CN219266092U - Steel construction welds and banks up physical and chemical detection equipment with earth - Google Patents

Abstract

The utility model discloses steel structure welding and physical and chemical detection equipment, which comprises a detection assembly, a protection assembly and a disassembly and assembly, wherein the detection assembly comprises a physical and chemical detector and a detector arranged at the top of the physical and chemical detector, the protection assembly comprises a first sleeve arranged at the bottom of the detector, a second sleeve movably arranged at the bottom of the first sleeve, a sealing ring arranged at the bottom of the second sleeve, a sealing gasket arranged at the bottom of the sealing ring, a hollow shaft arranged at the bottom of the first sleeve, a piston rod movably arranged at the bottom of the hollow shaft, a spring arranged at the top of the piston rod and a baffle plate arranged at the outer side of the detector, and the disassembly and assembly comprises fixed shafts arranged at two sides of the first sleeve.

Description

Steel construction welds and banks up physical and chemical detection equipment with earth

Technical Field

The utility model relates to the technical field of physicochemical detection equipment, in particular to steel structure welding and physical and chemical detection equipment.

Background

The physicochemical detection device is widely applied to production process control in the fields of metallurgy, casting, machinery, metal processing, automobile manufacturing, nonferrous, aerospace, weapons, chemical industry and the like, is one of effective means for controlling the quality of products by checking finished products in a central laboratory, and utilizes different metals to have different refraction lights so as to analyze the refraction lights fed back by the excited metals and detect the refraction lights.

Most of the existing steel structure welding and physical and chemical detection equipment is often influenced by external light in the use process, so that a certain error occurs in a detection result, and a plurality of inconveniences are undoubtedly caused for detection work.

Disclosure of Invention

The utility model aims to provide steel structure welding physical and chemical detection equipment so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a steel construction welds and banks up physical and chemical detection equipment with earth, includes detection subassembly, protection subassembly and dismouting subassembly, detection subassembly includes physical and chemical detector and installs the detector at the top of the physical and chemical detector, protection subassembly is including installing first sleeve, the movable mounting in the second sleeve bottom of detector bottom, install at the sealing ring of second sleeve bottom, install the sealed pad in the sealing ring bottom, install at the cavity axle of first sleeve bottom, movable mounting at the piston rod of cavity axle bottom, install at the spring at piston rod top and install the baffle in the detector outside, the dismouting subassembly is including installing the fixed axle in first sleeve both sides.

Preferably, the inside of physicochemical detector is provided with detection mechanism, and detection mechanism is used for steel construction welding to cultivate the detection, the inside of physicochemical detector is provided with elevating system, and elevating system is used for controlling detection mechanism's lift.

Preferably, the hollow shaft is located inside the second sleeve, the piston rod penetrates through the bottom of the hollow shaft, the top of the spring is connected with the top wall of the hollow shaft, and the baffle is located above the first sleeve.

Preferably, the display screen is installed on the front face of the physical and chemical detector, and the function key is installed on the front face of the physical and chemical detector and is located below the display screen.

Preferably, an external socket is arranged on one side of the physical and chemical detector, an indicator light is arranged on one side of the physical and chemical detector, and a switch is arranged on one side of the physical and chemical detector.

Preferably, a clamping plate is movably arranged on one side of the fixed shaft, a positioning pin is arranged on one side of the clamping plate in a penetrating manner, the positioning pin penetrates through one side of the fixed shaft, and a notch is formed in the inner side of the clamping plate.

Preferably, the inside movable mounting of notch has spacing axle, connecting seat is installed to one side of spacing axle, one side of connecting seat is connected with the outside of physicochemical detector, the top of connecting seat baffle.

By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:

1. according to the utility model, the first sleeve, the second sleeve, the hollow shaft, the piston rod and the spring are arranged, when the refraction light is received, the lifting mechanism descends, so that the first sleeve is extruded downwards, relative movement occurs between the first sleeve and the second sleeve, the first sleeve is shortened, in the shortening process, the hollow shaft arranged at the bottom of the first sleeve and the piston rod simultaneously relatively move, the piston rod extrudes the spring to enable the spring to deform and compress, after detection is finished, the piston rod can pull the second sleeve to reset under the action of spring elastic force, the next use is convenient, the first sleeve and the second sleeve can effectively ensure that the device can not be influenced by external light when receiving the refraction light, the device further improves the accuracy of detection results, and normal detection work is further ensured.

2. The utility model is provided with the fixed shaft, the clamping plate and the limiting shaft, when the first sleeve and the second sleeve are installed, a worker firstly sleeves the first sleeve on the bottom of the detector to prop against the baffle plate, then rotates the rotary clamping plate to clamp the notch on the clamping plate to the limiting shaft, the caliber of the notch is gradually reduced, which means that the clamping plate can be firmly installed on the limiting shaft to prevent the clamping plate from sliding off in the process of clamping the limiting shaft to the notch, the fixed shaft is connected with the first sleeve, the connecting seat is connected with the detector, the clamping plate plays an intermediate connection role, so that the detector and the first sleeve can be tightly installed together, and the clamping plate can be rotated in the opposite direction when the detector needs to be disassembled.

Drawings

Fig. 1 is a schematic perspective view of the whole device of the present utility model.

FIG. 2 is a schematic perspective view of the physicochemical detector of the present utility model.

Fig. 3 is a schematic cross-sectional view of a first sleeve according to the present utility model.

Fig. 4 is a perspective view of a stationary shaft according to the present utility model.

In the figure: 100. a detection assembly; 101. a physical and chemical detector; 102. a detector; 103. a display screen; 104. a function key; 105. an external socket; 106. an indicator light; 107. a switch;

200. a protective assembly; 201. a first sleeve; 202. a second sleeve; 203. a seal ring; 204. a sealing gasket; 205. a hollow shaft; 206. a piston rod; 207. a spring; 208. a baffle;

300. disassembling and assembling the assembly; 301. a fixed shaft; 302. a clamping plate; 303. a positioning pin; 304. a notch; 305. a limiting shaft; 306. and a connecting seat.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples:

referring to fig. 4, a steel structure welding physical and chemical detection device;

the device comprises a first sleeve 201, a second sleeve 202, a hollow shaft 205, a piston rod 206 and a spring 207, wherein the top of the physicochemical detector 101 is provided with a detector 102, the inside of the physicochemical detector 101 is provided with a detection mechanism, the detection mechanism is used for welding and cultivating steel structures, the inside of the physicochemical detector 101 is provided with a lifting mechanism, the lifting mechanism is used for controlling the lifting of the detection mechanism, the front surface of the physicochemical detector 101 is provided with a display screen 103, the front surface of the physicochemical detector 101 is provided with a function key 104, the function key 104 is positioned below the display screen 103, one side of the physicochemical detector 101 is provided with an external socket 105, one side of the physicochemical detector 101 is provided with an indicator 106, one side of the physicochemical detector 101 is provided with a switch 107, the bottom of the detector 102 is provided with a first sleeve 201, the bottom of the first sleeve 201 is movably provided with a second sleeve 202, the bottom of the second sleeve 202 is provided with a sealing ring 203, the bottom of the sealing ring 203 is provided with a sealing pad 204, the bottom of the first sleeve 201 is provided with a hollow shaft 205, the hollow shaft 205 is positioned in the second sleeve 202, the bottom of the hollow shaft 205 is movably provided with a piston rod 206, the piston rod 206 penetrates through the bottom of the hollow shaft 205, the top of the piston rod 206 is provided with a spring 207, the top of the spring 207 is connected with the top wall of the hollow shaft 205, the outer side of the detector 102 is provided with a baffle 208, the baffle 208 is positioned above the first sleeve 201, two sides of the first sleeve 201 are provided with a fixed shaft 301, one side of the fixed shaft 301 is movably provided with a clamping plate 302, one side of the clamping plate 302 is provided with a positioning pin 303 in a penetrating way, one side of the positioning pin 303 penetrates through the fixed shaft 301, the inner side of the clamping plate 302 is provided with a notch 304, the inner side of the notch 304 is movably provided with a limiting shaft 305, one side of the limiting shaft 305 is provided with a connecting seat 306, one side of the connecting seat 306 is connected with the outer side of the physicochemical detector 101, the connecting seat 306 is located above the baffle 208.

Specifically, when the device is used, the physicochemical detector 101 is a main structure and is used for providing an installation position for other structures, ensuring the stability of the other structures during operation, the physicochemical detector 101 is matched with the detector 102 for the detection work of welding and physicochemical of the steel structure, which is the prior art, the device is not described in detail herein, after the external socket 105 is powered on, the switch 107 is opened, the indicator light 106 is lightened, the device starts to work, the display screen 103 displays data, the function key 104 is used for adjusting the device, when the refraction light is received, the lifting mechanism descends, the first sleeve 201 is extruded downwards, thereby the relative movement between the first sleeve 201 and the second sleeve 202 occurs, the first sleeve 201 is shortened, and in the shortening process, the hollow shaft 205 installed at the bottom of the first sleeve 201 also simultaneously performs the relative movement with the piston rod 206, the piston rod 206 compresses the spring 207 to deform and compress, after the detection is finished, under the action of the elastic force of the spring 207, the piston rod 206 pulls the second sleeve 202 to reset, the next use is convenient, the installed first sleeve 201 and second sleeve 202 can effectively ensure that the device is not influenced by external light when receiving refracted light, the device further improves the accuracy of detection results, further ensures the normal operation of detection, when the first sleeve 201 and second sleeve 202 are installed, a worker firstly sleeves the first sleeve 201 on the bottom of the detector 102 to prop against the baffle 208, then rotates the rotating clamping plate 302, clamps the notch 304 on the clamping plate 302 to the limiting shaft 305, the clamping plate 302 is movably installed on the fixed shaft 301 through the locating pin 303, the clamping plate 302 rotates around the locating pin 303, the caliber of the notch 304 is gradually reduced, which means that in the process of clamping the limiting shaft 305 to the notch 304, the clamping plate 302 is gradually extruded, so that the clamping plate 302 can be firmly installed on the limiting shaft 305 to prevent the clamping plate from sliding off, the limiting shaft 305 is installed on the connecting seat 306, the firmness of the clamping plate in use is guaranteed, the fixing shaft 301 is connected with the first sleeve 201, the connecting seat 306 is connected with the detector 102, the clamping plate 302 plays a role in mediating connection, the detector 102 and the first sleeve 201 can be tightly installed together, and when the clamping plate 302 needs to be disassembled, the clamping plate 302 is rotated in the opposite direction, the device further simplifies the disassembly and assembly process, saves time, greatly improves the working efficiency, reduces the burden of workers, and brings great convenience to the workers.

Working principle: when receiving the refraction light, the lifting mechanism descends, so that the first sleeve 201 extrudes downwards, relative motion occurs between the first sleeve 201 and the second sleeve 202, in the shortening process, the hollow shaft 205 and the piston rod 206 simultaneously relatively move, the piston rod 206 extrudes the spring 207 to enable the spring 207 to deform and compress, after detection is finished, under the action of the elastic force of the spring 207, the piston rod 206 can pull the second sleeve 202 to reset, the next use is convenient, the installed first sleeve 201 and second sleeve 202 can effectively ensure that the device cannot be influenced by external light when receiving the refraction light, when the first sleeve 201 and the second sleeve 202 are installed, a worker firstly sleeves the first sleeve 201 on the bottom of the detector 102 to prop against the baffle 208, then rotates the clamping plate 302, clamps the notch 304 on the clamping plate 302 to the limiting shaft 305, the caliber of the notch 304 gradually becomes smaller, in the process that the limiting shaft 305 is clamped to the notch 304, the clamping plate 304 gradually begins to extrude, and therefore the clamping plate 302 can be firmly installed on the limiting shaft 305, and the clamping plate 302 can be prevented from being detached in the reverse rotation direction when the clamping plate is required.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the 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 (7)

1. A steel structure welding physical and chemical detection device, comprising:

the detection assembly (100) comprises a physical and chemical detector (101) and a detector (102) arranged on the top of the physical and chemical detector (101);

the protection assembly (200) comprises a first sleeve (201) arranged at the bottom of the detector (102), a second sleeve (202) movably arranged at the bottom of the first sleeve (201), a sealing ring (203) arranged at the bottom of the second sleeve (202), a sealing gasket (204) arranged at the bottom of the sealing ring (203), a hollow shaft (205) arranged at the bottom of the first sleeve (201), a piston rod (206) movably arranged at the bottom of the hollow shaft (205), a spring (207) arranged at the top of the piston rod (206) and a baffle plate (208) arranged outside the detector (102);

the dismounting assembly (300) comprises a fixed shaft (301) arranged on two sides of the first sleeve (201).

2. The steel structure welding and physical and chemical detection device according to claim 1, wherein a detection mechanism is arranged in the physical and chemical detector (101) and used for steel structure welding and chemical detection, and a lifting mechanism is arranged in the physical and chemical detector (101) and used for controlling lifting of the detection mechanism.

3. The steel structure welding and physical and chemical detection device according to claim 1, wherein the hollow shaft (205) is located inside the second sleeve (202), the piston rod (206) penetrates through the bottom of the hollow shaft (205), the top of the spring (207) is connected with the top wall of the hollow shaft (205), and the baffle (208) is located above the first sleeve (201).

4. The steel structure welding and physical and chemical detection device according to claim 1, wherein a display screen (103) is installed on the front surface of the physical and chemical detector (101), a function key (104) is installed on the front surface of the physical and chemical detector (101), and the function key (104) is located below the display screen (103).

5. The steel structure welding and physical and chemical detection device according to claim 1, wherein an external socket (105) is installed on one side of the physical and chemical detector (101), an indicator lamp (106) is installed on one side of the physical and chemical detector (101), and a switch (107) is installed on one side of the physical and chemical detector (101).

6. The steel structure welding and physical and chemical detection device according to claim 1, wherein a clamping plate (302) is movably installed on one side of the fixed shaft (301), a positioning pin (303) is installed on one side of the clamping plate (302) in a penetrating manner, the positioning pin (303) penetrates through one side of the fixed shaft (301), and a notch (304) is formed in the inner side of the clamping plate (302).

7. The steel structure welding physical and chemical detection device according to claim 6, wherein a limiting shaft (305) is movably installed in the notch (304), a connecting seat (306) is installed on one side of the limiting shaft (305), one side of the connecting seat (306) is connected with the outer side of the physical and chemical detector (101), and the connecting seat (306) is located above the baffle plate (208).

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