阅读说明：本技术 一种环境监测现场采样用水样存储设备 (Water sample storage device for environmental monitoring field sampling ) 是由 刘雪伟 王静 王菲 于 2021-06-11 设计创作，主要内容包括：本发明公开了一种环境监测现场采样用水样存储设备,其结构包括放置机构、铰链、散热孔、卡合拉手,放置机构下端外侧安装有铰链,玻璃瓶的底部与旋转底座上的吸盘进行真空吸附,接着转动玻璃瓶,带动了卡合片在放置槽内部进行旋转,转动的过程中卡合片外侧与凸板进行抵触,这时卡合片往内侧进行移动,对玻璃瓶底部外侧进行紧密抵触,减少玻璃瓶在转移过程中底部发生的晃动,抵触机构对玻璃瓶身进行抵触,从而使得连动杆进行连动,使得抵触机构对玻璃瓶身进行紧密抵触,滑动杆在导向杆上进行平稳下降,这时扣合盖对玻璃瓶的瓶口进行扣合,提高玻璃瓶瓶口的密封性,气囊薄膜进行鼓起,从而对玻璃瓶身外侧进行缓冲抵触,防止玻璃瓶身破损。(The invention discloses a water sample storage device for environmental monitoring field sampling, which structurally comprises a placement mechanism, a hinge, a heat dissipation hole and a clamping handle, wherein the hinge is arranged at the outer side of the lower end of the placement mechanism, the bottom of a glass bottle is in vacuum adsorption with a sucking disc on a rotating base, then the glass bottle is rotated to drive a clamping sheet to rotate in a placement groove, the outer side of the clamping sheet is abutted against a convex plate in the rotating process, the clamping sheet moves towards the inner side to tightly abut against the outer side of the bottom of the glass bottle, the shaking of the bottom of the glass bottle in the transferring process is reduced, the glass bottle body is abutted by the abutting mechanism, so that an interlocking rod is linked, the glass bottle body is tightly abutted by the abutting mechanism, a sliding rod stably descends on a guide rod, and a buckling cover buckles the mouth of the glass bottle, so that the sealing performance of the mouth of the glass bottle is improved, the gasbag film is bloated to cushion the conflict outside the glass body, prevent that the glass body is damaged.)

1. The utility model provides an environmental monitoring field sampling water appearance storage facilities, its structure is including placement mechanism (1), hinge (2), louvre (3), block handle (4), hinge (2) are installed in placement mechanism (1) lower extreme outside, louvre (3) have been inlayed at placement mechanism (1) top to block handle (4), its characterized in that are installed at placement mechanism (1) top:

place mechanism (1) including placing base (11), baffle (12), case lid (13), protection machanism (14), it has baffle (12) to place base (11) inside middle-end fixed mounting, it installs hinge (2) with case lid (13) lower extreme junction to place base (11) outside end, case lid (13) inner wall is equipped with protection machanism (14).

2. The water sample storage device for environmental monitoring field sampling according to claim 1, characterized in that: the placing base (11) comprises a separating groove (111), a placing groove (112), a convex plate (113) and a rotating mechanism (114), the separating groove (111) is embedded inside the placing base (11), the placing groove (112) is installed inside the separating groove (111), the convex plate (113) is installed on the inner wall of the placing groove (112), and the rotating mechanism (114) is installed at the bottom of the inner side of the placing groove (112) in a clearance fit mode.

3. The water sample storage device for environmental monitoring field sampling according to claim 2, characterized in that: the rotating mechanism (114) comprises a rotating base (14 a), a sucker (14 b), a telescopic rod (14 c) and a clamping piece (14 d), the bottom of the rotating base (14 a) is installed at the inner side bottom of the placing groove (112) in a clearance fit mode, the sucker (14 b) is installed on the upper end face of the rotating base (14 a) in an embedded mode, one end of the telescopic rod (14 c) is installed on the outer end face of the rotating base (14 a), the other end of the telescopic rod (14 c) is fixed to the inner side end of the clamping piece (14 d), and the clamping piece (14 d) is located on the inner side of the placing groove (112).

4. The water sample storage device for environmental monitoring field sampling according to claim 1, characterized in that: the protection mechanism (14) comprises a spring rod (141), a sliding hinge block (142), a linkage rod (143) and a buckling mechanism (144), wherein the spring rod (141) is fixedly installed inside the box cover (13), the spring rod (141) penetrates through the sliding hinge block (142) in a clearance fit mode, the hinge block (142) is hinged to one end of the linkage rod (143), and the other end of the linkage rod (143) is hinged to the outer end face of the buckling mechanism (144).

5. The water sample storage device for environmental monitoring field sampling according to claim 4, wherein: buckling mechanism (144) are including conflict mechanism (44 a), guide bar (44 b), slide bar (44 c), buckle lid (44 d), conflict mechanism (44 a) outside terminal surface is articulated with trace (143) other end to conflict mechanism (44 a) inside middle-end is embedded to be installed guide bar (44 b), and guide bar (44 b) adopt clearance fit to run through inside slide bar (44 c) right-hand member, slide bar (44 c) left end fixed mounting has buckle lid (44 d).

6. The water sample storage device for environmental monitoring field sampling according to claim 5, wherein: the air bag collision mechanism (44 a) comprises a collision contact piece (a 1), an air pipe (a 2) and an air bag film (a 3), the outer end face of the collision contact piece (a 1) is hinged to the other end of the linkage rod (143), the air pipe (a 2) is installed inside the collision contact piece (a 1), the air pipe (a 2) is communicated with the air bag film (a 3), and the air bag film (a 3) is embedded in the inner end face of the collision contact piece (a 1).

Technical Field

The invention relates to the field of environmental monitoring, in particular to a water sample storage device for environmental monitoring field sampling.

Background

The on-site sampling water sample for environmental monitoring refers to the water body of taking under the environment such as river, lake, marsh, take the water body to detect thereby the quality of water to here is measured, measure the quality of water quality's quality of water, need use water sample storage equipment to deposit the water sample after the sampling, but because the water sample is generally deposited through transparent glass bottle, be convenient for the observation of water body, place transparent glass bottle inside the suitcase and deposit again, and glass bottle has breakable characteristic, directly place inside the suitcase and shift, the block ability between the inside and the glass bottle of suitcase is relatively weak, the suitcase is at the in-process that shifts, glass bottle takes place to rock easily inside the suitcase, collide with the inside emergence of suitcase, thereby lead to glass bottle to take place the breakage inside the suitcase, lead to the water body to lose.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this on-spot sampling water appearance storage device of environmental monitoring, its structure is including placement mechanism, hinge, louvre, block handle, the hinge is installed in the placement mechanism lower extreme outside, the louvre has been inlayed at the placement mechanism top to the block handle is installed at the placement mechanism top, placement mechanism is including placing base, baffle, case lid, protection machanism, place the inside middle-end fixed mounting of base and have the baffle, place the base outside end and install the hinge with case lid lower extreme junction, the case lid inner wall is equipped with protection machanism, the case lid is equipped with two altogether to it installs at placing base outside both ends to be bilateral symmetry, and be on every case lid equidistance and be equipped with three protection machanism.

As a further improvement of the invention, the placing base comprises a separation groove, a placing groove, a convex plate and six rotating mechanisms, wherein the separation groove is embedded in the placing base, the placing groove is arranged in the separation groove, the convex plate is arranged on the inner wall of the placing groove, the rotating mechanisms are arranged at the bottom of the inner side of the placing groove in a clearance fit manner, and the placing grooves are in a cavity circular structure and are provided with six.

As a further improvement of the invention, the rotating mechanism comprises a rotating base, a sucker, a telescopic rod and a clamping piece, wherein the bottom of the rotating base is arranged at the bottom of the inner side of the placing groove in a clearance fit manner, the sucker is fixedly embedded in the upper end face of the rotating base, one end of the telescopic rod is arranged at the end face of the outer side of the rotating base, the other end of the telescopic rod is fixed with the end of the inner side of the clamping piece, the clamping pieces are positioned at the inner side of the placing groove, the number of the suckers is five, the number of the telescopic rods and the number of the clamping pieces are respectively two, the telescopic rods and the clamping pieces are symmetrically arranged in a left-right manner, and the clamping pieces are in an arc-shaped structure.

As a further improvement of the invention, the protection mechanism comprises a spring rod, a sliding hinge block, two linkage rods and a buckling mechanism, wherein the spring rod is fixedly arranged in the box cover, the spring rod penetrates through the sliding hinge block in a clearance fit manner, the hinge block is hinged with one end of the linkage rod, the other end of the linkage rod is hinged with the end face of the outer side of the buckling mechanism, the sliding hinge block and the linkage rods are respectively provided with two linkage rods which are vertically symmetrical, and the two linkage rods form a character-shaped structure.

As a further improvement of the invention, the buckling mechanism comprises a collision mechanism, a guide rod, a sliding rod and a buckling cover, the end face of the outer side of the collision mechanism is hinged with the other end of the linkage rod, the guide rod is fixedly embedded in the middle end of the inside of the collision mechanism, the guide rod penetrates through the inside of the right end of the sliding rod in a clearance fit manner, the buckling cover is fixedly installed at the left end of the sliding rod, and the buckling cover is of a cavity semi-cylinder structure.

As a further improvement of the invention, the collision mechanism comprises a collision sheet, an air pipe and an air bag film, the end surface of the outer side of the collision sheet is hinged with the other end of the linkage rod, the air pipe is arranged in the collision sheet, the air pipe is communicated with the air bag film, the air bag film is embedded in the end surface of the inner side of the collision sheet, and the air bag film is of a cavity hemispheroid structure and is made of rubber material and has certain resilience.

The invention has the beneficial effects that:

1. the bottom of glass bottle and the sucking disc on the rotating base carry out vacuum adsorption, rotate the glass bottle after that, have driven the block piece and rotate inside the standing groove, and the pivoted in-process block piece outside is contradicted with the flange, and at this moment the block piece is removed toward the inboard, closely contradicts in the glass bottle bottom outside, reduces rocking that the bottom takes place in the transfer process of glass bottle.

2. Conflict mechanism contradicts the glass body to make the trace carry out the interlock, make conflict mechanism closely contradict to the glass body, the slide bar steadily descends on the guide bar, at this moment the lock lid carries out the lock to the bottleneck of glass bottle, improves the leakproofness of glass bottle bottleneck, and the gasbag film is bloated, thereby cushions the conflict to the glass body outside, prevents that the glass body is damaged.

Drawings

Fig. 1 is a schematic structural diagram of a water sample storage device for environmental monitoring field sampling according to the present invention.

FIG. 2 is a schematic top view of a deployment mechanism of the present invention.

FIG. 3 is a schematic view of a placement base and a partially enlarged structure according to the present invention.

Fig. 4 is a schematic structural diagram of a rotating mechanism according to the present invention in an operating state.

FIG. 5 is a schematic side view of a protection mechanism according to the present invention.

FIG. 6 is a schematic view of a fastening mechanism according to the present invention.

Fig. 7 is a schematic view of an internal structure of a collision mechanism according to the present invention.

In the figure: the device comprises a placing mechanism-1, a hinge-2, a heat dissipation hole-3, a clamping handle-4, a placing base-11, a partition-12, a box cover-13, a protection mechanism-14, a separation groove-111, a placing groove-112, a convex plate-113, a rotating mechanism-114, a rotating base-14 a, a suction cup-14 b, a telescopic rod-14 c, a clamping sheet-14 d, a spring rod-141, a sliding hinge block-142, a linkage rod-143, a buckling mechanism-144, a collision mechanism-44 a, a guide rod-44 b, a sliding rod-44 c, a buckling cover-44 d, a collision sheet-a 1, an air pipe-a 2 and an air bag film-a 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 4:

the invention relates to a water sample storage device for environmental monitoring field sampling, which structurally comprises a placement mechanism 1, a hinge 2, a heat dissipation hole 3 and a clamping handle 4, a hinge 2 is arranged at the outer side of the lower end of the placing mechanism 1, a heat dissipation hole 3 is embedded at the top of the placing mechanism 1, and the top of the placing mechanism 1 is provided with a clamping handle 4, the placing mechanism 1 comprises a placing base 11, a clapboard 12, a box cover 13 and a protection mechanism 14, a baffle plate 12 is fixedly arranged at the middle end in the placing base 11, a hinge 2 is arranged at the joint of the outer side end of the placing base 11 and the lower end of a box cover 13, a protective mechanism 14 is arranged on the inner wall of the box cover 13, two box covers 13 are arranged, and are symmetrically arranged at the two ends of the outer side of the placing base 11 in a left-right way, and three protective mechanisms 14 are arranged on each box cover 13 at equal intervals, can carry out effectual protection to placing six glass bottle outsides of placing on the base 11 simultaneously.

Wherein, it includes separating groove 111, standing groove 112, flange 113, rotary mechanism 114 to place base 11, separating groove 111 inlays inside placing base 11, separating groove 111 internally mounted has standing groove 112, flange 113 is installed to standing groove 112 inner wall, rotary mechanism 114 adopts clearance fit to install in standing groove 112 inboard bottom, standing groove 112 is the circular structure of cavity to be equipped with six, do benefit to and separate the placing to six glass bottles, avoid bumping between the glass bottle.

Wherein the rotating mechanism 114 comprises a rotating base 14a, a suction cup 14b, a telescopic rod 14c and an engaging piece 14d, the bottom of the rotating base 14a is arranged at the bottom of the inner side of the placing groove 112 by clearance fit, a suction cup 14b is fixedly installed on the upper end surface of the rotating base 14a, one end of the telescopic rod 14c is installed on the outer end surface of the rotating base 14a, the other end of the telescopic rod 14c is fixed with the inner side end of the clamping piece 14d, the clamping piece 14d is positioned at the inner side of the placing groove 112, the total number of the suction cups 14b is five, so that firm adsorption on the bottom of the glass bottle is facilitated, the shaking generated after the glass bottle is placed is reduced, the two telescopic rods 14c and the two clamping pieces 14d are arranged, the clamping pieces 14d are arranged symmetrically left and right, are of arc structures and are beneficial to abutting the outer side of the glass bottle, and therefore the outer side of the bottom of the glass bottle is clamped.

The specific use mode and function of the embodiment are as follows:

in the invention, the two box covers 13 are opened by disconnecting the clamping handle 4, then the glass bottles stored in the water body are placed in the placing groove 112, the glass bottles on the left and right sides are separated by the partition board 12, after the glass bottles are placed in the placing groove 112, the bottom of the glass bottle and the suction cup 14b on the rotating base 14a carry out vacuum absorption, so that the bottom surface of the glass bottle and the rotating base 14a are firmly installed, then the glass bottle is rotated, so that the telescopic rod 14c rotates to drive the engaging piece 14d to rotate in the placing groove 112, the outer side of the engaging piece 14d is abutted against the convex plate 113 during the rotation process, thereby, the telescopic rod 14c is contracted, and at this time, the engaging piece 14d is moved inward, closely contradict to the glass bottle bottom outside, improve the fastness of installing in standing groove 112 inside at the glass bottle bottom, reduce rocking that the bottom takes place in the transfer process of glass bottle.

Example 2:

as shown in fig. 5 to 7:

the protection mechanism 14 includes a spring rod 141, a sliding hinge block 142, a linkage rod 143, and a buckling mechanism 144, wherein the spring rod 141 is fixedly installed inside the box cover 13, and the spring rod 141 penetrates inside the sliding hinge block 142 in a clearance fit manner, the hinge block 142 is hinged to one end of the linkage rod 143, the other end of the linkage rod 143 is hinged to the outer end face of the buckling mechanism 144, two sliding hinge blocks 142 and two linkage rods 143 are provided and are vertically symmetrical, and the two linkage rods 143 form a V-shaped structure, so that the change of the angle offset between the two linkage rods 143 is facilitated, and the buckling mechanism 144 tightly collides the outer side of the glass bottle body.

The buckling mechanism 144 includes a contact mechanism 44a, a guide rod 44b, a sliding rod 44c, and a buckling cover 44d, the outer end face of the contact mechanism 44a is hinged to the other end of the linkage rod 143, the guide rod 44b is embedded and fixedly installed at the middle end inside the contact mechanism 44a, the guide rod 44b penetrates through the inside of the right end of the sliding rod 44c in a clearance fit manner, the buckling cover 44d is fixedly installed at the left end of the sliding rod 44c, and the buckling cover 44d is of a cavity semi-cylindrical structure, so as to be beneficial to buckling the bottle mouth of the glass bottle, improve the sealing performance of the glass bottle mouth, and avoid water sample leakage from the glass bottle mouth in the transferring process.

The collision mechanism 44a comprises a collision contact piece a1, an air tube a2 and an air bag film a3, the outer end face of the collision contact piece a1 is hinged to the other end of the linkage rod 143, an air tube a2 is installed inside the collision contact piece a1, the air tube a2 is communicated with the air bag film a3, the air bag film a3 is embedded in the inner end face of the collision contact piece a1, the air bag film a3 is of a cavity hemispheroid structure and is made of rubber, certain rebound resilience is achieved, buffering collision on the outer side of the glass bottle body is facilitated, collision and extrusion of the glass bottle body in the transfer process is weakened, and the glass bottle body is prevented from being damaged.

The specific use mode and function of the embodiment are as follows:

in the invention, after the glass bottle is placed, the box cover 13 is closed upwards, in the closing process, the glass bottle body is abutted through the abutting mechanism 44a, so that the interlocking rod 143 is interlocked, the sliding hinge block 142 is driven to slide on the spring rod 141, the spring rod 141 exerts elasticity, so that the abutting mechanism 44a tightly abuts against the glass bottle body, meanwhile, the sliding rod 44c stably descends on the guide rod 44b through the gravity sinking of the buckling cover 44d, at the moment, the buckling cover 44d buckles the bottle mouth of the glass bottle, the sealing performance of the glass bottle mouth is improved, water sample is prevented from leaking out of the glass bottle mouth in the transferring process, meanwhile, the air bag film a3 is bulged through the air pressure in the air pipe a2, so that the buffer abutting is carried out on the outer side of the glass bottle body, and the collision extrusion of the glass bottle body in the transferring process is weakened, prevent the glass bottle body from being damaged.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.