CN221247241U - Bonding tool - Google Patents

Abstract

The utility model provides a bonding tool, which belongs to the technical field of tools and comprises a bonding seat, a material supporting piece and a connecting unit. The material supporting piece is connected with the material bonding seat, and the upper surface of the material supporting piece is a horizontal plane and used for supporting materials to be cut. The connecting unit is at least one, and the connecting unit comprises a positioning guide rail which is horizontally arranged and connected with the sticky material seat, and the positioning guide rail is used for sliding into a slideway on the material plate so that the material plate is positioned above the material to be cut on the material supporting piece. The material bonding tool provided by the utility model can avoid the problem that the bottom surface of the material to be cut, which is partially bonded on the material plate through glue, is not a horizontal surface after the material plate is sleeved on the guide rail in the workbench in a sliding way.

Description

Bonding tool

Technical Field

The utility model belongs to the technical field of tools, and particularly relates to a bonding tool.

Background

Before the multi-wire saw carries out multi-wire cutting, the material to be cut needs to be adhered and fixed on the material plate through glue, and the material plate is sleeved on a guide rail horizontally arranged in the workbench in a sliding way on the material plate. At this time, the bottom surface of the material to be cut should be a horizontal surface as a reference surface of the cutting position. However, due to the processing errors of the material to be cut, the misoperation when the material to be cut is adhered to the material plate, and the like, the bottom surface of the material to be cut, which is partially adhered and fixed on the material plate through glue, is not a horizontal surface, but an included angle exists between the bottom surface and the horizontal surface.

Disclosure of utility model

The utility model aims to provide a bonding tool, which aims to solve the problem that the bottom surface of a material to be cut, which is partially bonded on a material plate through glue, is not a horizontal surface after the material plate is sleeved on a guide rail in a workbench in a sliding manner.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a bonding tool, including bonding seat, hold in the palm material spare and connecting element. The material supporting piece is connected with the material bonding seat, and the upper surface of the material supporting piece is a horizontal plane and used for supporting materials to be cut. The connecting unit is at least one, the connecting unit includes the location guide rail, the location guide rail level sets up and with the bonding material seat is connected, the location guide rail is used for sliding to penetrate in the slide on the flitch, so that the flitch is located hold in the palm the top of expecting to cut on the material piece.

In one possible implementation, the adhesive tool further includes at least one set of first sliding components, the first sliding components including a first connecting rail and a first slider. The first connecting guide rail is horizontally arranged and perpendicular to the positioning guide rail, and the first connecting guide rail is fixedly arranged on the sticky seat. The first sliding block is arranged on the first connecting guide rail in a sliding manner, and the first sliding block is fixedly connected with the material supporting piece.

In one possible implementation, the bonding tool further includes a first drive screw and a first screw nut. The first driving lead screw is parallel to the first connecting guide rail, and the first driving lead screw is rotationally connected with the sticking seat. The first screw nut is in threaded connection with the first driving screw, and the first screw nut is fixedly connected with the material supporting piece.

In one possible implementation manner, the adhesive seat is provided with a positioning surface which is vertically arranged, the positioning surface is positioned on one side of the material supporting piece along the length direction of the positioning guide rail, and the positioning surface is used for being attached to the material to be cut on the material supporting piece.

In one possible implementation, the connection unit further includes a second connection rail, a second slider, and a first connection member. The second connecting guide rail is vertically arranged and fixedly connected with the sticky seat. The second sliding block is arranged on the second connecting guide rail in a sliding way. The first connecting piece is of an L-shaped structure and comprises a first fixing portion and a second fixing portion, wherein the first fixing portion is fixedly connected with the second sliding block, and the second fixing portion is fixedly connected with the positioning guide rail.

In one possible implementation, the connection unit further includes a third connection rail, a third slider, and a second connection member. The third connecting guide rail is vertically arranged and fixedly connected with the sticky seat. The third sliding block is arranged on the third connecting guide rail in a sliding manner. The second connecting piece is of an L-shaped structure and comprises a third fixing portion and a fourth fixing portion, wherein the third fixing portion is fixedly connected with the third sliding block, and the fourth fixing portion is fixedly connected with the second fixing portion.

In one possible implementation manner, the number of the connecting units is two, and the two connecting units are arranged at intervals along the horizontal direction perpendicular to the positioning guide rail.

In one possible implementation, the bonding tool further includes a fixture, a second drive screw, and a second screw nut. The fixing piece is fixedly connected with the two first connecting pieces. The second driving screw rod is vertically arranged and is rotationally connected with the fixing piece. The second screw nut is in threaded connection with the second driving screw, and the second screw nut is fixedly connected with the material bonding seat.

In one possible implementation manner, the second driving screw is capable of penetrating through the fixing piece in a rotating mode, a limiting portion protruding outwards is arranged on the side wall of the second driving screw, the limiting portion is located below the fixing piece, and the material bonding tool further comprises a first hand wheel. The first hand wheel is fixedly arranged on the second driving screw rod and is positioned above the fixing piece, so that the fixing piece is clamped by being matched with the limiting part.

In one possible implementation manner, the end face of one end of the positioning guide rail is provided with a threaded hole, the axis of the threaded hole is parallel to the positioning guide rail, and the bonding tool further comprises a limiting piece, an ejector piece, a pressure block and a compression bolt. The limiting piece is fixedly connected with one of the second fixing parts. The ejector piece sliding sleeve is arranged at one end of the positioning guide rail, which is provided with the threaded hole, the ejector piece and the limiting piece are arranged at intervals along the length direction of the positioning guide rail, and the ejector piece and the limiting piece are used for accommodating the material plate. The pressure block is located one side of the ejector far away from the limiting piece and is abutted with the ejector. The compression bolt screw rod is arranged in the pressure block in a penetrating way, in the threaded hole in a penetrating way and in threaded connection with the threaded hole.

In the embodiment of the application, the material to be cut is placed on the upper surface of the material supporting piece, the material plate is sleeved on the positioning guide rail through the slideway, the surface of the material plate for being bonded with the material to be cut is downward, namely, the positioning guide rail slides into the slideway, at the moment, the material plate is positioned above the material to be cut on the material supporting plate, glue is filled between the material plate and the material to be cut, so that the material plate and the material to be cut are bonded and fixed together, and at the moment, the bottom surface of the material to be cut is bonded with the upper surface of the material supporting piece, so that the bottom surface of the material to be cut is a horizontal surface. The material plate is taken down from the positioning guide rail which is horizontally arranged, then the material plate is sleeved on the guide rail which is also horizontally arranged in the workbench, so that the bottom surface of the material to be cut is still kept as a horizontal surface, and the problem that the bottom surface of the material to be cut, which is partially adhered to the material plate through glue, is not the horizontal surface after the material plate is sleeved on the guide rail in the workbench in a sliding manner is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an axial measurement structure of a binder tool in use according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the portion A in FIG. 1;

FIG. 3 is an enlarged schematic view of part B in FIG. 1;

Fig. 4 is a schematic diagram of an axial measurement structure of a binder tool according to an embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of the portion C in FIG. 4;

FIG. 6 is an enlarged schematic view of the portion D of FIG. 4;

FIG. 7 is a schematic diagram of an axial measurement structure of a binder tool with parts removed according to an embodiment of the present utility model;

FIG. 8 is an enlarged schematic view of the portion E of FIG. 7;

fig. 9 is a schematic diagram of an axial measurement structure of an ejector in a binder tool according to an embodiment of the present utility model;

Fig. 10 is a schematic diagram of an axial structure of a material plate in the prior art.

In the figure: 1. a material sticking seat; 11. a positioning surface; 2. a material supporting piece; 31. positioning a guide rail; 311. a threaded hole; 32. a second connecting rail; 33. a second slider; 34. a first connector; 341. a first fixing portion; 342. a second fixing portion; 35. a third connecting rail; 36. a third slider; 37. a second connector; 371. a third fixing portion; 372. a fourth fixing portion; 4. a material plate; 41. a slideway; 42. an inclined surface; 51. a first connecting rail; 52. a first slider; 6. a first drive screw; 7. a first lead screw nut; 8. a fixing member; 9. a second drive screw; 91. a limit part; 10. a second lead screw nut; 110. a first hand wheel; 120. a limiting piece; 130. a push member; 1301. a compression surface; 140. a pressure block; 150. a compression bolt; 160. the second hand wheel; 170. a bearing; 180. and (5) cutting the material.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It should be further noted that the drawings and embodiments of the present utility model mainly describe the concept of the present utility model, and on the basis of the concept, some specific forms and arrangements of connection relations, position relations, power units, power supply systems, hydraulic systems, control systems, etc. may not be completely described, but those skilled in the art may implement the specific forms and arrangements described above in a well-known manner on the premise of understanding the concept of the present utility model.

When an element is referred to as being "fixed" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

The terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the same sense as the orientation or positional relationship shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" means two or more, and the meaning of "a number" means one or more, unless specifically defined otherwise.

Referring to fig. 1, fig. 4, fig. 7, fig. 8 and fig. 10, the adhesive tool provided by the present utility model will now be described. The bonding tool comprises a bonding seat 1, a material supporting piece 2 and a connecting unit. The material supporting piece 2 is connected with the material bonding seat 1, and the upper surface of the material supporting piece 2 is a horizontal plane and is used for supporting the material 180 to be cut. The connecting unit is at least one, and the connecting unit includes positioning guide rail 31, and positioning guide rail 31 level sets up and is connected with bonding material seat 1, and positioning guide rail 31 is used for the slip to penetrate in slide 41 on the flitch 4 to make flitch 4 be located the top of waiting to cut material 180 on holding in the palm material 2.

Compared with the prior art, the adhesive tool provided by the utility model has the advantages that the material 180 to be cut is placed on the upper surface of the material supporting piece 2, the material plate 4 is sleeved on the positioning guide rail 31 through the slideway 41, the surface of the material plate 4 for adhering to the material 180 to be cut is downwards, namely, the positioning guide rail 31 slides into the slideway 41, at the moment, the material plate 4 is positioned above the material 180 to be cut on the material supporting plate 4, glue is filled between the material plate 4 and the material 180 to be cut, and therefore, the material plate 4 and the material 180 to be cut are adhered and fixed together, and at the moment, the bottom surface of the material 180 to be cut is adhered to the upper surface of the material supporting piece 2, so that the bottom surface of the material 180 to be cut is a horizontal surface. The material plate 4 is taken down from the positioning guide rail 31 which is horizontally arranged, then the material plate 4 is sleeved on the guide rail which is also horizontally arranged in the workbench, so that the bottom surface of the material 180 to be cut is still kept as a horizontal plane, and the problem that the bottom surface of the material 180 to be cut, which is partially adhered to the material plate 4 through glue after the material plate 4 is slidably sleeved on the guide rail in the workbench, is not a horizontal plane is avoided.

In this embodiment, the positioning rail 31 is located at a suitable height above the pallet 2. The stock carrier 2 may have a plate-like structure. In the prior art, the slide way 41 on the material plate 4 is a T-shaped groove, so the positioning guide rail 31 is a T-shaped guide rail.

In some embodiments, referring to fig. 1 and 7, the adhesive tooling further comprises at least one set of first slide assemblies comprising a first connecting rail 51 and a first slider 52. The first connecting guide rail 51 is horizontally arranged and perpendicular to the positioning guide rail 31, and the first connecting guide rail 51 is fixedly arranged on the adhesive seat 1. The first slider 52 is slidably disposed on the first connecting rail 51, and the first slider 52 is fixedly connected with the material supporting member 2. The carrier 2 is slidable with the first slider 52. By sliding the material plate 4 along the positioning guide rail 31, the relative position of the material plate 4 and the material 180 to be cut can be adjusted, so that the material 180 to be cut is aligned with the area on the material plate 4 for adhering the material 180 to be cut in the vertical direction. In the present embodiment, the number of the first sliders 52 on each first connection rail 51 may be plural.

In some embodiments, referring to fig. 4 and 7, the bonding tool further comprises a first drive screw 6 and a first screw nut 7. The first drive screw 6 is parallel to the first connecting rail 51, and the first drive screw 6 is rotatably connected to the adhesive seat 1. The first screw nut 7 is in threaded connection with the first driving screw 6, and the first screw nut 7 is fixedly connected with the material supporting piece 2. The first driving screw rod 6 is driven to rotate, and the first screw rod nut 7 in threaded connection with the first driving screw rod 6 slides along the length direction of the first driving screw rod 6, so that the material supporting piece 2 fixedly connected with the first screw rod nut 7 slides along with the first sliding block 52.

Further, a second hand wheel 160 is fixed at one end of the first driving screw 6, so as to facilitate driving the first driving screw 6 to rotate.

In some embodiments, referring to fig. 1 and 7, the adhesive base 1 has a positioning surface 11 disposed vertically, the positioning surface 11 is located on one side of the material supporting member 2 along the length direction of the positioning rail 31, and the positioning surface 11 is used for being attached to the material 180 to be cut on the material supporting member 2, so as to position the position of the material 180 to be cut.

In some embodiments, referring to fig. 4, 7 and 8, the connection unit further includes a second connection rail 32, a second slider 33 and a first connection 34. The second connecting guide rail 32 is arranged vertically and is fixedly connected with the adhesive seat 1. The second slider 33 is slidably disposed on the second connecting rail 32. The first connecting piece 34 is in an L-shaped structure and comprises a first fixing portion 341 and a second fixing portion 342, the first fixing portion 341 is fixedly connected with the second sliding block 33, and the second fixing portion 342 is fixedly connected with the positioning guide rail 31. The first connecting piece 34 can slide and lift along with the second sliding block 33, so as to drive the positioning guide rail 31 to lift, that is, adjust the height of the material plate 4 on the positioning guide rail 31. The height of the material plate 4 is adjusted, so that the tool can be applied to materials 180 to be cut with different heights. In the present embodiment, the positioning rail 31 corresponds to a sliding connection with the adhesive seat 1 in the vertical direction. A clearance between the material plate 4 and the material 180 to be cut can be detected with a feeler gauge whether the clearance meets the sticking standard. Further, the second slider 33 may be provided in plural.

In some embodiments, referring to fig. 4, the connection unit further includes a third connection rail 35, a third slider 36, and a second connection 37. The third connecting guide rail 35 is vertically arranged and fixedly connected with the sticky material seat 1. The third slider 36 is slidably disposed on the third connecting rail 35. The second connecting piece 37 is in an L-shaped structure and comprises a third fixing portion 371 and a fourth fixing portion 372, the third fixing portion 371 is fixedly connected with the third sliding block 36, and the fourth fixing portion 372 is fixedly connected with the second fixing portion 342. The second connecting piece 37 can slide up and down along with the third slider 36. Since the fourth fixing portion 372 is fixedly connected to the second fixing portion 342, the second link 37 and the first link 34 can be lifted and lowered simultaneously. And the fourth fixing portion 372 can increase the strength of the second fixing portion 342, preventing the second fixing portion 342 from being deformed.

In some embodiments, referring to fig. 4 and 7, the number of the connection units is two, and the two connection units are spaced apart in a horizontal direction perpendicular to the positioning rail 31. The two connection units can share the weight of the material plate 4.

In some embodiments, referring to fig. 4 and 5, the bonding tool further comprises a fixture 8, a second drive screw 9 and a second screw nut 10. The fixing element 8 is fixedly connected to both first connecting elements 34. The second driving screw 9 is vertically arranged and is rotationally connected with the fixing piece 8. The second screw nut 10 is connected to the second driving screw 9 in a threaded manner, and the second screw nut 10 is fixedly connected with the material bonding seat 1. The second driving screw rod 9 is driven to rotate, and the second driving screw rod 9 can move along the vertical direction, so that the fixing piece 8 rotationally connected with the second driving screw rod 9 drives the two first connecting pieces 34 to lift.

In some embodiments, referring to fig. 4 and 6, the second driving screw 9 may penetrate through the fixing member 8 in a rotatable manner, and a side wall of the second driving screw 9 is provided with a limiting portion 91 protruding outwards, where the limiting portion 91 is located below the fixing member 8, and the bonding tool further includes a first hand wheel 110. The first hand wheel 110 is fixedly arranged on the second driving screw 9, and the first hand wheel 110 is arranged above the fixing piece 8 to realize the clamping of the fixing piece 8 in cooperation with the limiting part 91, so that the fixing piece 8 and the second driving screw 9 are limited to generate relative displacement along the vertical direction, and further the second driving screw 9 is connected with the fixing piece 8 in a rotating way. It is convenient to drive the second driving screw 9 to rotate by the first hand wheel 110.

Further, two bearings 170 may be sleeved on the second driving screw 9, the two bearings 170 are located between the first hand wheel 110 and the limiting portion 91 and are respectively embedded into the top surface and the bottom surface of the fixing piece 8, and the limiting portion 91 and the first hand wheel 110 implement clamping of the fixing piece 8 through the two bearings 170.

In some embodiments, referring to fig. 1, 2, 3, 7, 8, 9 and 10, an end surface of one end of the positioning rail 31 is provided with a threaded hole 311, an axial line of the threaded hole 311 is parallel to the positioning rail 31, and the adhesive fixture further includes a limiting member 120, an ejector member 130, a pressure block 140 and a compression bolt 150. The limiting member 120 is fixedly connected with one of the second fixing portions 342. The ejector 130 is slidably sleeved on one end of the positioning guide rail 31 provided with the threaded hole 311, the ejector 130 and the limiting piece 120 are arranged at intervals along the length direction of the positioning guide rail 31, and the ejector 130 and the limiting piece 120 are used for accommodating the material plate 4. The pressure block 140 is located at a side of the ejector 130 away from the limiting member 120 and abuts against the ejector 130. The compression bolt 150 is threaded through the pressure block 140 and the threaded hole 311 and is in threaded connection with the threaded hole 311. The pressing bolt 150 is turned, so that the head of the pressing bolt 150 pushes the pressure block 140 towards the direction of the limiting piece 120, and the pressure block 140 pushes the pushing piece 130 until the pushing piece 130 cooperates with the limiting piece 120 to clamp the material plate 4, thereby limiting the material plate 4 to slide. When the sticking is completed, the pressing bolt 150 is withdrawn from the threaded hole 311, then the ejector 130 is slid from the end of the positioning rail 31 where the threaded hole 311 is provided to be separated from the positioning rail 31, and finally the material plate 4 is slid to be separated from the positioning rail 31.

In the prior art, the two ends of the material plate 4 along the length direction of the slideway 41 are provided with inclined planes 42 which form an included angle with the horizontal plane, when the material plate 4 is slidably sleeved on the positioning guide rail 31, the inclined planes 42 are positioned on the upper portion of the material plate 4, in a further improvement of the embodiment, the limiting part 120 and the pushing part 130 are provided with a pressing surface 1301, and the two pressing surfaces 1301 are respectively attached and pressed with the two inclined planes 42, so that the material plate 4 is limited to slide, and meanwhile, the material plate 4 is enabled to downwards press the positioning guide rail 31, so that the stability of the material plate 4 is maintained.

Further, the number of the limiting members 120 is two, and the two limiting members 120 are fixedly connected with the two second fixing portions 342 respectively. The ejector 130 is slidably sleeved on the two positioning rails 31. The pressure block 140 and the compression bolt 150 are provided in two groups, and the two compression bolts 150 are respectively in threaded connection with the two threaded holes 311.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. Sizing frock, its characterized in that includes:

A material sticking seat;

The material supporting piece is connected with the material bonding seat, and the upper surface of the material supporting piece is a horizontal plane and is used for supporting materials to be cut; and

The connecting unit is at least one, the connecting unit comprises a positioning guide rail, the positioning guide rail is horizontally arranged and connected with the sticky material seat, and the positioning guide rail is used for penetrating into a slideway on a material plate in a sliding mode, so that the material plate is located above the material to be cut on the material supporting piece.

2. The adhesive tool of claim 1, further comprising at least one set of first slide assemblies, the first slide assemblies comprising:

The first connecting guide rail is horizontally arranged and perpendicular to the positioning guide rail, and is fixedly arranged on the sticky seat;

The first sliding block is arranged on the first connecting guide rail in a sliding manner, and is fixedly connected with the material supporting piece.

3. The binder tool as claimed in claim 2, further comprising:

The first driving lead screw is parallel to the first connecting guide rail and is rotationally connected with the sticky seat;

the first screw nut is in threaded connection with the first driving screw, and the first screw nut is fixedly connected with the material supporting piece.

4. The bonding tool according to claim 2, wherein the bonding seat is provided with a positioning surface which is vertically arranged, the positioning surface is positioned on one side of the material supporting piece along the length direction of the positioning guide rail, and the positioning surface is used for being attached to the material to be cut on the material supporting piece.

5. The bonding tool according to claim 1, wherein the connection unit further comprises:

The second connecting guide rail is vertically arranged and fixedly connected with the sticky seat;

The second sliding block is arranged on the second connecting guide rail in a sliding manner;

The first connecting piece is of an L-shaped structure and comprises a first fixing portion and a second fixing portion, wherein the first fixing portion is fixedly connected with the second sliding block, and the second fixing portion is fixedly connected with the positioning guide rail.

6. The bonding tool according to claim 5, wherein the connection unit further comprises:

The third connecting guide rail is vertically arranged and fixedly connected with the sticky seat;

The third sliding block is arranged on the third connecting guide rail in a sliding manner;

the second connecting piece is of an L-shaped structure and comprises a third fixing portion and a fourth fixing portion, wherein the third fixing portion is fixedly connected with the third sliding block, and the fourth fixing portion is fixedly connected with the second fixing portion.

7. The bonding tool according to claim 5, wherein the number of the connecting units is two, and the two connecting units are arranged at intervals along the horizontal direction perpendicular to the positioning guide rail.

8. The binder tool of claim 7, further comprising:

The fixing piece is fixedly connected with the two first connecting pieces;

the second driving screw rod is vertically arranged and is rotationally connected with the fixing piece;

The second screw nut is in threaded connection with the second driving screw, and the second screw nut is fixedly connected with the material bonding seat.

9. The bonding tool according to claim 8, wherein the second driving screw is rotatably penetrating through the fixing member, a side wall of the second driving screw is provided with an outwardly protruding limiting portion, and the limiting portion is located below the fixing member, and the bonding tool further comprises:

The first hand wheel is fixedly arranged on the second driving screw rod and is positioned above the fixing piece, so that the fixing piece is clamped by being matched with the limiting part.

10. The bonding tool according to claim 7, wherein an end face of one end of the positioning guide rail is provided with a threaded hole, an axis of the threaded hole is parallel to the positioning guide rail, and the bonding tool further comprises:

the limiting piece is fixedly connected with one of the second fixing parts;

The ejector piece is sleeved on one end of the positioning guide rail, provided with the threaded hole, and is arranged with the limiting piece at intervals along the length direction of the positioning guide rail, and the ejector piece and the limiting piece are used for accommodating the material plate;

The pressure block is positioned at one side of the ejector far away from the limiting piece and is abutted with the ejector;

The compression bolt, the screw rod wears to locate the pressure piece and screw hole internal and with screw hole threaded connection.