CN214150398U - A adhesive force detector for alloy atomic ash - Google Patents

Abstract

The utility model belongs to the field of adhesive force detection of atomic ash, in particular to an adhesive force detector for alloy atomic ash, which comprises a base, wherein a L-shaped plate and a track plate are fixedly arranged on the base, a protective cover with the bottom arranged in an open manner is slidably arranged on one side of the track plate, the L-shaped plate is positioned under the protective cover, a horizontally arranged positioning rod is slidably arranged on one side of the track plate, a horizontally arranged positioning groove is formed in one side of the protective cover close to the track plate, one end of the positioning rod penetrates through the track plate and extends into the positioning groove, a detection assembly is arranged on the L-shaped plate, a scratch needle is arranged at the bottom of the detection assembly, and a moving block is slidably arranged at the top of the base; the utility model discloses when not using, avoid the pollution of dust, improve life, need not artifical transport material loading, the security of very big improvement material loading accomplishes and detects the back, conveniently gets the material, and service quality is high.

Description

A adhesive force detector for alloy atomic ash

Technical Field

The utility model relates to an adhesive force detection area of atomic ash especially relates to an adhesive force detector for alloy atomic ash.

Background

The detection assembly of the existing adhesive force detector for the atomic ash is exposed outside, when the detector is not used, the service life of the detector can be shortened due to the pollution of dust, meanwhile, when the detector is used for loading, the detector can manually feed materials, certain danger exists, the materials are manually conveyed to the detection assembly for loading, the danger is large, the materials are inconvenient to take down after the detection is finished, and therefore the adhesive force detector for the alloy atomic ash is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adhesive force detector for alloy atom ash to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an adhesive force detector for alloy atomic ash comprises a base, wherein an L-shaped plate and a track plate are fixedly mounted on the base, a protective cover with an open bottom is slidably mounted on one side of the track plate, the L-shaped plate is positioned under the protective cover, a horizontally arranged positioning rod is slidably mounted on one side of the track plate, a horizontally arranged positioning groove is formed in one side, close to the track plate, of the protective cover, one end of the positioning rod penetrates through the track plate and extends into the positioning groove, a detection assembly is arranged on the L-shaped plate, a scribing needle is arranged at the bottom of the detection assembly, a moving block is slidably mounted at the top of the base, a vertically arranged cylinder is slidably mounted at the top of the moving block, a feeding box with an open top is hinged to the top of the cylinder, a horizontally arranged discharge hole is formed in the bottom of one side of the feeding box, and a vertically arranged baffle is slidably mounted on the inner wall of one side of the feeding box, the baffle is located the one end of discharge opening, slidable mounting has the regulating block on the cylinder, and articulated on the regulating block have the regulation pole, and the one end of adjusting the pole is articulated with last magazine.

Preferably, a vertically arranged push rod motor is fixedly mounted at the top of one end of the feeding box, a push rod of the push rod motor is in transmission connection with a J-shaped rod which is arranged in an inverted manner, and the bottom of the J-shaped rod is in transmission connection with the baffle.

Preferably, one side of the cylinder, which is close to the adjusting block, is provided with a vertically arranged lifting groove, the adjusting block is connected with the inner wall of the lifting groove in a sliding manner, an electric push rod which is vertically arranged is installed in the lifting groove, and the push rod of the electric push rod is in transmission connection with the adjusting block.

Preferably, a vertically arranged driving groove is formed in the top of the moving block, a horizontally arranged transverse plate is slidably mounted in the driving groove, an air cylinder is mounted on the inner wall of the bottom of the driving groove, a piston rod of the air cylinder is in transmission connection with the transverse plate, and the bottom of the cylinder is fixedly connected with the transverse plate.

Preferably, a horizontally arranged sliding groove is formed in the top of the base, the moving block is in sliding connection with the inner wall of the sliding groove, a horizontally arranged lead screw is rotatably mounted in the sliding groove, the lead screw is in threaded connection with the moving block, a bidirectional motor is arranged on the base, and an output shaft of the bidirectional motor is in transmission connection with the lead screw.

Preferably, the guide way of vertical setting is seted up to one side that the track board is close to the safety cover, and fixed mounting has the montant of vertical setting in the guide way, and the sliding sleeve is equipped with the connecting block on the montant, and the connecting block is connected with the safety cover transmission.

The utility model has the advantages that:

make the locating lever shift out the constant head tank through manual pulling locating lever horizontal migration, then the safety cover descends until supporting and presses at the top of base, surrounds detection module and other parts through the safety cover, avoids the pollution of dust, improves life.

The bidirectional motor drives the lead screw to rotate so that the moving block moves horizontally to enable the feeding box to convey materials, the materials are placed into the feeding box, the feeding box is driven to be under the scriber through the moving block moving horizontally, then the transverse plate is driven to ascend through the cylinder so that the cylinder and the feeding box ascend, the materials in the feeding box are fed with the scriber in a contacting mode, manual feeding is not needed, the feeding safety is greatly improved, after detection is completed, the transverse plate descends through the cylinder and the moving block is driven to move out of the position under the scriber, the J-shaped rod is driven to ascend through the push rod motor so that the baffle ascends, the electric push rod drives the adjusting block to descend so that the adjusting rod moves to enable the materials in the feeding box to incline to be discharged through the discharging hole, the materials are conveniently taken, and the use quality is high.

The utility model discloses when not using, avoid the pollution of dust, improve life, need not artifical transport material loading, the security of very big improvement material loading accomplishes and detects the back, conveniently gets the material, and service quality is high.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

fig. 3 is a schematic view of the sectional structure of the moving block and the cylinder of the present invention.

In the figure: 1. a base; 2. an L-shaped plate; 3. a track plate; 4. a protective cover; 5. positioning a groove; 6. positioning a rod; 7. a detection component; 8. a scriber; 9. a moving block; 10. a screw rod; 11. a bi-directional motor; 12. a cylinder; 13. feeding a material box; 14. a discharge hole; 15. a baffle plate; 16. a push rod motor; 17. a J-shaped rod; 18. adjusting a rod; 19. an adjusting block; 20. an electric push rod; 21. a cylinder; 22. a transverse plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, an adhesive force detector for alloy atomic ash comprises a base 1, wherein an L-shaped plate 2 and a track plate 3 are fixedly installed on the base 1, a protective cover 4 with an open bottom is installed on one side of the track plate 3 in a sliding manner, the L-shaped plate 2 is positioned under the protective cover 4, a horizontally arranged positioning rod 6 is installed on one side of the track plate 3 in a sliding manner, a horizontally arranged positioning groove 5 is formed in one side of the protective cover 4 close to the track plate 3, one end of the positioning rod 6 penetrates through the track plate 3 and extends into the positioning groove 5, a detection assembly 7 is arranged on the L-shaped plate 2, a scratch awl 8 is arranged at the bottom of the detection assembly 7, a moving block 9 is installed on the top of the base 1 in a sliding manner, a vertically arranged column 12 is installed on the top of the moving block 9 in a sliding manner, an upper material box 13 with an open top is hinged to the top of the column 12, a horizontally arranged discharge hole 14 is formed in the bottom of one side of the upper material box 13, the inner wall of one side of the feeding box 13 is slidably provided with a vertically arranged baffle 15, the baffle 15 is positioned at one end of the discharge hole 14, the column 12 is slidably provided with an adjusting block 19, the adjusting block 19 is hinged with an adjusting rod 18, and one end of the adjusting rod 18 is hinged with the feeding box 13.

In this embodiment, a vertically arranged push rod motor 16 is fixedly mounted at the top of one end of the feeding box 13, a J-shaped rod 17 arranged in an inverted manner is connected to the push rod of the push rod motor 16 in a transmission manner, and the bottom of the J-shaped rod 17 is connected to the baffle 15 in a transmission manner.

In this embodiment, a vertically arranged lifting groove is formed in one side of the column 12 close to the adjusting block 19, the adjusting block 19 is slidably connected with an inner wall of the lifting groove, a vertically arranged electric push rod 20 is installed in the lifting groove, and a push rod of the electric push rod 20 is in transmission connection with the adjusting block 19.

In this embodiment, a driving groove vertically arranged is formed in the top of the moving block 9, a horizontal plate 22 horizontally arranged is slidably mounted in the driving groove, an air cylinder 21 is mounted on the inner wall of the bottom of the driving groove, a piston rod of the air cylinder 21 is in transmission connection with the horizontal plate 22, and the bottom of the column 12 is fixedly connected with the horizontal plate 22.

In this embodiment, a horizontally arranged chute is formed in the top of the base 1, the moving block 9 is slidably connected to the inner wall of the chute, a horizontally arranged screw rod 10 is rotatably mounted in the chute, the screw rod 10 is in threaded connection with the moving block 9, a bidirectional motor 11 is arranged on the base 1, and an output shaft of the bidirectional motor 11 is in transmission connection with the screw rod 10.

In this embodiment, the guide way of vertical setting is seted up to track board 3 one side that is close to safety cover 4, and fixed mounting has the montant of vertical setting in the guide way, and sliding sleeve is equipped with the connecting block on the montant, and the connecting block is connected with the 4 transmissions of safety cover.

The working principle is as follows: make locating lever 6 shift out constant head tank 5 through the horizontal migration of manual pulling locating lever 6, then safety cover 4 descends until pressing at the top of base 1, surrounds detection module 7 and other parts through safety cover 4, avoids the pollution of dust, improves life. The bidirectional motor 11 drives the screw rod 10 to rotate so that the moving block 9 moves horizontally to enable the feeding box 13 to convey materials, the materials are placed in the feeding box 13, the feeding box 13 is driven to be right below the scriber through the horizontal movement of the moving block 9, then the cylinder 21 lifts the cross plate 22 to lift the cylinder 12 and the feeding box 13, the materials in the feeding box 13 are contacted with the scriber 8 for feeding without manual conveying, the feeding safety is greatly improved, after the detection is finished, the transverse plate 22 is driven by the cylinder 21 to descend and the moving block 9 is moved out of the position right below the scriber 8, the push rod motor 16 drives the J-shaped rod 17 to ascend so that the baffle 15 ascends, the electric push rod 20 drives the adjusting block 19 to descend so that the adjusting rod 18 moves to enable the feeding box 13 to incline so that materials in the feeding box 13 are discharged through the discharging hole 14, materials are conveniently taken, and the use quality is high.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The adhesive force detector for the alloy atomic ash comprises a base (1) and is characterized in that an L-shaped plate (2) and a track plate (3) are fixedly mounted on the base (1), a protective cover (4) with the bottom being open is slidably mounted on one side of the track plate (3), the L-shaped plate (2) is located under the protective cover (4), a horizontally arranged positioning rod (6) is slidably mounted on one side of the track plate (3), a horizontally arranged positioning groove is formed in one side, close to the track plate (3), of the protective cover (4), one end of the positioning rod (6) penetrates through the track plate (3) and extends into the positioning groove (5), a detection assembly (7) is arranged on the L-shaped plate (2), a scribing needle (8) is arranged at the bottom of the detection assembly (7), and a moving block (9) is slidably mounted at the top of the base (1), the top slidable mounting of movable block (9) has cylinder (12) of vertical setting, and the top of cylinder (12) articulates there is top for uncovered setting material feeding box (13), material discharging hole (14) that have the level to set up are seted up to one side bottom of material feeding box (13), one side inner wall slidable mounting of material feeding box (13) has baffle (15) of vertical setting, and baffle (15) are located the one end of material discharging hole (14), slidable mounting has regulating block (19) on cylinder (12), and articulated on regulating block (19) have regulation pole (18), and the one end of adjusting pole (18) is articulated with material feeding box (13).

2. The adhesion force detector for the alloy atomic ash according to claim 1, wherein a vertically arranged push rod motor (16) is fixedly installed at the top of one end of the feeding box (13), a push rod of the push rod motor (16) is in transmission connection with a J-shaped rod (17) which is arranged in an inverted manner, and the bottom of the J-shaped rod (17) is in transmission connection with the baffle plate (15).

3. The adhesion force detector for the alloy atomic ash according to claim 1, wherein a vertically arranged lifting groove is formed in one side, close to the adjusting block (19), of the cylinder (12), the adjusting block (19) is in sliding connection with the inner wall of the lifting groove, a vertically arranged electric push rod (20) is installed in the lifting groove, and the push rod of the electric push rod (20) is in transmission connection with the adjusting block (19).

4. The adhesion force detector for the alloy atomic ash as claimed in claim 1, wherein a vertically arranged driving groove is formed in the top of the moving block (9), a horizontally arranged transverse plate (22) is slidably mounted in the driving groove, an air cylinder (21) is mounted on the inner wall of the bottom of the driving groove, a piston rod of the air cylinder (21) is in transmission connection with the transverse plate (22), and the bottom of the cylinder (12) is fixedly connected with the transverse plate (22).

5. The adhesion force detector for the alloy atomic ash as claimed in claim 1, wherein a horizontally arranged chute is formed in the top of the base (1), the moving block (9) is slidably connected with the inner wall of the chute, a horizontally arranged lead screw (10) is rotatably mounted in the chute, the lead screw (10) is in threaded connection with the moving block (9), a bidirectional motor (11) is arranged on the base (1), and an output shaft of the bidirectional motor (11) is in transmission connection with the lead screw (10).

6. The adhesion force detector for the alloy putty as claimed in claim 1, wherein a vertically arranged guide groove is formed in one side of the track plate (3) close to the protective cover (4), a vertically arranged vertical rod is fixedly installed in the guide groove, a connecting block is sleeved on the vertical rod in a sliding manner, and the connecting block is in transmission connection with the protective cover (4).

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