CN219648980U - Positioning tool of tensile test sample laser marking machine - Google Patents

Abstract

The utility model discloses a positioning tool of a laser marking machine for a tensile test sample, which comprises a frame component and an operation panel, wherein compared with the existing positioning tool of a common laser marking machine, the positioning tool of the laser marking machine for the tensile test sample is used for fixing a marking plate, carrying the marking plate through a carrying component, realizing forward and backward movement of feeding through movement of a transverse cylinder and movement of a longitudinal cylinder, further controlling front and back positions and heights of materials, realizing accurate positioning of the materials, realizing automatic feeding, and simultaneously realizing marking of the marking plate through a laser marking component, so that the positioning tool is simpler, simpler and easier to understand and has the advantages of automation, enabling a lower supporting block to contact the ground through a shrinkage trundle, enabling a movable bracket to be opened through an extrusion spring, driving an auxiliary supporting block to be opened in a sliding way so as to enlarge the occupied area, enabling a workpiece to reach a more stable effect during processing, and reducing displacement generated by equipment during working.

Description

Positioning tool of tensile test sample laser marking machine

Technical Field

The utility model relates to the technical field of laser marking machines, in particular to a positioning tool of a laser marking machine for a tensile test sample.

Background

Laser marking machines are used to mark surfaces of a variety of substances with a laser beam. The effect of marking is that deep layer substances are exposed through evaporation of surface layer substances, so that exquisite patterns, trademarks and characters are carved, and the laser marking machine is mainly divided into a C02 laser marking machine, a semiconductor laser marking machine, an optical fiber laser marking machine and a Y tensile test sample laser marking machine positioning tool G laser marking machine, and the laser marking machine is mainly applied to occasions requiring finer and higher precision. The laser marking device is applied to electronic components, integrated Circuits (ICs), electrical appliances, mobile phone communication, hardware, tool accessories, precise instruments, glasses clocks, jewelry accessories, automobile accessories, plastic keys, building materials and PVC pipes, wherein all used laser marking, such as a steel piston, can be used for marking products at specific positions outside the steel piston after final detection is finished by using a laser marking machine so as to identify the types, production information, customer information and the like of the products, and the products are produced and traced later.

The utility model discloses a positioning tool of a laser marking machine, which comprises a guide bottom plate, a movable disc and a limiting piece arranged at one end of the guide bottom plate in the length direction, wherein the application number of the limiting piece is CN 201921624006.0; the guide bottom plate is provided with a channel extending along the length direction of the guide bottom plate, and two sides of the channel are provided with bottom plate fixing holes; the positioning tool of the laser marking machine provided by the utility model has the advantages that the structure is simple, the manufacturing cost is low, the positioning of a piston workpiece is convenient and efficient, but the automatic positioning and automatic feeding of a product cannot be realized, and therefore, the positioning tool of the laser marking machine for the tensile test sample is provided for solving the problems.

Therefore, in view of the above, the present utility model provides a positioning tool for a laser marking machine for tensile test samples, which is improved to solve the existing structural shortcomings.

Disclosure of Invention

The utility model aims to provide a positioning tool of a laser marking machine for a tensile test sample, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a tensile test sample laser marking machine location frock, includes frame subassembly and operating panel, frame subassembly terminal surface electric connection has operating panel, frame subassembly terminal surface is connected with the sliding door subassembly, the sliding door subassembly includes the sliding door panel beating, the sliding door panel beating terminal surface is connected with the handle, frame subassembly up end is connected with the operation panel subassembly, operation panel subassembly up end is connected with swage subassembly, swage subassembly terminal surface transmission is connected with transport subassembly, transport subassembly terminal surface transmission is connected with laser marking subassembly, laser marking subassembly terminal surface transmission is connected with the finished product and places the subassembly, operating panel includes the operation display screen, operation display screen terminal surface electric connection has operating button, the front end at frame front end housing shell, frame front end housing shell terminal surface is connected with frame rear end housing, frame rear end housing lower extreme face is connected with the truckle, and the left side fixedly connected with upper supporting shoe to evenly distributed all around has the spout, by spring one parcel in the middle of the supporting shoe lower extreme, and spring lower extreme and lower supporting shoe laminating and lower supporting shoe symmetrical support bracket setting up all around, movable support bracket setting up the movable support.

As the preferable technical scheme, the material pressing assembly comprises a material pressing cylinder, the operation display screen is electrically connected with the material pressing cylinder, the lower end surface of the material pressing cylinder is connected with a material pressing tool, and the material pressing cylinder in the material pressing assembly controls the height to fix the marking plate.

As the preferred technical scheme, transport subassembly includes transport mechanism, operation display screen electric connection has transport mechanism, transport mechanism end face is connected with carries the movable plate, and transport subassembly carries the marking board, removes the fore-and-aft movement that realizes the material loading through horizontal cylinder and vertical cylinder, and then controls the position and the height around the material, realizes the accurate location of material, has realized automatic feeding simultaneously.

As the preferable technical scheme, the laser marking assembly comprises laser equipment, the operation display screen is electrically connected with the laser equipment, the lower end surface of the laser equipment is connected with a laser fixing plate, and the laser marking assembly marks the marking plate.

As preferred technical scheme, the finished product is placed the subassembly and is placed the support panel beating including placing, place and support panel beating up end and be connected with the finished product and place the panel beating, and be provided with the mantle layer in the panel beating to mantle layer lower extreme bonds there is the backup pad, thereby the mantle layer on the panel beating can be reduced the collision to reduce the mar to the finished product is placed to the finished product.

As the preferred technical scheme, backup pad lower extreme fixedly connected with two stoppers, and the stopper outer lane is provided with the spring to the stopper coincides with the spring center pin mutually, can be along with the extrusion spring second of weight after having marking board to get into, thereby make the stopper decline and reduce the height that the work piece falls down.

As a preferable technical scheme, the operation panel assembly comprises an operation panel large plate, and an operation panel handle is connected to the end face of the operation panel large plate.

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

1. according to the utility model, the whole equipment is controlled by using the operation panel, so that the height of the pressing cylinder in the pressing assembly is controlled, the marking plate is fixed, the marking plate is carried by the carrying assembly, the front and back movement of the material is realized by the movement of the transverse cylinder and the movement of the longitudinal cylinder, the front and back positions and the height of the material are further controlled, the accurate positioning of the material is realized, meanwhile, the automatic feeding is realized, and the marking plate is marked by the laser marking assembly, so that the marking device is simpler, simpler and easier to understand, has high integration and is also automatic;

2. according to the utility model, the lower supporting block is contacted with the ground by contracting the casters, the movable bracket is opened by extruding the spring I, and the auxiliary supporting block is driven to slide and open in the sliding groove, so that the occupied area is enlarged, the workpiece can reach a more stable effect during processing, and the displacement of equipment during working is reduced;

3. according to the utility model, the marking plate after marking is placed through the finished product placing component, the marking plate falls into the finished product placing sheet metal, firstly, the soft film layer on the finished product placing sheet metal can reduce collision so as to reduce scratches, meanwhile, the limiting block is extruded by the second spring in the finished product placing sheet metal to enable the plane in the finished product placing sheet metal to rise, and the limiting block is lowered along with the extrusion spring of the second weight after the marking plate enters, so that the falling height of the workpiece is reduced, and the abrasion of the produced workpiece is reduced, so that the quality of the product is improved.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present utility model;

FIG. 2 is a schematic diagram of a front view structure of the present utility model;

FIG. 3 is a schematic view of the enlarged structure of FIG. 2A according to the present utility model;

fig. 4 is an enlarged view of the structure B of fig. 2 according to the present utility model.

In the figure: 1. a frame assembly; 11. a housing at the front end of the frame; 12. a housing at the rear end of the frame; 13. casters; 131. an upper support block; 132. a chute; 133. a first spring; 134. a lower support block; 135. a movable bracket; 136. an auxiliary supporting block; 2. an operation panel; 21. operating a display screen; 22. operating a button; 3. a sliding door assembly; 31. sheet metal of sliding door; 32. a handle; 4. a pressing assembly; 41. a material pressing cylinder; 42. pressing a material tool; 5. a handling assembly; 51. a carrying mechanism; 52. carrying a moving plate; 6. a laser inscription assembly; 61. a laser device; 62. a laser fixing plate; 7. a finished product placement component; 71. placing and supporting metal plates; 72. placing a metal plate on a finished product; 73. a soft film layer; 74. a support plate; 75. a limiting block; 76. a second spring; 8. an operator station assembly; 81. an operation table large plate; 82. an operator's station handle.

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.

As shown in fig. 1-3, a positioning tool of a tensile test sample laser marking machine comprises a frame component 1 and an operation panel 2, wherein the end face of the frame component 1 is electrically connected with the operation panel 2, the end face of the frame component 1 is connected with a sliding door component 3, the sliding door component 3 comprises a sliding door metal plate 31, the end face of the sliding door metal plate 31 is connected with a handle 32, the upper end face of the frame component 1 is connected with an operation table component 8, the upper end face of the operation table component 8 is connected with a pressing component 4, the end face of the pressing component 4 is in transmission connection with a carrying component 5, the end face of the carrying component 5 is in transmission connection with a laser marking component 6, and the end face of the laser marking component 6 is in transmission connection with a finished product placing component 7; the operation panel 2 comprises an operation display screen 21, the end face of the operation display screen 21 is electrically connected with an operation button 22, the operation display screen 21 is arranged at the front end of a frame front end housing 11, the end face of the frame front end housing 11 is connected with a frame rear end housing 12, the lower end face of the frame rear end housing 12 is connected with a caster wheel 13, the left side of the caster wheel 13 is fixedly connected with an upper supporting block 131, sliding grooves 132 are uniformly distributed around the lower end of the upper supporting block 131, the middle of the lower end of the supporting block 131 is wrapped by a first spring 133, the lower end of the first spring 133 is attached to a lower supporting block 134, movable brackets 135 are symmetrically arranged around the lower supporting block 134, and one end of each movable bracket 135 is fixedly connected with an auxiliary supporting block 136.

In this embodiment, make lower supporting shoe 134 contact ground through shrink truckle 13, extrusion spring one 133 makes movable support 135 open, thereby drive auxiliary stay 136 and slide at spout 132 and open and enlarge area, thereby make the work piece reach more stable effect when processing, the displacement that the equipment produced when the during operation has been reduced, through using operating panel 1 to control whole equipment, thereby make the swage cylinder 41 control height in the swage subassembly 4, will beat the mark board and fix, carry the mark board through handling assembly 5, move the fore-and-aft movement of realizing the material through horizontal cylinder and vertical cylinder removal, and then control the position and the height around the material, realize the accurate location of material, automatic feeding has been realized simultaneously, carry out the mark board through laser marking subassembly 6 and carve, thereby be simpler, simply understand, it is high to integrate, and have the automation concurrently.

As shown in fig. 4, the pressing assembly 4 includes a pressing cylinder 41, the operation display screen 21 is electrically connected with the pressing cylinder 41, the lower end surface of the pressing cylinder 41 is connected with a pressing tool 42, the carrying assembly 5 includes a carrying mechanism 51, the operation display screen 21 is electrically connected with the carrying mechanism 51, the end surface of the carrying mechanism 51 is connected with a carrying moving plate 52, the laser marking assembly 6 includes a laser device 61, the operation display screen 21 is electrically connected with the laser device 61, the lower end surface of the laser device 61 is connected with a laser fixing plate 62, the finished product placing assembly 7 includes a placing support sheet metal 71, the upper end surface of the placing support sheet metal 71 is connected with a finished product placing sheet metal 72, a soft film layer 73 is arranged in the sheet metal 72, a supporting plate 74 is adhered to the lower end of the soft film layer 73, the lower end of the supporting plate 74 is fixedly connected with two limiting blocks 75, the outer ring of the limiting blocks 75 is provided with springs 76, the limiting blocks 75 are coincident with the central shafts of the springs 76, the operating table assembly 8 includes an operating table large plate 81, and the end surface of the operating table large plate 81 is connected with an operating table handle 82.

In this embodiment, place the subassembly through the finished product and place the marking board after the marking is accomplished, in the marking board falls into the finished product and places the panel beating 72, thereby the soft membrane layer 73 on the panel beating 72 can reduce the collision at first, thereby reduce the mar, simultaneously make stopper 75 extrusion backup pad 74 make the plane in the panel beating 72 rise in the finished product place the panel beating through the spring second 76 in the panel beating 72, can be along with extrusion spring second 76 of weight after there is the marking board to get into, thereby make the stopper decline and reduce the height that the work piece falls down, thereby reach the wearing and tearing that reduce the production work piece improve the quality of producing the product.

Working principle: when the tensile test sample laser marking machine positioning tool is used, firstly, the front end housing 11 of the machine frame and the rear end housing 12 of the machine frame are fixed, welded connection is used, the whole structure is more stable, the lower trundles 13 use two directional wheels and two universal wheels and are provided with brakes, so that the movement is easier, the operation is more humanized, the operation display screen 21 is electrically controlled through the operation buttons 22, the safety parameters are adjusted when the whole equipment runs, the safety of operators is ensured, the carrying mechanism 51 is provided with a transverse moving cylinder and a longitudinal moving cylinder, the end face of the carrying mechanism is fixedly provided with a carrying moving plate 52, the end face of the transverse moving cylinder is provided with a pneumatic sucker, so that the automatic sucking marking plate is placed, the operation is simple, the use process is provided with an automatic grabbing function, the whole equipment is controlled through the use of the operation panel 2, thereby the height of the pressing cylinder 41 in the pressing assembly 4 is controlled, the marking plate is fixed, the marking plate is carried through the carrying assembly 5, the front and back movement of the feeding is realized through the movement of the transverse cylinder and the movement of the longitudinal cylinder, the marking plate is marked through the laser marking assembly 6, and the device is simpler and easier to understand, has high integration and automation, places the marking plate after the marking is finished through the finished product placing assembly 7, people only need to replace the finished product placing sheet metal 72, the machine position is possibly unreasonable in the use process, the device can move through the lower truckle 13, the operation desk handle 82 is pushed to stack, the efficiency is improved, the labor cost is reduced, the marking plate after the marking is finished through the finished product placing assembly is placed, the marking plate falls into the finished product placing sheet metal 72, firstly, the soft film 73 on the metal plate 72 is placed in the finished product, the collision is reduced, meanwhile, the second spring 76 in the metal plate 72 is placed in the finished product, the limiting block 75 is used for extruding the supporting plate 74, so that the plane in the metal plate 72 is lifted, the second spring 76 is extruded along with the weight after the marking plate enters, the limiting block is lowered, the falling height of a workpiece is reduced, the abrasion of the produced workpiece is reduced, the quality of the produced product is improved, the lower supporting block 134 is enabled to be contacted with the ground through the shrinkage castor 13, the first spring 133 is used for enabling the movable support 135 to be opened, the auxiliary supporting block 136 is driven to be opened in a sliding way in the sliding groove 132, the occupied area is enlarged, the workpiece is enabled to reach a more stable effect during processing, and the displacement generated during working of the device is reduced, namely the working principle of the positioning tool of the laser marking machine for the tensile test sample.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a tensile test sample laser marking machine location frock, includes frame subassembly (1) and operating panel (2), its characterized in that, frame subassembly (1) terminal surface electric connection has operating panel (2), frame subassembly (1) terminal surface is connected with sliding door subassembly (3), sliding door subassembly (3) include sliding door panel beating (31), sliding door panel beating (31) terminal surface is connected with handle (32), frame subassembly (1) up end is connected with operation panel subassembly (8), operation panel subassembly (8) up end is connected with swage subassembly (4), swage subassembly (4) terminal surface transmission is connected with transport subassembly (5), transport subassembly (5) terminal surface transmission is connected with laser marking subassembly (6), laser marking subassembly (6) terminal surface transmission is connected with finished product and places subassembly (7).

The operation panel (2) comprises an operation display screen (21), an operation button (22) is electrically connected to the end face of the operation display screen (21), the operation display screen (21) is installed at the front end of a frame front end housing (11), the end face of the frame front end housing (11) is connected with a frame rear end housing (12), the lower end face of the frame rear end housing (12) is connected with a truckle (13), the left side of the truckle (13) is fixedly connected with an upper supporting block (131), sliding grooves (132) are uniformly distributed on the periphery of the lower end of the upper supporting block (131), the middle of the lower end of the supporting block (131) is wrapped by a first spring (133), the lower end of the first spring (133) is attached to a lower supporting block (134), movable supports (135) are symmetrically arranged on the periphery of the lower supporting block (134), and one end of each movable support (135) is fixedly connected with an auxiliary supporting block (136).

2. The positioning tool of the tensile test sample laser marking machine according to claim 1, wherein the material pressing assembly (4) comprises a material pressing cylinder (41), the operation display screen (21) is electrically connected with the material pressing cylinder (41), and the lower end surface of the material pressing cylinder (41) is connected with a material pressing tool (42).

3. The positioning tool of the tensile test sample laser marking machine according to claim 1, wherein the carrying assembly (5) comprises a carrying mechanism (51), the operation display screen (21) is electrically connected with the carrying mechanism (51), and the end face of the carrying mechanism (51) is connected with a carrying moving plate (52).

4. The positioning tool of the tensile test sample laser marking machine according to claim 1, wherein the laser marking assembly (6) comprises a laser device (61), the operation display screen (21) is electrically connected with the laser device (61), and a laser fixing plate (62) is connected to the lower end face of the laser device (61).

5. The positioning tool of the tensile test sample laser marking machine according to claim 1, wherein the finished product placing component (7) comprises a placing support metal plate (71), a finished product placing metal plate (72), a soft film layer (73) and a supporting plate (74), the upper end face of the placing support metal plate (71) is connected with the finished product placing metal plate (72), the soft film layer (73) is arranged in the metal plate (72), and the supporting plate (74) is adhered to the lower end of the soft film layer (73).

6. The positioning tool for the tensile test sample laser marking machine according to claim 5, wherein two limiting blocks (75) are fixedly connected to the lower end of the supporting plate (74), a spring (76) is arranged on the outer ring of each limiting block (75), and the limiting blocks (75) are coincident with the central shaft of the spring (76).

7. The positioning tool of the tensile test sample laser marking machine according to claim 1, wherein the operation table assembly (8) comprises an operation table large plate (81), and an operation table handle (82) is connected to the end face of the operation table large plate (81).