CN220903070U - Clamp for processing plate splicing position - Google Patents

Abstract

The utility model discloses a clamp for processing a plate splicing position, which comprises a frame body, a splicing position processing template, a first clamping strip and a second clamping strip, wherein the frame body is provided with a clamping groove; the frame body comprises a support frame and frame body side plates; the support frame is used for placing a first plate, and the side plate of the frame body is abutted against the second plate; the first holding strip is connected to the support frame and used for pressing a first plate, and the second holding strip is connected to the side plate of the frame body and used for pressing a second plate; the splicing position processing template is connected with the frame body and is abutted against the processing areas of the first plate and the second plate, so that a plurality of milling grooves for milling cutters to process are defined. The limitation of the splicing processing areas of the first plate and the second plate is realized through the arrangement of the frame body, the splicing position processing template, the first holding strip and the second holding strip, the accurate and stable adjustment of the splicing position of the plates is improved, and the working efficiency is improved.

Description

Clamp for processing plate splicing position

Technical Field

The utility model relates to the technical field of machining clamps, in particular to a clamp for machining a plate splicing position.

Background

The jig is a device for fixing a work object in a correct position in a machine manufacturing process to receive a work or inspection, such as a welding jig, a test jig, an assembly jig, a machine tool jig, and the like.

In the field of sheet processing, it is often necessary to cut and splice sheets to meet different customer needs. When the panel is spliced, can splice the panel of different thickness sometimes, this just needs the accurate concatenation of thinner panel to on the cross-section of thicker panel to satisfy the requirement of splice position, and the most unable supporting splice plate of processing simultaneously of current panel splice anchor clamps, can't carry out accurate and steady regulation to the splice position of panel.

Therefore, it is desirable to provide a processing clamp for a board splicing position.

Disclosure of utility model

In order to solve the technical problems, the utility model aims to provide a clamp for processing a splicing position of a plate, which is used for realizing accurate positioning and adjusting of the processing position of a splice plate.

In view of the above, there is provided a jig for processing a splice site of a plate material, comprising a frame body, a splice site processing template, a first clip strip and a second clip strip; the frame body comprises a support frame and frame body side plates; the support frame is used for placing a first plate, and the side plate of the frame body is abutted against the second plate;

The first holding strip is connected to the support frame and used for pressing a first plate, and the second holding strip is connected to the side plate of the frame body and used for pressing a second plate;

The splicing position processing template is connected with the frame body and is abutted against the processing areas of the first plate and the second plate, so that a plurality of milling grooves for milling cutters to process are defined.

Further, the concatenation position processing template includes top surface limiting plate and two fixed feet that mutually perpendicular set up, two fixed feet set up respectively the both ends of top surface limiting plate, top surface limiting plate with support frame thread tightening, two the inboard of fixed foot with respectively the support body curb plate looks butt.

Further, a first baffle and a second baffle which are horizontally arranged at intervals are connected between the two fixed feet, the first baffle is positioned on the inner side of the second baffle, and the first baffle presses the edge position of the first plate; the second baffle is pressed on the side face of the second plate, and the width of the second baffle is smaller than the width of the side face of the second plate.

Further, the milling groove positions comprise a first milling groove position, a second milling groove position and a third milling groove position; the first baffle plate and the top surface limiting plate form a first milling groove position therebetween, the second baffle plate and the first baffle plate form a second milling groove position therebetween, and the second baffle plate and the outer side edge of the second plate form a third milling groove position therebetween.

Further, the two ends of the first baffle plate and the second baffle plate are sunken downwards, and a limiting groove sunken downwards is formed with the inner side walls of the two fixed feet respectively.

Further, the depth of the limiting groove is the same as the machining depth of the splicing groove of the first plate.

Further, the top surface of the support frame is provided with a containing groove for containing the first plates, and the width of the containing groove is larger than the width of at least two first plates side by side.

Further, be provided with a plurality of screw holes on the top surface of support frame, the both ends of first holding strip span the holding groove is respectively through the screw hole with the top surface threaded connection of support frame.

Further, a first bar-shaped slot hole is respectively formed in two ends of the side plate of the frame body, a second bar-shaped slot hole is respectively formed in two fixing legs, the first bar-shaped slot hole and the second bar-shaped slot hole are mutually aligned, and two ends of the second clamping strip penetrate through the second bar-shaped slot hole and the first bar-shaped slot hole through bolt assemblies to be fixed on the side plate of the frame body.

Further, a plurality of hook pieces used for being connected with the working table surface are arranged on the bottom surface of the supporting frame.

The utility model has the beneficial effects that: the embodiment of the utility model provides a clamp for processing a plate splicing position, which comprises a frame body, a splicing position processing template, a first clamping strip and a second clamping strip; the frame body comprises a support frame and frame body side plates; the support frame is used for placing a first plate, and the side plate of the frame body is abutted against the second plate; the first holding strip is connected to the support frame and used for pressing a first plate, and the second holding strip is connected to the side plate of the frame body and used for pressing a second plate; the splicing position processing template is connected with the frame body and is abutted against the processing areas of the first plate and the second plate, so that a plurality of milling grooves for milling cutters to process are defined. The limitation of the splicing processing areas of the first plate and the second plate is realized through the arrangement of the frame body, the splicing position processing template, the first holding strip and the second holding strip, the accurate and stable adjustment of the splicing position of the plates is improved, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of an overall structure of a clamp for clamping a plate for plate splicing processing according to an embodiment of the present utility model;

Fig. 2 is a schematic structural diagram of a frame of a fixture for processing a board splicing position according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a structure of a clamp for processing a plate splicing position when a plate is not clamped;

Fig. 4 is a schematic structural diagram of a splicing position processing template of a clamp for processing a splicing position of a plate according to an embodiment of the present utility model;

Fig. 5 is an enlarged schematic diagram of a partial structure of a milling slot of a splicing position processing template of a clamp for processing a splicing position of a plate according to an embodiment of the present utility model;

Fig. 6 is a schematic structural diagram of a processed first board and a processed second board spliced by the clamp for processing a board splicing position according to an embodiment of the utility model.

In the figure: 100. a first sheet material; 101. a receiving groove; 102. a hook member; 200. a second plate; 1. a frame body; 10. a support frame; 11. a frame body side plate; 110. a first bar-shaped slot; 210. a second bar-shaped slot;

2. Processing templates at splicing positions; 20. a top surface limiting plate; 21. a fixed foot; 22. a first baffle; 23. a second baffle; 24. a limit groove; 3. a first clip strip; 4. a second clip strip; 5. milling the groove position; 51. the first milling groove position; 52. the second milling groove position; 53. and a third slot milling position.

Detailed Description

The embodiment of the utility model provides a clamp for processing a plate splicing position, which is used for realizing accurate positioning and adjusting the processing position of a splice plate.

In order to make the objects, features and advantages of the present utility model more comprehensible, the technical solutions in the embodiments of the present utility model are described in detail below with reference to the accompanying drawings, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Examples:

Fig. 1 is a schematic overall structure of a clamp for processing a plate splicing position, as shown in fig. 1-6, and the clamp for processing the plate splicing position comprises a frame body 1, a splicing position processing template 2, a first holding strip 3 and a second holding strip 4; the frame body 1 comprises a support frame 10 and a frame body side plate 11; the support frame 10 is used for placing a first plate 100, and the frame body side plate 11 is abutted against the second plate 200; the first holding strip 3 is connected to the supporting frame 10 and used for pressing the first plate 100, and the second holding strip 4 is connected to the side plate 11 of the frame body and used for pressing the second plate 200; the splicing position processing template 2 is connected with the frame body 1, and is abutted against the processing areas of the first plate 100 and the second plate 200, so as to define a plurality of milling slots 5 for milling.

In a specific embodiment, in order to precisely position the processing positions of the first plate 100 and the second plate 200, the clamp for processing the splicing positions of the plates is used for limiting the splicing processing areas of the first plate 100 and the second plate 200 through the arrangement of the frame body 1, the splicing position processing template 2, the first clamping strip 3 and the second clamping strip 4, and the splicing structure of two plates can be processed by one-time alignment through the limited milling slot 5, so that the splicing positions of the plates are accurately and stably adjusted, and the working efficiency is improved.

Further, the splicing position processing template 2 comprises a top surface limiting plate 20 and two fixing legs 21 which are perpendicular to each other, the two fixing legs 21 are respectively arranged at two ends of the top surface limiting plate 20, the top surface limiting plate 20 is in threaded fixation with the support frame 10, and the inner sides of the two fixing legs 21 are respectively abutted against the side plates 11 of the frame body.

In a specific embodiment, the groove body of the splicing structure is defined for the to-be-processed positions of the first plate 100 and the second plate 200 by the splicing position processing template 2 through the top limiting plate 20 and the two fixing legs 21 respectively.

Further, a first blocking piece 22 and a second blocking piece 23 which are horizontally arranged at intervals are connected between the two fixing legs 21, the first blocking piece 22 is positioned on the inner side of the second blocking piece 23, and the first blocking piece 22 presses the edge position of the first plate 100; the second baffle 23 is pressed on the side surface of the second plate 200, and the width of the second baffle 23 is smaller than the width of the side surface of the second plate 200.

In a specific embodiment, the first baffle 22 and the second baffle 23 are arranged between the two fixing legs 21, and the milling groove 5 is formed between the first baffle 22, the second baffle 23 and the top surface limiting plate 20 in pairs, so that the milling cutter tool is convenient for processing the plate.

Further, the milling groove 5 comprises a first milling groove 51, a second milling groove 52 and a third milling groove 53; the first milling groove position 51 is formed between the first baffle 22 and the top surface limiting plate 20, the second milling groove position 52 is formed between the first baffle 22 and the second baffle 23, and the third milling groove position 53 is formed between the second baffle 14 and the outer side edge of the second plate 200.

Specifically, the milling groove 5 includes a first milling groove 51, a second milling groove 52, and a third milling groove 53, which are formed between the first baffle 22 and the second baffle 23 and the top limiting plate 20.

Further, both ends of the first blocking piece 22 and the second blocking piece 23 are recessed downward, and a limiting groove 24 is formed with the inner side walls of the two fixing legs 21.

Specifically, through the both ends of first separation blade 22 and second separation blade 23 setting up to the undercut, form spacing groove 24, on the one hand is to the panel degree of depth of processing and is prescribing a limit to, and the second is convenient slot milling cutter feed.

Further, the depth of the limit groove 24 is the same as the machining depth of the splice groove of the first plate 100 and the length of the splice protrusion structure of the second plate 200.

Specifically, the depth of the limit groove 24 is set to be the same as the machining depth of the splice groove of the first plate 100, and the length of the splice protrusion structure of the second plate 200 is set to be the same as the length of the splice protrusion structure of the second plate 200, so that the splice protrusion structure of the second plate 200 and the splice groove of the first plate 100 are spliced.

Further, the top surface of the supporting frame 10 is provided with a receiving groove 101 for placing the first board 100, and the width of the receiving groove 101 is greater than the width of at least two side-by-side first boards 100.

Specifically, the top surface of the support frame 10 is provided with a receiving groove 101, and the receiving groove 101 is used for placing the first boards 100, so that two first boards 100 can be placed at the same time, and different depths can be set according to the thickness of the first boards 100.

Further, a plurality of threaded holes are formed in the top surface of the support frame 10, and two ends of the first clamping strip 3 span the accommodating groove 101 to be aligned with the threaded holes respectively and are in threaded connection with the top surface of the support frame 10 through a bolt assembly.

Specifically, the first clip strip 3 is screwed with the threaded hole of the supporting frame 10 through the bolt assembly, and the height of the first clip strip can be adjusted according to the thickness of the first plate 100, so as to adapt to the plate processing with different thicknesses.

Further, the two ends of the frame side plate 11 are respectively provided with a first bar slot 110, the two fixing legs 21 are respectively provided with a second bar slot 210, the first bar slot 110 and the second bar slot 210 are aligned with each other, and the two ends of the second clamping strip 4 pass through the second bar slot 210 and the first bar slot 110 through a bolt assembly to be fixed on the frame side plate 11.

Specifically, the first strip-shaped slots 110 are formed at two ends of the frame body side plate 11, the second strip-shaped slots 210 are formed on the fixing legs 21, and the second clamping strips 4 are fixed on the frame body side plate 11 through the bolt assemblies.

Further, a plurality of hook members 102 for connecting with the table surface are provided on the bottom surface of the supporting frame 10.

Specifically, the support frame 10 can be fixed to a table by providing the hooking members 102 on the bottom surface of the support frame 10.

In summary, the embodiment of the utility model provides a fixture for processing a splicing position of a plate, which comprises a frame body, a splicing position processing template, a first holding strip and a second holding strip; the frame body comprises a support frame and frame body side plates; the support frame is used for placing a first plate, and the side plate of the frame body is abutted against the second plate; the first holding strip is connected to the support frame and used for pressing a first plate, and the second holding strip is connected to the side plate of the frame body and used for pressing a second plate; the splicing position processing template is connected with the frame body and is abutted against the processing areas of the first plate and the second plate, so that a plurality of milling grooves for milling cutters to process are defined. The limitation of the splicing processing areas of the first plate and the second plate is realized through the arrangement of the frame body, the splicing position processing template, the first holding strip and the second holding strip, the accurate and stable adjustment of the splicing position of the plates is improved, and the working efficiency is improved.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. The clamp for processing the splicing position of the plate is characterized by comprising a frame body (1), a splicing position processing template (2), a first clamping strip (3) and a second clamping strip (4); the frame body (1) comprises a supporting frame (10) and frame body side plates (11); the support frame (10) is used for placing a first plate (100), and the side plate (11) of the frame body is abutted against the second plate (200);

The first clamping strip (3) is connected to the support frame (10) and used for pressing the first plate (100), and the second clamping strip (4) is connected to the frame body side plate (11) and used for pressing the second plate (200);

The splicing position processing template (2) is connected with the frame body (1) and is abutted against the processing areas of the first plate (100) and the second plate (200) to define a plurality of milling groove positions (5) for milling cutters to process.

2. The clamp for processing the splicing position of the plates according to claim 1, wherein the splicing position processing template (2) comprises a top surface limiting plate (20) and two fixing legs (21) which are arranged vertically to each other, the two fixing legs (21) are respectively arranged at two ends of the top surface limiting plate (20), the top surface limiting plate (20) and the supporting frame (10) are in threaded fixation, and the inner sides of the two fixing legs (21) are respectively abutted against the side plates (11) of the frame body.

3. The clamp for processing the plate splicing position according to claim 2, wherein a first baffle (22) and a second baffle (23) which are horizontally arranged at intervals are connected between the two fixing legs (21), the first baffle (22) is positioned on the inner side of the second baffle (23), and the first baffle (22) presses the edge position of the first plate (100); the second baffle (23) is pressed on the side face of the second plate (200), and the width of the second baffle (23) is smaller than the width of the side face of the second plate (200).

4. A clamp for processing a splicing position of a plate material according to claim 3, wherein,

The milling groove positions (5) comprise a first milling groove position (51), a second milling groove position (52) and a third milling groove position (53); the first milling groove position (51) is formed between the first baffle plate (22) and the top surface limiting plate (20), the second milling groove position (52) is formed between the first baffle plate (22) and the second baffle plate (23), and the third milling groove position (53) is formed between the second baffle plate (14) and the outer side edge of the second plate (200).

5. The fixture for processing the splicing position of the plates according to claim 4, wherein both ends of the first baffle plate (22) and the second baffle plate (23) are recessed downwards, and a limiting groove (24) recessed downwards is formed with the inner side walls of the two fixing legs (21) respectively.

6. The clamp for processing the splicing position of the plates according to claim 5, wherein the depth of the limit groove (24) is the same as the processing depth of the splicing groove of the first plate (100).

7. The clamp for processing the board splicing position according to claim 2, wherein a containing groove (101) for containing the first boards (100) is arranged on the top surface of the supporting frame (10), and the width of the containing groove (101) is larger than the width of at least two first boards (100) side by side.

8. The clamp for processing the plate splicing position according to claim 7, wherein a plurality of threaded holes are formed in the top surface of the supporting frame (10), and two ends of the first clamping strip (3) transversely span the accommodating groove (101) and are respectively in threaded connection with the top surface of the supporting frame (10) through the threaded holes.

9. The fixture for processing the splicing position of the plate according to claim 2, wherein a first strip-shaped slot (110) is respectively formed at two ends of the side plate (11) of the frame body, a second strip-shaped slot (210) is respectively formed on two fixing legs (21), the first strip-shaped slot (110) and the second strip-shaped slot (210) are mutually aligned, and two ends of the second clamping strip (4) pass through the second strip-shaped slot (210) and the first strip-shaped slot (110) to be fixed on the side plate (11) of the frame body through bolt assemblies.

10. The clamp for processing the splicing position of the plates according to claim 1, wherein a plurality of hook pieces (102) for being connected with a working table are arranged on the bottom surface of the supporting frame (10).