CN218917047U - Detection equipment is used in aluminium ash processing - Google Patents

Abstract

The utility model discloses detection equipment for aluminum ash processing, which comprises a detection adjusting device and a detection device, wherein the detection device is arranged outside the detection adjusting device, a driving motor is started to drive a test needle fixing disc to do lifting motion, so that the automatic adjustment of lifting of a test needle connecting rod is realized to detect the coagulation speed of a coagulant product, a servo motor is started to drive a test box to do reciprocating motion, the test on the test needle connecting rod is prevented from carrying out repeated pressure test on one position of the test box, the error of detecting the coagulation speed data of the accelerator product is avoided, the test box is fixed through a limiting telescopic rod and a limiting L-shaped plate of a limiting groove, the shaking is avoided when the test box is pressed by a test needle, and the error of detecting the coagulation speed data of the accelerator product is reduced.

Description

Detection equipment is used in aluminium ash processing

Technical Field

The utility model relates to the technical field of condensation speed detection equipment, in particular to detection equipment for aluminum ash processing.

Background

In the aluminum processing process, a large amount of aluminum ash is inevitably generated, the aluminum ash is used as a byproduct and is often used for preparing cement concrete, and in the process of preparing cement concrete by using the aluminum ash, an accelerator is often used for condensing the concrete so as to accelerate the condensing and hardening speed of the concrete.

The accelerator is mainly composed of inorganic salts and organic substances, and powdery solid, the dosage of which is only two to three percent of the cement dosage in the concrete, but can enable the concrete to be initially coagulated within five minutes and the accelerator to be coagulated within twelve minutes.

However, in the process of processing aluminum ash into cement concrete, due to different addition amounts of aluminum ash, the setting and hardening speeds of the concrete are different, and in order to obtain aluminum ash concrete with relatively good strength, deformability and durability and relatively high setting speed, multiple tests and detection of multiple performances are required; among them, the coagulation speed is a necessary detection index.

In the prior art, the coagulation speed detection equipment is a manual control test needle for pressure detection, the coagulation speed of a coagulant product cannot be detected by automatically adjusting the lifting of a test needle connecting rod, and the test box cannot be automatically controlled to move for pressure test, so that the test is conducted on one position of the test box for repeated pressure test, and finally, the data for detecting the coagulation speed of the accelerator product generate errors.

The problems described above are addressed. The utility model provides detection equipment for aluminum ash processing.

Disclosure of Invention

The utility model aims to provide detection equipment for aluminum ash processing, which is characterized in that a driving motor and a screw rod are connected and fixed in holes of a porous connecting disc, a driving gear and a linkage gear are arranged on the driving motor and the screw rod, the driving gear and the linkage gear are driven to rotate by starting the driving motor, and the porous connecting disc is fixedly arranged on a test needle bracket, so that the linkage gear rotates to enable the internal screw rod to do lifting motion, and the screw rod drives a test needle fixing disc at the bottom to do lifting motion, so that the lifting of a test needle connecting rod is automatically adjusted to detect the coagulation speed of a coagulant product, and the problems in the background art are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the detection equipment for aluminum ash processing comprises a detection adjusting device and a detection device, wherein the detection adjusting device is externally installed with the detection device, the detection adjusting device comprises a test needle adjusting component and a test box moving component, the top end of the detection adjusting device is provided with the test needle adjusting component, and the bottom end of the detection adjusting device is provided with the test box moving component;

the detection device comprises a test needle support, a detection table and a display, wherein the test needle support is arranged at the top end of the detection device, the detection table is arranged at the bottom end of the test needle support, and the display is arranged on one side of the test needle support.

Preferably, the test needle adjusting assembly comprises a porous connecting disc and a test needle fixing disc, the porous connecting disc is arranged at the top end of the test needle adjusting assembly, and the test needle fixing disc is arranged at the bottom end of the test needle adjusting assembly.

Preferably, the porous connection pad includes driving motor, drive gear, linkage gear and lead screw, and driving motor is installed on the top of porous connection pad, and driving gear is installed on driving motor's top, and three linkage gear is installed respectively to one side of drive gear, and linkage gear's internally mounted has the lead screw.

Preferably, a test needle connecting rod is installed at the bottom end of the test needle fixing disc.

Preferably, the test box moving assembly comprises a servo motor, a transmission gear, a loading plate, a carrier plate connecting block and a gear plate, wherein the servo motor is arranged in the test box moving assembly, the transmission gear is arranged at the top end of the servo motor, the loading plate is arranged outside the test box moving assembly, the carrier plate connecting block is arranged at the bottom end of the loading plate, and the gear plate is arranged at the bottom end of the carrier plate connecting block.

Preferably, the detection platform comprises an electronic pressure meter and a carrier plate connector, wherein the electronic pressure meter is arranged on one side of the top end of the detection platform, and the carrier plate connector is arranged at the bottom of the electronic pressure meter.

Preferably, the electronic pressure gauge comprises a limit groove, a limit telescopic rod and a limit L-shaped plate, wherein the limit groove is formed in the middle of the electronic pressure gauge, one side of the limit groove is provided with a plurality of limit telescopic rods, and the top end of each limit telescopic rod is provided with the limit L-shaped plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the detection equipment for aluminum ash processing, the test needle adjusting component is arranged at the top end of the detection adjusting device, the driving motor and the screw rod are fixedly connected to the holes of the porous connecting disc, the driving gear and the linkage gear are arranged on the driving motor and the screw rod, the driving motor is started to drive the driving gear and the linkage gear to rotate, the porous connecting disc is fixedly arranged on the test needle support, so that the linkage gear rotates to enable the screw rod to move up and down, the screw rod drives the test needle fixing disc at the bottom end to move up and down, and accordingly the automatic adjustment of the lifting of the test needle connecting rod is realized to detect the condensation speed of a coagulant product.

2. According to the detection equipment for aluminum ash processing, the test box moving assembly is arranged at the bottom end of the detection and adjustment device, the transmission gear is driven by the starting servo motor, the transmission gear drives the gear plate to reciprocate, the carrier plate connecting block is used for mounting the carrier plate and the gear plate at the carrier plate connecting port, so that the carrier plate reciprocates at the carrier plate connecting port, the test box needing to detect the condensation speed is placed on the carrier plate, the test box can reciprocate at the bottom of the test pin connecting rod, the pressure test is carried out after the displacement is automatically adjusted through the test box moving assembly, the repeated pressure test of one position of the test box by the test pin on the test pin connecting rod is prevented, and the error of detecting the condensation speed data of an accelerator product is avoided.

3. According to the detection equipment for aluminum ash processing, the limit groove is formed in the middle of the electronic pressure measuring device, the test box can be limited in the middle of the electronic pressure measuring device through the limit groove formed in the electronic pressure measuring device, the test needle can press the test box during pressure testing, the limit groove can prevent the test box from sliding on the surface of the electronic pressure measuring device, the limit telescopic rod and the limit L-shaped plate in the limit groove can better fix the test box, shaking is avoided when the test box is pressed by the test needle, and errors of detecting setting speed data of an accelerator product are reduced.

Drawings

FIG. 1 is an overall schematic of the present utility model;

FIG. 2 is a schematic diagram of a porous land of the present utility model;

FIG. 3 is a schematic view of a test needle adjustment assembly of the present utility model;

FIG. 4 is a schematic diagram of a cartridge moving assembly according to the present utility model;

FIG. 5 is a schematic view of a gear plate of the present utility model;

FIG. 6 is a schematic view of a limiting groove according to the present utility model;

fig. 7 is a schematic view of a limiting L-shaped plate according to the present utility model.

In the figure: 1. detecting and adjusting devices; 2. a detection device; 11. a test needle adjusting assembly; 12. a cartridge moving assembly; 21. a test needle bracket; 22. a detection table; 23. a display; 111. a porous land; 112. a test needle fixing plate; 1111. a driving motor; 1112. a drive gear; 1113. a linkage gear; 1114. a screw rod; 1121. a test needle connecting rod; 121. a servo motor; 122. a transmission gear; 123. a load carrying plate; 124. a carrier plate connecting block; 125. a gear plate; 221. an electronic pressure gauge; 2211. a limit groove; 2212. a limiting telescopic rod; 2213. limiting L-shaped plates; 222. and the carrier plate connecting port.

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.

Referring to fig. 1-3, a detecting device for aluminum ash processing comprises a detecting adjusting device 1 and a detecting device 2, wherein the detecting device 2 is arranged outside the detecting adjusting device 1, the detecting adjusting device 1 comprises a porous connecting disc 111 and a test box moving assembly 12, the test pin adjusting assembly 11 is arranged at the top end of the detecting adjusting device 1, the test box moving assembly 12 is arranged at the bottom end of the detecting adjusting device 1, the detecting device 2 comprises a test pin support 21, a detecting table 22 and a display 23, the test pin support 21 is arranged at the top end of the detecting device 2, the detecting table 22 is arranged at the bottom end of the test pin support 21, the display 23 is arranged at one side of the test pin support 21, the test pin adjusting assembly 11 comprises a porous connecting disc 111 and a test pin fixing disc 112, the top end of the test pin adjusting assembly 11 is provided with the porous connecting disc 111, the bottom end of the test pin adjusting assembly 11 is provided with the test pin fixing disc 112, the porous connecting disc 111 comprises a driving motor 1111, a driving gear 1112, a driving gear 1113 and a lead screw 1114, a driving motor 1111 is arranged at the top end of the porous connecting disc 111, a driving gear 1111 is arranged at the top end of the driving motor 1111, one side of the driving gear 1112 is provided with three gears 1113 respectively, the driving gears 1113 are respectively, the driving motor 1113 is arranged at the bottom end of the driving gear 1113 and the lead screw 1113 is connected with the lead screw 1113 through the driving gear 1113, the driving shaft is connected with the driving shaft 1113, the driving shaft is connected with the test pin 1111, and the lead screw 1111 through the driving rod is connected to the driving shaft 1113, and the driving shaft is arranged at the driving shaft is connected to the lead screw 1113, and the lead screw is connected to the lead screw through the driving shaft, and the lead screw is arranged at the end through the driving gear, and the driving 3, and the lead screw is connected through the driving gear is connected through, and the driving gear is arranged inside and the driving gear, and the driving gear is arranged at, thereby realizing automatic adjustment of the lifting of the test needle connecting rod 1121 to detect the coagulation speed of the coagulant product.

Referring to fig. 4-7, a test device for processing aluminum ash, the test box moving assembly 12 includes a servo motor 121, a transmission gear 122, a loading plate 123, a carrier connection block 124 and a gear plate 125, the servo motor 121 is installed inside the test box moving assembly 12, the transmission gear 122 is installed at the top end of the servo motor 121, the loading plate 123 is installed outside the test box moving assembly 12, the carrier connection block 124 is installed at the bottom end of the loading plate 123, the gear plate 125 is installed at the bottom end of the carrier connection block 124, the test table 22 includes an electronic pressure gauge 221 and a carrier connection block 222, the electronic pressure gauge 221 is installed at one side of the top end of the test table 22, the carrier connection block 222 is opened at the bottom of the electronic pressure gauge 221, the transmission gear 122 is driven by starting the servo motor 121, the transmission gear 122 drives the gear plate 125 to reciprocate, the loading plate 123 and the gear plate 125 are installed at the carrier connection block 222 due to the carrier connection block 124, so the loading plate 123 reciprocates at the carrier plate connection port 222, the test box which needs to detect the condensation speed is placed on the loading plate 123, the test box can reciprocate at the bottom of the test needle connection rod 1121, the pressure test is carried out after the displacement is automatically regulated by the test box moving component 12, the repeated pressure test of the test needle on the test needle connection rod 1121 on one position of the test box is prevented, the error of detecting the condensation speed data of the accelerator product is avoided, the electronic pressure measurer 221 comprises a limit groove 2211, a limit telescopic rod 2212 and a limit L-shaped plate 2213, the limit groove 2211 is arranged in the middle of the electronic pressure measurer 221, one side of the limit groove 2211 is provided with a plurality of limit telescopic rods 2212, the top end of the limit telescopic rod 2212 is provided with a limit L-shaped plate 2213, the middle of the electronic pressure measurer 221 which can limit the test box through the limit groove 2211 arranged in the electronic pressure measurer 221, when the pressure is tested, the test needle can press the test box, the limiting groove 2211 can prevent the test box from sliding on the surface of the electronic pressure gauge 221, the limiting telescopic rod 2212 and the limiting L-shaped plate 2213 in the limiting groove 2211 can better fix the test box, shake is avoided when the test box is pressed by the test needle, and errors of detecting coagulation speed data of an accelerator product are reduced.

To sum up: the utility model provides a detecting device for aluminum ash processing, a test needle adjusting component 11 is arranged at the top end of a detecting adjusting device 1, a driving motor 1111 and a screw rod 1114 are connected and fixed in a hole of a porous connecting disc 111, a driving gear 1112 and a linkage gear 1113 are arranged on the driving motor 1111 and the screw rod 1114, the driving motor 1111 is started to drive the driving gear 1112 and the linkage gear 1113 to rotate, the porous connecting disc 111 is arranged and fixed on a test needle bracket 21, the linkage gear 1113 rotates to enable the internal screw rod 1114 to do lifting movement, the screw rod 1114 drives the test needle fixing disc 112 at the bottom end to do lifting movement, thereby realizing automatic adjustment of the lifting of a test needle connecting rod 1121 to detect the condensation speed of a coagulant product, a servo motor 121 is started to drive a transmission gear 122, the transmission gear 122 drives a gear plate 125 to do reciprocating movement, and a carrier plate 123 and the gear plate 125 are arranged at a carrier plate connecting port 222 due to a carrier plate connecting block 124, so the loading plate 123 reciprocates at the carrier plate connection port 222, the test box which needs to detect the condensation speed is placed on the loading plate 123, the test box can reciprocate at the bottom of the test pin connection rod 1121, the pressure test is carried out after the displacement is automatically regulated by the test box moving component 12, the test pin on the test pin connection rod 1121 is prevented from carrying out repeated pressure test on one position of the test box, the error of detecting the condensation speed data of the accelerator product is avoided, the test box can be limited in the middle of the electronic pressure measurer 221 through the limit groove 2211 arranged on the electronic pressure measurer 221, the test pin can press the test box during the pressure test, the limit groove 2211 can prevent the test box from sliding on the surface of the electronic pressure measurer 221, the limit telescopic rod 2212 and the limit L-shaped plate 2213 in the limit groove 2211 can better fix the test box, the test box is prevented from shaking when the test box is not pressed by the test pin, and errors in detecting the setting speed data of the accelerator product are reduced.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a detection equipment is used in aluminium ash processing, is including detecting adjusting device (1) and detection device (2), and detection adjusting device (1) externally mounted has detection device (2), its characterized in that: the detection and adjustment device (1) comprises a test needle adjustment assembly (11) and a test box moving assembly (12), the test needle adjustment assembly (11) is arranged at the top end of the detection and adjustment device (1), and the test box moving assembly (12) is arranged at the bottom end of the detection and adjustment device (1);

the detection device (2) comprises a test needle support (21), a detection table (22) and a display (23), wherein the test needle support (21) is arranged at the top end of the detection device (2), the detection table (22) is arranged at the bottom end of the test needle support (21), and the display (23) is arranged at one side of the test needle support (21);

the test box moving assembly (12) comprises a servo motor (121), a transmission gear (122), a loading plate (123), a carrier plate connecting block (124) and a gear plate (125), wherein the servo motor (121) is installed in the inner part of the test box moving assembly (12), the transmission gear (122) is installed at the top end of the servo motor (121), the loading plate (123) is installed on the outer part of the test box moving assembly (12), the carrier plate connecting block (124) is installed at the bottom end of the loading plate (123), and the gear plate (125) is installed at the bottom end of the carrier plate connecting block (124).

2. The inspection apparatus for aluminum ash processing according to claim 1, wherein: the test needle adjusting assembly (11) comprises a porous connecting disc (111) and a test needle fixing disc (112), the porous connecting disc (111) is arranged at the top end of the test needle adjusting assembly (11), and the test needle fixing disc (112) is arranged at the bottom end of the test needle adjusting assembly (11).

3. The detection apparatus for aluminum ash processing according to claim 2, wherein: the porous connection disc (111) comprises a driving motor (1111), a driving gear (1112), a linkage gear (1113) and a screw rod (1114), wherein the driving motor (1111) is installed at the top end of the porous connection disc (111), the driving gear (1112) is installed at the top end of the driving motor (1111), three linkage gears (1113) are respectively installed on one side of the driving gear (1112), and the screw rod (1114) is installed in the linkage gear (1113).

4. The detection apparatus for aluminum ash processing according to claim 2, wherein: the bottom end of the test needle fixing disc (112) is provided with a test needle connecting rod (1121).

5. The inspection apparatus for aluminum ash processing according to claim 1, wherein: the detection platform (22) comprises an electronic pressure gauge (221) and a carrier plate connecting port (222), the electronic pressure gauge (221) is installed on one side of the top end of the detection platform (22), and the carrier plate connecting port (222) is formed in the bottom of the electronic pressure gauge (221).

6. The detection apparatus for aluminum ash processing according to claim 5, wherein: the electronic pressure gauge (221) comprises a limit groove (2211), a limit telescopic rod (2212) and a limit L-shaped plate (2213), the limit groove (2211) is formed in the middle of the electronic pressure gauge (221), one side of the limit groove (2211) is provided with a plurality of limit telescopic rods (2212), and the top end of each limit telescopic rod (2212) is provided with the limit L-shaped plate (2213).

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