1. Electromechanical sensor's dampproofing transport case, its characterized in that: including dampproofing subassembly (1) and a plurality of transportation subassembly, a plurality of transportation subassembly all cup joints in proper order on dampproofing subassembly (1), and a plurality of transportation subassembly all includes protection piece (2) and a plurality of transportation piece (3), protection piece (2) are annular and a plurality of transportation piece (3) equidistant arrange in protection piece (2), it all is equipped with bolster (4) to correspond every transportation piece (3) in protection piece (2), dampproofing subassembly (1) is including dampproofing piece (11) and locating part (12), top and locating part (12) and dampproofing piece (11) of dampproofing piece (11) cooperate in locating part (12) are arranged in.

2. The moisture resistant shipping case for electromechanical sensors of claim 1, wherein: the protection piece (2) comprises a first protection block (21) and a second protection block (22), the first protection block (21) is positioned at the top of the second protection block (22), a first groove (23) for conveying the piece (3) to roll is arranged in the first protection block (21), a plurality of partition boards (24) which are arranged at equal angles are arranged in the first groove (23), a limiting groove (25) for placing the piece (3) to be conveyed is formed between every two adjacent partition boards (24), each partition board (24) is provided with an inserting hole (26), a second groove (27) for conveying the piece (3) to roll is arranged in the second protection block (22), a plurality of partition boards (271) which are arranged at equal angles are arranged in the second groove (27), and a limiting groove (272) for placing the piece (3) to be conveyed is formed between every two adjacent partition boards (271), each partition plate (271) is provided with an insertion block (273) matched with the insertion hole (26).

3. The moisture resistant shipping case for electromechanical sensors of claim 1, wherein: every bolster (4) all include four blotter (41) and four buffer block (42), place in restriction groove (272) and two blotter (41) are installed respectively on two adjacent division board (271) in two blotter (41), place in restriction groove (25) and two blotter (41) are installed respectively on two adjacent partition panel (24) in other two blotter (41), the tank bottom in restriction groove (272) is installed in two buffer block (42), install in the tank bottom of restriction groove (25) in other two buffer block (42).

4. The moisture resistant shipping case for electromechanical sensors of claim 3, wherein: all be equipped with the arc stress surface that supplies transport piece (3) striking on the lateral wall of blotter (41), all the thickness of buffer block (42) is from the one end that is close to transport piece (3) to keeping away from the other end of transport piece (3) and increases gradually.

5. The moisture resistant shipping case for electromechanical sensors of claim 1, wherein: transportation spare (3) include first hemispheroid (31) and second hemispheroid (32), constitute between first hemispheroid (31) and second hemispheroid (32) the cooperation of first hemispheroid (31) and second hemispheroid (32) joint and first hemispheroid (31) and second hemispheroid (32) and be used for placing electromechanical sensor's the chamber that holds, be equipped with reference column (311), adjusting screw (312) and tray (313) in first hemispheroid (31), be equipped with on reference column (311) and first hemispheroid (31) fixed connection and reference column (311) with adjusting screw (312) matched with screw hole, the one end and the tray (313) fixed connection of adjusting screw (312), the other end and the screw hole spiro union of adjusting screw (312), be equipped with the rubber pad on the tray (313) and be equipped with anti-skidding groove.

6. The moisture resistant shipping case for electromechanical sensors of claim 5, wherein: be equipped with conflict spring (321), conflict board (322) and three articulated slab (323) in second hemisphere (32), three articulated slab (323) along conflicting contact board (322) circumference equiangular setting and three articulated slab (323) can be dismantled install on conflicting contact board (322), the one end and the second hemisphere (32) fixed connection of conflict spring (321), the other end and the conflict board (322) fixed connection of conflicting spring (321), all be equipped with locking plate (324) and locking screw (325) in every articulated slab (323), locking plate (324) can be in the articulated slab (323) internal rotation that corresponds, locking screw (325) and the articulated slab (323) spiro union cooperation that corresponds and the one end and the conflict cooperation of locking screw (325).

7. The moisture resistant shipping case for electromechanical sensors of claim 1, wherein: dampproofing piece (11) includes base (111) and breather pipe (112), breather pipe (112) are installed and are equipped with heating fan (113) and guide fan (114) in top and breather pipe (112) of base (111), the output of heating fan (113) is equipped with heating coil, and the rear end of heating fan (113) is equipped with air filter, be equipped with air flue (115) that a plurality of and breather pipe (112) are linked together in base (111), all be equipped with branch way (116) on every air flue (115), air inlet (117) have all been seted up corresponding every restriction groove (272) and spacing groove (25) on breather pipe (112).

8. The moisture resistant shipping case for electromechanical sensors of claim 1, wherein: the limiting piece (12) comprises a limiting pressure plate (121) and a screwing handle (122), the screwing handle (122) is installed at the top of the limiting pressure plate (121) and the limiting pressure plate (121) is in threaded fit with the vent pipe (112), and the bottom of the limiting pressure plate (121) is attached to the top of the first protection block (21).

9. The moisture resistant shipping case for electromechanical sensors of claim 2, wherein: be equipped with the sealing washer on first protection piece (21) and second protection piece (22) correspond the sealing washer and are equipped with and dodge the groove, all be equipped with the gas outlet channel that is linked together with inlet port (117) on first protection piece (21) and second protection piece (22).

Background

The sensor is a detection device which can sense the measured information and convert the sensed information into an electric signal or other information in a required form according to a certain rule to output so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like.

The sensor is a detection device, can feel the information being measured, and can convert the information into an electric signal or other information output in a required form according to a certain rule, so as to meet the requirements of information transmission, processing, storage, display, recording and control, but the sensor is developed rapidly, is more and more common in life, and the production precision is improved, the sensor is easy to damage by impact during transportation, and when the sensor is in humid weather or raining in the transportation or placement process, the sensor is easy to cause short circuit of electrical components in a humid environment for a long time, so that a transportation box which can prevent the sensor from being impacted and can discharge humid air outwards is urgently needed.

Cite patent number CN108750385A a sensor with packing carton for transportation, including lower box plate, box plate top is provided with first damping spring down, first damping spring top is provided with the storing board, the storing board surface is provided with the matter storage lattice, storing board one side is provided with second damping spring, the storing board top is provided with the box plate, it is provided with the lug to go up box plate bottom, the lug bottom is provided with the rubber pad. According to the invention, the first damping spring and the second damping spring are arranged, so that the vibration of the sensor in the vertical direction and the horizontal direction in the transportation process is filtered, and the lug and the rubber pad are arranged, so that the lug and the rubber pad are abutted against the sensor in the storage lattice to avoid the damage of the sensor due to the vibration, and the product quality is further improved.

Although the device can weaken the vibration force of the sensor through the first damping spring and the second damping spring, the sensor has the following problem in transportation, and the sensor can be displaced when being vibrated, so that the sensor collides with other sensors, and both the sensors are damaged.

Disclosure of Invention

The embodiment of the invention provides a moisture-proof transport case of an electromechanical sensor, which comprises a moisture-proof assembly and a plurality of transport assemblies, wherein the transport assemblies are sequentially sleeved on the moisture-proof assembly, the transport assemblies respectively comprise a protection piece and a plurality of transport pieces, the protection piece is annular, the transport pieces are arranged in the protection piece at equal intervals, a buffer piece is arranged in the protection piece corresponding to each transport piece, the moisture-proof assembly comprises the moisture-proof piece and a limiting piece, the limiting piece is arranged at the top of the moisture-proof piece, and the limiting piece is matched with the moisture-proof piece.

Furthermore, the protection piece includes first protection piece and second protection piece, first protection piece is located second protection piece top, be equipped with in the first protection piece and supply the rolling first recess of transportation piece, be equipped with the partition panel that angle settings such as a plurality of in the first recess, constitute the spacing groove that is used for placing the transportation piece between per two adjacent partition panels, every all be equipped with the spliced eye on the partition panel, be equipped with the rolling second recess that supplies the transportation piece in the second protection piece, be equipped with the division board that angle settings such as a plurality of in the second recess, constitute the restriction groove that is used for placing the transportation piece between per two adjacent division boards, every all be equipped with the grafting piece with spliced eye matched with on the division board.

Further, every the bolster all includes four blotters and four buffer blocks, and two blotters are arranged in the restriction inslot and two blotters are installed respectively on two adjacent division boards, and two other blotters are arranged in the restriction inslot and two blotters are installed respectively on two adjacent division boards, and two buffer blocks are installed in the tank bottom of restriction groove, and two other buffer blocks are installed in the tank bottom of restriction groove.

Furthermore, all be equipped with the arc stress surface that supplies the transportation piece striking on the lateral wall of blotter, all the thickness of buffer block is from the one end that is close to the transportation piece to the other end of keeping away from the transportation piece crescent.

Further, the transportation piece includes first hemispheroid and second hemispheroid, first hemispheroid and second hemispheroid joint cooperation and constitute between first hemispheroid and the second hemispheroid and be used for placing electromechanical sensor's the chamber that holds, be equipped with reference column, adjusting screw and tray in the first hemispheroid, be equipped with on reference column and first hemispheroid fixed connection and the reference column with adjusting screw matched with screw hole, adjusting screw's one end and tray fixed connection, adjusting screw's the other end and screw hole spiro union, be equipped with the antiskid groove on rubber pad and the rubber pad on the tray.

Further, be equipped with conflict spring, touch panel and three articulated slab in the second hemisphere, the installation that angle setting such as angle setting and three articulated slab can be dismantled is followed along touch panel circumference in three articulated slab on touch panel, the one end and the second hemisphere fixed connection of conflict spring, the other end and the touch panel fixed connection of conflict spring all are equipped with locking plate and locking screw in every articulated slab, locking plate can be in the articulated slab internal rotation that corresponds, locking screw and the cooperation of conflicting with the articulated slab spiro union that corresponds and locking screw's one end and locking plate.

Further, dampproofing piece includes base and breather pipe, the breather pipe is installed and is equipped with heating fan and guide fan in the top of base and breather pipe, heating fan's output is equipped with heating coil, and heating fan's rear end is equipped with air filter, be equipped with the air flue that a plurality of and breather pipe are linked together in the base, all be equipped with a way on every air flue, the inlet port has all been seted up corresponding every restriction groove and spacing groove on the breather pipe.

Further, the locating part includes spacing pressure disk and revolves wrong handle, revolve wrong handle and install in the top of spacing pressure disk and breather pipe spiro union cooperation, the bottom and the laminating of first protection piece top of spacing pressure disk.

Furthermore, be equipped with the sealing washer on the first protection piece and the second protection piece corresponds the sealing washer and is equipped with and dodges the groove, all be equipped with the gas outlet channel that is linked together with the inlet port on first protection piece and the second protection piece.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

one of them, when needs transportation sensor, place a sensor in the intracavity that holds that first hemisphere and second hemisphere constitute after, place first hemisphere and second hemisphere in a spacing inslot of first protection piece afterwards with second protection piece and first protection piece grafting together, when transportation sensor receives jolting, when the vibrational force that jolts and produce transmits first hemisphere and second hemisphere through second protection piece and first protection piece on, receive the influence of vibrational force, first hemisphere and second hemisphere can roll or rotate at spacing inslot, in order to offset vibrational force, avoid the sensor to receive the influence of vibrational force to lead to the sensor impaired.

And secondly, when the first hemispheroid and the second hemispheroid which are influenced by the vibration force roll in the limiting groove, the four buffer blocks which are arranged can reduce the movement space of the first hemispheroid and the second hemispheroid in the corresponding limiting groove and the limiting groove so as to avoid the first hemispheroid and the second hemispheroid from being quickly impacted on the buffer pad by the influence of the vibration force to cause the sensor to be damaged.

And thirdly, stacking a plurality of transportation assemblies in sequence, placing the transportation assemblies on the base to be convenient for moving and storing, inserting the annular first protection block and the annular second protection block together, forming the first groove and the second groove into an annular cavity, and storing the plurality of first hemispheroids and the second hemispheroids in the first groove and the second groove in sequence.

Fourthly, when being in moist environment, heating coil and guide fan simultaneous working, guide fan will restrict the groove, spacing groove and the interior moist gas of breather pipe and outwards discharge through air flue and branch way, heating coil is used for making the gaseous drying in the breather pipe, heating fan work is gaseous through the inlet port after will drying and is carried in the gas outlet channel to keep every restriction groove and every spacing inslot all to be dry gas, avoid moist gas and electrical components contact on the sensor to lead to the short circuit.

Its five, when the sensor was placed on the tray, the conflict board can carry on spacingly through conflict spring to the sensor on the tray to avoid first hemisphere and second hemisphere sensor and first hemisphere and second hemisphere inside wall striking to lead to the sensor to damage when rolling, can drive adjusting screw through rotatory tray and screw in the reference column or screw out in order to deal with the sensor of co-altitude, improve the suitability.

Its six, when the less touch panel that supports of sensor is unable with the sensor contact, rotatory three articulated slab in proper order makes the articulated slab be vertical form, after will locking the board rotation in proper order and make locking board and tray bottom laminating, will support the touch panel to the sensor direction through rotating locking screw and remove until touch panel and tray with the spacing centre gripping of sensor.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of the moisture barrier assembly of the present invention;

FIG. 4 is a schematic perspective view of a second protection block according to the present invention;

FIG. 5 is a schematic perspective view of a first protection block according to the present invention;

FIG. 6 is a cross-sectional view of a transport element of the present invention;

FIG. 7 is a partial cross-sectional view of a transport element of the present invention;

fig. 8 is an enlarged view of the assembly of the locking plate and locking screw of the present invention.

In the drawings:

1. a moisture barrier component; 11. a moisture barrier; 111. a base; 112. a breather pipe; 113. a heating fan; 114. a guide fan; 115. an airway; 116. a branch road; 117. an air inlet; 12. a limiting member; 121. a limiting pressure plate; 122. screwing the handle; 2. a protective member; 21. a first protection block; 22. a second protection block; 23. a first groove; 24. a partition panel; 25. a limiting groove; 26. inserting holes; 27. a second groove; 271. a partition plate; 272. a limiting groove; 273. an insertion block; 3. a transport member; 31. a first hemisphere; 311. a positioning column; 312. adjusting the screw rod; 313. a tray; 32. a second hemisphere; 321. against the spring; 322. a touch plate; 323. a hinge plate; 324. a locking plate; 325. locking the screw rod; 4. a buffer member; 41. a cushion pad; 42. and a buffer block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

This embodiment, as shown in fig. 1 to 8, electromechanical sensor's dampproofing transport case, including dampproofing subassembly 1 and a plurality of transportation subassembly, a plurality of transportation subassembly all cup joints in proper order on dampproofing subassembly 1, and a plurality of transportation subassembly all includes protection piece 2 and a plurality of transportation piece 3, protection piece 2 is annular and a plurality of transportation piece 3 equidistant arrange in protection piece 2, it all is equipped with bolster 4 to correspond every transportation piece 3 in protection piece 2, dampproofing subassembly 1 includes dampproofing 11 and locating part 12, top and locating part 12 that dampproofing 11 was arranged in to locating part 12 cooperate with dampproofing 11.

Specifically, as shown in fig. 2, 4 and 5, the protection member 2 includes a first protection block 21 and a second protection block 22, the first protection block 21 is located on top of the second protection block 22, a first groove 23 for rolling the transportation member 3 is provided in the first protection block 21, a plurality of partition boards 24 arranged at equal angles are provided in the first groove 23, a limiting groove 25 for placing the transportation member 3 is formed between every two adjacent partition boards 24, each partition board 24 is provided with an insertion hole 26, a second groove 27 for rolling the transportation member 3 is provided in the second protection block 22, a plurality of partition boards 271 arranged at equal angles are provided in the second groove 27, a limiting groove 272 for placing the transportation member 3 is formed between every two adjacent partition boards 271, each partition board 271 is provided with an insertion block 273 matched with the insertion hole 26, when the first protection block 21 and the second protection block are inserted together, first recess 23 and second recess 27 constitute and supply the thing chamber of putting that a plurality of transportation piece 3 placed, through partition plate 24 and cut-off plate with first recess 23 and the even segmentation of second recess 27 in order to place a plurality of transportation pieces 3, all scribble the quick lime in every restriction groove 272 and every spacing groove 25 for the operation is done in the dampproofing.

Specifically, as shown in fig. 2, 4 and 5, each of the buffer members 4 includes four buffer pads 41 and four buffer blocks 42, two buffer pads 41 are disposed in the limiting groove 272 and two buffer pads 41 are respectively mounted on two adjacent partition plates 271, another two buffer pads 41 are disposed in the limiting groove 25 and two buffer pads 41 are respectively mounted on two adjacent partition plates 24, two buffer blocks 42 are mounted at the bottom of the limiting groove 272, another two buffer blocks 42 are mounted at the bottom of the limiting groove 25, the four buffer pads 41 are configured to prevent the transportation piece 3 from directly impacting the partition plate 24 or the partition plates, the four buffer blocks 42 are configured to reduce the movement space of the transportation piece 3 in the corresponding limiting groove 25 and the limiting groove 272, and the four buffer blocks 42 can limit the transportation piece 3 when the transportation piece 3 rolls.

Specifically, as shown in fig. 4 and 5, all be equipped with the arc stress surface that supplies transportation piece 3 to strike on the lateral wall of blotter 41, all the thickness of blotter 42 is from the one end that is close to transportation piece 3 to the other end that keeps away from transportation piece 3 crescent, and the blotter 41 of setting is used for avoiding transportation piece 3 directly to strike on partition plate 24 or the partition plate, leads to the too big impact force that transportation piece 3 received to make the sensor damage, and four blotters 42 of setting can reduce transportation piece 3 and move the space in corresponding spacing groove 25 and restriction groove 272 to avoid transportation piece 3 to strike on blotter 41 fast and lead to the sensor to damage by the influence of vibrational force.

In particular, as shown in fig. 6 and 7, the transport element 3 comprises a first hemisphere 31 and a second hemisphere 32, the first hemisphere 31 and the second hemisphere 32 are in clamping fit, and an accommodating cavity for placing the electromechanical sensor is formed between the first hemisphere 31 and the second hemisphere 32, a positioning column 311, an adjusting screw 312 and a tray 313 are arranged in the first hemisphere 31, the positioning column 311 is fixedly connected with the first hemisphere 31, a threaded hole matched with the adjusting screw 312 is arranged on the positioning column 311, one end of the adjusting screw 312 is fixedly connected with the tray 313, the other end of the adjusting screw 312 is screwed with the threaded hole, the tray 313 is provided with a rubber pad which is provided with an anti-skid groove, the rotary tray 313 can drive the adjusting screw 312 to screw in or screw out in the positioning column 311 to correspond to sensors with different heights, so that the applicability is improved.

Specifically, as shown in fig. 6, 7 and 8, a contact spring 321, a contact plate 322 and three hinge plates 323 are arranged in the second hemisphere 32, the three hinge plates 323 are arranged at equal angles along the circumferential direction of the contact plate 322, the three hinge plates 323 are detachably mounted on the contact plate 322, one end of the contact spring 321 is fixedly connected with the second hemisphere 32, the other end of the contact spring 321 is fixedly connected with the contact plate 322, a locking plate 324 and a locking screw 325 are arranged in each hinge plate 323, the locking plate 324 can rotate in the corresponding hinge plate 323, the locking screw 325 is in threaded fit with the corresponding hinge plate 323, one end of the locking screw 325 is in contact fit with the locking plate 324, when the contact plate 322 cannot be in contact with the sensor, the three hinge plates 323 are sequentially rotated to make the hinge plates 323 upright, and then the locking plate 324 is sequentially rotated to make the locking plate 324 fit with the bottom of the tray 313, move to the sensor direction and reach the spacing centre gripping of touch panel 322 and tray 313 sensor through rotating locking screw 325, when the sensor is great, with three articulated slab 323 follow the back of taking off from touch panel 322, the joint is at the rear end of touch panel 322, avoids articulated slab 323 to lead to the sensor to damage with the sensor contact.

Specifically, as shown in fig. 2 and 3, the moisture proof member 11 includes a base 111 and a vent pipe 112, the vent pipe 112 is installed on the top of the base 111, a heating fan 113 and a guiding fan 114 are disposed in the vent pipe 112, a heating coil is disposed at an output end of the heating fan 113, an air filter is disposed at a rear end of the heating fan 113, a plurality of air passages 115 communicated with the vent pipe 112 are disposed in the base 111, a branch passage 116 is disposed on each air passage 115, an air inlet hole 117 is disposed on the vent pipe 112 corresponding to each limiting groove 272 and each limiting groove 25, the branch passage 116 is disposed to prevent rainwater from directly entering the air passages 115 or remaining in the air passages 115 and being unable to be removed in time, which causes the interior of the vent pipe 112 to be humid, when the moisture proof member is in a humid environment, the heating coil and the guiding fan 114 work at the same time, the guiding fan 114 discharges the humid air in the limiting grooves 272, the limiting grooves 25 and the vent pipe 112 through the air passages 115 and the branch passage 116, the heating coil is used for drying the gas in the vent pipe 112, and the heating fan 113 works to convey the dried gas into the gas outlet channel through the gas inlet hole 117, so that the dry gas is kept in each limiting groove 272 and each limiting groove 25, and the short circuit caused by the contact of the wet gas and the electrical elements on the sensor is avoided.

Specifically, as shown in fig. 2 and 3, the limiting member 12 includes a limiting pressure plate 121 and a screwing handle 122, the screwing handle 122 is installed at the top of the limiting pressure plate 121, the limiting pressure plate 121 is in threaded fit with the vent pipe 112, the bottom of the limiting pressure plate 121 is attached to the top of the first protection block 21, the screwing handle 122 is rotated to rotate the limiting pressure plate 121, the rotating limiting pressure plate 121 can be installed on the vent pipe 112, and after the limiting pressure plate 121 is attached to the uppermost first protection block 21, pressure can be applied to the first protection blocks 21 and the second protection blocks 22, so that the first protection blocks 21 and the second protection blocks 22 are attached to each other.

Specifically, as shown in fig. 2 and 3, be equipped with the sealing washer on the first protection piece 21 and the second protection piece 22 corresponds the sealing washer and is equipped with and dodge the groove, all be equipped with the gas outlet channel that is linked together with inlet port 117 on first protection piece 21 and the second protection piece 22, the sealing washer of setting is used for preventing that water from getting into in first recess 23 and the second recess 27 between first protection piece 21 and the second protection piece 22 to the sealing washer can increase waterproof nature, the gas outlet channel of setting can be when guide fan 114 during operation, outwards guide the gas in first recess 23 and the second recess 27, avoid moist gas and sensor long-time contact in first recess 23 and the second recess 27, lead to the sensor to damage.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.