CN209945921U - Glass bottle surface spraying protection friction experimental apparatus - Google Patents

Abstract

The utility model discloses a friction test device for spraying protection on the surface of a glass bottle, which comprises a frame outer frame and a workpiece platform, go up glass bottle and lower glass bottle, electric actuator is installed to one side at work piece platform top, electric actuator's top is equipped with angle adjustment mechanism, angle adjustment mechanism can be located the electric actuator top and carry out reciprocal linear motion, angle adjustment mechanism's top is equipped with first glass bottle fixed establishment, first glass bottle fixed establishment will descend the glass bottle to fix at its top, first glass bottle fixed establishment's top is equipped with second glass bottle fixed establishment, second glass bottle fixed establishment can fix last glass bottle in its bottom, second glass bottle fixed establishment's top is equipped with pressure actuating mechanism, pressure actuating mechanism exerts the pressure that can accurate control and direction down to second glass bottle fixed establishment, thereby go up glass bottle and do linear motion when hugging closely lower glass bottle and simulate the friction between the glass bottle spraying.

Description

Glass bottle surface spraying protection friction experimental apparatus

Technical Field

The utility model relates to a glass bottle surface coating protection friction inspection production facility technical field especially relates to a glass bottle surface coating protection friction experimental apparatus.

Background

At present, glass surface spraying is applied to glass reinforcement in production practice, but the glass bottle surface spraying is easy to damage and destroy in storage, transportation, customer filling lines and other processes of glass bottles in workshops, so that the capacity of resisting use contact of the glass surface is obviously reduced, the quality of the glass bottles cannot be guaranteed, and the glass bottles are extremely easy to damage when reaching customers.

The prior art means is used for spraying and inspecting the surface of the glass bottle, and the defects are as follows:

firstly, scratch resistance test: the bottle neck is held by hands, the bottle bodies of the two bottles are mutually rubbed along the circumferential direction, if no scratch is formed, the bottle is qualified, but the precision of the test result is poor due to the fact that the mutual rubbing force of the bottle bodies is not easy to control.

II, an anti-scratch testing machine: when the load scratch instrument is used for inspection and test, the bottle bodies do not rotate mutually during friction, so that the actual friction condition cannot be represented.

Thirdly, reciprocating scratch instrument: when the reciprocating scratch tester is used for inspection and test, the pressure during contact is not controlled, and the test result has no referential property.

At present, chinese patent publication No. CN108439820A discloses a glass bottle surface spraying process, which comprises the steps of firstly removing dust from a glass bottle, and then feeding the glass bottle into a first electrostatic suspension cup spraying device to spray a layer of UV paint as a ground coat; sending the glass bottle sprayed with the ground glaze into a first infrared leveling machine for leveling treatment; sending the glass bottle after the ground glaze leveling treatment into a first UV dryer for drying treatment; conveying the glass bottle with the dried ground glaze into a vacuum coating machine for coating; feeding the coated glass bottle into a second electrostatic suspension cup spraying device, and spraying a layer of UV paint as overglaze; sending the glass bottle sprayed with the overglaze into a second infrared leveling machine for leveling treatment; sending the glass bottle after the surface glaze leveling treatment into a second UV dryer for drying treatment; and (4) conveying the glass bottle after the surface glaze drying treatment to a laser engraving machine for engraving patterns.

Although the glass bottle surface spraying process is simple in process and high in production efficiency, the produced product has good quality, but the glass bottle surface spraying process comprises the following steps: in order to finally confirm the spraying quality of the glass bottle, friction experiment tests need to be carried out on the glass bottle spraying process no matter what spraying process is adopted, and after the tests, the spraying quality of the glass bottle can be ensured.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming the defect of prior art, the utility model aims to provide a glass bottle surface coating protection friction experiment device, it has the effect that can simulate the friction motion between the glass bottle spraying, can protect glass bottle spraying and carry out the friction test.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a glass bottle surface spraying protection friction experiment device comprises a frame outer frame, a workpiece platform fixedly connected to the top of the frame outer frame, an upper glass bottle and a lower glass bottle for experiment tests, wherein an electric actuator is installed on one side of the top of the workpiece platform, a servo motor is installed on one side of the electric actuator, an angle adjusting mechanism is arranged on the top of the electric actuator and can be positioned on the top of the electric actuator to perform reciprocating linear motion, a first glass bottle fixing mechanism is arranged on the top of the angle adjusting mechanism and fixes the lower glass bottle on the top of the angle adjusting mechanism, a second glass bottle fixing mechanism is arranged on the top of the first glass bottle fixing mechanism and can fix the upper glass bottle on the bottom of the second glass bottle fixing mechanism, and a pressure driving mechanism is arranged on the top of the second glass bottle fixing mechanism, but pressure actuating mechanism exerts accurate control and direction pressure down to second glass bottle fixed establishment, thereby go up glass bottle and paste the friction between the glass bottle spraying of simulation glass bottle is made to lower glass bottle when tight lower glass bottle.

Further, second glass bottle fixed establishment including the elbow of locating the glass bottle both ends press from both sides, locate first V type piece of glass bottle one side, locate the middle V type piece of first V type piece one side and locate the second V type piece that first V type piece one side was kept away from to middle V type piece, the elbow presss from both sides the head and the tail both ends of going up the glass bottle and implements fixedly, first V type piece, middle V type piece and second V type piece are implemented fixedly to the body both ends of going up the glass bottle.

Further, the spring is installed to one side that middle V type piece was kept away from the glass bottle, the spring is kept away from one side of middle V type piece and is installed the spring fixing base, the bottom of spring is equipped with miniature line rail, install the gliding miniature slider of V type piece in the middle of supplying between miniature line rail and the middle V type piece, the cooperation that middle V type piece passes through miniature slider and miniature line rail realizes freely opening and holding tightly.

Furthermore, the pressure driving mechanism comprises a pressure sensor arranged at the top of the second glass bottle fixing mechanism, an output shaft type electric actuator arranged at the top of the pressure sensor and a pressure motor arranged on the output shaft type electric actuator, the pressure range of the pressure sensor can be controlled to be 0-100kg, and the precision can reach 1/1000 of the measuring range.

Further, the structure of the first glass bottle fixing mechanism is consistent with that of the second glass bottle fixing mechanism, and the lower glass bottle is fixed on the top of the first glass bottle fixing mechanism in the same way.

Furthermore, the angle adjusting mechanism comprises a turbine speed reducer and a handle, wherein the turbine speed reducer is installed between the electric actuator and the first glass bottle fixing mechanism, and the handle is installed on one side of the turbine speed reducer.

Furthermore, symmetrical sliding grooves are formed in the bottom of the elbow clamp, a T-shaped nut used for adjusting the position of the elbow clamp is arranged inside the sliding grooves, and the adjustable distance range of the T-shaped nut is 0-270 mm.

Furthermore, an angle scale is installed at the top of the turbine speed reducer, a pointer is fixedly connected to the top, located on the angle scale, of one side of the first glass bottle fixing mechanism, and the turbine speed reducer has self-locking capacity.

Furthermore, one side of the second glass bottle fixing mechanism is fixedly connected with a steel ruler.

Furthermore, silica gel pads are attached to the surfaces of the first V-shaped block, the middle V-shaped block and the second V-shaped block.

To sum up, the utility model discloses following beneficial effect has:

(1) the utility model discloses in, experimental apparatus's stable in structure can fix glass bottle down through first glass bottle fixed establishment, can fix last glass bottle through second glass bottle fixed establishment, has overcome the gravity influence of last glass bottle self, goes up glass bottle and the process that glass bottle can effectively simulate friction of each other down when the device operates, detects the glass bottle spraying.

(2) The utility model discloses in, the pressure of pressure drive mechanism output can receive accurate control, but pressure sensor accurate feedback pressure numerical value to adjustment pressure motor's operation.

(3) The utility model discloses in, go up the glass bottle and can be controlled by the accuracy with the angle between the glass bottle down, realize the rotation of glass bottle and at the optional position auto-lock down through the turbine speed reducer to implement the friction between different angular position to the glass bottle.

(4) The utility model discloses in, experimental apparatus reaches the purpose of adjusting glass bottle both ends clamping mechanism position through using T type nut for this device can be suitable for not equidimension bottle.

(5) The utility model discloses in, experimental apparatus realizes the control to glass bottle friction position through being provided with the steel ruler.

Drawings

FIG. 1 is a front view of embodiment 1;

FIG. 2 is a schematic diagram of the rubbing of the upper and lower glass bottles of example 1;

FIG. 3 is a schematic view of a T-nut in embodiment 1;

FIG. 4 is an oblique view of the second glass bottle fixing mechanism in embodiment 1;

FIG. 5 is a schematic view of the angle scale in embodiment 1;

FIG. 6 is a schematic view of an angle adjusting mechanism in embodiment 1;

fig. 7 is a schematic view of the silica gel pad in example 1.

In the figure, 1, a frame outer frame; 2. a workpiece platform; 3. putting a glass bottle; 4. discharging a glass bottle; 5. an electric actuator; 6. an angle adjusting mechanism; 61. a turbine speed reducer; 62. a handle; 7. a first vial securing mechanism; 8. a second vial securing mechanism; 81. an elbow clip; 82. a first V-shaped block; 83. a middle V-shaped block; 84. a second V-shaped block; 9. a pressure drive mechanism; 91. a pressure sensor; 92. an output shaft type electric actuator; 93. a pressure motor; 10. a spring; 11. a spring fixing seat; 12. a micro wire track; 13. a micro slider; 14. a chute; 15. a T-shaped nut; 16. an angle scale; 17. a pointer; 18. a steel ruler; 19. a silica gel pad; 20. a servo motor.

Detailed Description

The foregoing and other technical matters, features and effects of the present invention will be apparent from the following detailed description of the embodiments, which is to be read in connection with the accompanying drawings of fig. 1 to 7. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

Example 1: the utility model provides a glass bottle surface spraying protection friction experimental apparatus, as shown in figure 2, in actual production and transportation, the glass bottle can contact each other, takes place relative friction between the organic coating on its surface, this kind of friction has repeatability, and the angle between the glass bottle can change, this kind of mutual frictional motion can make the organic coating on glass bottle surface take place to damage and drop, and then make the glass bottle damaged, influence the use of glass bottle, this experimental apparatus's test object is glass bottle 3 and lower glass bottle 4.

As shown in fig. 1, 5 and 6, the bottom of the experimental device is a frame outer frame 1, a workpiece platform 2 is fixedly connected to the top of the frame outer frame 1, an electric actuator 5 is installed on one side of the top of the workpiece platform 2, a servo motor 20 is installed at one end of the electric actuator 5, an angle adjusting mechanism 6 is installed at the top of the electric actuator 5, a first glass bottle fixing mechanism 7 is installed at the top of the angle adjusting mechanism 6, a lower glass bottle 4 is fixed at the top of the first glass bottle fixing mechanism 7, and the angle adjusting mechanism 6 can perform reciprocating linear motion at the top of the electric actuator 5.

As shown in fig. 1, 2 and 6, the angle adjusting mechanism 6 is composed of a turbine speed reducer 61 and a handle 62, the handle 62 is installed at one end of the turbine speed reducer 61, the angle of the lower glass bottle 4 can be adjusted through the hand-operated turbine speed reducer 61, the turbine speed reducer 61 has self-locking capability, when the first glass bottle fixing mechanism 7 reaches a certain angle position during operation, the self-locking capability of the turbine speed reducer 61 can ensure that the position of the first glass bottle fixing mechanism 7 cannot deviate, the angle of the lower glass bottle 4 changes along with the angle of the first glass bottle fixing mechanism 7, and the lower glass bottle 4 can rub with the upper glass bottle 3 at different angle positions.

As shown in fig. 1, 2 and 5, a angle scale 16 is fixed between the first glass bottle fixing mechanism 7 and the turbine speed reducer 61, a pointer 17 is fixedly connected to a side wall of the first glass bottle fixing mechanism 7 and is arranged towards the angle scale 16, the pointer 17 is arranged towards the angle scale 16, and since the position of the upper glass bottle 3 is always horizontally arranged, when the angle of the lower glass bottle 4 changes, the scale position of the angle scale 16 pointed by the pointer 17 represents the size of the angle formed between the upper glass bottle 3 and the lower glass bottle 4.

As shown in fig. 1, 2 and 4, the top of the first glass bottle fixing mechanism 7 is provided with a second glass bottle fixing mechanism 8, the structure of the first glass bottle fixing mechanism 7 is the same as that of the second glass bottle fixing mechanism 8, because the upper glass bottle 3 needs to generate relative friction with the lower glass bottle 4, the upper glass bottle 3 and the second glass bottle fixing mechanism 8 are both in an inverted state, the upper glass bottle 3 is fixed at the bottom of the second glass bottle fixing mechanism 8, the second glass bottle fixing mechanism 8 is composed of an elbow clamp 81, a first V-shaped block 82, an intermediate V-shaped block 83 and a second V-shaped block 84, the elbow clamp 81 is arranged at the head and tail part of the upper glass bottle 3, the elbow clamp 81 can clamp and fix the head and tail ends of the upper glass bottle 3, the first V-shaped block 82 is arranged at the upper glass bottle 3, the intermediate V-shaped block 83 is arranged at one side of the first V-shaped block 82, the second V-shaped block 84 is arranged at one side of the intermediate V-shaped block 83, the first V-shaped block 82, the middle V-shaped block 83 and the second V-shaped block 84 are sequentially padded on the top of the upper glass bottle 3.

As shown in fig. 1, 2 and 4, two springs 10 are mounted on two sides of the middle V-shaped block 83, a spring 10 fixing seat is arranged on one side of each spring 10, a micro slider 13 is fixedly connected to the bottom of the middle V-shaped block 83, a micro wire rail 12 is arranged at the bottom of the micro slider 13, the middle V-shaped block 83 is freely opened and clasped through the matching of the micro slider 13 and the micro wire rail 12, and the middle V-shaped block 83 is driven to clasp the upper glass bottle 3 through the elastic force generated by the compression of the springs 10 so as to prevent the upper glass bottle 3 from falling down.

As shown in fig. 1, 2 and 3, two chutes 14 are symmetrically distributed at the bottoms of the elbow clamps 81 at the two ends, T-nuts 15 are respectively installed inside the chutes 14, the T-nuts 15 are arranged to enable the clamping parts at the two ends of the upper glass bottle 3 to have an adjustable function, and the T-nuts 15 are screwed after reaching a designated position to realize fixed locking, so that the experimental device can be used for testing glass bottles with different sizes, and the adjustable distance range of the T-nuts 15 is 0-270 mm.

As shown in fig. 1, 2 and 7, the silicone pads 19 are attached to the surfaces of the first V-shaped block 82, the middle V-shaped block 83 and the second V-shaped block 84, and since the glass bottle is a fragile article, the first V-shaped block 82, the middle V-shaped block 83 and the second V-shaped block 84 need to be in close contact with the upper glass bottle 3, and in order to prevent the upper glass bottle 3 from being damaged by the squeezing effect, the silicone pads 19 are arranged to increase the elasticity of the contact surface, thereby playing a role of buffering, and preventing the glass bottle from being cracked due to too large brittleness when contacting with these parts, and finally causing the glass bottle to be cracked and affecting the experimental result.

As shown in fig. 1, 2 and 4, a steel ruler 18 is mounted on the side wall of the second glass bottle fixing mechanism 8, and the steel ruler 18 is arranged to help determine the specific friction position between the upper glass bottle 3 and the lower glass bottle 4.

As shown in fig. 1, the second glass bottle fixing mechanism 8 is suspended from the top of the experimental apparatus by four vertically arranged rods, a pressure driving mechanism 9 is arranged at the top of the second 84 glass bottle mechanism, the pressure driving mechanism 9 is composed of a pressure sensor 91, an electric actuator 5 and a pressure motor 93, the pressure sensor 91 is arranged at the top of the second glass bottle fixing mechanism 8, an output shaft type electric actuator 92 is arranged at the top of the pressure sensor 91, the output shaft type electric actuator 92 is provided with the pressure motor 93, the output shaft type electric actuator 92 outputs torque force through the pressure motor 93, the torque force is converted into downward pressure through the output shaft type electric actuator 92, the downward pressure is accurately controlled through the pressure sensor 91, the pressure range is 0-100kg, and the accuracy can reach 1/1000 of the measuring range.

The utility model discloses an embodiment does, pressure motor 93 output torsion, turn into decurrent pressure through play axle formula electric actuator 92, but pressure sensor 91 accurate control output pressure's size, go up glass bottle 3 and 8 downstream of second glass bottle fixed establishment, the top of glass bottle 4 under the reacing, servo motor 20 drives turbine speed reducer 61, first glass bottle fixed establishment 7 carries out reciprocating linear motion at electric actuator 5 top with lower glass bottle 4, produce the friction during the motion between lower glass bottle 4 and the last glass bottle 3, effectively simulate the friction between the glass bottle spraying in the actual transportation, through shaking handle 62 adjustment down glass bottle 4 and last glass bottle 3 between the angle, can realize mutual friction between them under different angles.

The above description is provided for further details of the present invention with reference to the specific embodiments, which should not be construed as limiting the present invention; to the utility model discloses affiliated and relevant technical field's technical personnel are based on the utility model discloses under the technical scheme thinking prerequisite, the extension of doing and the replacement of operating method, data all should fall within the utility model discloses within the protection scope.

Claims (10)

1. The utility model provides a glass bottle surface coating protection friction experimental apparatus, includes frame (1), fixed connection in work piece platform (2) at frame (1) top, is used for last glass bottle (3) and lower glass bottle (4) of experiment test, its characterized in that: an electric actuator (5) is installed on one side of the top of the workpiece platform (2), a servo motor (20) is installed on one side of the electric actuator (5), an angle adjusting mechanism (6) is arranged on the top of the electric actuator (5), the angle adjusting mechanism (6) can be located on the top of the electric actuator (5) to perform reciprocating linear motion, a first glass bottle fixing mechanism (7) is arranged on the top of the angle adjusting mechanism (6), a lower glass bottle (4) is fixed on the top of the first glass bottle fixing mechanism (7), a second glass bottle fixing mechanism (8) is arranged on the top of the first glass bottle fixing mechanism (7), an upper glass bottle (3) can be fixed on the bottom of the second glass bottle fixing mechanism (8), and a pressure driving mechanism (9) is arranged on the top of the second glass bottle fixing mechanism (8), but pressure actuating mechanism (9) applys accurate control and direction pressure down to second glass bottle fixed establishment (8), thereby go up glass bottle (3) and paste the friction between the glass bottle spraying of simulation glass bottle is made linear motion to lower glass bottle (4) when tight glass bottle (4) down.

2. The glass bottle surface spraying protection friction experimental device according to claim 1, characterized in that: second glass bottle fixed establishment (8) including the elbow of locating glass bottle (3) both ends press from both sides (81), locate first V type piece (82) of last glass bottle (3) one side, locate middle V type piece (83) of first V type piece (82) one side and locate middle V type piece (83) and keep away from second V type piece (84) of first V type piece (82) one side, elbow presss from both sides (81) and implements fixedly to the end to end both ends of last glass bottle (3), first V type piece (82), middle V type piece (83) and second V type piece (84) are implemented fixedly to the body both ends of last glass bottle (3).

3. The glass bottle surface spraying protection friction experimental device according to claim 2, characterized in that: spring (10) are installed to one side of going up glass bottle (3) is kept away from to middle V type piece (83), spring (10) fixing base is installed to one side of V type piece (83) in the middle of keeping away from in spring (10), the bottom of spring (10) is equipped with miniature line rail (12), install between miniature line rail (12) and middle V type piece (83) and supply in the middle of V type piece (83) gliding miniature slider (13), the cooperation of middle V type piece (83) through miniature slider (13) and miniature line rail (12) is realized freely opening and is held tightly.

4. The glass bottle surface spraying protection friction experimental device according to claim 3, characterized in that: the pressure driving mechanism (9) comprises a pressure sensor (91) arranged at the top of the second glass bottle fixing mechanism (8), an output shaft type electric actuator (92) arranged at the top of the pressure sensor (91) and a pressure motor (93) arranged on the output shaft type electric actuator (92), the pressure range of the pressure sensor (91) can be controlled to be 0-100kg, and the precision can reach 1/1000 of the measuring range.

5. The glass bottle surface spraying protection friction experimental device according to claim 4, characterized in that: the structure of the first glass bottle fixing mechanism (7) is consistent with that of the second glass bottle fixing mechanism (8), and the lower glass bottle (4) is fixed on the top of the first glass bottle fixing mechanism (7) in the same way.

6. The glass bottle surface spraying protection friction experimental device according to claim 5, characterized in that: the angle adjusting mechanism (6) comprises a turbine speed reducer (61) arranged between the electric actuator (5) and the first glass bottle fixing mechanism (7) and a handle (62) arranged on one side of the turbine speed reducer (61).

7. The glass bottle surface spraying protection friction experimental device according to claim 6, characterized in that: symmetrical sliding grooves (14) are formed in the bottom of the elbow clamp (81), T-shaped nuts (15) used for adjusting the positions of the elbow clamp (81) are arranged inside the sliding grooves (14), and the adjustable distance range of the T-shaped nuts (15) is 0-270 mm.

8. The glass bottle surface spraying protection friction experimental device according to claim 7, characterized in that: the angle scale (16) is installed at the top of the turbine speed reducer (61), a pointer (17) is fixedly connected to the top, located on the angle scale (16), of one side of the first glass bottle fixing mechanism (7), and the turbine speed reducer (61) has self-locking capacity.

9. The glass bottle surface spraying protection friction experimental device according to claim 8, characterized in that: one side of the second glass bottle fixing mechanism (8) is fixedly connected with a steel ruler (18).

10. The glass bottle surface spraying protection friction experimental device according to claim 9, characterized in that: and silica gel pads (19) are attached to the surfaces of the first V-shaped block (82), the middle V-shaped block (83) and the second V-shaped block (84).

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