CN217277039U - Sampling device for environmental detection - Google Patents

Abstract

The utility model provides a sampling device for environmental detection relates to environmental detection sampling device technical field. A sampling device for environmental detection comprises a box body, wherein a sampling storage seat is arranged in the box body, a plurality of placing grooves which are uniformly distributed in an array are formed in the top surface of the sampling storage seat, a cavity is formed in the bottom end of the box body, a movable groove is formed in one side of the box body and is communicated with the cavity, a rotating mechanism is accommodated in the cavity, a driving mechanism is installed at the driving end of the rotating mechanism, and a lifting mechanism is arranged at the intersection of the sampling storage seat and the rotating mechanism; when the driving mechanism is driven, the lifting mechanism drives the sampling storage seat to perform reciprocating motion in the vertical direction in the box body through the rotating mechanism, and the sampling storage seat is used for storing and taking samples. The utility model provides a pair of sampling device for environmental detection has can be accurate take or deposit corresponding sample, makes it improve the advantage of the convenience of sampling device when using.

Description

Sampling device for environmental detection

Technical Field

The utility model relates to an environmental detection sampling device technical field especially relates to a sampling device for environmental detection.

Background

In recent years, with the rapid development of economy in China, the living standard of people is gradually improved, but meanwhile, production and life of people also bring certain negative effects to the environment depending on survival, and the water quality problem is one of the key points. Along with the improvement of attention of people to water quality problems, research on water quality detection is deepened step by step, water quality sample collection work is the basis of water quality problem research, and scientificity, representativeness and normalization of sample collection are of great importance.

But current sampling device still has some drawbacks when using, and when the staff when depositing the sample, because in order to ensure the safety of sample, the sample that generally places the sample is deposited the seat and all can fixed mounting at the interior bottom of box, and this makes later stage staff have the not relative problem of standing groove and sample when depositing corresponding sample easily.

Therefore, there is a need to provide a new environment detection sampling device to solve the above-mentioned technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a sampling device for environmental detection.

The utility model provides a sampling device for environmental monitoring, which comprises a box body, wherein a sampling storage seat is arranged inside the box body, a plurality of placing grooves with uniformly distributed arrays are arranged on the top surface of the sampling storage seat, a cavity is formed inside the bottom end of the box body, a movable groove is formed inside one side of the box body, the movable groove is communicated with the cavity, a rotating mechanism is accommodated inside the cavity, a driving mechanism is installed at the driving end of the rotating mechanism, and a lifting mechanism is arranged at the intersection of the sampling storage seat and the rotating mechanism; when the driving mechanism is driven, the lifting mechanism drives the sampling storage seat to perform reciprocating motion in the vertical direction in the box body through the rotating mechanism, and the sampling storage seat is used for storing and taking samples.

Preferably, the driving mechanism comprises a forward and reverse rotating motor installed on the outer wall of one side of the box body through a damping seat, a driving end of the forward and reverse rotating motor is rotatably connected with a rotating shaft, and one end, far away from the forward and reverse rotating motor, of the rotating shaft rotates and extends to the inside of the cavity.

Preferably, the rotating mechanism comprises a first bevel gear fixedly sleeved on the outer wall of the tail end of the rotating shaft, the first bevel gear is positioned in the cavity, and one side of the first bevel gear is connected with a second bevel gear in a meshing manner.

Preferably, the lifting mechanism comprises a screw fixedly arranged on the inner surface of the second bevel gear in a penetrating mode, one end, far away from the second bevel gear, of the screw extends to the inside of the movable groove and is connected with the inner top wall bearing of the movable groove at the top end, and a ball nut is sleeved on the outer surface of the screw in a threaded mode.

Preferably, the lifting mechanism further comprises a limiting sliding groove arranged on the inner wall of one side of the sampling storage seat, and the limiting sliding groove is communicated with the movable groove.

Preferably, the inside of the limiting sliding groove is provided with a limiting sliding rod in a sliding manner, one end of the limiting sliding rod, which is positioned in the movable groove, is fixed to the surface of one side of the ball nut, and the other end of the limiting sliding rod, which is positioned in the box body, is fixed to the surface of one side of the sampling storage seat.

Preferably, the inner walls of the two sides of the placing groove are provided with built-in grooves, and the clamping blocks are installed inside the built-in grooves through clamping mechanisms.

Preferably, the clamping mechanism comprises fixed cylinders symmetrically fixed on the inner wall of the built-in groove, a clamping spring is fixed inside the fixed cylinder, a connecting rod is fixed at one end, far away from the fixed cylinder, of the clamping spring, and one end, far away from the clamping spring, of the connecting rod is fixed with one side surface, close to the built-in groove, of the clamping block.

Compared with the prior art, the utility model provides a pair of sampling device for environmental detection has following beneficial effect:

the utility model provides a sampling device for environment detection,

1. through the arranged forward and reverse rotating motor, the rotation of the rotating shaft can be driven, so that a first bevel gear arranged on the outer wall at the tail end of the rotating shaft can synchronously rotate along with the rotation of the rotating shaft, at the moment, a second bevel gear meshed on one side of the first bevel gear also rotates along with the first bevel gear, a screw rod arranged in the inner wall of the second bevel gear rotates along with the rotation of the second bevel gear, a ball nut in threaded sleeve joint on the outer wall of the screw rod can move back and forth in the vertical direction on the outer wall of the screw rod along with the rotation of the screw rod, and a sampling storage seat connected with a limiting slide rod can synchronously move in the same side direction in a box body along with the movement of the ball nut; when the staff need take or deposit the sample, deposit the seat with the sample and carry out vertical ascending removal through ball nut, deposit the seat and remove to suitable position until depositing the sample, deposit the seat with the sample again and carry out vertical decurrent removal through ball nut after the completion, until deposit the inside that the seat removed to the box completely with the sample, realized then can be accurate take or deposit corresponding sample, made it to improve the convenience of sampling device when using.

2. Through the clamping mechanism who has elastic force who sets up for the sample is when putting into to the standing groove, and two grip blocks of bilateral symmetry can tightly centre gripping the sample between two grip blocks, has improved the stability when sampling device deposits the sample then, thereby has ensured the accurate nature of later to sample test result.

Drawings

Fig. 1 is a schematic structural diagram of a sampling device for environmental detection according to a preferred embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the tank shown in FIG. 1;

FIG. 3 is a schematic view of the sampling seat shown in FIG. 1;

fig. 4 is an enlarged schematic view of a shown in fig. 3.

Reference numbers in the figures: 1. a box body; 2. a sampling storage seat; 3. a placement groove; 4. a drive mechanism; 41. a forward and reverse rotation motor; 42. a rotating shaft; 5. a clamping block; 6. a cavity; 7. a rotating mechanism; 71. a first bevel gear; 72. a second bevel gear; 8. a lifting mechanism; 81. a limiting slide bar; 82. a limiting chute; 83. a screw; 84. a ball nut; 9. a built-in groove; 10. a clamping mechanism; 101. a fixed cylinder; 102. a clamping spring; 103. a connecting rod; 11. a movable groove.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to fig. 1 to 4, a sampling device for environmental testing includes a box 1, and a sampling storage seat 2 is disposed inside the box 1. The top surface of the sampling storage seat 2 is provided with a plurality of placing grooves 3 uniformly distributed in array. A cavity 6 is formed in the bottom end of the box body 1, a movable groove 11 is formed in one side of the box body 1, and the movable groove 11 is communicated with the cavity 6. A rotating mechanism 7 is accommodated in the cavity 6, a driving mechanism 4 is installed at the driving end of the rotating mechanism 7, and a lifting mechanism 8 is arranged at the intersection of the sampling storage seat 2 and the rotating mechanism 7. When the driving mechanism 4 is driven, the lifting mechanism 8 drives the sampling storage seat 2 to perform reciprocating motion in the vertical direction in the box body 1 through the rotating mechanism 7, and the sampling storage seat is used for storing and taking samples.

In a specific implementation process, as shown in fig. 3, built-in grooves 9 are formed in inner walls of two sides of the placing groove 3, and the clamping blocks 5 are installed inside the built-in grooves 9 through clamping mechanisms 10.

When using, through the grip block 5 that sets up, when the sample is putting into to standing groove 3 in, bilateral symmetry's two grip blocks 5 can be through clamping mechanism 10's elastic force with the sample tightly centre gripping between two grip blocks 5, improved the stability when sampling device deposits the sample then to guaranteed later accurate nature to the sample testing result.

Referring to fig. 4, the clamping mechanism 10 includes a fixed cylinder 101 symmetrically fixed to the inner wall of the built-in slot 9. A clamping spring 102 is fixed inside the fixed cylinder 101, and a connecting rod 103 is fixed at one end of the clamping spring 102 far away from the fixed cylinder 101. One end of the connecting rod 103 far away from the clamping spring 102 is fixed with one side surface of the clamping block 5 close to the built-in groove 9.

When the sample clamping device is used, when a sample enters the placing groove 3 through the curved surface at the top end of the clamping block 5, the connecting rod 103 is extruded, and the clamping spring 102 can be elastically deformed. Due to the resilience acting force of the clamping spring 102, the clamping spring can rebound after being pressed, so that the connecting rod 103 can be pressed in the opposite direction, and a sample can be stably clamped between the two clamping blocks 5.

Referring to fig. 2, the driving mechanism 4 includes a forward and reverse rotation motor 41, and the forward and reverse rotation motor 41 is mounted on an outer wall of one side of the box 1 through a damper.

When the cooling box is used, the forward and reverse rotation motor 41 is installed on the side wall of the box body 1 through the shock absorption seat, so that the forward and reverse rotation motor 41 in the operation process can be damped and supported, and meanwhile, the forward and reverse rotation motor 41 in the operation process is convenient to perform better heat dissipation and cooling.

Referring to fig. 2, a rotation shaft 42 is rotatably connected to the driving end of the forward/reverse rotation motor 41, and one end of the rotation shaft 42, which is far away from the forward/reverse rotation motor 41, rotatably extends into the cavity 6.

In use, the driving of the forward and reverse rotation motor 41 enables the rotation shaft 42 mounted on the driving end thereof to rotate both clockwise and counterclockwise, so as to prepare for the subsequent rotation of the rotating mechanism 7.

Referring to fig. 2, the rotating mechanism 7 includes a first bevel gear 71 fixedly sleeved on an outer wall of the end of the rotating shaft 42, and the first bevel gear 71 is located inside the cavity 6.

In use, the first bevel gear 71 mounted on the outer wall of the end of the rotating shaft 42 can rotate synchronously in the same direction with the rotation of the rotating shaft 42 by the rotation of the rotating shaft 42, so that preparation can be made for the subsequent rotation of the second bevel gear 72.

Referring to fig. 2, a second bevel gear 72 is engaged with one side of the first bevel gear 71, and the second bevel gear 72 is located inside the cavity 6.

In use, the second bevel gear 72 engaged on one side of the first bevel gear 71 can convert the longitudinal rotation of the first bevel gear 71 into the transverse rotation by the rotation of the first bevel gear 71, so that preparation can be made for the rotation of the lifting mechanism 8 to be carried out later.

Referring to fig. 2, the lifting mechanism 8 includes a screw 83 fixedly inserted through the inner surface of the second bevel gear 72, one end of the screw 83 away from the second bevel gear 72 extends into the interior of the movable slot 11 and is connected with the inner top wall bearing of the movable slot 11 at the top end, and a ball nut 84 is threadedly sleeved on the outer surface of the screw 83.

When the sampling storage seat is used, the screw 83 installed in the inner wall of the second bevel gear 72 rotates along with the rotation of the second bevel gear 72 through the rotation of the second bevel gear 72, and the ball nut 84 screwed on the outer wall of the screw 83 moves vertically upwards on the outer wall of the screw 83 along with the rotation of the screw 83, so that preparation can be made for driving the sampling storage seat 2 to move in the box body 1.

Referring to fig. 2, the lifting mechanism 8 further includes a limiting sliding groove 82 provided on the inner wall of one side of the sampling storage seat 2, the limiting sliding groove 82 is communicated with the movable groove 11, a limiting sliding rod 81 is slidably provided inside the limiting sliding groove 82, one end of the limiting sliding rod 81 inside the movable groove 11 is fixed to one side surface of the ball nut 84, and one end of the limiting sliding rod 81 inside the box body 1 is fixed to one side surface of the sampling storage seat 2.

When the sampling storage seat is used, the sampling storage seat 2 arranged inside the box body 1 can be driven to synchronously move in the same side direction through the thread rotation between the screw 83 and the ball nut 84, so that the storage and taking of samples can be prepared for workers who are convenient to use later.

The utility model provides a pair of sampling device for environmental detection's theory of operation as follows:

when a sample needs to be taken or stored, the forward and reverse rotation motor 41 is first activated, so that the rotation shaft 42 can rotate clockwise. The first bevel gear 71 installed on the outer wall of the tail end of the rotating shaft 42 can synchronously rotate along with the rotation of the rotating shaft 42, at this time, the second bevel gear 72 meshed on one side of the first bevel gear 71 also rotates along with the rotation of the second bevel gear 72, so that the screw 83 installed in the inner wall of the second bevel gear 72 can rotate along with the rotation of the second bevel gear 72, the ball nut 84 in threaded connection with the outer wall of the screw 83 can vertically move upwards on the outer wall of the screw 83 along with the rotation of the screw 83, and the sampling storage seat 2 connected with the limiting slide rod 81 can synchronously move in the same-side direction in the box body 1 along with the movement of the ball nut 84 until the sampling storage seat 2 is moved to a proper position. After accomplishing to take or deposit, carry out anticlockwise rotation with axis of rotation 42 again for at this moment the sample is deposited seat 2 and will be carried out vertical decurrent removal through ball nut 84, until depositing seat 2 with the sample and remove the inside to box 1 completely, has realized then that can be accurate take or deposit corresponding sample, makes it to have improved the convenience of sampling device when using.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (8)

1. The sampling device for the environmental detection is characterized by comprising a box body (1), wherein a sampling storage seat (2) is arranged inside the box body (1), a plurality of placing grooves (3) which are uniformly distributed in an array are formed in the top surface of the sampling storage seat (2), a cavity (6) is formed inside the bottom end of the box body (1), a movable groove (11) is formed inside one side of the box body (1), the movable groove (11) is communicated with the cavity (6), a rotating mechanism (7) is accommodated inside the cavity (6), a driving mechanism (4) is installed at the driving end of the rotating mechanism (7), and a lifting mechanism (8) is arranged at the intersection of the sampling storage seat (2) and the rotating mechanism (7); when the driving mechanism (4) is driven, the lifting mechanism (8) drives the sampling storage seat (2) to perform reciprocating motion in the vertical direction in the box body (1) through the rotating mechanism (7) for storing and taking samples.

2. The sampling device for environment detection according to claim 1, wherein the driving mechanism (4) comprises a forward and reverse rotation motor (41) mounted on the outer wall of one side of the box body (1) through a shock absorption seat, the driving end of the forward and reverse rotation motor (41) is rotatably connected with a rotating shaft (42), and one end of the rotating shaft (42) far away from the forward and reverse rotation motor (41) is rotatably extended into the cavity (6).

3. The sampling device for environment detection as recited in claim 1, wherein the rotating mechanism (7) comprises a first bevel gear (71) fixedly sleeved on the outer wall of the tail end of the rotating shaft (42), the first bevel gear (71) is arranged inside the cavity (6), and a second bevel gear (72) is engaged and connected to one side of the first bevel gear (71).

4. The sampling device for environment detection according to claim 1, wherein the lifting mechanism (8) comprises a screw rod (83) fixedly arranged on the inner surface of the second bevel gear (72), one end of the screw rod (83) far away from the second bevel gear (72) extends to the inside of the movable groove (11) and is connected with an inner top wall bearing of the movable groove (11) at the top end, and a ball nut (84) is sleeved on the outer surface of the screw rod (83) in a threaded manner.

5. The environment detection sampling device according to claim 1, 2, 3 or 4, wherein the lifting mechanism (8) further comprises a limiting sliding groove (82) arranged on the inner wall of one side of the sampling storage seat (2), and the limiting sliding groove (82) is communicated with the movable groove (11).

6. The sampling device for environmental monitoring as recited in claim 5, wherein a limiting slide bar (81) is slidably disposed inside the limiting slide groove (82), one end of the limiting slide bar (81) inside the movable groove (11) is fixed to one side surface of the ball nut (84), and one end of the limiting slide bar inside the box body (1) is fixed to one side surface of the sampling storage seat (2).

7. The sampling device for environment detection as recited in claim 1, 2, 3 or 4, wherein the inner walls of the two sides of the placement groove (3) are both provided with built-in grooves (9), and the clamping blocks (5) are mounted in the built-in grooves (9) through clamping mechanisms (10).

8. The sampling device for environment detection as recited in claim 7, wherein the clamping mechanism (10) comprises a fixed cylinder (101) symmetrically fixed on the inner wall of the built-in groove (9), a clamping spring (102) is fixed inside the fixed cylinder (101), a connecting rod (103) is fixed at one end of the clamping spring (102) far away from the fixed cylinder (101), and one end of the connecting rod (103) far away from the clamping spring (102) is fixed on one side surface of the clamping block (5) close to the built-in groove (9).

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