CN219675579U

CN219675579U - Sampler for sewage detection

Info

Publication number: CN219675579U
Application number: CN202321157298.8U
Authority: CN
Inventors: 杨君谦; 杨宇; 王旭; 尹昌松
Original assignee: Sichuan China Capital Times Technology Co ltd
Current assignee: Sichuan China Capital Times Technology Co ltd
Priority date: 2023-05-15
Filing date: 2023-05-15
Publication date: 2023-09-12
Anticipated expiration: 2033-05-15

Abstract

A sampler for sewage detection, comprising: support frame, sampling assembly. The support frame comprises two arc-shaped sections which are symmetrically arranged, and a support rod is arranged on each arc-shaped section; the sampling assembly comprises a cross rod, wherein the two ends of the cross rod are respectively arranged on the arc section in a sliding mode, the cross rod is always kept in a horizontal state, a first sampling tube moving along the vertical direction is arranged at the center of the cross rod, second sampling tubes moving in opposite directions are arranged on two sides of the first sampling tube, and the second sampling tubes and the first sampling tubes synchronously move up and down and are used for sampling in sewage. The side of horizontal pole center department is equipped with spacing frame, and the cooperation has the lifter plate in the spacing frame, and the lifter plate both sides are equipped with tooth portion, and tooth portion and gear cooperation, gear sleeve are located on the transmission shaft, and the transmission shaft wears to locate on the horizontal pole to connect rotating electrical machines, rotating electrical machines installs on the horizontal pole, and first sampling tube detachably installs in the lower extreme of lifter plate. Can sample the sewage of different degree of depth, different positions voluntarily, avoid the staff to receive the pollution of sewage when improving sampling efficiency.

Description

Sampler for sewage detection

Technical Field

The utility model relates to the technical field of sewage detection, in particular to a sampler for sewage detection.

Background

With the improvement of environmental awareness, people pay more and more attention to monitoring and treatment of pollutants, so that sustainable utilization of water resources is realized. The sewage detection equipment can help to monitor the position, the type and the pollutant content of a pollution source, provides powerful support for environmental protection, acquires information such as the type and the pollutant degree of the pollutant through the sewage detection equipment, can take corresponding control measures, controls the generation and the emission of the pollutant at the source, and achieves the aim of reducing the pollution. In order to ensure the accuracy of sewage detection, the sewage needs to be sampled at different depths and different positions, and in the prior art, a manual mode is generally adopted for sampling, the sewage needs to be held by a hand during sampling, clothes are extremely easy to dirty, viruses in the sewage can be infected even, the sewage needs to be sampled for multiple times, the process is very complicated, the sewage at different depths and different positions is inconvenient to sample, and the detection result can be deviated.

Disclosure of Invention

Aiming at the defects of the related prior art, the utility model provides the sampler for sewage detection, which can automatically sample sewage with different depths and different positions, can improve the sampling efficiency, and can prevent workers from being polluted by the sewage, and has strong practicability.

In order to achieve the above object, the present utility model adopts the following technique:

a sampler for sewage detection, comprising: support frame, sampling assembly.

The support frame comprises two arc-shaped sections which are symmetrically arranged, the upper ends of the two arc-shaped sections are connected through a connecting rod, and the arc-shaped sections are also provided with support rods which are rotationally connected with the arc-shaped sections; the sampling assembly comprises a cross rod, wherein the two ends of the cross rod are respectively arranged on the arc section in a sliding mode, the cross rod is always kept in a horizontal state, a first sampling tube moving along the vertical direction is arranged at the center of the cross rod, second sampling tubes moving in opposite directions are arranged on two sides of the first sampling tube, and the second sampling tubes and the first sampling tubes synchronously move up and down and are used for sampling in sewage.

Further, the inside cavity of arc section sets up, and is equipped with curved guide bar, and the horizontal pole cover is located on the guide bar, and the bolt is worn to be equipped with in horizontal pole both ends side for lock horizontal pole and guide bar, arc section both sides still are equipped with the arc wall that runs through, are used for passing the bolt.

Further, the side of horizontal pole center department is equipped with spacing frame, and the cooperation has the lifter plate in the spacing frame, and the lifter plate both sides are equipped with tooth portion, tooth portion and gear cooperation, gear sleeve are located on the transmission shaft, and the transmission shaft wears to locate on the horizontal pole to connect rotating electrical machines, rotating electrical machines installs on the horizontal pole, and first sampling tube detachably installs in the lower extreme of lifter plate.

Further, be equipped with along its length direction on the horizontal pole and hold the chamber, be equipped with the lead screw in holding the chamber, driving motor is connected to lead screw one end, driving motor installs on the horizontal pole, and the screw thread of lead screw divide into two sections, and the opposite to of the spiral direction of two sections screw threads, all overlaps on the two sections screw threads of lead screw and is equipped with the movable block, wears to be equipped with the montant of vertical removal on the movable block, and second sampling tube detachably installs in the lower extreme of montant.

Further, two clamping plates which are vertically arranged are arranged on the vertical rods and the lifting plate, clamping grooves are formed in the clamping plates, the first sampling tube and the second sampling tube are respectively matched in the clamping grooves, two convex rings are arranged on the side faces of the first sampling tube and the second sampling tube, and the convex rings are arranged between the two clamping plates and are abutted to the surfaces of the clamping plates.

Further, both sides at the upper end and the lower end of the lifting plate are respectively provided with a supporting rod, the supporting rods positioned below penetrate through the vertical rods, the supporting rods positioned above are provided with sliding grooves along the length square of the supporting rods, and the upper ends of the vertical rods are in sliding fit in the sliding grooves.

Further, the upper ends of the first sampling tube and the second sampling tube are respectively provided with a connecting part, the connecting parts are matched with the U-shaped blocks which are horizontally arranged, the U-shaped blocks are connected to the moving end of the telescopic rod, and the telescopic rod is respectively arranged on the vertical rod and the lifting plate.

Further, the weight of the two ends of the cross bar is equal, so that the cross bar always keeps a horizontal state.

The utility model has the beneficial effects that: through the horizontal rod which is always kept horizontal, the sampling tube can always keep a vertical downward posture for sampling, the position of the sampling tube can be conveniently controlled, and the sampling tube can move, so that sewage with different depths and different positions can be automatically sampled, the sampling accuracy is ensured, and the staff is prevented from being polluted by the sewage while the sampling efficiency is improved; the cross rod is arranged on the arc section of the support frame in a sliding mode, different geographic environments can be adapted, and the support frame is convenient to install.

Drawings

The drawings described herein are for illustration of selected embodiments only and not all possible implementations, and are not intended to limit the scope of the utility model.

Fig. 1 is a schematic perspective view of an overall structure according to an embodiment of the present utility model.

Fig. 2 is a schematic perspective view of a sampling assembly according to an embodiment of the present utility model.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, but the described embodiments of the present utility model are some, but not all embodiments of the present utility model.

As shown in fig. 1-2, this example provides a sampler for sewage detection, including: a support 100, a sampling assembly 200.

The support frame 100 comprises two arc-shaped sections 101 which are symmetrically arranged, the upper ends of the two arc-shaped sections 101 are connected through a connecting rod 102, and a support rod 103 which is rotationally connected with the arc-shaped sections 101 is further arranged on the arc-shaped sections 101 so as to adapt to different geographic environments and facilitate the installation of the support frame 100; the sampling assembly 200 comprises a cross rod 201 with two ends respectively arranged on the arc-shaped section 101 in a sliding manner, the cross rod 201 always keeps a horizontal state, a first sampling tube 202 moving along the vertical direction is arranged at the center of the cross rod 201, second sampling tubes 203 moving in opposite directions are arranged on two sides of the first sampling tube 202, and the second sampling tubes 203 and the first sampling tubes 202 synchronously move up and down and are used for sampling sewage.

Specifically, the inside cavity of arc section 101 sets up, and is equipped with curved guide bar 104, and the horizontal pole 201 cover is located on the guide bar 104, when installing support frame 100, according to the difference of geographical position, support frame 100 can take place the skew, and horizontal pole 201 also can keep the level under the effect of self gravity, and the bolt is worn to be equipped with at horizontal pole 201 both ends side for with horizontal pole 201 and guide bar 104 locking, thereby avoid support frame 100 installation stable back, horizontal pole 201 receives external force and takes place vibrations, arc section 101 both sides still are equipped with arc groove 105 that run through for pass the bolt.

Specifically, the side of horizontal pole 201 center department is equipped with spacing frame 204, cooperates in the spacing frame 204 has lifter plate 205, and spacing frame 204 can be spacing to the removal of lifter plate 205, and lifter plate 205 both sides are equipped with tooth portion 206, and tooth portion 206 cooperates with gear 207, and gear 207 overlaps and locates on the transmission shaft 208, and transmission shaft 208 wears to locate on horizontal pole 201 to connect rotation motor 209, rotation motor 209 installs on horizontal pole 201, and first sampling tube 202 detachably installs in lifter plate 205's lower extreme and drives lifter plate 205 through gear 207's rotation to reciprocate, thereby adjusts the degree of depth of first sampling tube 202.

Specifically, a containing cavity is formed in the transverse rod 201 along the length direction of the transverse rod, a screw rod 210 is arranged in the containing cavity, one end of the screw rod 210 is connected with a driving motor 211, the driving motor 211 is installed on the transverse rod 201, threads of the screw rod 210 are divided into two sections, the rotation directions of the two sections of threads are opposite, moving blocks 212 are sleeved on the two sections of threads of the screw rod 210, vertical rods 213 which move vertically are arranged on the moving blocks 212 in a penetrating mode, and the second sampling tubes 203 are detachably installed at the lower ends of the vertical rods 213, so that positions of the two second sampling tubes 203 are adjusted.

Specifically, in order to facilitate the assembly and disassembly of the first sampling tube 202 and the second sampling tube 203, two vertically arranged clamping plates 214 are respectively arranged on the vertical rod 213 and the lifting plate 205, clamping grooves 215 are formed in the clamping plates 214, the first sampling tube 202 and the second sampling tube 203 are respectively matched in the clamping grooves 215, two convex rings 216 are respectively arranged on the side surfaces of the first sampling tube 202 and the second sampling tube 203, and the convex rings 216 are arranged between the two clamping plates 214 and are abutted to the surfaces of the clamping plates 214.

Specifically, in order to make the two second sampling tubes 203 move up and down synchronously with the first sampling tube 202, the two sides of the upper and lower ends of the lifting plate 205 are respectively provided with a supporting rod 217, the supporting rod 217 located below passes through the vertical rod 213, the supporting rod 217 located above is provided with a sliding groove 218 along the length square shape of the supporting rod 213, the upper end of the vertical rod 213 is slidably matched in the sliding groove 218, interference in movement of the second sampling tube 203 can be avoided, and meanwhile, the stability of the second sampling tube 203 during movement can be increased.

Specifically, the first sampling tube 202 and the second sampling tube 203 are similar to a syringe in structure, and can suck sewage by pulling the push rod upwards, so that sampling is completed, the upper ends of the first sampling tube 202 and the second sampling tube 203 are respectively provided with a connecting part 219, the connecting parts 219 are matched with a horizontally arranged U-shaped block 220, the U-shaped block 220 is connected to the moving end of a telescopic rod 221, the telescopic rod 221 is respectively arranged on the vertical rod 213 and the lifting plate 205, and the first sampling tube 202 and the second sampling tube 203 are driven by the telescopic rod 221 to complete sampling.

Specifically, the weights of both ends of the crossbar 201 are equal, so that they always maintain a horizontal state.

The above is only a preferred embodiment of the present utility model and is not intended to limit the present utility model, and it is obvious that those skilled in the art can make various modifications and variations to the present utility model without departing from the spirit and scope of the present utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. A sampler for sewage detection, characterized by comprising:

the support frame (100) comprises two arc-shaped sections (101) which are symmetrically arranged, the upper ends of the two arc-shaped sections (101) are connected through a connecting rod (102), and the arc-shaped sections (101) are also provided with a support rod (103) which is rotationally connected with the arc-shaped sections;

the sampling assembly (200) comprises a cross rod (201) with two ends respectively arranged on the arc-shaped section (101) in a sliding mode, the cross rod (201) always keeps a horizontal state, a first sampling tube (202) moving along the vertical direction is arranged at the center of the cross rod (201), second sampling tubes (203) moving in opposite directions are arranged on two sides of the first sampling tube (202), and the second sampling tubes (203) and the first sampling tubes (202) move up and down synchronously and are used for sampling in sewage.

2. The sampler for sewage detection according to claim 1, wherein the arc-shaped section (101) is hollow and provided with an arc-shaped guide rod (104), the cross rod (201) is sleeved on the guide rod (104), bolts are arranged on the side surfaces of two ends of the cross rod (201) in a penetrating manner and used for locking the cross rod (201) with the guide rod (104), and through arc-shaped grooves (105) are further arranged on two sides of the arc-shaped section (101) and used for penetrating the bolts.

3. The sampler for sewage detection according to claim 1, wherein a limit frame (204) is arranged on the side surface of the center of the cross rod (201), a lifting plate (205) is matched in the limit frame (204), tooth parts (206) are arranged on two sides of the lifting plate (205), the tooth parts (206) are matched with a gear (207), the gear (207) is sleeved on a transmission shaft (208), the transmission shaft (208) is arranged on the cross rod (201) in a penetrating manner and is connected with a rotating motor (209), the rotating motor (209) is arranged on the cross rod (201), and the first sampling tube (202) is detachably arranged at the lower end of the lifting plate (205).

4. The sampler for sewage detection according to claim 3, wherein the cross bar (201) is provided with a containing cavity along the length direction thereof, a screw rod (210) is arranged in the containing cavity, one end of the screw rod (210) is connected with a driving motor (211), the driving motor (211) is installed on the cross bar (201), the threads of the screw rod (210) are divided into two sections, the rotation directions of the two sections of threads are opposite, the two sections of threads of the screw rod (210) are respectively sleeved with a moving block (212), a vertical rod (213) which moves vertically is arranged on the moving block (212) in a penetrating manner, and the second sampling tube (203) is detachably installed at the lower end of the vertical rod (213).

5. The sampler for sewage detection according to claim 4, wherein two vertically arranged clamping plates (214) are respectively arranged on the vertical rods (213) and the lifting plate (205), clamping grooves (215) are respectively arranged on the clamping plates (214), the first sampling tube (202) and the second sampling tube (203) are respectively matched in the clamping grooves (215), two convex rings (216) are respectively arranged on the side surfaces of the first sampling tube (202) and the second sampling tube (203), and the convex rings (216) are arranged between the two clamping plates (214) and are abutted to the surfaces of the clamping plates (214).

6. The sampler for sewage detection according to claim 4, wherein the lifting plate (205) is provided with a supporting rod (217) at both sides of the upper and lower ends, the supporting rod (217) located below passes through the vertical rod (213), the supporting rod (217) located above is provided with a sliding groove (218) along the length square shape, and the upper end of the vertical rod (213) is slidably matched in the sliding groove (218).

7. The sampler for sewage detection according to claim 4, wherein the upper ends of the first sampling tube (202) and the second sampling tube (203) are respectively provided with a connecting portion (219), the connecting portion (219) is matched with a horizontally arranged U-shaped block (220), the U-shaped block (220) is connected to the moving end of a telescopic rod (221), and the telescopic rod (221) is respectively installed on the vertical rod (213) and the lifting plate (205).

8. The sampler for sewage detection according to claim 1, wherein the weight of both ends of the cross bar (201) is equal to each other so as to be always kept in a horizontal state.