CN212096712U - Heating wire buoyancy block cutting tool and heating wire cutting table for installing same - Google Patents

Abstract

The utility model provides a heating wire buoyancy block cutting tool and a heating wire cutting table for installing the tool, which relates to the technical field of buoyancy block cutting equipment and solves the problem that a manual cutting table cannot regularly process buoyancy blocks with curved surface structures; the angle adjusting mechanism is arranged on the sliding table; the slewing mechanism is movably arranged on the angle adjusting mechanism and used for outputting slewing motion around a slewing axis of the slewing mechanism, and the slewing mechanism is used for installing the buoyancy block; the angle adjusting mechanism is used for adjusting an included angle between a rotation axis of the rotation mechanism and a horizontal plane; the clamping mechanism is detachably arranged on the rotary mechanism and is used for being tightly fixed on the buoyancy block of the rotary mechanism. The table top of the electric heating wire cutting table is provided with a feeding mechanism of an electric heating wire buoyancy block cutting tool. The utility model discloses can cut out the curved surface structure of buoyancy piece regularly with lower cost.

Description

Heating wire buoyancy block cutting tool and heating wire cutting table for installing same

Technical Field

The utility model relates to a buoyancy piece cutting equipment technical field, specific theory is a heating wire cutting bed of heating wire buoyancy piece cutting frock and this frock of installation.

Background

The electric heating wire cutting machines on the market are generally divided into two types, one type is a full-automatic cutting machine, the other type is a manual cutting table, and the manual cutting table is mainly a simple small-table-board workbench. The full-automatic cutting machine is with high costs and the efficiency of cutting buoyancy piece compares manual cutting bed too fast much, and the production raw materials is extravagant more seriously, and manual cutting bed equipment structure is simple, and is with low costs, is fit for the customized production of small batch, and a lot of DIY players like the usefulness. When the manual cutting table is used, when the buoyancy blocks with curved surface structures are cut, the operator operates the cut buoyancy blocks to cause irregularity. Also when using manual cutting tables to produce products in small quantities, it is difficult to achieve a satisfactory process with cost control.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to design a heating wire buoyancy piece cutting frock and install the heating wire cutting bed of this frock, can regularly cut out the curved surface structure of buoyancy piece with lower cost.

The utility model discloses a following technical scheme realizes:

the utility model provides a heating wire buoyancy block cutting tool, which comprises a feeding mechanism, a sliding table, an angle adjusting mechanism, a swing mechanism and a clamping mechanism;

the feeding mechanism is used for providing moving guide on a horizontal plane;

the sliding table is movably arranged on the feeding mechanism and can move along the guide direction of the feeding mechanism;

the angle adjusting mechanism is arranged on the sliding table;

the slewing mechanism is movably arranged on the angle adjusting mechanism and is provided with a slewing axis, the slewing mechanism is used for outputting slewing motion around the slewing axis of the slewing mechanism, and the slewing mechanism is used for installing a buoyancy block; the angle adjusting mechanism is used for adjusting an included angle between a rotation axis of the rotation mechanism and a horizontal plane;

the clamping mechanism is detachably mounted on the swing mechanism and is used for being fixedly mounted on the buoyancy block of the swing mechanism.

When the structure is arranged, the feeding mechanism of the heating wire buoyancy block cutting tool is used for being installed on the table top of the manual cutting table so that the whole heating wire buoyancy block cutting tool and the manual cutting table are fixedly installed. This heating wire buoyancy piece cutting frock provides the regulation of feed volume regulation, pitch angle regulation and three directions of gyration angle regulation, can regularly process each curved surface structure of required buoyancy piece through manual with low-cost, for example cylindrical buoyancy piece or toper buoyancy piece etc. to satisfy the use of DIY player.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the feeding mechanism comprises a linear slide rail, and the sliding table is mounted on the linear slide rail.

When the structure is adopted, the sliding table is fixed through the linear sliding rail, so that the precision and the stability of the linear motion of the sliding table and the whole electric heating wire buoyancy block cutting tool can be well limited.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the sliding table is provided with a sliding table locking knob, and the sliding table locking knob can act on the linear slide rail and is used for locking the sliding table with the linear slide rail.

When the structure is arranged, after the buoyancy block installed on the heating wire buoyancy block cutting tool moves in place, the sliding table can be locked, the phenomenon that the processing progress is influenced due to the fact that the sliding table moves in the feeding direction is avoided, and the locked sliding table can enable an operator to put attention on the adjustment of the pitching angle and the rotation angle of the buoyancy block better, so that the buoyancy block is cut out more regularly.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the angle adjusting mechanism comprises a shaft bracket and an angle adjusting shaft, the shaft bracket is arranged on the sliding table, and the angle adjusting shaft is rotatably arranged on the shaft bracket; the slewing mechanism is mounted on the angle adjusting shaft.

When the structure is adopted, the structure that the slewing mechanism is directly arranged at the angle adjusting shaft is simpler, and the production cost is low.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the angle adjusting mechanism is provided with an angle locking knob for locking the shaft bracket and the angle adjusting shaft.

When the structure is arranged, the angle adjusting shaft and the shaft bracket are locked through the increased angle locking knob, so that the change of the pitching angle of the swing mechanism and the buoyancy block can be avoided when the buoyancy block is cut, and an operator can transfer attention to the swing angle adjustment of the buoyancy block to cut out the more regular buoyancy block.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the angle adjusting mechanism is provided with scales for displaying an included angle between a rotary axis of the rotary mechanism and a horizontal plane.

When the structure is adopted, an operator can determine the buoyancy block and the pitching angle of the slewing mechanism by observing the number of the alignment angles of the slewing mechanism and the scales, so that the operator can more accurately cut the required buoyancy block.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the rotation mechanism comprises a rotating shaft and a buoyancy block base, the rotating shaft is rotatably installed on the angle adjusting mechanism, the rotating shaft is used for inserting the buoyancy block, and the buoyancy block base is arranged on the rotating shaft and used for supporting the buoyancy block.

When the structure is arranged, the rotating shaft is rotatably arranged at the angle adjusting mechanism, the structure is simple, and the production cost is low.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the clamping mechanism comprises a chuck and a locking handle fixedly connected with the chuck, and the chuck and the locking handle are coaxially sleeved on the rotating shaft; the locking handle is connected with a crank.

When adopting above-mentioned structure that sets up, the buoyancy piece of installation provides further clamping dynamics through the clamping mechanism who increases, and when avoiding cutting the buoyancy piece, axial displacement and rotary motion take place for the buoyancy piece, and simultaneously, the design of crank can let the operator accomplish the rotary motion of buoyancy piece more easily to regular buoyancy piece is processed better.

The utility model also provides a heating wire cutting bed, including support, heating wire, mesa, heating wire power supply and foretell heating wire buoyancy piece cutting frock, feed mechanism install in the mesa.

When the structure is arranged, the heating wire cutting table for installing the heating wire buoyancy block cutting tool can limit feeding motion, pitch angle adjustment and rotation angle adjustment, and can regularly process various curved surface structures of the required buoyancy blocks, such as cylindrical buoyancy blocks or conical buoyancy blocks and the like, through manual operation at low cost, so that the use of DIY players is met.

Further for better realization the utility model discloses, adopt the following structure that sets up very much: the mesa is provided with feeds the scale, the slip table is provided with the pointer that is used for the reaction to feed the yardstick.

When the structure is adopted, the pointer is matched with the feeding graduated scale, so that an operator can visually and accurately know the feeding amount of the buoyancy block, the cutting amount of the buoyancy block can be well confirmed, and the more regular buoyancy block can be processed.

The utility model has the advantages of it is following and beneficial effect:

the utility model discloses in, the feed mechanism of heating wire buoyancy piece cutting frock is used for installing in the mesa of manual cutting bed so that whole heating wire buoyancy piece cutting frock and manual cutting bed fixed mounting. This heating wire buoyancy piece cutting frock provides the regulation of feed volume regulation, pitch angle regulation and three directions of gyration angle regulation, can regularly process each curved surface structure of required buoyancy piece through manual with low-cost, for example cylindrical buoyancy piece or toper buoyancy piece etc. to satisfy the use of DIY player.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a heating wire cutting table;

FIG. 2 is a schematic view of a heating wire cutting table with buoyancy blocks installed;

labeled as:

1. a table top; 2. the electric heating wire supplies power; 3. a display; 4. a master switch; 5. a support; 6. an electric heating wire; 7. a chuck; 8. a rotating shaft; 9. a crank; 10. locking the handle; 11. a buoyancy block base; 12. an angle adjusting shaft; 13. a pedestal; 14. an angle locking knob; 15. a linear slide rail; 16. a sliding table locking knob; 17. feeding a graduated scale; 18. an indicator needle; 19. and a sliding table.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

a heating wire buoyancy block cutting tool can regularly cut a curved surface structure of a buoyancy block at low cost, as shown in figures 1 and 2, and is particularly arranged in the following structure:

this heating wire buoyancy piece cutting frock belongs to the auxiliary assembly of heating wire cutting bed, can let the operator cut out the shape that manual can't be accomplished fast, for example cylindrical, toper and fusiformis. Basically, the electric heating wire buoyancy block cutting tool comprises a feeding mechanism, a sliding table 19, an angle adjusting mechanism, a rotating mechanism and a clamping mechanism.

The feed mechanism is used for carrying the slide table 19, the angle adjustment mechanism, the swing mechanism and the clamping mechanism, and for providing movement guidance, i.e. X-direction movement, on a horizontal plane for the slide table 19, the angle adjustment mechanism, the swing mechanism and the clamping mechanism. The sliding table 19 is used for bearing the angle adjusting mechanism, the rotating mechanism and the clamping mechanism, the sliding table 19 is movably arranged on the feeding mechanism, and the sliding table 19 can move along the guide of the feeding mechanism. The angle adjusting mechanism is arranged on the sliding table 19, the swing mechanism is movably arranged on the angle adjusting mechanism, the swing mechanism is provided with a swing axis and is used for outputting swing motion around the swing axis, the swing mechanism is used for installing the buoyancy block, and the angle adjusting mechanism is used for adjusting an included angle between the swing axis of the swing mechanism and a horizontal plane. The clamping mechanism is detachably arranged on the slewing mechanism and is used for being fixedly arranged on the buoyancy block of the slewing mechanism.

Specifically, in this embodiment, the feeding mechanism includes the linear slide rail 15, the linear slide rail 15 is selected, the sliding table 19 is fixed by the linear slide rail 15, and the accuracy and the stability of the linear motion of the sliding table 19 and the whole electric heating wire buoyancy block cutting tool can be well limited. The slide table 19 is mounted to the linear guide 15 by screws.

The side part of the sliding table 19 is provided with a sliding table locking knob 16, the functional structure of the sliding table locking knob 16 can be a bolt screwed into the sliding table 19, the length of the bolt screwed into the sliding table 19 can be adjusted by twisting the sliding table locking knob 16, and the end part of the bolt can act on the linear sliding rail 15 by abutting against the linear sliding rail 15, so that the sliding table 19 and the linear sliding rail 15 are locked with each other. After the buoyancy block installed in heating wire buoyancy block cutting frock moves to target in place, lockable slip table 19 avoids moving in the direction of feed and influences the processing progress, and the slip table 19 of locking can let the operating personnel put attention on the regulation of the every single move angle and the gyration angle of buoyancy block better to cut out more regular buoyancy block.

The angle adjusting mechanism comprises two shaft brackets 13 and an angle adjusting shaft 12, the two shaft brackets 13 are relatively and fixedly installed on the top surface of the sliding table 19, two ends of the angle adjusting shaft 12 are directly inserted into holes of the corresponding shaft brackets 13 and screwed into locking nuts for fixing, and the angle adjusting shaft 12 can smoothly rotate on the shaft brackets 13.

As a preferable structure of the angle adjusting mechanism, the angle adjusting mechanism is provided with an angle locking knob 14 for locking the shaft bracket 13 and the angle adjusting shaft 12, a rotary handle of the angle locking knob 14 is connected to a shaft end of the angle adjusting shaft 12 through a bolt, and the angle locking knob 14 can be pressed on the surface of the shaft bracket 13 by rotating the angle to provide friction force. The angle adjusting shaft 12 and the shaft bracket 13 are locked by the added angle locking knob 14, so that the change of the pitch angle of the slewing mechanism and the buoyancy block can be avoided when the buoyancy block is cut, and an operator can transfer attention to the slewing angle adjustment of the buoyancy block to cut a more regular buoyancy block. Preferably, in order to reflect the pitch angle of the slewing mechanism, the surface of the shaft bracket 13 is further provided with a scale for displaying an included angle between the slewing axis of the slewing mechanism and the horizontal plane, and an operator can determine the buoyancy block and the pitch angle of the slewing mechanism by observing the number of angles of alignment between the rotating shaft 8 of the slewing mechanism and the scale on the surface of the shaft bracket 13, so that the operator can more accurately cut the required buoyancy block.

The slewing mechanism comprises a rotating shaft 8 and a circular-plate-shaped buoyancy block base 11, and the axis of the rotating shaft 8 is the slewing axis of the slewing mechanism. The bottom end of the rotating shaft 8 is inserted into the angle adjusting shaft 12 and is rotatably installed together with the angle adjusting shaft 12 through a bearing, and the axis of the rotating shaft 8 is perpendicular to the axis of the angle adjusting shaft 12. The rotating shaft 8 is used for inserting the buoyancy block, the buoyancy block base 11 is arranged at the bottom of the rotating shaft 8 and used for supporting the buoyancy block, and the rotating shaft 8 is perpendicular to the buoyancy block base 11. The rotating shaft 8 is directly and rotatably arranged at the angle adjusting shaft 12 of the angle adjusting mechanism, the structure is simple, and the production cost is low.

The clamping mechanism comprises a disc-shaped chuck 7 and a locking handle 10, the chuck 7 and the locking handle 10 are coaxially sleeved on the rotating shaft 8, and the bottom of the locking handle 10 is welded and fixed with the top surface of the chuck 7. The locking handle 10 can be locked and unlocked by pressing down and lifting up the handle to enable the lug at the end part of the locking handle to act with the rotating shaft 8. Through the clamping mechanism who increases provide further clamping dynamics to the buoyancy piece of installation, when avoiding cutting the buoyancy piece, axial displacement and rotary motion take place for the buoyancy piece to regular buoyancy piece is processed better.

As a preferable structure scheme of the clamping mechanism, a crank handle 9 is connected to the end part of the locking handle 10, and the design of the crank handle 9 can enable an operator to complete the rotation movement of the buoyancy block more easily, so that the regular buoyancy block can be processed better.

When the structure is arranged, the feeding mechanism of the heating wire buoyancy block cutting tool is used for being installed on the table top 1 of the manual cutting table so that the whole heating wire buoyancy block cutting tool and the manual cutting table are fixedly installed. This heating wire buoyancy piece cutting frock provides the regulation of feed volume regulation, pitch angle regulation and three directions of gyration angle regulation, can regularly process each curved surface structure of required buoyancy piece through manual with low-cost, for example cylindrical buoyancy piece or toper buoyancy piece etc. to satisfy the use of DIY player.

Example 2:

this embodiment further provides an heating wire cutting bed on the basis of above-mentioned embodiment, can realize the quick clamping location of buoyancy piece to with lower cost, regularly cut out the curved surface structure of buoyancy piece, adopt the following structure of setting especially:

this kind of heating wire cutting bed includes support 5, heating wire 6, mesa 1, heating wire power supply 2 and the heating wire buoyancy piece cutting frock in embodiment 1, and heating wire power supply 2 sets up in mesa 1 department, and the top surface of mesa 1 is provided with the support 5 of an L shape, and support 5 installs heating wire 6, and heating wire 6 is connected with heating wire power supply 2 electricity, and heating wire power supply 2 still is provided with display 3 and master switch 4. The linear slide rail 15 of the electric heating wire buoyancy block cutting tool is installed on the top surface of the table top 1 through a bolt. The linear guide 15 is directed toward the heating wire 6.

As a preferable configuration of the present embodiment, a feeding scale 17 is bonded to the top surface of the table top 1, the feeding scale 17 is disposed at the side of the linear guideway 15, and an indicator 18 is bonded to the side of the sliding table 19, and the indicator 18 is used in cooperation with the feeding scale 17 to reflect the feeding dimension.

The heating wire cutting bed of this heating wire buoyancy piece cutting frock of installation provides and to have the limited feed motion, pitch angle adjusts and gyration angle adjusts, can process out each curved surface structure of required buoyancy piece regularly through manual with low-cost, can reach quick location cutting buoyancy piece so that be applied to the production of small batch, for example cylindrical buoyancy piece or toper buoyancy piece etc. to satisfy the use of DIY player. The pointer 18 is matched with the feeding graduated scale 17, so that an operator can intuitively and accurately know the feeding amount of the buoyancy block, the cutting amount of the buoyancy block can be well confirmed, and the more regular buoyancy block can be processed.

The electric heating wire buoyancy block cutting tool can help an operator to quickly install and position the buoyancy block and cut out a cylindrical, conical and fusiform structure. The operator first sets the pointer 18 of the slide table 19 to zero with the feed scale and then fixes the slide table position by the slide table locking knob 16. Then the chuck 7 is taken down from the rotating shaft 8, the middle part of the buoyancy block is punched or is directly aligned with the rotating shaft 8 to press down the buoyancy block, the bottom of the buoyancy block is seated on the top surface of the buoyancy block base 11, then the chuck 7 is installed back and integrally pressed down to press the buoyancy block, and the chuck 7 is locked by pressing down the locking handle 10. Then the pitch angle between the rotating shaft 8 and the table top 1 is adjusted and the locking knob 14 is rotated to be fixed. Then the operation can be started as soon as possible,

when a cylinder is cut, the sliding table locking knob 16 is loosened and then fed, the cutting amount is confirmed by feeding the graduated scale 17 and the indicating needle 18, the sliding table locking knob 16 is locked after the sliding table locking knob is fed in place, and then the crank handle 9 is held by hand to rotate the rotating shaft 8, so that the cutting is completed. When the conical shape is cut, the pitching angle of the improved rotating shaft 8 can be determined firstly, after the conical shape is fed to the position, the crank handle 9 is held by a hand to do circular motion, so that the cutting of the regular conical buoyancy block is finished, and when the cutting is finished, the locking handle 10 is opened, the chuck 7 is taken off, and the cut finished product can be removed.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a heating wire buoyancy piece cutting frock which characterized in that: comprises a feeding mechanism, a sliding table (19), an angle adjusting mechanism, a rotating mechanism and a clamping mechanism;

the feeding mechanism is used for providing moving guide on a horizontal plane;

the sliding table (19) is movably arranged on the feeding mechanism, and the sliding table (19) can move along the guide of the feeding mechanism;

the angle adjusting mechanism is arranged on the sliding table (19);

the slewing mechanism is movably arranged on the angle adjusting mechanism and is provided with a slewing axis, the slewing mechanism is used for outputting slewing motion around the slewing axis of the slewing mechanism, and the slewing mechanism is used for installing a buoyancy block; the angle adjusting mechanism is used for adjusting an included angle between a rotation axis of the rotation mechanism and a horizontal plane;

the clamping mechanism is detachably mounted on the swing mechanism and is used for being fixedly mounted on the buoyancy block of the swing mechanism.

2. The heating wire buoyancy block cutting tool according to claim 1, characterized in that: the feeding mechanism comprises a linear slide rail (15), and the sliding table (19) is mounted on the linear slide rail (15).

3. The heating wire buoyancy block cutting tool according to claim 2, characterized in that: the sliding table (19) is provided with a sliding table locking knob (16), and the sliding table locking knob (16) can act on the linear sliding rail (15) and is used for locking the sliding table (19) and the linear sliding rail (15).

4. The heating wire buoyancy block cutting tool according to claim 1, characterized in that: the angle adjusting mechanism comprises a shaft bracket (13) and an angle adjusting shaft (12), the shaft bracket (13) is installed on the sliding table (19), and the angle adjusting shaft (12) is rotatably installed on the shaft bracket (13); the slewing mechanism is mounted on the angle adjusting shaft (12).

5. The heating wire buoyancy block cutting tool according to claim 4, characterized in that: the angle adjusting mechanism is provided with an angle locking knob (14) for locking the shaft bracket (13) and the angle adjusting shaft (12).

6. The heating wire buoyancy block cutting tool according to any one of claims 1 to 5, characterized in that: the rotation mechanism comprises a rotating shaft (8) and a buoyancy block base (11), the rotating shaft (8) is rotatably installed on the angle adjusting mechanism, the rotating shaft (8) is used for inserting buoyancy blocks, and the buoyancy block base (11) is arranged on the rotating shaft (8) and used for supporting the buoyancy blocks.

7. The heating wire buoyancy block cutting tool according to claim 6, characterized in that: the clamping mechanism comprises a chuck (7) and a locking handle (10) fixedly connected with the chuck (7), and the chuck (7) and the locking handle (10) are coaxially sleeved on the rotating shaft (8).

8. The heating wire buoyancy block cutting tool according to claim 7, characterized in that: the locking handle (10) is connected with a crank (9).

9. A heating wire cutting table is characterized in that: the electric heating wire buoyancy block cutting tool comprises a support (5), an electric heating wire (6), a table top (1), an electric heating wire power supply (2) and the electric heating wire buoyancy block cutting tool according to any one of claims 1 to 8, wherein the feeding mechanism is installed on the table top (1).

10. The heating wire cutting table of claim 9, wherein: the table top (1) is provided with a feeding graduated scale (17), and the sliding table (19) is provided with an indicating needle (18) for reflecting the feeding scale.

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