CN114577653B

CN114577653B - Wear-resisting check out test set of material for packaging printing

Info

Publication number: CN114577653B
Application number: CN202210330555.7A
Authority: CN
Inventors: 陈洁松
Original assignee: Nantong Baotian Packaging Technology Co ltd
Current assignee: Nantong Baotian Packaging Technology Co ltd
Priority date: 2022-03-31
Filing date: 2022-03-31
Publication date: 2023-06-02
Anticipated expiration: 2042-03-31
Also published as: CN114577653A

Abstract

The invention discloses wear-resistant detection equipment for materials for package printing, which comprises a detection table, wherein supporting legs are fixed at the bottom of the detection table, a plurality of brackets are fixed at the upper end of the detection table, suspensions are jointly fixed at the tops of the brackets, two mounting blocks are symmetrically fixed on the side wall of the detection table, mounting plates are connected with the side walls of the two mounting blocks through stable connection springs, a fixing clamp box is fixed on one side wall of the mounting plate, a rotary clamp box is rotatably connected with the side wall of the other mounting plate, and mounting grooves are formed in the upper ends of the fixing clamp box and the rotary clamp box in a penetrating mode. The advantages are that: the pressure applied to the materials is controllable, and the testing pressures of different materials can be quantitatively processed, so that a better detection effect is achieved, and after the rotating shaft is connected with external driving equipment, the detection of the tensioning force of the materials can be realized, so that the detection range of the equipment is increased.

Description

Wear-resisting check out test set of material for packaging printing

Technical Field

The invention relates to the technical field of printed matter processing detection, in particular to wear-resistant detection equipment for a material for packaging printing.

Background

The packaging printing material needs to be subjected to multiple performance detection before use, such as friction and temperature resistance, most of the current detection is inspected by a inspector through modes such as manual rubbing, actual working conditions are difficult to restore, inspection results are not accurate enough, the electronic elements of part of the detection equipment are used too much, the degree is high, the failure rate is increased, the whole detection equipment is inconvenient to use, the detection range is relatively small, the material indentation and other positions cannot be subjected to deep wear-resistant detection, the indentation position is easy to damage in the subsequent processing process, and the printing quality problem is caused.

Disclosure of Invention

The invention aims to solve the problems of small detection range and poor effect in the prior art, and provides wear-resistant detection equipment for a packaging printing material.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a wear-resisting check out test set of material for packing printing, includes the test table, the bottom of test table is fixed with the landing leg, the upper end of test table is fixed with a plurality of supports, and a plurality of the top of support is fixed with the suspension jointly, the lateral wall symmetry of test table is fixed with two installation pieces, two the lateral wall of installation piece all is connected with the mounting panel through steady connect the spring, one of them the lateral wall of mounting panel is fixed with the fixation clamp case, and another the lateral wall of mounting panel rotates and is connected with the gyration clamp case, the mounting groove has all been run through to set up in the upper end of fixation clamp case and gyration clamp case, the inner wall of fixation clamp case and gyration clamp case all is fixed with the adsorption block through the centre gripping spring connection grip block;

the upper end of the detection table is provided with a rotary groove, the inner wall of the rotary groove is fixedly provided with a rotary motor, the output shaft of the rotary motor is fixedly provided with a friction box, the bottom of the suspension is fixedly provided with a push rod, the bottom of the push rod is fixedly provided with a sliding sleeve, the extension end of the push rod is fixedly provided with an upper push plate, the bottom of the upper push plate is connected with a lower push plate through a compression spring, the upper push plate and the lower push plate are in sealed sliding connection with the inner wall of the sliding sleeve, the bottom of the lower push plate is fixedly provided with a connecting rod, the bottom of the connecting rod penetrates through the bottom of the sliding sleeve and is fixedly provided with a pressing plate, the bottom of the suspension is fixedly provided with a measuring box, the side wall of the sliding sleeve penetrates through a transfer pipe communicated with the inside of the measuring box, the transfer pipe and the lower push plate are in a sealed penetrating sliding connection, the inside of the friction box is provided with an adjusting mechanism, and the bottom of the detection table is provided with a crease friction mechanism.

Further, adjustment mechanism includes the slide with the inner wall sealing sliding connection of friction case, the upper end of slide is fixed with reset spring jointly with the top of friction case, the upper end of slide is fixed with the ejector pin, the upper end of ejector pin runs through the top of friction case and is fixed with the friction block, the inside of friction case is filled with electrorheological fluid, the inside of friction block is fixed with the heater strip.

Further, crease friction mechanism is including being fixed in the reciprocating motor of detecting the platform bottom, reciprocating motor's output shaft is fixed with reciprocating gear, two spouts have been seted up to the both sides wall symmetry of detecting the platform, two the inner wall of spout is all roll-connected with two gyro wheels, is close to two gyro wheels of mounting panel one side are fixed with two mounting panels respectively, and two other the main shaft of gyro wheel all is fixed with the accessory plate, one of them accessory plate is fixed with the lateral wall of fixation clamp case, another accessory plate is connected with the lateral wall rotation of gyration clamp case, two the bottom of mounting panel is fixed with reciprocating rack jointly, reciprocating rack meshes with reciprocating gear mutually, reciprocating gear is non-full tooth gear.

Further, the tip of gyration clamp case is fixed with the pivot, the pivot runs through the rotation with the mounting panel of corresponding position and is connected, the lateral wall cover of pivot is equipped with the stopper, the stopper is the electro-magnet.

The invention has the following advantages:

1. the pressure applied to the materials is controllable, and the testing pressure of different materials can be quantized, so that a better detection effect is achieved, and after the rotating shaft is connected with external driving equipment, the detection of the tensioning force of the materials can be realized, so that the detection range of the equipment is increased;

2. the heating wire is electrified, so that the heating wire generates heat, the temperature of the friction block is further increased, the friction block and the material after heating are subjected to friction detection, the temperature resistance of the material and the friction resistance at high temperature can be effectively detected, the detection range is increased, the friction block moves upwards, the tensioned material is jacked upwards, the material is further tensioned, and the tensioning degree of the material is finely adjusted;

3. the indentation position of the material is subjected to full friction detection in the reciprocating motion process, so that the wear resistance of the indentation position of the material is effectively detected, the detection range and the detection quality are improved, and the subsequent printing quality is ensured.

Drawings

Fig. 1 is a schematic diagram of a front structure of a wear-resistant detection device for packaging and printing materials according to the present invention;

fig. 2 is a schematic diagram of a back structure of a wear-resistant detection device for packaging and printing materials according to the present invention;

FIG. 3 is a schematic view of the structure of a friction box part in a wear-resistant inspection device for packaging and printing materials according to the present invention;

fig. 4 is a schematic diagram of the internal structure of a sliding sleeve in a wear-resistant detection device for packaging and printing materials;

fig. 5 is a schematic diagram of the internal structure of a fixed clamping box and a rotary clamping box in the wear-resistant detection device for packaging and printing materials;

fig. 6 is a schematic diagram of a front structure of a crease friction mechanism in a wear-resistant detection device for packaging and printing materials;

fig. 7 is a schematic view of the back structure of a crease friction mechanism in a wear-resistant detection device for packaging and printing materials;

fig. 8 is a schematic diagram of the internal structure of a friction box in the wear-resistant detection device for packaging and printing materials.

In the figure: the device comprises a detection table 1, a supporting leg 2, a supporting frame 3, a suspension 4, a mounting block 5, a stabilizing spring 6, a mounting plate 7, an auxiliary plate 71, a fixing clamp box 8, a rotary clamp box 9, a mounting groove 10, a clamping spring 11, a clamping plate 12, an adsorption block 13, a push rod 14, a sliding sleeve 15, a push plate 16, a pressing spring 17, a connecting rod 18, a pressing plate 19, a push plate 20, a measuring box 21, a transfer pipe 22, a sliding groove 23, a roller 24, a reciprocating motor 25, a reciprocating gear 26, a reciprocating rack 27, a limiting block 28, a rotating shaft 29, a return spring 30, a sliding plate 31, a push rod 32, a friction block 34, a rotary motor 35, a friction box 36 and a rotary groove 37.

Detailed Description

Examples

Referring to fig. 1-5, a wear-resistant detection device for materials for package printing comprises a detection table 1, wherein a supporting leg 2 is fixed at the bottom of the detection table 1, a plurality of brackets 3 are fixed at the upper end of the detection table 1, a suspension 4 is jointly fixed at the tops of the brackets 3, two mounting blocks 5 are symmetrically fixed on the side wall of the detection table 1, the side walls of the two mounting blocks 5 are connected with mounting plates 7 through stable connection springs 6, a fixed clamping box 8 is fixed on the side wall of one mounting plate 7, a rotary clamping box 9 is rotatably connected with the side wall of the other mounting plate 7, mounting grooves 10 are formed in the upper ends of the fixed clamping box 8 and the rotary clamping box 9 in a penetrating manner, clamping plates 12 are connected to the inner walls of the fixed clamping box 8 and the rotary clamping box 9 through clamping springs 11, and adsorption blocks 13 are fixedly arranged on the inner walls of the fixed clamping box 8 and the rotary clamping box 9, and the adsorption blocks 13 are electrified to enable the clamping plates 12 to attract the clamping plates to be magnetically attracted, so that materials are clamped and fixed by the clamping plates 12 and the adsorption blocks 13;

the upper end of the detection table 1 is provided with a rotary groove 37, the inner wall of the rotary groove 37 is fixedly provided with a rotary motor 35, the output shaft of the rotary motor 35 is fixedly provided with a friction box 36, the bottom of a suspension 4 is fixedly provided with a push rod 14, the bottom of the push rod 14 is fixedly provided with a sliding sleeve 15, the extension end of the push rod 14 is fixedly provided with an upper push plate 20, the bottom of the upper push plate 20 is connected with a lower push plate 16 through a compression spring 17, the upper push plate 20 and the lower push plate 16 are both in sealed sliding connection with the inner wall of the sliding sleeve 15, hydraulic oil is filled in the middle position of the upper push plate 20 and the lower push plate 16, when the distance between the upper push plate 20 and the lower push plate 16 is reduced, the hydraulic oil is extruded, the bottom of the lower push plate 16 is fixedly provided with a connecting rod 18, the bottom of the connecting rod 18 penetrates through the bottom of the sliding sleeve 15 and is fixedly provided with a pressing plate 19, the bottom of the suspension 4 is fixedly provided with a measuring box 21, the side wall of the sliding sleeve 15 is penetrated through a transfer tube 22 communicated with the inside of the measuring box 21, the transfer tube 22 is in sealed sliding connection with the lower push plate 16, the measuring box 21 is transparent, the inside water level change can be directly observed, the shrinkage of the compression spring 17 is judged, the compression force exerted on the pressing plate 19 is judged through the compression spring is further, the pressure of the compression plate 18 is controlled, when the pressure of the material is converted into the pressure is required to be stressed, and the friction force is different, and the detection table is provided with a detection mechanism for detecting the inside material with the friction mechanism 1;

a rotating shaft 29 is fixed at the end part of the rotary clamping box 9, the rotating shaft 29 is in penetrating and rotating connection with the mounting plate 7 at the corresponding position, a limiting block 28 is sleeved on the side wall of the rotating shaft 29, the limiting block 28 is an electromagnet, the rotating shaft 29 rotates to drive the rotary clamping box 9 to rotate, so that the material is rolled and tensioned, and the limiting block 28 is electrified and adsorbed to fix the rotary clamping box 9;

when the wear resistance of the packaging printing paper is detected, two ends of a material to be detected are respectively inserted into the fixed clamping box 8 and the rotary clamping box 9, then the two adsorption blocks 13 are started, so that the material is electrified and magnetically attracted to the clamping plate 12, the material is clamped by the adsorption blocks 13 and the clamping plate 12, the material is basically fixed, the rotary clamping box 9 can be rotated by rotating the rotating shaft 29, the redundant material is wound on the outer wall of the rotary clamping box 9, the material is effectively tensioned, the rotating shaft 29 is connected with external driving equipment, the detection of the tensioning force of the material can be realized, the detection range of the equipment is increased, after the material is tensioned, the limiting block 28 can be electrified, the material is magnetically attracted to the surface of the mounting plate 7, the limit of the rotation of the rotating shaft 29 is reached, the material is ensured to be in a continuous tensioning state in the subsequent detection process, and the stability of the subsequent detection state is ensured;

after the material is fixed, the push rod 14 is started to extend so as to push the upper push plate 20 to move downwards, so that the upper push plate 20, the compression spring 17 and the lower push plate 16 synchronously move until the pressing plate 19 is in contact with the material, the material is clamped by the pressing plate 19 and the friction box 36, the push rod 14 continuously extends so that the upper push plate 20 compresses the compression spring 17 to move downwards, and then liquid between the upper push plate 20 and the lower push plate 16 is compressed, and is further transferred into the measuring box 21 through the transfer pipe 22 and accumulated in the measuring box 21;

the compression shrinkage of the compression spring 17 synchronously acts on the pressing plate 19, so that the pressure applied to the material is increased, the friction force of the movement of the material is increased, the pressure applied to the material can be obtained by combining the compression amount of the compression spring 17 and the stiffness coefficient of the compression spring 17, and the compression amount of the compression spring 17 can be obtained by the discharged liquid amount, so that the pressure applied to the material is controllable, and the test pressure of different materials can be quantized, so that a better detection effect is achieved;

then, the rotary motor 35 is started, so that the friction box 36 is driven by the rotary motor 35 to rotate, the pressed material and the rotating friction box 36 form relative movement, friction detection processing is completed, rotating friction is stopped after a period of time, the surface state of the material is compared and observed, and effective detection of the friction performance of the material is realized.

Referring to fig. 8, the adjusting mechanism includes a sliding plate 31 in sealed sliding connection with an inner wall of a friction box 36, a return spring 30 is fixed at an upper end of the sliding plate 31 and a top of the friction box 36 together, a push rod 32 is fixed at an upper end of the sliding plate 31, an upper end of the push rod 32 penetrates through the top of the friction box 36 and is fixed with a friction block 33, electrorheological fluid is filled in the friction box 36, the electrorheological fluid is solidified and expands to a certain extent after being electrified, a heating wire 34 is fixed in the friction block 33, high-temperature friction detection is realized by heat generation after being electrified, and materials are arranged at an upper end of the friction block 33 after the friction block 33 is installed;

when the abrasion resistance is detected, the heating wire 34 can be electrified, so that the heating wire 34 generates heat, the temperature of the friction block 33 is further increased, the heated friction block 33 and the material are subjected to friction detection, the temperature resistance of the material and the abrasion resistance at high temperature can be effectively detected, the detection range is increased, meanwhile, the electrorheological fluid is electrified, the electrorheological fluid is solidified and expanded, the sliding plate 31 can be pushed to move upwards, the friction block 33 is further moved upwards, the tensioned material is jacked upwards, the tensioning degree of the material is further tensioned, fine adjustment is carried out on the tensioning degree of the material, the compacting position of the material is raised, indentation can be better generated, and subsequent detection is facilitated.

Referring to fig. 6-8, the crease friction mechanism comprises a reciprocating motor 25 fixed at the bottom of a detection table 1, a reciprocating gear 26 is fixed on an output shaft of the reciprocating motor 25, two sliding grooves 23 are symmetrically formed on two side walls of the detection table 1, two rolling wheels 24 are connected to inner walls of the two sliding grooves 23 in a rolling way, two rolling wheels 24 close to one side of a mounting plate 7 are respectively fixed with the two mounting plates 7, auxiliary plates 71 are fixed on main shafts of the other two rolling wheels 24, one auxiliary plate 71 is fixed with the side wall of a fixed clamp box 8, the other auxiliary plate 71 is rotationally connected with the side wall of a rotary clamp box 9, a reciprocating rack 27 is jointly fixed at the bottom of the two mounting plates 7, the reciprocating rack 27 is meshed with the reciprocating gear 26, the reciprocating gear 26 is a non-full-tooth gear, namely, teeth lack of the surface of the reciprocating gear 26 are meshed with the reciprocating rack 27 in an intermittent way, the existence of the auxiliary plates 71 can ensure the stability of the reciprocating movement of equipment, the abrasion of the equipment is reduced on the side of the rolling wheels 24, so that the equipment is more smooth and durable in running, the equipment is pressed under the wing clamping of the pressing plates 19 and the friction blocks 33, the indentation naturally occurs at the edge positions of the material, the indentation is also formed on the surface of the material, and the surface of the abrasion-resistant material is also important to be reduced in the abrasion-resistant position;

after the plane friction detection is finished, the push rod 14 can be reset, the power-on strength of electrorheological fluid is increased, the friction block 33 is greatly moved upwards, materials are jacked up, then the reciprocating motor 25 is started, the reciprocating gear 26 continuously rotates under the driving of the reciprocating motor 25, the surface gear of the reciprocating gear 26 is incomplete, and therefore the intermittent meshing with the reciprocating rack 27 in the rotating process can drive the reciprocating rack 27 to transversely move when meshing, so that the mounting plate 7 transversely moves, and the mounting plate 7 and the reciprocating rack 27 can be reset under the elastic force of the stable connection spring 6 when in a non-meshing state, so that the mounting plate 7 can transversely move in a reciprocating manner, the fixed clamp box 8, the rotating clamp box 9 and materials clamped in the middle can transversely move in a reciprocating manner, the materials and the surfaces of the friction block 33 can effectively reciprocate transversely move, the indentation position of the materials can be subjected to full friction detection in the reciprocating motion process, the abrasion resistance of the indentation position of the materials can be effectively detected, the detection range and the detection quality of the abrasion resistance of the indentation position of the materials can be improved, and the subsequent printing quality can be guaranteed.

Claims

1. The utility model provides a wear-resisting check out test set of material for packing printing, includes detection platform (1), its characterized in that, the bottom of detection platform (1) is fixed with landing leg (2), the upper end of detection platform (1) is fixed with a plurality of supports (3), and a plurality of the top of support (3) is fixed with suspension (4) jointly, the lateral wall symmetry of detection platform (1) is fixed with two installation piece (5), two the lateral wall of installation piece (5) is all connected with mounting panel (7) through steady joint spring (6), one of them the lateral wall of mounting panel (7) is fixed with fixation clamp case (8), and the other the lateral wall rotation of mounting panel (7) is connected with gyration clamp case (9), the upper end of fixation clamp case (8) and gyration clamp case (9) all runs through and has seted up mounting groove (10), the inner wall of fixation clamp case (8) and gyration clamp case (9) all is connected with grip block (12) through grip spring (11), the inner wall of fixation clamp case (8) and gyration clamp case (9) all is fixed with adsorption block (13);

the automatic detection device is characterized in that a rotary groove (37) is formed in the upper end of the detection table (1), a rotary motor (35) is fixed on the inner wall of the rotary groove (37), a friction box (36) is fixed on an output shaft of the rotary motor (35), a push rod (14) is fixed on the bottom of a suspension bracket (4), a sliding sleeve (15) is fixed on the bottom of the push rod (14), an upper push plate (20) is fixed on the extension end of the push rod (14), a lower push plate (16) is connected to the bottom of the upper push plate (20) through a compression spring (17), the upper push plate (20) and the lower push plate (16) are in sealing sliding connection with the inner wall of the sliding sleeve (15), a connecting rod (18) is fixed on the bottom of the lower push plate (16), a measuring box (21) is fixed on the bottom of the suspension bracket (4), a transfer tube (22) communicated with the inside of the measuring box (21) is inserted and penetrated through the side wall of the sliding sleeve (15), a crease mechanism (36) is arranged on the bottom of the lower push plate (16), and a friction mechanism (1) is arranged inside the detection table;

after the material is fixed, a push rod (14) is started to extend so as to push an upper push plate (20) to move downwards, so that the upper push plate (20), a compression spring (17) and a lower push plate (16) move synchronously until a pressing plate (19) is in contact with the material, the material is clamped by the pressing plate (19) and a friction box (36), the push rod (14) extends continuously, so that the upper push plate (20) compresses the compression spring (17) to move downwards, liquid between the upper push plate (20) and the lower push plate (16) is compressed, and then the liquid is transferred into a measuring box (21) through a transfer pipe (22) and accumulated in the measuring box (21);

the adjusting mechanism comprises a sliding plate (31) which is in sealing sliding connection with the inner wall of a friction box (36), a return spring (30) is fixed at the upper end of the sliding plate (31) and the top of the friction box (36) together, a push rod (32) is fixed at the upper end of the sliding plate (31), the upper end of the push rod (32) penetrates through the top of the friction box (36) and is fixedly provided with a friction block (33), electrorheological fluid is filled in the friction box (36), and a heating wire (34) is fixed in the friction block (33); the electrorheological fluid is solidified and expands to a certain extent after being electrified, a heating wire (34) is fixed in the friction block (33), high-temperature friction detection is realized by heat generation after the electrification, and the friction block (33) is arranged and is rubbed by a material positioned at the upper end of the friction block (33).

2. The wear-resistant detection device for packaging and printing materials according to claim 1, wherein the crease friction mechanism comprises a reciprocating motor (25) fixed at the bottom of a detection table (1), an output shaft of the reciprocating motor (25) is fixedly provided with a reciprocating gear (26), two sliding grooves (23) are symmetrically formed in two side walls of the detection table (1), two rollers (24) are connected to the inner walls of the two sliding grooves (23) in a rolling manner, two rollers (24) close to one side of the mounting plate (7) are respectively fixed with the two mounting plates (7), main shafts of the other two rollers (24) are respectively fixed with an auxiliary plate (71), one auxiliary plate (71) is fixed with the side wall of a fixed clamping box (8), the other auxiliary plate (71) is rotationally connected with the side wall of a rotary clamping box (9), reciprocating racks (27) are jointly fixed at the bottoms of the two mounting plates (7), the reciprocating gears (27) are meshed with the reciprocating gears (26), and the reciprocating gears (26) are non-full-tooth racks.

3. The wear-resistant detection device for packaging and printing materials according to claim 1, wherein a rotating shaft (29) is fixed at the end part of the rotary clamping box (9), the rotating shaft (29) is in penetrating and rotating connection with the mounting plate (7) at the corresponding position, a limiting block (28) is sleeved on the side wall of the rotating shaft (29), and the limiting block (28) is an electromagnet.