CN215999096U - Novel laser processing device for processing surgical forceps - Google Patents

Abstract

The utility model provides a novel laser processing device for processing surgical forceps, which comprises a laser processing head, a screw rod module, an inverted U-shaped mounting frame, an electro-hydraulic push rod, a processing box body, supporting legs, a blanking groove, a collecting box, a rectangular through groove, a ventilation hole, a fan cover, a rotatable processing table structure, a buffering air inlet baffle structure and a drawable protective plate structure, wherein the laser processing head is connected to the lower part of the screw rod module through bolts; the screw rod module is transversely bolted on the lower side of the interior of the inverted U-shaped mounting frame; the upper middle part of the inverted U-shaped mounting frame is connected to the lower end of an output rod of the electro-hydraulic push rod through a bolt. The arrangement of the silica gel sucker, the processing table, the U-shaped frame, the electric push rod, the wheel frame and the roller is beneficial to taking out the surgical forceps; the air inlet frame, the baffle, the fixing seat and the buffer spring are arranged, so that ventilation is facilitated.

Description

Novel laser processing device for processing surgical forceps

Technical Field

The utility model belongs to the technical field of laser processing equipment, and particularly relates to a novel laser processing device for processing surgical forceps.

Background

The laser processing technology is a technology for processing materials such as cutting and welding through laser beams, and has the advantages of high productivity, low pollution, low material consumption and the like compared with the traditional cutter cutting technology.

However, the existing laser processing device also has the problems that the surgical forceps are not convenient to take out, the ventilation is not convenient, and the protection effect is poor.

Therefore, it is very necessary to invent a novel laser processing device for surgical forceps processing.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a novel laser processing device for processing surgical forceps, which is convenient for taking out the surgical forceps, is convenient for ventilation and improves the protection effect.

The utility model is realized by the following technical scheme:

a novel laser processing device for processing of surgical forceps comprises a laser processing head, a screw rod module, an inverted U-shaped mounting frame, an electro-hydraulic push rod, a processing box body, supporting legs, a lower material groove, a collecting box, a rectangular through groove, a ventilation hole, a fan, a wind collecting cover, a rotatable processing table structure, a buffering air inlet baffle structure and a drawable protective plate structure, wherein the laser processing head is in bolted connection with the lower part of the screw rod module; the screw rod module is transversely bolted on the lower side of the interior of the inverted U-shaped mounting frame; the middle part of the upper side of the inverted U-shaped mounting frame is connected with the lower end of an output rod of the electro-hydraulic push rod through a bolt; the electro-hydraulic push rod is connected to the middle of the upper side of the processing box body through a bolt, and an output rod of the electro-hydraulic push rod penetrates through the middle of the upper side of the processing box body; the plurality of supporting legs are respectively bolted at the four corners of the lower part of the box body of the processing box; the blanking groove is formed in the left side of the lower part of the processing box body; the collecting box is connected to the left side of the lower part of the processing box body through a bolt; the rectangular through groove is formed in the lower side of the front part of the processing box body; the ventilation hole is formed in the upper portion of the right side of the box body of the processing box; the fan is connected to the upper part of the right side of the processing box body through a bolt; the wind collecting cover is connected to the right side of the fan through bolts; the rotatable processing platform structure is connected with the processing box body; the buffering air inlet baffle structure is connected with the processing box body; the drawable protective plate structure is connected with the processing box body; the rotatable processing table structure comprises silica gel suckers, a processing table, a U-shaped frame, an electric push rod, a wheel frame and rollers, wherein the plurality of silica gel suckers are respectively embedded in the periphery of the inside of the processing table; the movable bolt at the left side of the processing table is connected to the upper side in the U-shaped frame; the electric push rod is arranged on the right side of the lower part of the processing table; the wheel carrier is connected with the upper end of an output rod of the electric push rod through a bolt; the roller is axially connected with the upper side of the interior of the wheel frame, and the upper part of the roller is arranged in contact with the right side of the lower part of the processing table.

Preferably, the U-shaped frame is connected to the left side of the upper part of the inner wall of the lower side of the box body of the processing box through bolts.

Preferably, the electric push rod is connected to the right side of the upper part of the inner wall of the lower side of the processing box body through a bolt.

Preferably, the buffering air inlet baffle structure comprises an air inlet frame, a baffle, a fixed seat and a buffering spring, wherein the baffle is connected with a movable bolt on the right side in the air inlet frame; the fixed seat is connected to the left lower side inside the air inlet frame through a bolt; transversely set up buffer spring's left end bolted connection on the right side of fixing base, buffer spring's right-hand member and the contact setting of the left side lower part of baffle.

Preferably, the air inlet frame is connected to the inside of a rectangular through groove formed in the middle of the left side of the processing box body through bolts.

Preferably, the protection plate structure capable of being pulled comprises a protection plate, L-shaped limit plates, limit pieces, limit baffle seats and a handle, the protection plate is inserted between the two L-shaped limit plates which are oppositely arranged, and the left sides of the upper part and the lower part of the protection plate are respectively connected with the limit pieces through bolts; the left end and the right end of the L-shaped limiting plate are respectively connected with a limiting stop seat through bolts; the handle bolt is connected to the middle part of the right side of the protection plate.

Preferably, the L-shaped limiting plate is arranged on the upper side and is transversely bolted to the middle upper part of the front side of the processing box body, and the L-shaped limiting plate is arranged on the lower side and is transversely bolted to the lower part of the front side of the processing box body.

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

according to the utility model, the arrangement of the silica gel sucker, the processing table, the U-shaped frame, the electric push rod, the wheel frame and the roller is beneficial to taking out the surgical forceps.

In the utility model, the arrangement of the air inlet frame, the baffle, the fixed seat and the buffer spring is favorable for ventilation.

According to the utility model, the arrangement of the protection plate, the L-shaped limit plate, the limit sheet, the limit baffle seat and the handle is favorable for improving the protection effect.

According to the utility model, the arrangement of the laser processing head is beneficial to processing the operating forceps.

In the utility model, the arrangement of the screw rod module is beneficial to driving the laser processing head to move left and right.

According to the utility model, the arrangement of the inverted U-shaped mounting frame and the electro-hydraulic push rod is beneficial to adjusting the height of the laser processing head.

In the utility model, the arrangement of the feeding groove and the collecting box is beneficial to collecting the processed surgical forceps.

In the utility model, the arrangement of the vent hole, the fan and the air collecting cover is beneficial to pumping out air in the processing box body.

Drawings

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

FIG. 2 is a schematic diagram of the construction of the rotatable table structure of the present invention;

FIG. 3 is a schematic structural view of a buffering intake air baffle structure of the present invention;

fig. 4 is a schematic structural view of the drawable fender structure of the present invention.

In the figure:

1. a laser processing head; 2. a screw rod module; 3. an inverted U-shaped mounting bracket; 4. an electro-hydraulic push rod; 5. processing the box body of the box; 6. supporting legs; 7. a discharging groove; 8. a collection box; 9. a rectangular through groove; 10. a vent hole; 11. a fan; 12. a wind collecting cover; 13. a rotatable processing table structure; 131. a silica gel sucker; 132. a processing table; 133. a U-shaped frame; 134. an electric push rod; 135. a wheel carrier; 136. a roller; 14. a buffering air inlet baffle structure; 141. an air intake frame; 142. a baffle plate; 143. a fixed seat; 144. a buffer spring; 15. the structure of the protective plate can be pulled; 151. a protection plate; 152. an L-shaped limiting plate; 153. a limiting sheet; 154. a limiting stop seat; 155. a handle.

Detailed Description

The utility model is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, a novel laser processing device for processing surgical forceps comprises a laser processing head 1, a screw rod module 2, an inverted-U-shaped mounting frame 3, an electro-hydraulic push rod 4, a processing box body 5, a supporting leg 6, a blanking groove 7, a collecting box 8, a rectangular through groove 9, a vent hole 10, a fan 11 and a wind collecting cover 12, wherein the laser processing head 1 is connected to the lower part of the screw rod module 2 through bolts; the lead screw module 2 is transversely bolted on the lower side of the interior of the inverted U-shaped mounting frame 3; the middle part of the upper side of the inverted U-shaped mounting frame 3 is connected with the lower end of an output rod of the electro-hydraulic push rod 4 through a bolt; the electro-hydraulic push rod 4 is connected to the middle of the upper side of the processing box body 5 through a bolt, and an output rod of the electro-hydraulic push rod 4 penetrates through the middle of the upper side of the processing box body 5; the supporting legs 6 are respectively bolted at the four corners of the lower part of the processing box body 5; the blanking groove 7 is formed in the left side of the lower part of the processing box body 5; the collecting box 8 is connected to the left side of the lower part of the processing box body 5 through a bolt; the rectangular through groove 9 is formed in the lower side of the front part of the processing box body 5; the ventilation hole 10 is formed in the upper portion of the right side of the processing box body 5; the fan 11 is connected to the upper part of the right side of the processing box body 5 through a bolt; the fan cover 12 is connected to the right side of the fan 11 through bolts, an operator connects the fan 11 with an external power supply, the fan 11 draws out air inside the processing box body 5, and the function of air flowing inside the processing box body 5 is achieved.

The novel laser processing device for the operation forceps processing further comprises a rotatable processing table structure 13, a buffering air inlet baffle structure 14 and a drawable protective plate structure 15, wherein the rotatable processing table structure 13 is connected with the processing box body 5; the buffering air inlet baffle structure 14 is connected with the processing box body 5; the drawable protection plate structure 15 is connected with the processing box body 5.

The rotatable processing table structure 13 comprises a silica gel sucker 131, a processing table 132, a U-shaped frame 133, an electric push rod 134, a wheel carrier 135 and a roller 136, wherein the plurality of silica gel suckers 131 are respectively embedded in the periphery of the inside of the processing table 132, an operator places the surgical forceps to be processed on the upper portion of the silica gel sucker 131, the silica gel sucker 131 is connected with an air compressor arranged outside, and the silica gel sucker 131 adsorbs and fixes the surgical forceps to be processed; the left movable bolt of the processing table 132 is connected to the upper side of the inside of the U-shaped frame 133; the electric push rod 134 is arranged at the right side of the lower part of the processing table 132; the wheel carrier 135 is connected with the upper end of the output rod of the electric push rod 134 through a bolt; the roller 136 is coupled to the upper side of the interior of the wheel frame 135, and the upper portion of the roller 136 is in contact with the right side of the lower portion of the processing table 132, after the processing is completed, the air compressor arranged outside is turned off, the silica gel suction cup 131 is separated from the surgical forceps, the output rod of the electric push rod 134 drives the wheel frame 135 and the roller 136 to move upwards, the right side of the processing table 132 is jacked upwards, the left side of the processing table 132 rotates along the U-shaped frame 133, the surgical forceps slide down from the upper portion of the processing table 132 and enter the collection box 8 through the feeding groove 7.

In this embodiment, as shown in fig. 3, the buffering air intake baffle structure 14 includes an air intake frame 141, a baffle 142, a fixing seat 143, and a buffering spring 144, wherein the baffle 142 is movably bolted on the right side inside the air intake frame 141, so that air inside the processing box body 5 is drawn out, air pressure inside the processing box body 5 is reduced, and the baffle 142 rotates to the right, thereby opening the closed air intake frame 141 and allowing external air to enter the processing box body 5; the fixed seat 143 is bolted to the left lower side inside the air intake frame 141; the left end of the buffer spring 144 which is transversely arranged is connected to the right side of the fixed seat 143 through a bolt, the right end of the buffer spring 144 is arranged in contact with the lower portion of the left side of the baffle 142, when the external air pressure inside the processing box body 5 is balanced, the baffle 142 rotates leftwards, the fixed seat 143 and the buffer spring 144 block the baffle 142, and the baffle 142 returns to the vertical state.

In this embodiment, referring to fig. 4, the protection plate structure 15 includes a protection plate 151, an L-shaped limitation plate 152, a limitation piece 153, a limitation block seat 154 and a handle 155, the protection plate 151 is inserted between the two L-shaped limitation plates 152 which are oppositely arranged, the limitation piece 153 is respectively bolted on the left side of the upper part and the left side of the lower part of the protection plate 151, and the protection plate 151 plays a role of protecting eyes of an operator; the left end and the right end of the L-shaped limit plate 152 are respectively connected with a limit stop seat 154 through bolts; handle 155 bolted connection in the right side middle part of guard plate 151, operating personnel pulls handle 155 right, handle 155 drives guard plate 151 and moves right along L type limiting plate 152, guard plate 151 drives spacing piece 153 and moves right, spacing piece 153 and the spacing seat 154 contact on right side and adsorb fixedly for guard plate 151 no longer shelters from rectangular through groove 9, thereby is convenient for open processing case box 5.

In this embodiment, specifically, the U-shaped frame 133 is bolted to the left side of the upper portion of the inner wall of the lower side of the processing box body 5.

In this embodiment, specifically, the electric push rod 134 is bolted to the upper right side of the lower inner wall of the processing box body 5.

In this embodiment, specifically, the air intake frame 141 is bolted to the inside of the rectangular through groove formed in the middle of the left side of the processing box body 5.

In this embodiment, specifically, the upper side is provided with the L-shaped limiting plate 152 which is horizontally bolted to the middle upper part of the front side of the processing box body 5, and the lower side is provided with the L-shaped limiting plate 152 which is horizontally bolted to the lower part of the front side of the processing box body 5.

In this embodiment, specifically, the U-shaped frame 133 is a U-shaped aluminum alloy frame.

In this embodiment, specifically, the air intake frame 141 is a rectangular aluminum alloy frame; the baffle 142 is made of PPS plastic plate; the fixed seat 143 is a rectangular aluminum alloy seat.

In this embodiment, specifically, the protection plate 151 is a PC polycarbonate plate; the L-shaped limiting plate 152 adopts an L-shaped aluminum alloy seat; the limiting sheet 153 is a rectangular magnet sheet; the limiting stopper 154 is a rectangular iron seat.

In this embodiment, specifically, the laser processing head 1 adopts a FiberCUT type laser cutting head; the lead screw module 2 adopts an FLS40 type lead screw module; the electro-hydraulic push rod 4 is a DYTZ type electro-hydraulic push rod; the fan 11 is an SF axial flow fan; the electric push rod 134 is an XTL type electric push rod.

Principle of operation

In the utility model, an operator connects the fan 11 with an external power supply, the fan 11 pumps out air in the processing box body 5, the air pressure in the processing box body 5 is reduced, the baffle 142 rotates rightwards, so that the closed air inlet frame 141 is opened, external air enters the processing box body 5, when the external air pressure in the processing box body 5 is balanced, the baffle 142 rotates leftwards, the baffle 142 is blocked by the fixed seat 143 and the buffer spring 144, and the baffle 142 returns to a vertical state; an operator places the surgical forceps to be processed on the upper portion of the silica gel sucker 131, the silica gel sucker 131 is connected with an externally arranged air compressor, the silica gel sucker 131 adsorbs and fixes the surgical forceps to be processed, after the processing is finished, the externally arranged air compressor is turned off, the silica gel sucker 131 is separated from the surgical forceps, an output rod of the electric push rod 134 drives the wheel carrier 135 and the roller 136 to move upwards, the right side of the processing table 132 is jacked upwards, the left side of the processing table 132 rotates along the U-shaped frame 133, the surgical forceps slide down from the upper portion of the processing table 132 and enter the collecting box 8 through the discharging groove 7; protection plate 151 plays the effect of protection operating personnel eyes, and operating personnel pulls handle 155 right, and handle 155 drives protection plate 151 and moves right along L type limiting plate 152, and protection plate 151 drives spacing piece 153 and moves right, and spacing fender seat 154 contact and absorption on spacing piece 153 and right side are fixed for protection plate 151 no longer shelters from rectangular through groove 9, thereby is convenient for open processing case box 5.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (7)

1. A novel laser processing device for processing operation forceps is characterized by comprising a laser processing head (1), a screw rod module (2), an inverted U-shaped mounting frame (3), an electro-hydraulic push rod (4), a processing box body (5), supporting legs (6), a blanking groove (7), a collecting box (8), a rectangular through groove (9), a ventilation hole (10), a fan (11), a wind collecting cover (12), a rotatable processing table structure (13), a buffering air inlet baffle structure (14) and a drawable protective plate structure (15), wherein the laser processing head (1) is connected to the lower part of the screw rod module (2) through bolts; the lead screw module (2) is transversely bolted on the lower side of the inside of the inverted U-shaped mounting rack (3); the middle part of the upper side of the inverted U-shaped mounting frame (3) is connected with the lower end of an output rod of the electro-hydraulic push rod (4) through a bolt; the electro-hydraulic push rod (4) is connected to the middle of the upper side of the processing box body (5) through a bolt, and an output rod of the electro-hydraulic push rod (4) penetrates through the middle of the upper side of the processing box body (5); the supporting legs (6) are respectively bolted at the four corners of the lower part of the processing box body (5); the discharging groove (7) is formed in the left side of the lower part of the processing box body (5); the collecting box (8) is connected to the left side of the lower part of the processing box body (5) through a bolt; the rectangular through groove (9) is formed in the lower side of the front part of the processing box body (5); the ventilation hole (10) is formed in the upper portion of the right side of the processing box body (5); the fan (11) is connected to the upper part of the right side of the processing box body (5) through a bolt; the wind collecting cover (12) is connected to the right side of the fan (11) through bolts; the rotatable processing platform structure (13) is connected with the processing box body (5); the buffering air inlet baffle plate structure (14) is connected with the processing box body (5); the drawable protective plate structure (15) is connected with the processing box body (5); the rotatable processing table structure (13) comprises silica gel suckers (131), a processing table (132), a U-shaped frame (133), an electric push rod (134), a wheel frame (135) and rollers (136), wherein the plurality of silica gel suckers (131) are respectively embedded in the periphery of the interior of the processing table (132); the left movable bolt of the processing table (132) is connected to the upper side of the inside of the U-shaped frame (133); the electric push rod (134) is arranged at the right side of the lower part of the processing table (132); the wheel carrier (135) is connected with the upper end of the output rod of the electric push rod (134) through a bolt; the roller (136) is coupled to the inner upper side of the wheel frame (135), and the upper part of the roller (136) is in contact with the lower right side of the processing table (132).

2. The novel laser processing device for the surgical forceps processing as claimed in claim 1, wherein the U-shaped frame (133) is bolted to the left side of the upper portion of the inner wall of the lower side of the processing box body (5).

3. The novel laser processing device for the surgical forceps processing as claimed in claim 1, characterized in that the electric push rod (134) is bolted to the upper right side of the lower inner wall of the processing box body (5).

4. The novel laser processing device for the processing of the surgical forceps as claimed in claim 1, wherein the buffering air inlet baffle structure (14) comprises an air inlet frame (141), a baffle (142), a fixed seat (143) and a buffering spring (144), and the baffle (142) is movably connected to the right side of the inside of the air inlet frame (141) through a bolt; the fixed seat (143) is connected with the left lower side in the air inlet frame (141) through bolts; the left end of the buffer spring (144) which is transversely arranged is connected to the right side of the fixed seat (143) through a bolt, and the right end of the buffer spring (144) is arranged in contact with the lower part of the left side of the baffle (142).

5. The novel laser processing device for the processing of the surgical forceps as claimed in claim 4, characterized in that the air inlet frame (141) is bolted to the inside of a rectangular through groove formed in the middle of the left side of the processing box body (5).

6. The novel laser processing device for the surgical forceps processing as claimed in claim 1, wherein the drawable protection plate structure (15) comprises a protection plate (151), an L-shaped limitation plate (152), a limitation piece (153), a limitation stop seat (154) and a handle (155), the protection plate (151) is inserted between the two oppositely arranged L-shaped limitation plates (152), and the limitation piece (153) is respectively bolted on the left side of the upper part and the left side of the lower part of the protection plate (151); the left end and the right end of the L-shaped limit plate (152) are respectively connected with a limit stop seat (154) through bolts; the handle (155) is connected to the middle part of the right side of the protection plate (151) through bolts.

7. The novel laser processing device for the operation forceps processing as claimed in claim 6, wherein the L-shaped limiting plate (152) arranged at the upper side is transversely bolted at the middle upper part of the front side of the processing box body (5), and the L-shaped limiting plate (152) arranged at the lower side is transversely bolted at the lower part of the front side of the processing box body (5).

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