CN110712825A - Sample container device for sampling on traditional building site - Google Patents
Sample container device for sampling on traditional building site Download PDFInfo
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- CN110712825A CN110712825A CN201910391150.2A CN201910391150A CN110712825A CN 110712825 A CN110712825 A CN 110712825A CN 201910391150 A CN201910391150 A CN 201910391150A CN 110712825 A CN110712825 A CN 110712825A
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- 238000005070 sampling Methods 0.000 title claims abstract description 37
- 238000010276 construction Methods 0.000 claims abstract description 19
- 239000010410 layer Substances 0.000 claims description 29
- 230000008602 contraction Effects 0.000 claims description 7
- 230000000694 effects Effects 0.000 claims description 7
- 238000007789 sealing Methods 0.000 claims description 7
- 230000006835 compression Effects 0.000 claims description 3
- 238000007906 compression Methods 0.000 claims description 3
- 239000011229 interlayer Substances 0.000 claims description 3
- 230000002146 bilateral effect Effects 0.000 claims 2
- 230000006378 damage Effects 0.000 abstract description 4
- 238000010422 painting Methods 0.000 abstract 1
- 238000001514 detection method Methods 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 230000003449 preventive effect Effects 0.000 description 2
- 208000027418 Wounds and injury Diseases 0.000 description 1
- 238000013480 data collection Methods 0.000 description 1
- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 description 1
- 238000005538 encapsulation Methods 0.000 description 1
- 230000001771 impaired effect Effects 0.000 description 1
- 208000014674 injury Diseases 0.000 description 1
- 230000001788 irregular Effects 0.000 description 1
- 238000010606 normalization Methods 0.000 description 1
- 230000002035 prolonged effect Effects 0.000 description 1
- 239000002689 soil Substances 0.000 description 1
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D11/00—Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material
- B65D11/18—Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material collapsible, i.e. with walls hinged together or detachably connected
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D25/00—Details of other kinds or types of rigid or semi-rigid containers
- B65D25/02—Internal fittings
Abstract
The invention discloses a sampling sample container device used for a traditional construction site. The device consists of an outer wall of a sample container, a sample container turning shaft, a sample container lifting head, a sample container dimension turning node and a sample container height turning node. The invention can be used for placing the sampling size and the content of the components, walls, wall paintings and the like of the traditional buildings. The sample that can take a sample to traditional building scene is protected, reduces and deposits, the damage to the sample in the transportation in the sample, and the name, serial number, the sample place etc. of more standardizing the sample simultaneously easily take a sample site operation, have improved sampler's work efficiency.
Description
Technical Field
The invention relates to a post-sampling sample container device for wooden structures, walls, murals and the like on site during traditional building detection. The invention belongs to the technical field of traditional building protection.
Background
The layout, the structure, the artistic style and other aspects of the traditional building are unique, the field sampling sample container device is used for carrying out storage on a locally sampled sample in the field of preventive detection or repair of the traditional building, and the information such as the sampling position, the name, the sampling time and the like of the sample after the storage is marked, so that the field transportation and the storage of the sample are provided for the protection and reutilization research of the traditional building.
At present, the service time of the traditional building in China is long, part of the structure is always artificially or naturally aged, and part of the structure needs to be sampled when the traditional building is subjected to preventive detection or repair. The sampling part relates to the material of traditional building major structure, damaged mural material or gather its soil sample. At present, there is not fixed requirement to the on-spot sample container of traditional building, often the crack is placed in the toolbox, or use newspaper or paper handkerchief parcel, the sample is arranged to methods such as valve bag encapsulation, but traditional building is more with timber structure or masonry material, the valve bag or paper are punctured easily to the sample, cause the omission, soft sample container easily takes place to fold when the damaged mural sample in addition, original texture and the integrity of collision destruction mural, the sample is impaired, leak and spill or sample relevant information is checked not much, not only can't satisfy the demand of researcher to the sample, the while is taken a sample again and is the injury to traditional building undoubtedly.
The invention provides a sampling container device for a traditional building site, aiming at solving the problems of different requirements of the sampling container for the traditional building site and lack of a remark area for a sample, mainly adopting the stretchable outer wall of the sampling container and the sample container capable of stretching transversely and longitudinally to replace irregular paper wrapping and other phenomena, being easy to rapidly seal and store after on-site sampling, freely adjusting the sample container according to the sampling amount and the size of the sample, filling related information of the sample by using a fixed area after the sample container is sealed, and simultaneously setting a prompt function. Not only protects the safety and the integrality of the sample, but also improves the efficiency and the normalization of the sample storage of the sampling personnel.
Disclosure of Invention
The invention aims to provide a sampling sample container device used for a traditional construction site. The device is collapsible to the spool, and according to the position, size and the quantity of on-the-spot sample, but deposit the sample container outer wall and transversely pull into appointed length to can be according to the length longitudinal stretching of sample, for conveniently carrying and satisfying the arrangement of different shapes samples, the outer wall cross axle of sample container can carry out 360 folding and fixed at the node, better coordination on-the-spot sample to the demand that different specifications were arranged to the sample container. The sample container can also be stretched according to the size of a sample specifically collected on site, and the thickness of the sample container with different thicknesses can be moderately changed, so that the movement space of the sample in the sample container is reduced, the protection effect is achieved, and meanwhile the occupied space can be effectively reduced. The sample container cover is provided with a rotating button, when the sample container cover is not rotated to the direction of a card filling and writing such as a sample name, the sample container cover can be provided with a color prompt to not fill sampling related information, and the data collection of the name, the part and the like of a building which is sampled is avoided to be omitted or mixed up. Sample container outer wall sets for the one side and is folding bilayer, and this layer is opened in the accessible zip unblock upturning, forms the top of traditional building site sample container outer wall device, sets up the magic subsides at sample container device's top edge, can bond mutually with vertical sample container device's edge, form the whole of traditional building site sample container sealed, and the top of sample container outer wall device is equipped with sample container lifting head simultaneously, be convenient for sample collection transport after accomodating, take and put. The efficiency of on-spot sample collection lay is improved to and guarantee that the sample is not destroyed in transit.
In order to achieve the above purpose, the technical solution adopted by the present invention is a sampling container device used in a traditional building site, as shown in fig. 1, comprising a sample container outer wall (1), a sample container turning shaft (2), a sample container lifting head (3), a sample container dimension turning node (4) and a sample container height turning node (5). The top of sample container outer wall (1) is equipped with sample container pull head (3), and sample container outer wall (1) is supported by a plurality of vertical and horizontal sample container turning axle (2) and forms the sample space, and sample container dimension turning node (4) set up in each vertical and horizontal sample container turning axle (2) connected node, and sample container height turning node (5) set up on sample container turning axle (2).
The dimension turning node (4) of the sample container comprises an outer wall cross shaft opener (6), an outer wall cross shaft elastic button (7), an outer wall cross shaft folding shaft (8), an outer wall cross shaft inner sleeve right handle (9), an outer wall cross shaft inner sleeve left handle (10), an inner wall cross shaft inner sleeve end gasket (11), a transverse distance telescopic rod piece inner sliding track (12), an outer wall cross shaft pipe (13), an outer wall cross shaft inner sleeve left handle end clamping port (14) and an outer wall cross shaft inner sleeve right handle end-to-end interface (15); the outer wall transverse shaft opener (6) is arranged at the upper part of the outer wall transverse shaft elastic button (7), and the outer wall transverse shaft opener (6) plays a role in opening a right handle (9) sleeved in the outer wall transverse shaft and a left handle (10) sleeved in the outer wall transverse shaft; the outer wall transverse shaft folding shaft (8) is arranged in the middle of the outer wall transverse shaft inner sleeve left handle (9) and the outer wall transverse shaft inner sleeve right handle (10), and the outer wall transverse shaft folding shaft (8) plays a role in fixing the outer wall transverse shaft elastic button (7). And starting an outer wall cross shaft elastic button (7), and separating the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) from the outer wall cross shaft tube (13) by pulling the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) outwards, wherein the end parts of the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) are respectively provided with an outer wall cross shaft inner sleeve left handle end clamping port (14) and an outer wall cross shaft inner sleeve right handle end clamping port interface (15) for forming a head-tail.
The outer wall horizontal axis opener (6) comprises an outer wall horizontal axis opener movable track (16) and an outer wall horizontal axis opener pull wire (17); the outer wall transverse axis opener (6) is pulled up leftwards to form an outer wall transverse axis opener moving track (16), and the size of the outward stretching distance of the outer wall transverse axis inner sleeve right handle (9) and the outer wall transverse axis inner sleeve left handle (10) is determined according to the outer wall transverse axis opener moving track (16). The outer wall transverse axis opener traction wire (17) is connected between the outer wall transverse axis opener (6) and the outer wall transverse axis tension button (7), and the outer wall transverse axis opener traction wire (17) plays a role in supporting and controlling the outer wall transverse axis opener (6).
The internal structure of the outer wall (1) of the sample container comprises an inner container (18) of the outer wall of the container, a sample container placing bag (19), a contraction opening (20) of the sample container placing bag and a longitudinal support rod piece (21); the container outer wall inner container (18) is arranged on the inner side of the sample container outer wall (1), the container outer wall inner container (18) is connected with the bottom of the sample container outer wall (1) through a zipper, the container outer wall inner container (18) and the bottom of the sample container outer wall (1) are spliced into a whole, the inner hidden sample container outer wall (1) and the container outer wall inner container (18) are released according to the actual requirement of collecting samples on site after the zipper is opened, and the requirements of different sample length sizes are met. The longitudinal supporting rod (21) plays a role of supporting the outer wall (1) of the sample container and the inner container (18) of the outer wall of the container. The sample container placing bag (19) is arranged at the upper part of the inner container (18) on the outer wall of the container and plays a role in placing a sample container, and the contraction port (20) of the sample container placing bag is arranged at the upper part of the sample container placing bag (19) and has certain elasticity, so that the sample container can be self-adjusted and tightened and fixed according to the size of the container, and the sample container is prevented from moving or leaking.
The longitudinal support rod piece (21) comprises a telescopic rod double-side opening key (22), an internal stretching rod piece (23) and a stretching length positioning buckle (24). The double-side opening key (22) of the telescopic rod is arranged in the middle of the sample container turning shaft (2) and plays a role in opening the stretching rod piece (23) inside the sample container. The stretching length positioning buckle (24) is arranged on the inner stretching rod piece (23), and the stretching length positioning buckle (24) and the double-side opening key (22) of the telescopic rod can be mutually occluded, so that the total length of the longitudinal support rod piece (21) can be prolonged according to the requirement.
The sample container placing bag (19) is internally provided with a sample container (25), and the sample container placing bag (25) comprises a sample container cover (26), a sample content marking card button (27), a sample container cover sealing layer (28), a container telescopic control (29), a two-layer sample container inner wall (30), a three-layer sample container inner wall (31) and a sample detail card (32). The sample content mark card button (27) is arranged on the sample container cover (26) and can rotate 180 degrees in the longitudinal direction, and plays a role in prompting, recording and collecting related information of a sample. The sample container cover sealing layer (28) is arranged at the lower part of the sample container cover (26) and plays a role in ensuring the tightness between the sample container cover (26) and the placed sample container (25) to be firmer. The container expansion control (29) is arranged at two sides of the upper part of the sample container (25) and is used for opening or closing the interlayer container wall in the sample container (25) when being pressed. The three-layer sample container inner wall (31) is arranged in the sample container (25), and the two-layer sample container inner wall (30) is arranged between the three-layer sample container inner wall (31) and the sample container (25), so that the sample stretching effect is achieved, and the sample is effectively placed in the sample container. The sample detail card (32) is arranged at the front part of the sample container (25), and the sample detail card (32) is clamped in a clamping groove at the front part of the sample container (25) by a three-side clamping mode.
The sample container (25) comprises a sample container bottom (33), a sample container bottom expansion shaft (34) and a sample container bottom expansion Y-shaped supporting shaft (35). The sample container bottom expansion shaft (34) is in the middle of the sample container bottom (33) and acts to compress the width. The sample container bottom extension Y-shaped support shaft (35) is foldable by virtue of the provided compression path when the sample container bottom (32) is compressed.
Drawings
FIG. 1 is a view of an external device of a conventional sampling specimen container for construction site;
FIG. 2 is a diagram of a sample container dimension turning node structure;
FIG. 3 is a view showing the construction of a lateral axis opener for an outer wall;
FIG. 4 is a view showing the construction of the outer wall of the sample container;
FIG. 5 is a view showing the construction of the longitudinal support bar;
FIG. 6 is a sample container configuration diagram;
FIG. 7 is a bottom configuration view of a sample container.
Fig. 8 is a view of a conventional construction site sample container apparatus in a reel shape when no sample is loaded.
Fig. 9 is a view showing a conventional construction site sampling specimen container apparatus stretched according to the size and length of a specimen when the specimen is contained and coupled to be terminated to form a three-dimensional apparatus.
In the figure: 1. sample container outer wall, 2, sample container turning shaft, 3, sample container lifting head, 4, sample container dimension turning node, 5, sample container height turning node, 6, outer wall cross shaft opener, 7, outer wall cross shaft elastic button, 8, outer wall cross shaft folding shaft, 9, outer wall cross shaft inner sleeve right handle, 10, outer wall cross shaft inner sleeve left handle, 11, inner wall cross shaft inner sleeve end gasket, 12, transverse distance telescopic rod piece inner sliding track, 13, outer wall cross shaft pipe, 14, outer wall cross shaft inner sleeve left handle end clamping port, 15, outer wall cross shaft inner sleeve right handle end clamping port, 16, outer wall cross shaft opener moving track, 17, outer wall cross shaft opener pulling line, 18, container outer wall inner container, 19, sample container installation bag, 20, sample container installation bag contraction port, 21, longitudinal support rod piece, 22, sample container lifting head, 4, sample container dimension turning node, 5, sample container height turning node, 6, outer wall cross shaft opener, 7, outer wall cross shaft, The device comprises a telescopic rod double-side opening key, 23, an internal stretching rod piece, 24, a stretching length positioning buckle, 25, a sample container, 26, a sample container cover, 27, a sample content mark card button, 28, a sample container cover sealing layer, 29, a container stretching control device, 30, a two-layer sample container inner wall, 31, a three-layer sample container inner wall, 32, a sample detail card, 33, a sample container bottom, 34, a sample container bottom extension shaft, 35 and a sample container bottom extension Y-shaped support shaft.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings and examples.
As shown in fig. 1 to 7, a sampling container device for a traditional construction site is shown in fig. 1 and comprises a sample container outer wall (1), a sample container turning shaft (2), a sample container lifting head (3), a sample container dimension turning node (4) and a sample container height turning node (5). The top of the outer wall (1) of the sample container is provided with a sample container lifting head (3), the outer wall (1) of the sample container is supported by a plurality of longitudinal and transverse sample container turning shafts (2) to form a sampling space, the dimension turning nodes (4) of the sample container are arranged at the connecting nodes of the longitudinal and transverse sample container turning shafts (2), and the height turning nodes (5) of the sample container are arranged on the sample container turning shafts (2).
The structure of the sample container dimension turning node (4) is shown in fig. 2, the sample container dimension turning node (4) comprises an outer wall cross shaft opener (6), an outer wall cross shaft elastic button (7), an outer wall cross shaft folding shaft (8), an outer wall cross shaft inner sleeve right handle (9), an outer wall cross shaft inner sleeve left handle (10), an inner wall cross shaft inner sleeve end gasket (11), a transverse distance telescopic rod piece internal sliding track (12), an outer wall cross shaft pipe (13), an outer wall cross shaft inner sleeve left handle end clamping interface (14) and an outer wall cross shaft inner sleeve right handle end interface (15); the outer wall cross shaft opener (6) is arranged at the upper part of the outer wall cross shaft elastic button (7), and the outer wall cross shaft opener (6) plays a role in opening a right handle (9) sleeved in the outer wall cross shaft and a left handle (10) sleeved in the outer wall cross shaft; the outer wall transverse shaft folding shaft (8) is arranged in the middle of the outer wall transverse shaft inner sleeve left handle (9) and the outer wall transverse shaft inner sleeve right handle (10), and the outer wall transverse shaft folding shaft (8) plays a role of fixing the outer wall transverse shaft elastic button (7). And starting an outer wall cross shaft elastic button (7), and separating the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) from the outer wall cross shaft tube (13) by pulling the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) outwards, wherein the end parts of the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) are respectively provided with an outer wall cross shaft inner sleeve left handle end clamping port (14) and an outer wall cross shaft inner sleeve right handle end-to-end port (15) for forming a head-to.
The structure of the outer wall horizontal axis opener (6) is shown in fig. 3, the outer wall horizontal axis opener (6) comprises an outer wall horizontal axis opener moving track (16) and an outer wall horizontal axis opener traction wire (17); the outer wall horizontal axis opener (6) is pulled up leftwards to form an outer wall horizontal axis opener moving track (16), and the size of the outward stretching distance of the outer wall horizontal axis inner sleeve right handle (9) and the outer wall horizontal axis inner sleeve left handle (10) is determined according to the outer wall horizontal axis opener moving track (16). The outer wall transverse axis opener traction wire (17) is connected between the outer wall transverse axis opener (6) and the outer wall transverse axis tension button (7), and the outer wall transverse axis opener traction wire (17) plays a role in supporting and controlling the outer wall transverse axis opener (6).
The outer wall (1) of the sample container is constructed as shown in figure 4, the inner structure of the outer wall (1) of the sample container comprises an inner container (18) of the outer wall of the container, a sample container placing bag (19), a contraction opening (20) of the sample container placing bag and a longitudinal support rod piece (21); the container outer wall inner container (18) is arranged on the inner side of the sample container outer wall (1), the container outer wall inner container (18) is connected with the bottom of the sample container outer wall (1) through a zipper, the container outer wall inner container (18) and the bottom of the sample container outer wall (1) are spliced into a whole, the inner hidden sample container outer wall (1) and the container outer wall inner container (18) are released according to the actual requirement of collecting samples on site after the zipper is opened, and the requirements of different sample length sizes are met. The longitudinal supporting rod piece (21) plays a role in supporting the outer wall (1) of the sample container and the inner container (18) of the outer wall of the sample container. The sample container placing bag (19) is arranged on the upper part of the container outer wall inner container (18) and plays a role in placing a sample container, and the sample container placing bag contraction port (20) is arranged on the upper part of the sample container placing bag (19) and has certain elasticity, so that the sample container can be self-adjusted and tightened and fixed according to the size of the container, and the sample container cannot move or leak.
The structure of the longitudinal support rod piece (21) is shown in fig. 5, and the longitudinal support rod piece (21) comprises a telescopic rod double-side opening key (22), an internal stretching rod piece (23) and a stretching length positioning buckle (24). The double-side opening key (22) of the telescopic rod is arranged in the middle of the sample container turning shaft (2) and plays a role in opening the internal stretching rod piece (23). The stretching length positioning buckle (24) is arranged on the inner stretching rod piece (23), the stretching length positioning buckle (24) and the telescopic rod double-side opening key (22) can be mutually meshed, and the effect of prolonging the total length of the longitudinal support rod piece (21) according to the requirement is achieved.
The sample container (25) placed in the sample container placing bag (19) is constructed as shown in fig. 6, and the sample container (25) placed comprises a sample container cover (26), a sample content marking card button (27), a sample container cover sealing layer (28), a container expansion control (29), a two-layer sample container inner wall (30), a three-layer sample container inner wall (31) and a sample detail card (32). The sample content mark card button (27) is arranged on the sample container cover (26) and can rotate 180 degrees in the longitudinal direction, and plays a role in prompting, recording and collecting related information of a sample. The sample container cover sealing layer (28) is arranged at the lower part of the sample container cover (26) and plays a role in ensuring the tightness between the sample container cover (26) and the placed sample container (25) to be firmer. The container expansion control (29) is arranged at two sides of the upper part of the sample container (25) and is used for opening or closing the interlayer container wall in the sample container (25) when being pressed. The three-layer sample container inner wall (31) is arranged inside the sample container (25), and the two-layer sample container inner wall (30) is arranged in the middle of the three-layer sample container inner wall (31) and the sample container (25), so that the sample stretching effect is achieved, and the sample is effectively placed inside the sample container. The sample detail card (32) is arranged at the front part of the sample container (25), and the sample detail card (32) is clamped in a clamping groove at the front part of the sample container (25) by a three-side clamping mode.
The bottom structure of the sample container (25) is shown in fig. 7, and the sample container (25) comprises a sample container bottom (33), a sample container bottom expansion shaft (34) and a sample container bottom expansion Y-shaped supporting shaft (35). The sample container bottom extension shaft (34) is located in the middle of the sample container bottom (33) and acts to compress the width. The sample container bottom extension Y-shaped support shaft (35) is foldable by virtue of the provided compression path when the sample container bottom (32) is compressed.
The on-site sampling sample container device can be effectively adjusted according to the content, height and width of different samples, and can also standardize detailed records of sampling, thereby reducing the problems of disorder, damage and the like of the samples in the transportation or sampling process. Several situations of on-site conventional construction site sampling sample container devices are common as follows:
(1) when not containing any sample, the traditional construction site sampling sample container device is in a reel shape, can be stored and rolled up and is convenient to carry (see figure 8).
(2) When filled with a sample, the conventional construction site sample container device is stretched according to the size and length of the sample and is connected in end-to-end fashion to form a three-dimensional device (see fig. 9).
When the dimension turning nodes (4) of the sample container are not turned and the ends and the tails of the dimension turning nodes are not connected, the dimension turning nodes (4) of the sample container can be adjusted according to the content and the quantity of the samples sampled by the traditional building on site, the ends and the tails of the dimension turning nodes are connected after sampling is finished, and the dimension turning nodes of the traditional building on site are changed into a three-dimensional shape from a plane, so that the portable sampling device is mainly used. The outer wall (1) of the sample container is connected with the dimension turning node (4) of the sample container, and the outer wall can be adjusted through the height turning node (5) of the sample container according to the length of the sample, so that the effect of effective adjustment according to different samples is achieved.
One part of the outer wall (1) of the sample container is provided with three layers, the head layer can be turned over to the upper part of the sample container device to form the top of the container, the middle layer is used as the outer wall (1) of the sample container, and the bottom layer is turned down to be used as the back cover of the container. The sample container lifting head (3) is positioned at the uppermost end of the traditional building site sample container device, is sewn at the top of the sample container and mainly plays a role in lifting and pulling in the transportation process.
Claims (7)
1. A sample container device for traditional construction site sampling is characterized in that: comprises a sample container outer wall (1), a sample container turning shaft (2), a sample container lifting head (3), a sample container dimension turning node (4) and a sample container height turning node (5); the top of the outer wall (1) of the sample container is provided with a sample container lifting head (3), the outer wall (1) of the sample container is supported by a plurality of longitudinal and transverse sample container turning shafts (2) to form a sampling space, the dimension turning nodes (4) of the sample container are arranged at the connecting nodes of the longitudinal and transverse sample container turning shafts (2), and the height turning nodes (5) of the sample container are arranged on the sample container turning shafts (2).
2. A sample container apparatus for conventional construction site sampling according to claim 1 wherein: the dimension turning node (4) of the sample container comprises an outer wall cross shaft opener (6), an outer wall cross shaft elastic button (7), an outer wall cross shaft folding shaft (8), an outer wall cross shaft inner sleeve right handle (9), an outer wall cross shaft inner sleeve left handle (10), an inner wall cross shaft inner sleeve end gasket (11), a transverse distance telescopic rod piece inner sliding track (12), an outer wall cross shaft pipe (13), an outer wall cross shaft inner sleeve left handle end clamping port (14) and an outer wall cross shaft inner sleeve right handle end port interface (15); the outer wall cross shaft opener (6) is arranged at the upper part of the outer wall cross shaft elastic button (7), and the outer wall cross shaft opener (6) plays a role in opening a right handle (9) sleeved in the outer wall cross shaft and a left handle (10) sleeved in the outer wall cross shaft; the outer wall transverse shaft folding shaft (8) is arranged in the middle of the outer wall transverse shaft inner sleeve left handle (9) and the outer wall transverse shaft inner sleeve right handle (10), and the outer wall transverse shaft folding shaft (8) plays a role in fixing the outer wall transverse shaft elastic button (7); and starting an outer wall cross shaft elastic button (7), and separating the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) from the outer wall cross shaft tube (13) by pulling the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) outwards, wherein the end parts of the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) are respectively provided with an outer wall cross shaft inner sleeve left handle end clamping port (14) and an outer wall cross shaft inner sleeve right handle end-to-end port (15) for forming a head.
3. A sample container apparatus for conventional construction site sampling according to claim 2 wherein: the outer wall horizontal axis opener (6) comprises an outer wall horizontal axis opener movable track (16) and an outer wall horizontal axis opener pull wire (17); the outer wall cross shaft opener (6) is pulled up leftwards to form an outer wall cross shaft opener movable track (16), and the magnitude of the outward stretching distance of the outer wall cross shaft inner sleeve right handle (9) and the outer wall cross shaft inner sleeve left handle (10) is determined according to the outer wall cross shaft opener movable track (16); the outer wall transverse axis opener traction wire (17) is connected between the outer wall transverse axis opener (6) and the outer wall transverse axis tension button (7), and the outer wall transverse axis opener traction wire (17) plays a role in supporting and controlling the outer wall transverse axis opener (6).
4. A sample container apparatus for conventional construction site sampling according to claim 1 wherein: the internal structure of the outer wall (1) of the sample container comprises an inner container (18) of the outer wall of the container, a sample container placing bag (19), a contraction port (20) of the sample container placing bag and a longitudinal support rod piece (21); the container outer wall liner (18) is arranged on the inner side of the sample container outer wall (1), the container outer wall liner (18) is connected with the bottom of the sample container outer wall (1) through a zipper, the container outer wall liner (18) and the bottom of the sample container outer wall (1) are spliced into a whole, the inner hidden sample container outer wall (1) and the container outer wall liner (18) are released according to the actual requirement of collecting samples on site after the zipper is opened, and the requirements of different sample length sizes are met; the longitudinal supporting rod piece (21) plays a role in supporting the outer wall (1) of the sample container and the inner container (18) of the outer wall of the container; the sample container mounting bag (19) is arranged on the upper part of the inner container (18) on the outer wall of the container and plays a role in mounting a sample container, and the contraction port (20) of the sample container mounting bag is arranged on the upper part of the sample container mounting bag (19).
5. A sample container apparatus for conventional construction site sampling according to claim 4 wherein: the longitudinal support rod piece (21) comprises a telescopic rod bilateral opening key (22), an internal stretching rod piece (23) and a stretching length positioning buckle (24); the double-side opening key (22) of the telescopic rod is arranged in the middle of the sample container turning shaft (2) and plays a role in opening the internal stretching rod piece (23) to stretch; the stretching length positioning buckle (24) is arranged on the inner stretching rod piece (23), the stretching length positioning buckle (24) and the telescopic rod bilateral opening key (22) can be mutually occluded, and the effect of prolonging the total length of the longitudinal support rod piece (21) according to the requirement is achieved.
6. A sample container apparatus for conventional construction site sampling according to claim 4 wherein: a sample container (25) is placed in the sample container placing bag (19), and the sample container (25) comprises a sample container cover (26), a sample content marking card button (27), a sample container cover sealing layer (28), a container telescopic control (29), a second-layer sample container inner wall (30), a third-layer sample container inner wall (31) and a sample detail card (32); the sample content mark card button (27) is arranged on the sample container cover (26), can rotate for 180 degrees in the longitudinal direction, and plays a role in prompting, recording and collecting related information of a sample; the sample container cover sealing layer (28) is arranged at the lower part of the sample container cover (26) and plays a role in ensuring the tightness between the sample container cover (26) and the placed sample container (25) to be firmer; the container telescopic controls (29) are arranged at two sides of the upper part of the sample container (25) and used for opening or closing the interlayer container wall in the sample container (25) when being pressed; the three-layer sample container inner wall (31) is arranged inside the sample container (25), the two-layer sample container inner wall (30) is arranged in the middle of the three-layer sample container inner wall (31) and the sample container (25), so that the sample stretching effect is realized, and the sample is effectively placed inside the sample container; the sample detail card (32) is arranged at the front part of the sample container (25), and the sample detail card (32) is clamped in a clamping groove at the front part of the sample container (25) by a three-side clamping mode.
7. A conventional construction site sample sampling container apparatus according to claim 6, wherein: the sample container (25) comprises a sample container bottom (33), a sample container bottom expansion shaft (34) and a sample container bottom expansion Y-shaped supporting shaft (35); the sample container bottom expanding shaft (34) is arranged in the middle of the sample container bottom (33) and plays a role in compressing the width; the sample container bottom extension Y-shaped support shaft (35) folds by virtue of the provided compression path when the sample container bottom (33) is compressed.
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CN201910391150.2A CN110712825A (en) | 2019-05-11 | 2019-05-11 | Sample container device for sampling on traditional building site |
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CN201910391150.2A CN110712825A (en) | 2019-05-11 | 2019-05-11 | Sample container device for sampling on traditional building site |
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