CN219191772U - Feeding and discharging assembly of engraving machine - Google Patents

Abstract

The utility model provides a feeding and discharging assembly of an engraving machine, which relates to the technical field of engraving machines and comprises a supporting assembly and a recycling sleeve, wherein the recycling sleeve is arranged on the inner side of the top of the supporting assembly, and a clamping and conveying mechanism is arranged on the outer side of the top of the supporting assembly; the utility model mainly utilizes the arrangement of the upper screw rod box at the side of the top of the supporting component, and the screw thread block and the lifting ring seat can be operated to the processing position and the feeding and discharging position according to the processing requirement by the operation of the driving screw rod in the screw rod box.

Description

Feeding and discharging assembly of engraving machine

Technical Field

The utility model relates to the technical field of engraving machines, in particular to an engraving machine feeding and discharging assembly.

Background

The carving is in principle drilling and milling combined processing, multiple data input modes of the carving machine are free-cutting according to requirements, the computer carving machine is provided with two types of laser carving and mechanical carving, and the two types of the carving machine are divided into high power and low power, and the carving machine is very wide in application range, so that the most suitable application range of the carving machine needs to be matched, and when the carving machine is used, materials need to enter a processing place, and the material feeding and discharging mechanism needs to be used for running.

When the existing feeding and discharging assembly is used, a clamping device is generally utilized, a conveying belt, an electric screw rod or a hoisting device is adopted to convey raw materials to be engraved to an engraving processing position, and as disclosed in application number CN202111606650.7, an automatic feeding and discharging advertisement engraving machine relates to the field of engraving machines and is technically characterized in that the automatic feeding and discharging advertisement engraving machine is used for automatically feeding and discharging; however, in the above technology, the raw materials are conveyed to the processing place through the vacuum chuck, but the vacuum chuck is only suitable for light, small and flat raw materials, and cannot be suitable for conveying various raw materials, so the utility model provides a feeding and discharging assembly of an engraving machine to solve the problems in the prior art.

Disclosure of Invention

According to the engraving machine feeding and discharging assembly, the upper screw rod box is arranged on the side of the top of the supporting assembly, the screw thread block and the lifting ring seat can be enabled to move to the machining position and the feeding and discharging position according to machining requirements through the operation of the driving screw rod in the screw rod box, and the air cylinder support is arranged on the side of the rotary bearing table, the clamping plate is connected with the inner side of the bolt connecting plate connected with the output end of the driving air cylinder through the bolt, so that raw materials can be tightly clamped under the action of the rotary bearing table and the clamping plate, the contact surface of the clamping plate is large, the self-adaptive lamination is achieved according to the size structure of the raw materials, and the effect of flexibly feeding and discharging various raw materials is achieved.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the feeding and discharging assembly of the engraving machine comprises a supporting assembly and a recycling sleeve, wherein the recycling sleeve is arranged on the inner side of the top of the supporting assembly, and a clamping and conveying mechanism is arranged on the outer side of the top of the supporting assembly;

the recovery suite comprises a top supporting plate, clamping strips, a box body, a pull rod, carrying strips and an electrostatic net, wherein the top supporting plate is arranged on the inner side of the top of the supporting assembly, the inner side of the top supporting plate is connected with the box body in a clamping manner through the clamping strips, the pull rods assembled by bolts are arranged at the two ends of the box body, the carrying strips in insertion connection are arranged on the top side of the box body, and the electrostatic net is arranged on the inner side of the bottom of the box body.

As a further technical scheme, the electrostatic net is in a grid-shaped structure, the box body is in an empty box-shaped structure, and the carrying strips and the electrostatic net are distributed in parallel.

As a further technical scheme, the supporting component comprises a pressure reducing block, a shock absorber and an upper bracket, wherein the shock absorber is arranged on the top side of the pressure reducing block, and the upper bracket is arranged on the top side of the shock absorber.

As a further technical scheme, centre gripping transport mechanism includes lead screw box, drive lead screw, screw thread piece, rings seat, first driving motor, first swing seat, side even seat, second swing seat, bearing housing, second driving motor, rotatory plummer, cylinder support, drive cylinder, bolted connection board, grip block, the lead screw box sets up the outside side of going up the bracket, be provided with the drive lead screw on the lead screw box, just the outside side of drive lead screw is provided with screw thread piece of threaded connection, the outer end top of screw thread piece is provided with the rings seat of pegging graft.

As a further technical scheme, the interior avris of rings seat is provided with the first swing seat of connecting first driving motor output, just the outside of first swing seat is provided with the side of bolt assembly and links the seat, just the interior avris of side even seat is provided with the second swing seat, the inboard of second swing seat is provided with the bearing housing, just the top of bearing housing is provided with the rotatory plummer of connecting the second driving motor output.

As a further technical scheme, the cylinder supports are arranged on two sides of the rotary bearing table, the bolt connecting plates connected with the output ends of the driving cylinders are arranged in the cylinder supports, and the clamping plates assembled by bolts are arranged on the inner sides of the bolt connecting plates.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes the arrangement of the upper screw rod box at the side of the top of the supporting component, and the screw thread block and the lifting ring seat can be operated to the processing position and the feeding and discharging position according to the processing requirement by the operation of the driving screw rod in the screw rod box.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic bottom perspective view of the present utility model;

FIG. 3 is a schematic perspective view of a recycling package according to the present utility model;

fig. 4 is a schematic perspective view of a clamping and conveying mechanism according to the present utility model.

Wherein: 1. a support assembly; 101. reducing the pressure block; 102. a damper; 103. an upper bracket; 2. recovering the external member; 201. a top pallet; 202. clamping strips; 203. a case body; 204. a pull rod; 205. a carrying strip; 206. a static network; 3. clamping the transmission mechanism; 301. a screw rod box; 302. driving a screw rod; 303. a screw block; 304. a hanging ring seat; 305. a first driving motor; 306. a first swing seat; 307. a side connecting seat; 308. a second swing seat; 309. a bearing sleeve; 3010. a second driving motor; 3011. rotating the bearing table; 3012. a cylinder bracket; 3013. a driving cylinder; 3014. a bolt connecting plate; 3015. and a clamping plate.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-4, this embodiment provides a feeding and discharging assembly of an engraving machine, which comprises a supporting assembly 1 and a recycling sleeve 2, wherein the recycling sleeve 2 is arranged on the inner side of the top of the supporting assembly 1, and a clamping and conveying mechanism 3 is arranged on the outer side of the top of the supporting assembly 1;

the recovery suite 2 comprises a top supporting plate 201, clamping strips 202, a box body 203, a pull rod 204, carrying strips 205 and an electrostatic net 206, wherein the top supporting plate 201 is arranged on the inner side of the top of the supporting assembly 1, the inner side of the top supporting plate 201 is connected with the box body 203 in a clamping manner through the clamping strips 202, the pull rods 204 assembled by bolts are arranged at two ends of the box body 203, the carrying strips 205 in a plugging manner are arranged on the top side of the box body 203, and the electrostatic net 206 is arranged on the inner side of the bottom of the box body 203.

The electrostatic net 206 has a grid structure, the case 203 has a hollow case structure, and the carrying bars 205 and the electrostatic net 206 are parallel to each other.

In this embodiment, after the setting of the support assembly 1 is completed, the top supporting plate 201 is mounted through the top of the upper bracket 103, then the user uses the pull rods 204 at two ends of the box 203 to connect the box 203 to the inner side of the top supporting plate 201 in a clamping manner under the action of the clamping strips 202, and after the mounting of the box 203 is completed, the grid-shaped electrostatic net 206 is mounted at the inner bottom side of the box 203, and then the mounting strips 205 are inserted into the top of the box 203.

The support assembly 1 comprises a pressure reducing block 101, a shock absorber 102 and an upper bracket 103, wherein the shock absorber 102 is arranged on the top side of the pressure reducing block 101, and the upper bracket 103 is arranged on the top side of the shock absorber 102.

In this embodiment, the pressure reducing block 101 is placed at a flat processing site, and a plurality of sets of dampers 102 are provided on the top side of the pressure reducing block 101 to mount the upper bracket 103 on top of the dampers 102.

The clamping and conveying mechanism 3 comprises a screw rod box 301, a driving screw rod 302, a threaded block 303, a lifting ring seat 304, a first driving motor 305, a first swinging seat 306, a side connecting seat 307, a second swinging seat 308, a bearing sleeve 309, a second driving motor 3010, a rotary bearing table 3011, a cylinder bracket 3012, a driving cylinder 3013, a bolt connecting plate 3014 and a clamping plate 3015, wherein the screw rod box 301 is arranged at the outer side of the upper bracket 103, the driving screw rod 302 is arranged on the screw rod box 301, the threaded block 303 in threaded connection is arranged at the outer side of the driving screw rod 302, and the lifting ring seat 304 in inserted connection is arranged above the outer end of the threaded block 303.

In this embodiment, after the machining is completed, the driving screw 302 at the inner side of the screw box 301 is started to output power to rotate, so that the driving screw 302 drives the threaded block 303 to drive the lifting ring seat 304 to run to a discharging position under the action of rotation, and the driving air cylinder 3013 arranged on the air cylinder bracket 3012 is used to output power to release the clamped product by the bolt connecting plate 3014 and the clamping plate 3015, so that a user loads the rotary bearing table 3011 on the product taking-out equipment.

The inner side of the lifting ring seat 304 is provided with a first swinging seat 306 connected with the output end of the first driving motor 305, the outer side of the first swinging seat 306 is provided with a side connecting seat 307 assembled by bolts, the inner side of the side connecting seat 307 is provided with a second swinging seat 308, the inner side of the second swinging seat 308 is provided with a bearing sleeve 309, and a rotary bearing table 3011 connected with the output end of the second driving motor 3010 is arranged above the bearing sleeve 309.

In this embodiment, after the clamping plate 3015 and the rotary bearing table 3011 clamp the raw materials, the driving screw 302 at the inner side of the screw rod box 301 is started to output power to rotate, so that the driving screw 302 drives the threaded block 303 to drive the lifting ring seat 304 to move to a machining position under the action of rotation, body position adjustment is required during machining of the engraving machine, the lifting ring seat 304 can be moved to a real-time axial position during machining of the engraving machine, when the first driving motor 305 outputs power to drive the first swinging seat 306 to swing, the angle of a group of axial surfaces can be adjusted, when the bearing sleeve 309 can swing through the motor output power provided on the second swinging seat 308, the angle of one group of axial surfaces can be adjusted, and the output end is driven to rotate under the action of the output power of the second driving motor 3010 to adjust the rotary bearing table 3011, so that the position orientation angle of the raw materials can be adjusted, and the clamping transmission mechanism 3 can adjust the position of the raw materials on a plurality of coordinate axes, so that the engraving machine quality is improved.

The two sides of the rotary bearing table 3011 are provided with air cylinder brackets 3012, and the inner side of the air cylinder brackets 3012 is provided with a bolt connecting plate 3014 connected with the output end of the driving air cylinder 3013, and the inner side of the bolt connecting plate 3014 is provided with a clamping plate 3015 assembled by bolts.

In this embodiment, when feeding is required, the raw materials are placed on the rotary bearing table 3011, then the driving cylinder 3013 arranged on the cylinder support 3012 is started, the output power of the driving cylinder 3013 is used to drive the output end of the driving cylinder 3013 to operate, the output end of the driving cylinder 3013 drives the bolt connecting plate 3014 to operate inwards, and the clamping plate 3015 on the inner side of the bolt connecting plate 3014 clamps the raw materials borne on the rotary bearing table 3011.

The working principle of the feeding and discharging component of the engraving machine is as follows: firstly, placing a decompression block 101 at a flat processing place, arranging a plurality of groups of shock absorbers 102 on the top side of the decompression block 101, installing an upper bracket 103 on the top of the shock absorbers 102, after the installation of a supporting component 1 is completed, installing a top supporting plate 201 through the top of the upper bracket 103, then enabling a user to use a pull rod 204 at two ends of a box body 203, enabling the box body 203 to be clamped and connected on the inner side of the top supporting plate 201 under the action of clamping strips 202, after the installation of the box body 203 is completed, installing a grid-shaped electrostatic net 206 on the inner bottom side of the box body 203, plugging a carrying strip 205 on the top of the box body 203, when feeding is required, placing raw materials on a rotary bearing table 3011, then starting a driving cylinder 3013 arranged on a cylinder bracket 3012, driving the output end of the driving cylinder 3013 to operate by using the output power of the driving cylinder 3013 to drive a bolt connecting plate 3014 to operate inwards, after the clamping plate 3015 on the inner side of the bolt connecting plate 3014 clamps the raw materials carried on the rotary bearing table 3011, the clamping plate 3015 and the rotary bearing table 3011 clamp the raw materials, the driving screw 302 on the inner side of the screw box 301 is started to output power to rotate, the driving screw 302 drives the threaded block 303 to drive the lifting ring seat 304 to a machining position under the rotating action, the position adjustment is required during the machining of the engraving machine, the driving screw 302 can be used for driving the lifting ring seat 304 to the real-time axial position during the machining, the angle of one group of axial surfaces can be adjusted when the first driving motor 305 outputs power to drive the first swinging seat 306 to swing, the bearing sleeve 309 can be adjusted to swing through the motor output power on the second swinging seat 308, the angle of one group of axial surfaces is driven to rotate by the power output of the second driving motor 3010, so as to adjust the rotary bearing table 3011, the effect of adjusting the orientation angle of the raw material position is achieved, thereby the clamping transmission mechanism 3 can adjust the position of the raw material on a plurality of coordinate axes, the processing quality of the engraving machine is improved, after the processing is finished, the driving screw rod 302 on the inner side of the screw rod box 301 is started to output power to rotate, the driving screw rod 302 drives the lifting ring seat 304 to run to the discharging position under the rotating action, the driving cylinder 3013 arranged on the cylinder support 3012 is used for outputting power, the bolt connecting plate 3014 and the clamping plate 3015 loosen the clamped product, and a user loads the rotary bearing table 3011 on the product taking-out equipment.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. Unloading subassembly on engraver, including supporting component (1) and recovery external member (2), its characterized in that: the inside of the top of the supporting component (1) is provided with a recovery sleeve (2), and the outside of the top of the supporting component (1) is provided with a clamping transmission mechanism (3);

the recovery suite (2) comprises a top supporting plate (201), clamping strips (202), a box body (203), a pull rod (204), carrying strips (205) and an electrostatic net (206), wherein the top supporting plate (201) is arranged on the inner side of the top of the supporting component (1), the inner side of the top supporting plate (201) is connected with the box body (203) in a clamping manner through the clamping strips (202), the pull rods (204) assembled by bolts are arranged at two ends of the box body (203), the carrying strips (205) in plug connection are arranged at the top side of the box body (203), and the electrostatic net (206) is arranged on the inner side of the bottom of the box body (203).

2. The engraver loading and unloading assembly of claim 1, wherein: the electrostatic net (206) is in a grid-shaped structure, the box body (203) is in an empty box-shaped structure, and the carrying strips (205) and the electrostatic net (206) are mutually parallel.

3. The engraver loading and unloading assembly of claim 1, wherein: the support assembly (1) comprises a pressure reducing block (101), a shock absorber (102) and an upper bracket (103), wherein the shock absorber (102) is arranged on the top side of the pressure reducing block (101), and the upper bracket (103) is arranged on the top side of the shock absorber (102).

4. The engraver loading and unloading assembly of claim 3, wherein: the clamping transmission mechanism (3) comprises a screw rod box (301), a driving screw rod (302), a threaded block (303), a lifting ring seat (304), a first driving motor (305), a first swinging seat (306), a side connecting seat (307), a second swinging seat (308), a bearing sleeve (309), a second driving motor (3010), a rotary bearing table (3011), an air cylinder support (3012), a driving air cylinder (3013), a bolt connecting plate (3014) and a clamping plate (3015), wherein the screw rod box (301) is arranged at the outer side of the upper bracket (103), the driving screw rod (302) is arranged on the screw rod box (301), the threaded block (303) in threaded connection is arranged at the outer side of the driving screw rod (302), and the lifting ring seat (304) in inserted connection is arranged above the outer end of the threaded block (303).

5. The engraving machine feeding and discharging assembly according to claim 4, wherein: the inner side of rings seat (304) is provided with first swing seat (306) of connecting first driving motor (305) output, just the outside of first swing seat (306) is provided with the side of bolt assembly and links seat (307), just the inner side of side even seat (307) is provided with second swing seat (308), the inboard of second swing seat (308) is provided with bearing housing (309), just the top of bearing housing (309) is provided with rotatory plummer (3011) of connecting second driving motor (3010) output.

6. The engraving machine feeding and discharging assembly according to claim 4, wherein: the rotary bearing table is characterized in that air cylinder supports (3012) are arranged on two sides of the rotary bearing table (3011), a bolt connecting plate (3014) connected with the output end of the driving air cylinder (3013) is arranged in the air cylinder supports (3012), and a clamping plate (3015) assembled by bolts is arranged on the inner side of the bolt connecting plate (3014).

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