CN115072980A - Fixing device for cutting machine based on laboratory glass instrument processing - Google Patents

Abstract

The invention provides a fixing device for a cutting machine based on laboratory glass instrument processing, which relates to the technical field of laboratory glass instrument processing and comprises a base, wherein the main body of the base is of a U-shaped structure, a support is fixedly connected to the bottom end face of the base, a central controller is arranged on the left side of the support, mounting frames are fixedly connected to the top ends of two longitudinal members in the base, and a motor A is arranged in each transverse member in each mounting frame, so that the problem that an operator is easily injured due to accidental falling of glass in the clamping process change and further limitation exists is solved, an electric push rod G arranged on the bottom side of a supporting seat is started to push an assembling seat and a polishing head downwards to be in contact with a glass cutting stubble, and the rotating drive of the polishing head is synchronously used for polishing the cut glass stubble through a motor D, thereby preventing the injury of the user.

Description

Fixing device for cutting machine based on laboratory glass instrument processing

Technical Field

The invention relates to the technical field of laboratory glass instrument processing, in particular to a fixing device for a cutting machine based on laboratory glass instrument processing.

Background

In order to need to various reagents and assay work in the laboratory often need use various cutting machines to carry out cutting process to a slice of glass after can facilitate the use, and it adopts anchor clamps or handheld glass to carry out the pressure in the cutting process again through the glass sword to carry out the cutting operation to glass, consequently uses fixing device very important in the glass cutting process.

However, with present fixing device, when it is fixed to glass cutting process, mostly place glass and accomplish back rethread anchor clamps and directly press from both sides tight spacing operation to glass's stiff end, but it is just needing the manual work to carry out cutting operation with the clamping position of rethread change anchor clamps behind the glass cutting part when pressing from both sides tight completion because the position that needs the cutting is great or glass substrate need carry out cutting operation by the clamping position, but it drops and leads to causing the injury to the operator because of glass's accident very easily in the change centre gripping process, and then has the limitation.

Disclosure of Invention

The invention provides a fixing device for a cutting machine based on laboratory glass instrument processing, which specifically comprises: the base, the main part of base is the U-shaped structure, and fixedly connected with support on the bottom face of base, accuse ware in installing in the left side of support, and the top fixedly connected with mounting bracket of two vertical members in the base, the internally mounted of horizontal member has motor A in the mounting bracket, electric putter G is installed to the bottom of supporting seat, the assembly seat is still installed to electric putter G's bottom, the internally mounted of assembly seat has motor D, install the head of polishing on motor D's the bottom output shaft, motor D is used for the drive to polish the head and rotates.

Optionally, anchor clamps A are installed to electric putter B's bottom, all install the detector on anchor clamps A's the trilateral detector that all installs in the outside, and the detector is connected with well accuse ware electrical property, and the detector is used for detecting the cutter and polishes the head apart from the interval between the anchor clamps A, and anchor clamps A's inside is the subtend and installs two trachea, and the trachea is extending structure.

Optionally, the cutter is installed to electric putter E's bottom, and the cutter is used for cutting glass, and the regulating block is installed to the periphery front side of cutting seat, and electric putter F is installed to the front end of regulating block, and the supporting seat is still installed to electric putter F's front end.

Optionally, a clamp B is installed at the top end of the electric push rod D, the structure of the clamp B is consistent with that of the clamp a, an air pipe and a clamping plate are also installed inside the clamp B, two sets of air pipes supply air through the pump a and the pump B respectively, longitudinal grooves are formed in the two longitudinal members in the base, a moving seat is movably connected inside the two longitudinal grooves formed in the base, and an electric push rod H is installed inside the longitudinal groove formed in the longitudinal member in the base.

Optionally, install pump A on the output shaft that motor A bottom was installed, the equal fixedly connected with pillar in pump A's the outer peripheral face left and right sides, and keep away from one side of pump A in the pillar and install electric putter A, installation piece A is installed to electric putter A's output, and electric putter B is installed to installation piece A's bottom, and electric putter B has constituteed the bearing structure to clamp A jointly with installation piece A.

Optionally, electric putter H is connected with the removal seat, and electric putter H is used for promoting the removal seat and removes, removes the inside of seat and sets up flutedly, and removes the left side of seat and install motor B, and the screw rod is installed on motor B's right side, and motor B is used for the drive screw to rotate, removes the inside sliding connection of recess that the seat top was seted up and has the slide.

Optionally, screw holes matched with the screws are formed in the sliding seat, the motor C is installed at the bottom end of the sliding seat, gears are installed on an output shaft at the top end of the motor C, the gears are arranged at two positions, the other gear is installed at the top end of the sliding seat through a rotating shaft, a cutting seat is coaxially installed at the top end of the gear located on the left side, and an electric push rod E is installed at the bottom end of a longitudinal member fixedly connected with the rear side of the outer peripheral surface of the cutting seat.

Optionally, a clamping plate is installed on one side, away from the clamp A, of the air pipe, the air pipe and the clamping plate jointly form a limiting structure for glass to be cut, the motor A is also installed inside the support, the pump B is installed on an output shaft at the top end of the motor A, the left side and the right side of the outer peripheral face of the pump B are provided for the electric push rod C to install the installation block B, and the electric push rod D is further installed on the top ends of the two installation blocks B.

Advantageous effects

According to the fixing device of the embodiment of the invention, compared with the traditional device, after the glass substrate is cut, the adjusting block arranged in the cutting seat can be turned over towards the front side synchronously, and the adjusting block and the cutting seat are kept in a vertical state, then the motor C arranged in the sliding seat is started to drive the gear to rotate, the side, provided with the adjusting block, of the cutting seat is synchronously driven to be placed towards the surface of the glass which is cut through the meshing transmission between the two gears, and synchronously starting an electric push rod G arranged at the bottom side of the supporting seat to push the assembling seat and the polishing head downwards to contact with the glass cutting stubble, and the rotation of the grinding head is driven by the motor D to grind the cut glass stubbles synchronously, so that the problem of injury to users is prevented.

In addition, when the glass substrate needs to be cut and processed, the electric push rod H arranged in the base and the motor B arranged on the left side of the moving seat can be started to drive the screw rod to rotate according to different required cutting positions, the longitudinal position and the transverse position of the sliding seat can be synchronously and quickly adjusted through the transmission connection of the screw rod and the sliding seat, the electric push rod E arranged on the bottom side of the cutting seat needs to be started to push the cutter downwards to be in contact with the glass substrate in the cutting process, the special-shaped glass input by the central controller can be quickly cut and processed on the glass substrate limited in the clamp A and the clamp B through the synchronous longitudinal and transverse adjustment of the electric push rod H and the motor B, and the purpose of quickly cutting and processing the glass substrate is further achieved.

In addition, in the invention, the motor C arranged in the sliding seat is started to drive the gear to rotate, the side, provided with the adjusting block, of the cutting seat is synchronously driven to be placed towards the cut surface of the glass through the meshing transmission between the two gears, the electric push rod G arranged at the bottom side of the supporting seat is synchronously started to push the assembly seat and the polishing head downwards to be in contact with the glass cutting stubble, and the rotation of the polishing head is synchronously driven by the motor D to polish the cut glass stubble, so that the problem of injury to a user is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic diagram showing a front side view of a fixation device according to an embodiment of the present invention in a partially disassembled state;

FIG. 2 is a schematic diagram showing a top side view of a partially disassembled state of a fixing device according to an embodiment of the present invention;

FIG. 3 shows a schematic view of an assembled structure of a fixing device according to an embodiment of the present invention;

fig. 4 shows a schematic view of a base-to-power putter H display structure of a fixture according to an embodiment of the invention;

FIG. 5 shows a schematic view of a mobile seat to sanding head display configuration of a fixture according to an embodiment of the present invention;

FIG. 6 is a schematic view showing a motor A to clamp B display structure of a fixing apparatus according to an embodiment of the present invention;

FIG. 7 shows a schematic view of an enlarged configuration at A in FIG. 2 of a fixation device according to an embodiment of the invention;

FIG. 8 shows a schematic view of an enlarged configuration at B in FIG. 2 of a fixation device according to an embodiment of the present invention;

list of reference numerals

1. A base; 2. a support; 3. a central controller; 4. a mounting frame; 5. a motor A; 6. a pump A; 7. a pillar; 8. an electric push rod A; 9. mounting a block A; 10. an electric push rod B; 11. a clamp A; 12. a detector; 13. an air tube; 14. a splint; 15. a pump B; 16. an electric push rod C; 17. a mounting block B; 18. an electric push rod D; 19. a clamp B; 20. a movable seat; 21. a motor B; 22. a screw; 23. a slide base; 24. a motor C; 25. a gear; 26. a cutting seat; 27. an electric push rod E; 28. a cutter; 29. an adjusting block; 30. an electric push rod F; 31. a supporting seat; 32. an electric push rod G; 33. assembling a seat; 34. a motor D; 35. polishing head; 36. and an electric push rod H.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to 8:

the invention provides a fixing device for a cutting machine based on laboratory glass instrument processing, which comprises: base 1, base 1's main part is the U-shaped structure, and fixedly connected with support 2 on base 1's the bottom face, accuse ware 3 in the left side of support 2 is installed, and the top fixedly connected with mounting bracket 4 of two vertical members in base 1, horizontal member's internally mounted has motor A5 in the mounting bracket 4, electric putter G32 is installed to supporting seat 31's bottom, assembly seat 33 is still installed to electric putter G32's bottom, the internally mounted of assembly seat 33 has motor D34, install the head 35 of polishing on motor D34's the bottom output shaft, motor D34 is used for driving the head 35 and rotates, cutter 28 is installed to electric putter E27's bottom, cutter 28 is used for cutting glass, regulating block 29 is installed to the periphery front side of cutting seat 26, electric putter F30 is installed to the front end of regulating block 29, supporting seat 31 is still installed to electric putter F30's front end.

In addition, according to the embodiment of the present invention, as shown in fig. 1-3, an output shaft mounted at the bottom end of a motor a5 is provided with a pump A6, the left and right sides of the outer peripheral surface of the pump A6 are fixedly connected with a pillar 7, and one side of the pillar 7 away from the pump A6 is provided with an electric push rod A8, the output end of the electric push rod A8 is provided with a mounting block a9, the bottom end of the mounting block a9 is provided with an electric push rod B10, the electric push rod B10 and the mounting block a9 together form a bearing structure for a clamp a11, the bottom end of the electric push rod B10 is provided with a clamp a11, the outer side of the clamp a11 is provided with a detector 12, the detector 12 is electrically connected with a central controller 3, the detector 12 is used for detecting the distance between a cutting knife 28 and a sanding head 35 and the clamp a11, two air pipes 13 are oppositely arranged inside the clamp a11, the air pipe 13 is of a telescopic structure, the gear 25 is driven to rotate by activating the motor C24 arranged in a slide 23, and the side of the cutting seat 26, which is provided with the adjusting block 29, is synchronously driven by the meshing transmission between the two gears 25 to be placed towards the surface of the glass which is already cut, the electric push rod G32 arranged at the bottom side of the supporting seat 31 is synchronously started to push the assembling seat 33 and the polishing head 35 downwards to be in contact with the glass cutting stubble, and the rotating drive of the polishing head 35 is synchronously used for polishing the cut glass stubble through the motor D34, so that the problem of injury to a user is solved.

In addition, according to the embodiment of the present invention, as shown in fig. 1 to 5, a clamping plate 14 is installed on one side of the air pipe 13 far from the clamp a11, the air pipe 13 and the clamping plate 14 together form a limiting structure for glass to be cut, a motor a5 is installed at a substantially middle portion of the mounting frame 4, a pump B15 is installed on an output shaft at the top end of the motor a5, mounting blocks B17 are installed on the left and right sides of the outer circumferential surface of the pump B15 provided for the electric push rod C16, electric push rods D18 are installed at the top ends of the two mounting blocks B17, a clamp B19 is installed at the top end of the electric push rod D18, the structure of the clamp B19 is identical to that of the clamp a11, the air pipe 13 and the clamping plate 14 are also installed inside the clamp B19, two sets of air pipes 13 are respectively supplied with air through the pump A6 and the pump B15, longitudinal grooves are respectively formed inside two longitudinal members in the base 1, and a moving seat 20 is movably connected inside the two longitudinal grooves formed in the base 1, and an electric push rod H36 is arranged in a longitudinal groove arranged in the longitudinal component in the base 1, when the cutting processing operation is needed to be carried out on the glass substrate, the electric push rod H36 arranged in the base 1 and the motor B21 arranged at the left side of the movable seat 20 can be started to drive the screw 22 to rotate according to different required cutting positions, and the longitudinal and transverse positions of the sliding seat 23 are adjusted rapidly and synchronously through the transmission connection of the screw rod 22 and the sliding seat 23, and simultaneously the electric push rod E27 arranged at the bottom side of the cutting seat 26 needs to be started to push the cutting knife 28 downwards to be contacted with the glass substrate during the cutting process, and the glass substrate limited in the clamp A11 and the clamp B19 can be quickly cut and processed by the special-shaped glass input by the central controller 3 through the vertical and horizontal synchronous adjustment of the electric push rod H36 and the motor B21, so that the purpose of quickly cutting and processing the glass substrate is achieved.

In addition, according to the embodiment of the present invention, as shown in fig. 1 to 8, an electric push rod H36 is connected to the moving seat 20, and an electric push rod H36 is used for pushing the moving seat 20 to move, a groove is formed inside the moving seat 20, a motor B21 is installed on the left side of the moving seat 20, a screw 22 is installed on the right side of the motor B21, a motor B21 is used for driving the screw 22 to rotate, a sliding seat 23 is slidably connected inside the groove formed on the top end of the moving seat 20, a screw hole matched with the screw 22 is formed inside the sliding seat 23, a motor C24 is installed at the bottom end of the sliding seat 23, a gear 25 is installed on the output shaft at the top end of a motor C24, two positions of the gear 25 are provided, another position of the gear 25 is installed at the top end of the sliding seat 23 through a rotating shaft, a cutting seat 26 is coaxially installed at the top end of the left side gear 25, an electric push rod E27 is installed at the bottom end of a longitudinal member fixedly connected to the rear side of the outer peripheral surface of the cutting seat 26, after the glass substrate is cut, the adjusting block 29 installed in the cutting seat 26 can be synchronously turned over to the front side, the adjusting block 29 and the cutting seat 26 are kept in a vertical state, then the motor C24 installed in the sliding seat 23 is started to drive the gear 25 to rotate, the side, in which the adjusting block 29 is installed, of the cutting seat 26 is synchronously driven to be placed towards the surface, in which the glass is cut, through the meshing transmission between the two gears 25, the electric push rod G32 installed at the bottom side of the supporting seat 31 is synchronously started to push the assembling seat 33 and the polishing head 35 downwards to be in contact with the glass cutting stubble, and the motor D34 is synchronously used for driving the polishing head 35 to rotate to polish the cut glass stubble, so that the problem of injury to a user is solved.

The specific use mode and function of the embodiment are as follows: in the invention, firstly, when a glass instrument required by a laboratory is processed, the base 1 can be fixedly connected with the bracket 2 through the bottom end of the base to be installed at a proper position, the glass base material to be cut is placed right above the pump B15, and then the electric push rod C16 and the electric push rod D18 which are installed at the outer side of the pump B15 are started according to the difference of the thickness and the length of the glass base material to adjust the position of the clamp B19 until the notch formed in the clamp B19 is clamped with the glass;

then synchronously starting an electric push rod A8 and an electric push rod B10 which are arranged on the outer side of a pump A6 to respectively adjust the position of a clamp A11, so that the two clamps A11 and a clamp B19 which is arranged on the outer side of a pump B15 are arranged in a crossed manner, then respectively starting the pump A6 and the pump B15 which are arranged on the outer side of a motor A5 to inflate an air pipe 13 which is arranged in the clamp A11 and the clamp B19, and after the air pipe 13 is inflated and expanded, the glass base material which is arranged at the top end of the pump A6 is clamped quickly and efficiently in a limiting manner through clamping of a clamping plate 14;

when the glass base material needs to be cut, the electric push rod H36 arranged in the base 1 and the motor B21 arranged on the left side of the moving seat 20 can be started to drive the screw rod 22 to rotate according to different required cutting positions, the longitudinal position and the transverse position of the sliding seat 23 can be synchronously and quickly adjusted through the transmission connection of the screw rod 22 and the sliding seat 23, the electric push rod E27 arranged on the bottom side of the cutting seat 26 needs to be started to push the cutter 28 downwards to be in contact with the glass base material in the cutting process, and the special-shaped glass cutting processing input by the central controller 3 can be quickly performed on the glass base material limited in the clamp a11 and the clamp B19 through the synchronous longitudinal and transverse adjustment of the electric push rod H36 and the motor B21, so that the purpose of quickly cutting the glass base material is achieved;

after the glass substrate is cut, the adjusting block 29 arranged in the cutting seat 26 can be synchronously turned over to the front side, the adjusting block 29 and the cutting seat 26 are kept in a vertical state, then the motor C24 arranged in the sliding seat 23 is started to drive the gear 25 to rotate, the side, provided with the adjusting block 29, in the cutting seat 26 is synchronously driven to be placed towards the surface, cut by the glass, of the glass through meshing transmission between the two gears 25, the electric push rod G32 arranged at the bottom side of the supporting seat 31 is synchronously started to push the assembling seat 33 and the polishing head 35 downwards to be in contact with the glass cutting gap, the motor D34 is synchronously used for driving the polishing head 35 to rotate to polish the cut glass gap, and the problem of injury to a user is solved;

when the cutter 28 moves longitudinally and transversely under the rotation drive of the electric push rod H36 and the motor B21 to the screw 22 to cut the glass base material, the approach of the cutter 28 can be synchronously detected by the detector 12 arranged on the outer side of the clamp A11 and the clamp B19, when the detector 12 detects that the cutter 28 approaches, the clamp A11 or the clamp B19 which is approached can synchronously release the limit of the air pipe 13 to the splint 14, the electric push rod C16 or the electric push rod B10 can synchronously start to quickly separate the clamp B19 and the clamp A11 from the glass base material, the clamp A11 or the clamp B19 can be synchronously driven by the rotation drive of the motor A5 to quickly move to the position to clamp the glass base material again, and the reciprocating adjustment positions of the clamp A11 and the clamp B19 can ensure that the glass base material is always in the limited state during the cutting process, thereby preventing the glass from falling accidentally and causing influence on the surrounding environment.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (8)

1. A fixing device for a cutting machine based on laboratory glassware processing, includes: base (1), the main part of base (1) is the U-shaped structure, and fixedly connected with support (2) on the bottom face of base (1), accuse ware (3) in installing in the left side of support (2), and top fixedly connected with mounting bracket (4) of two longitudinal members in base (1), transverse member's internally mounted has motor A (5) in mounting bracket (4), electric putter G (32) are installed to the bottom of supporting seat (31), assembly seat (33) are still installed to the bottom of electric putter G (32), the internally mounted of assembly seat (33) has motor D (34), install polishing head (35) on the bottom output shaft of motor D (34), motor D (34) are used for driving polishing head (35) and rotate.

2. The laboratory glassware machining-based fixture for a cutting machine as claimed in claim 1, wherein: install pump machine A (6) on the output shaft that motor A (5) bottom was installed, the equal fixedly connected with pillar (7) of the outer peripheral face left and right sides of pump machine A (6), and keep away from one side of pump machine A (6) in pillar (7) and install electric putter A (8), installation piece A (9) are installed to the output of electric putter A (8), electric putter B (10) are installed to the bottom of installation piece A (9), electric putter B (10) have constituteed the bearing structure to anchor clamps A (11) jointly with installation piece A (9).

3. The fixing device for a cutting machine based on laboratory glassware machining of claim 2, wherein: anchor clamps A (11) are installed to the bottom of electric putter B (10), all install detector (12) on the trilateral outside of anchor clamps A (11), and detector (12) are connected with well accuse ware (3) electrical property, and detector (12) are used for detecting cutter (28) and polish head (35) apart from the interval between anchor clamps A (11), and the inside of anchor clamps A (11) is the subtend and installs two trachea (13), and trachea (13) are extending structure.

4. The fixing device for a cutting machine based on laboratory glassware machining of claim 3, wherein: keep away from one side of anchor clamps A (11) in trachea (13) and install splint (14), trachea (13) and splint (14) have constituteed jointly and have treated the limit structure who cuts glass, motor A (5) are also installed to the inside of support (2), and install pump B (15) on the top output shaft of motor A (5), the outer peripheral face left and right sides of pump B (15) all provides electric putter C (16) and installs installation piece B (17), and electric putter D (18) are still installed on the top of two installation pieces B (17).

5. The fixture for a cutting machine based on laboratory glassware machining of claim 4, wherein: anchor clamps B (19) are installed on the top of electric putter D (18), the structure of anchor clamps B (19) is unanimous with the structure of anchor clamps A (11), and trachea (13) and splint (14) are also installed to the inside of anchor clamps B (19), two sets of trachea (13) are respectively through pump machine A (6) and pump machine B (15) air feed, vertical groove has all been seted up to the inside of two vertical members in base (1), and the vertical inslot portion swing joint of two places of seting up in base (1) has removal seat (20), and the vertical inslot portion of seting up of vertical member in base (1) installs electric putter H (36).

6. The fixing device for a cutting machine based on laboratory glassware machining of claim 5, wherein: electric putter H (36) are connected with removal seat (20), and electric putter H (36) are used for promoting to remove seat (20) and remove, and the inside of removing seat (20) is seted up flutedly, and removes the left side of seat (20) and install motor B (21), and screw rod (22) are installed on the right side of motor B (21), and motor B (21) are used for driving screw rod (22) to rotate, and the inside sliding connection of recess that removal seat (20) top was seted up has slide (23).

7. The fixing device for a cutting machine based on laboratory glassware machining of claim 6, wherein: the inside of slide (23) is seted up with screw rod (22) assorted screw, motor C (24) are installed to the bottom of slide (23), install gear (25) on the top output shaft of motor C (24), gear (25) are equipped with two altogether, the top in slide (23) is installed through the pivot in another gear (25), and the top coaxial arrangement who is located left side gear (25) has cutting seat (26), electric putter E (27) are installed to the bottom of the vertical component of cutting seat (26) outer peripheral face rear side fixed connection.

8. The laboratory glassware machining-based fixture for a cutting machine as claimed in claim 7, wherein: cutter (28) are installed to the bottom of electric putter E (27), and cutter (28) are used for cutting glass, and regulating block (29) are installed to the periphery front side of cutting seat (26), and electric putter F (30) are installed to the front end of regulating block (29), and supporting seat (31) are still installed to the front end of electric putter F (30).

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