institute
It is in the structure of falling Z-type to state stitching section 92 substantially, and both ends are respectively equipped with one second adjustment portion 921, is adjusted by the second of both ends
Portion 921 is overlapped respectively to two pieces of proximate matter substrates 922.Each proximate matter substrate 922 is substantially of an L-shaped structure, and one end is equipped with
First adjustment portion 9221, first adjustment portion 9221 are used to coordinate with the second adjustment portion 921 and overlap.According to actual demand, lead to
The overlap distance between first and second adjustment portion is overregulated to adjust the relative position between stitching section 92 and proximate matter substrate 922
And it is fixed, to reach adjusting purpose.In a kind of application mode, when as being applied to the door leaf in embodiment illustrated in fig. 4, splicing
92 end of portion overlaps and fixes with along the two proximate matter base ends that door leaf short transverse arranges respectively.In second of application mode
In, as being applied in embodiment illustrated in fig. 8,92 end of stitching section respectively with the two proximate matter edge of substrate that are arranged along door leaf width direction
Portion overlaps and fixes.In the third application mode, when being applied to the door leaf in 9-12 illustrated embodiments such as figure, 92 end of stitching section
Portion overlaps and fixes with the first proximate matter substrate and/or the second proximate matter base ends respectively.In the 4th kind of application mode, as figure is answered
When for door leaf in 18-19 illustrated embodiments, 92 end of stitching section respectively with along the two of door leaf height or width direction arrangement
The lapping ends of proximate matter substrate and fixation.In the 5th kind of application mode, as being applied to the door leaf in Figure 22-23 illustrated embodiments
When, 92 end of stitching section overlaps and fixes with the first proximate matter substrate and/or the second proximate matter base ends respectively.
Figure 26 show the structural schematic diagram of the adjustment portion using bridging arrangement between door leaf sectional material substrate and stitching section.Institute
Bridging arrangement is stated to be made of two pieces of proximate matter substrates, wherein a proximate matter substrate 931 is generally rectangular shaped or L-type structure, one end
Portion is equipped with the first adjustment portion 9311, and the one end of another proximate matter substrate 932 is equipped with to coordinate with the first adjustment portion 9311 and overlap
The second adjustment portion 9321, the proximate matter substrate 932 is substantially of an L-shaped structure.According to actual demand, by adjusting first and second
Overlap distance between adjustment portion adjusts relative position and the fixation between proximate matter substrate 931 and proximate matter substrate 932, to reach
To adjusting purpose.In a kind of application mode, as applied in any embodiment shown in Fig. 1,2,3,4,13-15 or 18-19
When door leaf, proximate matter substrate 931 is stitching section, the first adjustment portion 9311 and the second adjustment portion 9321 be respectively arranged on the stitching section and
Proximate matter base ends, are connected and are fixed by overlapping mode.In second of application mode, as applied to real shown in Fig. 3 or 6
When applying the door leaf in example, the first adjustment portion 9311 and the second adjustment portion 9321 are respectively arranged on along door leaf height or width direction arrangement
Two proximate matter base ends and be connected and fixed by overlapping mode.In the third application mode, as applied to shown in Fig. 9-12
Embodiment in door leaf when, the first adjustment portion 9311 and the second adjustment portion 9321 are respectively arranged on the first proximate matter substrate and/or
Two proximate matter base ends, are connected and are fixed by overlapping mode.In the 4th kind of application mode, as applied to shown in Figure 16-17
Embodiment in door leaf when, can be connected by overlapping mode between two proximate matter substrates, also may be used between proximate matter substrate and stitching section
It is connected by overlapping mode.In the 5th kind of application mode, when as being applied to the door leaf in embodiment shown in Figure 20-21, the
Pass through end between one proximate matter substrate and the second proximate matter substrate, between two first proximate matter substrates and/or between two second proximate matter substrates
Portion overlaps.
Figure 27 show the structural schematic diagram of the adjustment portion using nested structure between door leaf sectional material substrate and stitching section.Institute
It includes two proximate matter substrates 942 and a stitching section 94 to state nested structure, wherein 94 generally rectangular shaped structure of stitching section, stitching section 94
One end be equipped with the second adjustment portion 941, the one end of the proximate matter substrate 942 be equipped with coordinate with the second adjustment portion 941 it is nested
The first adjustment portion 9421, first adjustment portion 9421 include one opening 9422, the second adjustment portion 941 pass through opening 9422 receive
It is dissolved in the first adjustment portion 9421.According to actual demand, the first adjustment portion 9421 is contained in by adjusting the second adjustment portion 941
Length adjusts relative position and the fixation between stitching section 94 and proximate matter substrate 942, to reaching adjusting purpose.It is answered in one kind
With in mode, when as being applied on the door leaf in embodiment illustrated in fig. 4, the proximate matter substrate 942 is to be arranged along door leaf height
Two proximate matter substrates.In second of application mode, when as being applied on the door leaf in embodiment illustrated in fig. 8, the proximate matter substrate
942 be the two proximate matter substrates arranged along door leaf width.In second of application mode, as being applied in Fig. 9-12 illustrated embodiments
Door leaf on when, the proximate matter substrate 942 include the first proximate matter substrate and the second proximate matter substrate.In the 4th kind of application mode,
When being such as applied on the door leaf in Figure 18-19 illustrated embodiments, the proximate matter substrate 942 is to be arranged along door leaf height or width
Two proximate matter substrates.In the 5th kind of application mode, when as being applied to the door leaf in Figure 22-23 illustrated embodiments, the proximate matter base
Plate 942 includes two first proximate matter substrates and two second proximate matter substrates.
In another embodiment, the second adjustment portion 941 is set to the one end of proximate matter substrate 942, the first adjustment portion
9421 are set to the one end of stitching section 94.
In other embodiments, nested structure can be only made of a proximate matter substrate 942 and a stitching section 94.One
Kind of application mode, when as being applied to the door leaf in Fig. 1,2,3,4, any embodiment shown in 13-15 or 18-19, the first adjusting
Portion 9421 and the second adjustment portion 941 are respectively arranged on the stitching section and proximate matter base ends and are connect by nested mode.
In two kinds of application modes, when as being applied to the door leaf in embodiment shown in Fig. 3 or 6, the first adjustment portion 9421 and second is adjusted
Portion 941 is respectively arranged on along door leaf height or two proximate matter base ends of width direction arrangement and is connected and fixed by nested mode.
In the third application mode, when as being applied to the door leaf in embodiment shown in Fig. 9-12, the first adjustment portion 9421 and second
Adjustment portion 941 is respectively arranged on the first proximate matter substrate and/or the second proximate matter base ends and is connected by nested mode.At the 4th kind
In application mode, when as being applied to the door leaf in embodiment shown in Figure 16-17, overlapping mode can be passed through between two proximate matter substrates
Connection, can also be connected between proximate matter substrate and stitching section by nested mode.In the 5th kind of application mode, such as it is applied to figure
When door leaf in embodiment shown in 20-21, between the first proximate matter substrate and the second proximate matter substrate, between two first proximate matter substrates
And/or two second pass through end nested encryptions between proximate matter substrate.
Figure 28 show the structural schematic diagram for the adjustment portion for nibbling structure between door leaf sectional material substrate and stitching section using tooth.Institute
It includes two proximate matter substrates to state tooth and nibble structure, wherein 95 generally rectangular shaped structure of a proximate matter substrate, one end is equipped with second
Adjustment portion 951, the one end of another proximate matter substrate 952 are equipped with the first adjustment portion being connected with the second adjustment portion 951
9521, first adjustment portion 9521 includes an opening 9522, and 9522 madial walls of the opening are equipped with multiple along 9522 sides that are open
To the protrusion 9523 of arrangement, 951 lateral wall of the second adjustment portion is equipped with multiple grooves 9511 being connected with raised 9523, amphitypy
Material substrate is connected by two adjustment portions, and the cooperation quantity by adjusting protrusion 9523 and groove 9511, to reach adjusting mesh
's.In a kind of application mode, when as applied to door leaf in any embodiment shown in Fig. 1,2,3,4,13-15 or 18-19, two
There are one being stitching section in proximate matter substrate, the first adjustment portion 9521 and the second adjustment portion 951 be respectively arranged on the stitching section with separately
One proximate matter base ends.In second of application mode, when as being applied to the door leaf in embodiment shown in Fig. 3 or 6, first adjusts
Section portion 9521 and the second adjustment portion 951 are respectively arranged on the two proximate matter base ends along door leaf height or width direction arrangement.
In three kinds of application modes, when as being applied to the door leaf in embodiment shown in Fig. 9-12, the first adjustment portion 9521 and second is adjusted
Portion 951 is respectively arranged on the first proximate matter substrate and/or the second proximate matter base ends.In the 4th kind of application mode, such as it is applied to figure
When door leaf in embodiment shown in 16-17, can be connected by the tooth mode of nibbling between two proximate matter base ends, proximate matter substrate with spell
It can also be connected by the tooth mode of nibbling between socket part end.In the 5th kind of application mode, as implemented applied to shown in Figure 20-21
When door leaf in example, between the first proximate matter substrate and the second proximate matter substrate, between two first proximate matter substrates and/or two second proximate matters
It is connected with and is connect by end tooth between substrate.
In other embodiments, it includes two proximate matter substrates and a stitching section that the tooth, which nibbles structure, and the stitching section passes through
Tooth nibbles mode and two proximate matter substrate connections.In a kind of application mode, when as being applied on the door leaf in embodiment illustrated in fig. 4,
The proximate matter substrate is the two proximate matter substrates arranged along door leaf height.In second of application mode, as applied to real shown in Fig. 8
When applying on the door leaf in example, the proximate matter substrate is the two proximate matter substrates arranged along door leaf width.In second of application mode,
When being such as applied on the door leaf in Fig. 9-12 illustrated embodiments, the proximate matter substrate includes the first proximate matter substrate and the second proximate matter base
Plate.In the 4th kind of application mode, when as being applied on the door leaf in Figure 18-19 illustrated embodiments, the proximate matter substrate is edge
Door leaf height or two proximate matter substrates of width arrangement.In the 5th kind of application mode, as being applied in Figure 22-23 illustrated embodiments
Door leaf when, the proximate matter substrate include two first proximate matter substrates and two second proximate matter substrates.
It should be noted that in embodiments of the present invention, " middle part " not refers in particular to the center of door leaf, but
Refer to door leaf two between height or the proximate matter substrate of width arrangement, the height or width of two proximate matter substrates equal also can may be used
With unequal.
Door leaf and metallic door provided in an embodiment of the present invention, is designed by the structure to door leaf, utilizes proximate matter base
The adjusting of joint surface bond sizes between plate and/or between proximate matter substrate and stitching section is realized to door leaf height and/or width
Adjusting, and the flexibility that structure design is realized in door leaf any position can be arranged in stitching section, while eliminating purchase door
Scale measurement links when fan, the approximate size that manufacturer is provided by buyer can directly be delivered, and buyer also without
It needs to wait for that goods can be taken, and the door leaf of the present invention and metallic door are suitable for the door of various different function different designs styles to proximate matter
The particular/special requirement of structure improves the experience property of user.Further, it is also possible to high-volume standardized production be realized, so as to shorten door
The purchase of fan and metallic door and production cycle reduce production cost.In addition, aluminium section bar may be used with stitching section in proximate matter substrate.
Embodiment of above is merely illustrative of the technical solution of the present invention and unrestricted, although with reference to the above preferable embodiment party
Formula describes the invention in detail, it will be understood by those of ordinary skill in the art that, it can be to technical scheme of the present invention
It modifies or equivalent replacement should not all be detached from the spirit and scope of technical solution of the present invention.
Claims (12)
1. a kind of door leaf, the door leaf includes plate body, it is characterised in that:The plate body includes at least one first type interconnected
Material substrate and at least one second proximate matter substrate are exchanged equipped at least one at the first proximate matter substrate and the second proximate matter substrate connection
Section portion is connected by the adjustment portion between first and second described proximate matter substrate and by adjusting the phase between the adjustment portion
To position, to realize the adjusting to plate body height and/or width;
Wherein, the pair of adjustment portion includes the first adjustment portion and the second adjustment portion, wherein the first adjustment portion is double layer hollow plate
Structure, i.e., the side wall of described first adjustment portion are by two blade groups at and two sheet peripheries seal together, are formed between two sheets
Space, first adjustment portion have an opening;Second adjustment portion is contained in by the opening in first adjustment portion, is led to
Overregulate second adjustment portion be contained in the length of first adjustment portion change first and second described proximate matter substrate it
Between relative position.
2. door leaf as described in claim 1, it is characterised in that:The pair of adjustment portion be respectively arranged at it is described first and second
The end of proximate matter substrate.
3. door leaf as claimed in claim 2, which is characterized in that the madial wall of first adjustment portion is equipped with multiple protrusions,
The protrusion extends from the interior side of first adjustment portion to the opening direction, and the lateral wall of second adjustment portion is equipped with
With the matched multiple grooves of the protrusion, change described the by adjusting the protrusion with the cooperation position relationship of the groove
One and the second relative position between proximate matter substrate.
4. door leaf as claimed in claim 2, which is characterized in that connected, led to using bridging arrangement between the pair of adjustment portion
Distance of overregulating between the adjustment portion that overlapped adjusts the relative position between first and second described proximate matter substrate.
5. door leaf according to any one of claims 1-4, it is characterised in that:The first or second proximate matter substrate, which is equipped with, to be inserted
Pin, rivet and/or bolt, the bolt, rivet and/or bolt are used for the fixation between first and second described proximate matter substrate.
6. a kind of door leaf, the door leaf includes plate body, it is characterised in that:The plate body is including at least one piece of proximate matter substrate and at least
One stitching section, the proximate matter substrate and stitching section junction are equipped at least a pair of of adjustment portion, the stitching section and the proximate matter
Between substrate by the pair of adjustment portion connect and by the pair of adjustment portion adjust between relative position, to realize
Adjusting to plate body height and/or width;
Wherein, the pair of adjustment portion includes the first adjustment portion and the second adjustment portion, wherein the first adjustment portion is double layer hollow plate
Structure, i.e., the side wall of described first adjustment portion are by two blade groups at and two sheet peripheries seal together, are formed between two sheets
Space, first adjustment portion have an opening;Second adjustment portion is contained in by the opening in first adjustment portion, is led to
It overregulates second adjustment portion and is contained in the length of first adjustment portion to change between the proximate matter substrate and stitching section
Relative position.
7. door leaf as claimed in claim 6, which is characterized in that the pair of adjustment portion be respectively arranged at the proximate matter substrate with
And the end of stitching section.
8. door leaf as claimed in claim 7, which is characterized in that the madial wall of first adjustment portion is equipped with multiple protrusions,
The protrusion extends from the interior side of first adjustment portion to the opening direction, and the lateral wall of second adjustment portion is equipped with
With the matched multiple grooves of the protrusion, change the type by adjusting the cooperation position relationship of the protrusion and the groove
Relative position between material substrate and stitching section.
9. door leaf as claimed in claim 7, which is characterized in that connected, led to using bridging arrangement between the pair of adjustment portion
Distance of overregulating between the adjustment portion that overlapped adjusts the relative position between the proximate matter substrate and stitching section.
10. such as claim 6-9 any one of them door leafs, it is characterised in that:It is set on the stitching section or the proximate matter substrate
There are bolt, rivet and/or bolt, the bolt, rivet and/or bolt to be used for consolidating between the proximate matter substrate and stitching section
It is fixed.
11. a kind of metallic door, which is characterized in that the metallic door includes doorframe and the door leaf as described in claim 1-5.
12. a kind of metallic door, which is characterized in that the metallic door includes doorframe and the door leaf as described in claim 6-10.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201611183227.XA CN106761244B (en) | 2016-12-20 | 2016-12-20 | Door leaf and metallic door |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201611183227.XA CN106761244B (en) | 2016-12-20 | 2016-12-20 | Door leaf and metallic door |
Publications (2)
Publication Number | Publication Date |
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CN106761244A CN106761244A (en) | 2017-05-31 |
CN106761244B true CN106761244B (en) | 2018-08-31 |
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ID=58889497
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201611183227.XA Active CN106761244B (en) | 2016-12-20 | 2016-12-20 | Door leaf and metallic door |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
RU2738684C1 (en) * | 2020-07-24 | 2020-12-15 | Евгений Валерьевич Макаров | Interior door |
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CH345256A (en) * | 1956-08-20 | 1960-03-15 | Menziken Aluminium Ag | Profile bar, set up to be attached to another same bar |
DE1484103A1 (en) * | 1963-07-17 | 1969-04-17 | Menziken Aluminium Ag | Plate-shaped component |
CN201714245U (en) * | 2010-06-16 | 2011-01-19 | 吴留香 | Wood door with adjustable width |
CN201778602U (en) * | 2010-05-14 | 2011-03-30 | 刘召云 | Retractable combined door pocket |
CN202913903U (en) * | 2012-10-30 | 2013-05-01 | 湖州铁佛耐火材料有限公司 | Steel wooden door |
CN104775712A (en) * | 2015-03-05 | 2015-07-15 | 苏州柯利达装饰股份有限公司 | Adjustable door pocket and mounting method thereof |
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2016
- 2016-12-20 CN CN201611183227.XA patent/CN106761244B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CH345256A (en) * | 1956-08-20 | 1960-03-15 | Menziken Aluminium Ag | Profile bar, set up to be attached to another same bar |
DE1484103A1 (en) * | 1963-07-17 | 1969-04-17 | Menziken Aluminium Ag | Plate-shaped component |
CN201778602U (en) * | 2010-05-14 | 2011-03-30 | 刘召云 | Retractable combined door pocket |
CN201714245U (en) * | 2010-06-16 | 2011-01-19 | 吴留香 | Wood door with adjustable width |
CN202913903U (en) * | 2012-10-30 | 2013-05-01 | 湖州铁佛耐火材料有限公司 | Steel wooden door |
CN104775712A (en) * | 2015-03-05 | 2015-07-15 | 苏州柯利达装饰股份有限公司 | Adjustable door pocket and mounting method thereof |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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RU2738684C1 (en) * | 2020-07-24 | 2020-12-15 | Евгений Валерьевич Макаров | Interior door |
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CN106761244A (en) | 2017-05-31 |
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